CLEAR TECHNICAL  REPORT  NO.  317
                     1986  OPEN  LAKE WATER  QUALITY  CONDITIONS
                                 FOR  LAKE  ERIE'S
                       WESTERN,  CENTRAL  AND  EASTERN  BASINS
                 PREPARED BY
                 LAURA A.  FAY
               HELEN E.  KUNDTZ
                     AND
               DAVID E.  RATHKE
                PREPARED FOR
UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
     GREAT LAKES NATIONAL PROGRAM OFFICE
               230 S. DEARBORN
              CHICAGO, ILLINOIS
            GRANT NO.:  R005892-01
                DAVID ROCKWELL
               PRGJCCT OFFICER
                 JANUARY 1988

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                       CLEAR TECHNICAL  REPORT  NO.  317
                     1986  OPEN  LAKE  WATER  QUALITY  CONDITIONS
                                 FOR LAKE  ERIE'S
                       WESTERN,  CENTRAL AND  EASTERN  BASINS
                 PREPARED BY
                 LAURA A.  FAY
               HELEN E. KUNDTZ
                     AND
               DAVID E. RATHKE
                PREPARED FOR
UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
     GREAT LAKES NATIONAL PROGRAM OFFICE
               230 S. DEARBORN
              CHICAGO, ILLINOIS
            GRANT NO.:  R005892-01
                DAVID ROCKWELL
               PROJECT OFFICER
                 JANUARY 1988

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                                                                         PAGE 2
                                   DISCLAIMER
     The information in  this  document has  been  funded wholly or in part by  the
United States Environmental  Protection Agency under  assistance agreement
number R-005892-01 to the  Ohio  State  University;  it  has been subject  to
the Agency's peer and administrative  review; and  it  has been approved  for
publication. The mention of  trade  names or commercial products does not
constitute endorsement or  recommendation for use.

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                                                                          PAGE 3
                               TABLE OF CONTENTS
LIST OF TABLES

LIST OF FIGURES

ACKNOWLEDGMENTS

EXECUTIVE SUMMARY

INTRODUCTION AND METHODS
     PROGRAM OBJECTIVES
     SAMPLING PROGRAM DESCRIPTION
     METHODS
     DATA ANALYSIS
     QUALITY CONTROL

PHYSICAL DATA
     TEMPERATURE
        TEMPERATURE PATTERNS
        WARMING RATES
        THERMAL STRUCTURE
        STABILITY OF STRATIFICATION
     DISSOLVED OXYGEN
        DO PERCENT SATURATION
        OXYGEN DEPLETION

WATER QUALITY PARAMETERS
     NUTRIENTS
        PHOSPHORUS
        NITROGEN
        SILICA

     PARTICULATES
        SECCHI TRANSPARENCY
        TURBIDITY
        CORRECTED CHLOROPHYLL A
        PHEOPHYTIN
        TOTAL SUSPENDED SOLIDS
        RESIDUAL AND VOLATILE SUSPENDED SOLIDS

     PRINCIPLE IONS
        CONDUCTIVITY
        CHLORIDE
        ALKALINITY
        PH
PAGE NO.

   5

   7

  10

  11

  12
  12
  13
  13
  13
  14

  15
  16
  16
  17
  18
  19
  20
  21
  22

  25
  25
  25
  30
  33

  34
  34
  35
  36
  38
  39
  40

  42
  42
  43
  45
  47

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                                                                          PAGE 4
                                                                 PAGE NO.



BASIN COMPARISON                                                   49




OPEN LAKE SAMPLING REGIONS                                         50



TROPHIC CLASSIFICATION                                             51



QUALITY CONTROL SUMMARY                                            54



REFERENCES CITED                                                   58



TABLES                                                             60



FIGURES                                                           137



APPENDIX A - WESTERN BASIN DATA SUMMARY BY PARAMETER              183



         B - CENTRAL BASIN DATA SUMMARY BY PARAMETER              211



         C - EASTERN BASIN DATA SUMMARY BY PARAMETER              237



         D - T-TEST RESULTS BY PARAMETER                          258



         E - QUALITY CONTROL SUMMARY BY PARAMETER                 271

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                                                                          PAGE 5
                                 LIST OF TABLES
                                                                 PAGE NO.
1.  1986 Lake Erie Open Lake Water Quality Survey Schedule.          61
2.  Geographic Coordinates for the 1986 Lake Erie Stations.          62
3.  Synopsis of Methods.                                            63
4.  1986 Western Basin Mean/Median Water Quality Measurements.       65
5.  1986 Central Basin Mean/Median Water Quality Measurements.       83
6.  1986 Eastern Basin Mean/Median Water Quality Measurements.      101
7.  Lake Erie Western Basin Representative Area Limnion,            119
    Oxygen and Temperature Data,  1986.
8.  Lake Erie Central Basin Representative Area Limnion,            120
    Oxygen and Temperature Data,  1986.
9.  Lake Erie Eastern Basin Representative Area Limnion,            121
    Oxygen and Temperature Data,  1986.
10. Lake Erie Western Basin Representative Area Volume Weighted     122
    Total  Phosphorus and Corrected Chlorophyll  A_ Data,  1986.
11. Lake Erie Central Basin Representative Area Volume Weighted     123
    Total  Phosphorus and Corrected Chlorophyll  A_ Data,  1986.
12. Lake Erie Eastern Basin Representative Area Volume Weighted     124
    Total  Phosphorus and Corrected Chlorophyll  A_ Data,  1986.
13. Lake Erie Basin Comparison,  1986 Annual  Means.                  125
14. Lake Erie Epilimnion-Basin Comparison,  Western  and             126
    Central Basin.
15. Lake Erie Epilimnion-Basin Comparison,  Central  and             128
    Eastern Basin.
16. Central Basin Representative  Area Means  and Standard            130
    Deviations Compared to the Means of the  Individual
    Stations Comprising the Area.
17. Eastern Basin Representative  Area Means  and Standard            132
    Deviations Compared to the Means of the  Individual
    Stations Comprising the Area.
18. Western Basin Representative  Area Means  and Standard            134
    Deviations Compared to the Means of the  Individual
    Stations Comprising the Area.

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                                                                          PAGE 6
                           LIST OF TABLES (CONTINUED)
                                                                  PAGE NO.

19. 1986 Quality Control  Summary by Parameter;  Differences        135
    Between Splits.

20. 1986 Quality Control  Summary by Parameter;  Differences        136
    Between Replicates.

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                                                                          PAGE  7
                                LIST OF FIGURES
                                                                  PAGE  NO.
 1. 1986 Lake Erie Open Lake Sampling Locations.                   138
 2. Explanation of Median Plots (After Reckhow,  1980).             139
 3. Western Basin Median Temperatures, 1986.                       140
 4. Central Basin Median Temperatures, 1986.                       141
 5. Eastern Basin Median Temperatures, 1986.                       142
 6. Stratification of the Western Basin Seen  From a                143
    North-South Cross-Section on June 3,  1981
    (Bartish, 1984).
 7. Thermal Profiles  from Station 091 in  the  Western               144
    Basin, 1986.
 8. Thermal Profiles  from Station 073 in  the  Central               145
    Basin, 1986.
 9. Central and Eastern Basin Hypolimnion Thickness,  1986.         146
10. Thermal Profiles  from Station 015 in  the  Eastern               147
    Basin, 1986.
11. Central Basin Hypolimnion Median Dissolved Oxygen              148
    Concentration and Percent Saturation, 1986.
12. Eastern Basin Hypolimnion Median Dissolved Oxygen              149
    Concentration and Percent Saturation, 1986.
13. Central Basin Hypolimnion Corrected Oxygen Depletion           150
    Rates,1986.
14. Central Basin Mean Hypolimnion Corrected  Oxygen                151
    Depletion Rates From 1929 Through 1986.
15. Eastern Basin Hypolimnion Adjusted Oxygen Depletion            152
    Rates from 1970 Through 1986.
16. Western Basin Median Total  Phosphorus Concentrations,          153
    1986.
17. Central Basin Median Total  Phosphorus Concentrations,          154
    1986.

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                                                                          PAGE 8
                          LIST OF FIGURES (CONTINUED)
                                                                      PAGE  NO.

18. Eastern Basin Median Total Phosphorus Concentrations,  1986.         155

19. Central Basin Limm'on Distribution  of Total  Phosphorus              156
    in Metric Tons and Percent,  1986.

20. Western Basin Median Total Phosphorus,  Particulate  Phosphorus       157
    and Total Filtered Phosphorus Concentrations,  1986.

21. Central Basin Median Total Phosphorus,  Particulate  Phosphorus,      158
    Total Filtered Phosphorus and Soluble Reactive Phosphorus
    Concentrations,  1986.

22. Eastern Basin Median Total Phosphorus,  Particulate  Phosphorus,      159
    Total Filtered Phosphorus and Soluble Reactive Phosphorus
    Concentrations,  1986.

23. Western Basin Median Total Filtered Phosphorus,  Soluble             160
    Organic Phosphorus and Soluble Reactive Phosphorus
    Concentrations,  1986.

24. Central Basin Median Total Filtered Phosphorus,  Soluble             161
    Organic Phosphorus and Soluble Reactive Phosphorus
    Concentrations,  1986.

25. Eastern Basin Median Total Filtered Phosphorus,  Soluble             162
    Organic Phosphorus and Soluble Reactive Phosphorus
    Concentrations,  1986.

26. Western Basin Median Percent Composition of  Particulate             163
    and Total Filtered Phosphorus, 1986.

27. Central Basin Median Percent Composition of  Particulate             164
    and Total Filtered Phosphorus, 1986.

28. Eastern Basin Median Percent Composition of  Particulate             165
    and Total Filtered Phosphorus, 1986.

29. Western Basin Median Nitrate plus Nitrite and  Ammonia               166
    Nitrogen Concentrations,  1986.

30. Central Basin Median Nitrate plus Nitrite and  Ammonia               167
    Nitrogen Concentrations,  1986.

31. Eastern Basin Median Nitrate plus Nitrite and  Ammonia               168
    Nitrogen Concentrations,  1986.

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                                                                          PAGE 9
                          LIST OF FIGURES (CONTINUED)
                                                                      PAGE NO.

32. Western Basin Median Soluble Reactive Silica                       169
    Concentrations, 1986.

33. Central and Eastern Basin Median Soluble Reactive                   170
    Silica Concentrations, 1986.

34. Western Basin Median Chlorophyll A_,  Total  Suspended                171
    Solids and Volatile Solids Concentrations, 1986.

35. Central Basin Median Chlorophyll A_,  Total  Suspended                172
    Solids and Volatile Solids Concentrations, 1986.

36. Eastern Basin Median Chlorophyll A_,  Total  Suspended                173
    Solids and Volatile Solids Concentrations, 1986.

37. Western Basin Median Percent Composition of Residual                174
    and Volatile Solids, 1986.

38. Central Basin Median Percent Composition of Residual                175
    and Volatile Solids, 1986.

39. Eastern Basin Median Percent Composition of Residual                176
    and Volatile Solids, 1986.

40. Western Basin Median Conductivity and Chloride                     177
    Concentrations, 1986.

41. Central Basin Median Conductivity and Chloride                     178
    Concentrations, 1986.

42. Eastern Basin Median Conductivity and Chloride                     179
    Concentrations, 1986.

43. Western Basin Median Alkalinity and  pH Concentrations,  1986.        180

44. Central Basin Median Alkalinity and  pH Concentrations,  1986.        181

45. Eastern Basin Median Alkalinity and  pH Concentrations,  1986.        182

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                                                                         PAGE 10
                                ACKNOWLEDGMENTS

     The authors of this report would like  to  express  their
those  who  helped  complete  this project, especially Captain
Cheng-Mu Shaio, Mr.  Todd Parfitt and the crew of the Research
addition,  we  would like to thank Mr.  Fernando Rosa from the
Inland Waters (CCIW/NWRI)  for  providing  the  1929  -  1986
depletion  rates  for  the  central  basin  and  for reviewing
depletion rate calculations.
 appreciation  to
David Mathie, Mr.
Vessel Hydra.  In
Canada Centre for
corrected  oxygen
the 1986 adjusted
     We would also like to acknowledge the financial   support  provided  by  the
U.S.   Environmental  Protection  Agency  -  Great Lakes National  Program Office
under grant R-005892-01 and  especially  our  Project  Officer,  Mr.    David  C.
Rockwell.

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                                                                         PAGE 11
                               EXECUTIVE SUMMARY

     The 1986 Lake Erie open lake surveillance/monitoring program  followed  the
recommended   study   plan   sanctioned  by  the  Water  Quality  Board  of  the
International Joint Commission, Great Lakes Regional  Office.   A portion  of  the
required  surveys  were  conducted by USEPA-GLNPO and this data will be reported
elsewhere.  This study included twelve surveys in the western basin, six surveys
in  the central basin and three surveys in the eastern basin.  Concentrations of
oxygen, phosphorus, nitrogen, silica, chloride,  chlorophyll,  suspended  solids
and  several  additional  parameters  were  determined and are presented in this
report.  Samples collected for kjeldahl nitrogen, phytoplankton and  zooplankton
collected  during  these  surveys  were  analyzed  by USEPA-GLNPO.   The kjeldahl
nitrogen data is presented in this report,  however,   results  of  the  plankton
analysis can be derived from USEPA-GLNPO reports.

     The 1986 western basin data set has the most expansive seasonal coverage of
the  three  basins studied.  Since 1986 was the first year of implementation for
the new western basin surveillance program, it was appropriate to  determine  if
the  stations  selected  represented the open lake conditions.  By  comparing the
individual station means with the overall  station means,  it was found  that  all
the  stations  are  similar within +_ one standard deviation.   This  satisfied the
criteria established when the initial station selection was made.

     The 1986 central basin  mean  annual   total  phosphorus  concentration  was
slightly greater (0.5 ug/1) than the 1985  value, while the mean 1986 chlorophyll
concentration was somewhat lower (0.7  ug/1)  than  1985.   The  1986  corrected
oxygen  depletion  rate  was  calculated to be 4.7 mg/1/month, which was greater
than rates recorded in recent years.  During early  August,  the  central   basin
hypolimnion  waters  contained approximately 2 mg/1 of dissolved oxygen.  By the
September survey, the basin remained weakly stratified.  In contrast to the 1985
field  season,  anoxic  conditions  were  not  detected  in  the  central   basin
hypolimnion, consequently internal phosphorus loading  via  anoxic   regeneration
was not a major phosphorus source as was the case in 1985.

     The eastern basin maintained an oxygen rich hypolimnion  through the  entire
stratified  period.   Epilimnion  and  hypolimnion  nutrient concentrations were
similar and did not fluctuate significantly during the field  season.

     The poorest water  quality  was  found  to  exist  in  the  western  basin.
Comparisons   between   the   western   and   central  basins  showed  that  the
concentrations of  most  nutrients,  chlorophyll  and  suspended  material  were
significantly greater in the western basin.  Comparisons  between the central and
eastern  basins  indicated  a  strong  similarity  in  concentrations  of    many
constituents.   The  difference between central and eastern basin concentrations
of phosphorus and chlorophyll is becoming  less due to  improvements  in  central
basin water quality.

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                                                                         PAGE  12
                            INTRODUCTION AND METHODS

PROGRAM OBJECTIVES

     The open lake surveillance/mom'ton'ng program implemented during  1986  was
designed  specifically to comply with the Great Lakes Water Quality Agreement of
1978.  The plan was developed in 1984 by the Lake  Erie  Task   Force  under  the
direction  of the Surveillance Work Group and subsequently endorsed by the Water
Quality Board of the International  Joint Commission.   The 1986 field program was
similar in structure to the 1985 program, however, with some notable exceptions.
First, the western basin was incorporated into the 1986 field  season,   providing
the  first  basin wide coverage since 1982.  Second,  in order  to accommodate the
field program implemented by USEPA-GLNPO, the 1986  sampling  frequency  in  the
central  and  eastern  basins  was reduced from the 1985 program. ,. Consequently,
central and eastern basin comparisons were limited  and  interpretation  of  the
eastern basin data set was restricted.

     Lake Erie has one of the most complete open lake  data bases  of  all  the
Great  Lakes.   Consistency  in  program  design and implementation has been the
primary reason for the success of the monitoring program.  Since 1973, the  open
lake  surveillance/monitoring program has developed a data set which has defined
seasonal and annual trends  for  total  phosphorus,   corrected  chlorophyll  and
dissolved  oxygen.   Total  phosphorus  and chlorophyll concentrations have been
tracked as eutrophication indices for long term trend analysis and  to  evaluate
the effectiveness of remedial actions designed to curb the eutrophication of the
Great Lakes.  Since one of the most serious results of  eutrophication  on  Lake
Erie is the depletion of oxygen in the bottom waters, oxygen data  is utilized to
track trends in central basin hypolimnetic conditions.

     Results from the 1985 open lake  surveillance  programs  (Fay  and  Rathke,
1986a)  confirmed  the  decrease  in  central   basin   phosphorus and chlorophyll
concentrations as reported in  earlier  studies  (Rathke  1984).   However,  the
oxygen  depletion  rate  reported  for  1985 was unexpectedly  high,  resulting in
extensive anoxia and regeneration of sediment bound phosphorus.   It is  apparent
that   internal  processes  associated  with  sediment  water   interactions  are
buffering the expected  reduction  in  oxygen  depletion  rates  anticipated  in
response to remedial actions.

     Annex 11 of the 1978 Water  Quality  Agreement  specifies  the  purpose  of
surveillance/monitoring  activities,   calling for a program designed to identify
non-achievement of the Agreement objectives, evaluation of trends,  and a program
to  provide  baseline open lake data collection,' sample analysis and evaluation.
In order to comply with Annex 11 and the 1978 Agreement's special  supplement  to
Annex  3,  a  program  which  is  compatible  with  the  previous   data bases is
necessary.  In addition, both U.S.   and Canada have issued a revised  phosphorus
initiative  specifying  phosphorus control strategies for Lakes Erie and Ontario
plus Saginaw Bay.  The success of implementing additional  remedial   actions  to
reduce  phosphorus  imputs  can  only  be  evaluated  through   a  well  designed
monitoring program.  If trends in total phosphorus,   chlorophyll  and  depletion
rates are to be continued, then a consistant reliable monitoring program must be
maintained.

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                                                                         PAGE 13
SAMPLING PROGRAM DESCRIPTION

     Sampling strategies and parameters  used  for  the  1986  open  lake  study
conformed  to  the  revised  Great Lakes International Surveillance Plan (GLISP)
developed by the Lake Erie Task Force (1986) under the Surveillance  Work  Group
of the International Joint Commission.

     In order to adequately deal with the large temporal  variability  associated
with  the  western  basin,  twelve  surveys were conducted from April 10 through
November 17.  Six open lake surveys were conducted in  the  central  basin  from
June 6 through November 1 and three surveys were conducted in the eastern basin.
Survey dates and durations are presented in Table  1.   Six  sampling  locations
were  used  to  define  the western basin representative area while ten sampling
sites were located in the central and four sites in the  eastern  basin  (Figure
1).    A  listing  of  the  geographic  coordinates,  bottom  depths  and  basin
designations are presented in Table 2.  Additional survey  requirements  defined
under   GLISP  for  the  central  and  eastern  basins  were  conducted  by  the
USEPA-GLNPO.
METHODS

     A complete listing of the variables measured and  summary  of  the  methods
employed  for the 1986 season is provided in Table 3.  A detailed description of
the methods are presented in Letterhos, 1982.  A copy of this methods manual   is
on  file  with  the  IJC  Great Lakes Regional Office, Windsor, Ontario and with
US-EPA Region V, Chicago, Illinois as well  as with the Center for Lake Erie Area
Research, Columbus, Ohio.

     During the 1986 field season,  three  phosphorus  fractions  were  directly
measured  (total  phosphorus,  total dissolved (filtered) phosphorus and soluble
reactive (ortho) phosphorus)  and  two  forms  were  determined  by  calculation
(particulate  and  soluble  organic  phosphorus).   In  addition,  two  forms of
nitrogen (nitrate + nitrite and ammonia)  and  dissolved  silica  were  measured
completing  the list of nutrients examined.  The soluble nutrients were examined
within 12 hours of filtration while the  remaining  forms  were  analyzed  after
returning  to  the  land  based laboratory.  Total suspended solids and residual
inorganic  solids  were  measured  and  volitle   solids   concentrations   were
calculated.   Both chlorophyll a^ and pheopigment were also determined to provide
an indication of algal  standing crop.  Samples for all variables were  taken  at
all   stations  and  depths  within  the  western,  central  and  eastern  basin
representative areas.   Kjeldahl nitrogen, phytoplankton and zooplankton  samples
were preserved in the field and shipped to the USEPA-GLNPO for analysis.


DATA ANALYSIS

     Data analysis was aided by utilizing Biomedical  Computer Programs (BMDP) to
calculate  limnion  means  and medians with the appropriate variance statistics.
Analyisis of data over the last few years  has  indicated  that  medians  are  a
useful  indicator  of  the  actual conditions in Lake Erie.  Generally, mean and
median values are very similar, however, when extremely high or low  values  are
encountered  (i.e.   during  anoxic  conditions)  and  account  for only a small

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                                                                         PAGE 14
percent of the data set (< 10%), the median value best illustrates  the  overall
data  being  presented.   A data base summary table by basin is provide for each
variable within the text.   Values presented  in  these  table  as  25%  and  75%
represent  quartiles.   Appendices A, B and C present detailed summary  statistics
and a histogram for each data base by basin.  In addition,  Tables  4,   5  and  6
present similar information for select variables by basin and limnion.   On these
tables the quartile information is labeled Ql for 25% and Q3 for 75%.

     Comparisons were  made for  each  variable  to  determine  if  statistically
significant  concentrations  exist  between  basins,  limnions  and for stations
within each basin.  Basin   comparisons  were  made  testing  the  western  basin
against  the  central   and  the  central  against  the eastern.  Considering the
obvious differences between the western and eastern basins,  it  was   considered
inappropriate  to  make  this  comparison.   BMDP programs  were used  to make the
statistical comparisons using the mean statistic to determine the T-test  limits
(<  a =  0.05).  The detailed statistical  information is provided in Appendix D.
On occasion a difference was found to be statistically different,  however,   the
absolute  difference  was   small making a  limnological interpretation  difficult.
In these cases,  it was  pointed  out  in  the  text  that  limnologically  the
difference may not be  significant.

     A modified version of the notched block plot (Reckhow, 1980), as   explained
in  Figure  2,  is used to present seasonal concentrations.  The median point is
not generally in the center of the box indicating that several  high values  are
skewing the mean upward.  Tables for the western, central and eastern  basins are
presented with both the limnion means and  medians (Tables 4, 5  and 6).

     The volume weighted data for temperature, dissolved oxygen, nutrients,   and
chlorophyll  presented  in  Tables  7-12,   is  derived  from the Survey 8 volume
weighting program (Hanson   et  al.,  1978).   Dissolved  oxygen  depletion  rate
calculations  were  made by adjusting (Adjusted Rates) for  vertical mixing (Rosa
and Burns, 1987).   Additional  rate calculations,  correcting  (Corrected  Rates)
for   temperature,   hypolimnion   thickness,   and   initial  dissolved  oxygen
concentrations were provided by F.  Rosa (CCIW-NWRI).

     The complete 1985 and 1986 data base  developed for Lake Erie by   CLEAR  has
been  entered  into STORET.  To access these data files, use agency access code
115GLRES or contact Mr. David Rockwell USEPA-GLNPO (312-353-1373).


QUALITY CONTROL

     A quality assurance/quality control (QA/QC) program as recommended  by  the
International  Joint Commission, was routinely followed for all parameters.   The
QA/QC program constitutes  approximately ten percent of the  total sampling effort
and  utilizes  a  series of known standards, duplicates and spikes.  The program
enables the monitoring of  accuracy and precision and also provides an  estimate
of standard deviation  for  each parameter.

     A detailed description of the quality control  program  (Quality   Assurance
Project  Plan  - Open  Lake Surveillance Monitoring Program;  May 1,  1986 to June
30, 1987) is on file with  the U.S.   Environmental  Protection   Agency  -  Great
Lakes National Program Office and Quality  Assurance Office.

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                                                                         PAGE 15
                                 PHYSICAL DATA

     The uniqueness which characterizes  the  three  basins  of  Lake  Erie  can
largely  be  explained  by  their  individual  physical make up.  Differences in
individual  basin  morpholology,  depth,  and  circulation   patterns   manifest
themselves  in differences in warming rates, and forms of stratification.   These
in turn strongly influence  the  stability  of  stratification  and  the  oxygen
depletion rates.

                HYDROLOGIC AND MORPHOMETRIC DATA FOR LAKE ERIE*


Volume (km3)
% of Total Volume
Mean Depth (m)
Maximum Depth (m)
Mean Residence Time (yr)
Total
Lake
468
100
18.6
64
2.4
Western
Basin
28
6
7.6
14
0.2
Central
Basin
274
58.5
17.8
26
1.4
Eastern
Basin
166
35.5
27.0
64
0.8
                           * = Taken from Burns,1976

     Many of the differences in nutrient concentrations between basins can  also
be  explained by the distribution of major inputs.  For instance, the phosphorus
budget prepared for the 1987 Water Quality Board Report indicates  that  68.5  %
(7187 metric tons) of the phosphorus loaded to Lake Erie in 1985 entered through
the Detroit River (36.5 % or  3826  t)  or  through  western  basin  rivers  and
municipal discharges (32*).  The percentage of phosphorus loading contributed by
the rivers and municipal discharges of the  central  (23*)   and  eastern  (8.5%)
basins is small in comparison to the volume of the lake receiving the load (58.5
% and 35.5 %, respectively).  The heavy loading  to  the  small  volume  western
basin  (256.7  tons/km 3) contrasts greatly to the low load-large volume eastern
basin (5.4 tons/km 3).

    SUMMARY OF THE 1985 PHOSPHORUS BUDGET FOR LAKE ERIE (METRIC TONS OF P) *

SOURCE                                TONNAGE     % OF TOTAL     TONS
                                                                 VOLUME (KM3)
Detroit River 3,826.4
West Basin Rivers + Mun Discharges 3,360.9
Central Basin Rivers + Mun Discharges 2,416.3
East Basin Rivers + Mun Discharges 891.7
TOTAL 10,495 **
36.5
32.0
23.0
8.5
100

256.7
8.2
5.4

       * = Taken from 1987 Water Quality Board Report
       **= Estimate does not include Direct Industrial Discharges    50 t
                                      Small  Municipal Discharges    344 t
                                      Atmospheric Loading           291 t
                                      TOTAL                         685 t

TOTAL ESTIMATED PHOSPHORUS LOAD TO LAKE ERIE = 10,495 + 685 t = 11,180 t

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                                                                         PAGE 16
     The Importance of  physical  characteristics  in  explaining  nutrient  and
participate  distributions  is  often  overlooked.    To  rectify this situation,
physical information and interpretation is presented prior to the water  quality
sections   so   that   the   physical  information   can  be  used  in  the  data
interpretation.

TEMPERATURE

     Temperature differences between  basins  normally  reflect  differences  in
depth.   The shallow western basin warms and cools  more quickly than the central
and eastern basins.  The western basin  data  set  provides  the  most  complete
seasonal  temperature cycle for the 1986 field season (Figure 3).  The following
table provides a summary of the temperature data for  the  three  basins.   The
statistical  outputs  are presented in Appendices A, B and C.  Tables 4, 5 and 6
show the individual survey results for each basin.

                                TEMPERATURE (°C)
                     WESTERN
CENTRAL
EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75%
N
16.2
0.5
16.3
0.6
25.6
4.7
20.9
6.2
11.6
22.1
144
16.3
0.3
16.0
0.5
24.7
6.2
18.6
4.7
13.1
19.5
249
11.6
0.6
13.5
1.4
18.5
4.3
14.2
4.9
6.8
15.5
69
TEMPERATURE PATTERNS.  The following table provides temperature  comparisons  by
basin and limnion and the statistical  outputs are in Appendix D.

                  TEMPERATURE (°C)  - EPILIMNION - HYPOLIMNION

MEAN
ST. DEV.
N
WESTERN
EPILIMNION
16.2
6.2
144
CENTRAL
EPILIMNION HYPOLIMNION
18.3
3.3
180
10.6
2.3
69
EASTERN
EPILIMNION HYPOLIMNION
15.8
2.0
36
6.4
1.4
28
     Using  a  two-tailed  T-test  withCU  =  0.05,   there   were   significant
differences  between  the  western  and central basin epilimnion and between the
central and eastern basin for both the epilimnion and hypolimnion temperatures.

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                                                                         PAGE 17
WARMING RATES.  Comparison of warming rates (increases  or  decreases  in  water
temperature  per  day)  provides  information on the differences between basins.
Western basin survey median temperatures  (Table  7)  demonstrate  the  unimodal
temperature  cycle  (Figure 3) that mimics air temperature (Fay, 1984).  Warming
trends were calculated for all survey interval-basin combinations.  Data  during
the  western  basin  warming  period  (April  10 through August 5) exhibited the
highest warming rates of the three basins.

                          WESTERN BASIN WARMING RATES
SURVEY INTERVAL
April 10 -
May 5
May 24 -
June 6
June 29 -
July 15 -
Aug 5
Aug 25 -
Sept 15 -
Oct 13 -
Nov 1
May 5
May 24
June 6
June 29
July 15
Aug 5
Aug 25
Sept 15
Oct 13
Nov 1
Nov 17
TEMPERATURE
C C )
4.43
4.19
2.07
4.84
1.00
1.53
- 1.19
- 3.88
- 3.85
- 2.93
- 6.43
DAYS
25
19
13
23
16
21
20
21
28
19
16
TEMP/DAY
+ 0.18
+ 0.22
+ 0.16
+ 0.21
+ 0.06
+ 0.07
- 0.06
- 0.18
- 0.14
- 0.15
- 0.40
     Central basin median epilimnion temperatures (Table 8 and  Figure  4)  also
suggest   the   unimodal    pattern   reflecting  air  temperature.    Hypolimnion
temperatures, however, increased consistently through the season;   ranging  from
7.8 °C (June 8th) to 17.4 °C (September 15th).

                     CENTRAL BASIN EPILIMNION WARMING RATES
SURVEY INTERVAL
TEMPERATURE
CO
DAYS
TEMP/DAY
June 7
June 27
July 16
Aug 6
Sept 17
- June 27
- July 16
- August 6
- Sept 17
- Oct 30
+ 3.29
+ 2.91
+ 2.90
- 4.40
-4.20
20
19
21
42
43
+ 0.16
+ 0.15
+ 0.14
-0.10
- 0.10

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                                                                         PAGE 18
     The average eastern basin epilimnion temperature (recorded) did not  exceed
20 "C as it did in the western and central  basin.   In contrast to the warming of
the central basin hypolimnion, the average eastern basin hypolimnion temperature
never  exceeded  8  "C  (Table  9).   Survey data  for epilimnion and hypolimnion
temperatures is presented in Figure 5.  Warming rates for  the  epilimnion  have
been  calculated  although the large interval  between surveys (82 days) does not
permit a comparison with the central basin data.

                     EASTERN BASIN EPILIMNION  WARMING RATES
SURVEY INTERVAL
June 27 - Sept 17
Sept 17 - Oct 30
TEMPERATURE
CO
+ 3.16
- 4.37
DAYS
82
43
TEMP/DAY
+ 0.04
- 0.10
THERMAL STRUCTURE.  No thermal stratification was observed in the western  basin
during  the  twelve  surveys  (April  10  through  November  17).  Historically,
short-term or ephemeral  stratification  has  been  observed  in  the  northwest
segment  of  the  basin (Figure 6) resulting from natural warming of the surface
waters or from central basin hypolimnetic water being displaced westward through
Pelee Passage (Bartish, 1984).  Temperature profiles from this basin are typical
of unstratified water masses (Figure 7).

     Thermal profiles taken at central   basin  station  073  during  the  summer
months  reflect an unusual progression in the stratification process (Figure 8).
Stratification in the central basin was observed on the first survey (June  8th)
and  the  thickness  of  the epilimnion (20 meters) suggested a very warm, windy
spring, with mixing of the warm surface waters downward.  The  thin  hypolimnion
(4 meter) observed during the June survey modestly increased in thickness during
each survey interval  (Figure 9).   Typically during the  stratification  process,
one  observes  a  gradual  decrease  in  hypolimnion  volume and thickness.  The
central basin remained stratified, but only weakly, through September 15.

     Thermal profiles taken from  the  deepest  station  (station  015)  in  the
eastern  basin are represent!'tive of eastern basin or deep basin stratification.
The  epilimnion  is  generally  similiar  in  thickness  to  the  central  basin
epilimnion.    However,  the  eastern  basin  mesolimnion  and  hypolimnion  are
considerably thicker (20 meters)  as demonstrated in Figure 10.  At the onset  of
stratification,  the  hypolimnion thickness was 15.5 meters and decreased to 7.8
meters  by  late  October.   The  minimum  hypolimnion   thickness   was   still
approximately twice the central  basin hypolimion thickness (Figure 9).

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                                                                         PAGE 19
STRATIFICATION STABILITY.  The stability of the thermal  structure (the amount of
energy necessary to upset an existing stratification)  varied through the season.
The determination of the stratified layer stability is based on the relationship
between  water temperature and density.   To determine  a  precise stability value,
it  is  necessary  to  calculate  the  difference  in   density  based  upon  the
temperature  differential between the epilimnion and hypolimnion.   Additionally,
the stability calculation must include  sounding  depth   and  thermocline  depth
(Ruttner, 1963).  The average basin stratification stability is as follows:


   S= (Dh - De) x ( TOTAL DEPTH - THERMOCLINE DEPTH) x (THERMOCLINE DEPTH)

                                                               2
   WHERE    Dh = Density of the Hypolimnion Water
            De = Density of the Epilimnion Water
                    STABILITY OF STRATIFICATION (  S in kg-m)
SURVEY
4
5
6
7
9
10
SURVEY
MID POINT
June 7
June 27
July 16
August 6
September 17
October 30
CENTRAL
BASIN
kg-m
33.95
47.61
55.14
125.66
2.09
UNSTRATIFIED
EASTERN
BASIN
kg-m
ND
235.13
ND
ND
375.74
139.04
     A comparison of stability for cruises (5 and 9)  in which both  basins  were
sampled  shows  that  the eastern basin ranges from five times to 180 times more
stable than the central  basin.   Ruttner  suggests  that  the  lake  volume  in
relation  to depth should also be considered in the equation as well  as  the heat
content.  This factor could be important when comparing two basins as  different
morphometrically as the central and eastern basins.

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                                                                         PAGE 20
DISSOLVED OXYGEN

     Dissolved  oxygen  concentrations  in  the  surface  waters  of  Lake  Erie
generally   reflect  well  oxygenated  conditions.   The  primary  consideration
concerning oxygen  concentrations  is  the  annual  decrease  in  central   basin
hypolimm'on  dissolved oxygen levels.  The following table provides a summary of
the annual data for the three basins.  All stations and  depths  are  pooled  by
basin.   The statistical outputs are presented in Appendices A, B and C.  Tables
4, 5, and 6 show the individual  survey results  for  the  western,   central   and
eastern basins, respectively.

                            DISSOLVED OXYGEN (mg/1)

                     WESTERN          CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75Z
N
9.7
0.1
9.4
0.2
13.5
6.4
7.1
1.6
8.5
11.0
142
8.1
0.2
8.9
0.1
11.6
1.0
10.6
2.5
7.9
9.5
249
9.3
0.2
9.5
0.3
12.3
4.8
7.5
1.6
8.4
9.5
69
     It is not possible to make a statement comparing the basins using  this data
set  due to the differenence in survey frequencies and sampling times (Table 1).
The following tables provide dissolved  oxygen  basin  comparisons  by   limnion.
Statistical outputs are presented in Appendix D.

               DISSOLVED OXYGEN (mg/1) - EPILIMNION - HYPOLIMNION

MEAN
ST. DEV
N
WESTERN
EPILIMNION
9.7
1.6
142
CENTRAL
EPILIMNION HYPOLIMNION
9.2
0.9
180
5.1
2.9
69
EASTERN
EPILIMNION HYPOLIMNION
9.5
0.7
36
8.9
2.3
28
     Although, the epilimnion  dissolved  oxygen  concentrations  appear  to  be
similar  across the three basins,  comparisons using the two-tailed T-test with <
a= 0.05 indicate that there is a  significant difference between the western and
central  basins.    The  difference  between  the  means  is  small,  however,  the
difference in standard deviations  is sufficiently large to make the western   and
central  basins  statistically  different.    There  is NO significant difference
between the central and eastern basin epilimnion concentrations.

     As expected, there is a significant  difference  between  the  central   and
eastern  basin  hypolimm'on concentrations.  Since the central  basin hypolimnion

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                                                                         PAGE  21
oxygen storage capacity and depletion rate are  very   much   different  from  the
eastern basin's,  the resulting concentrations  should  also differ  (Figures  11  and
12).
DISSOLVED OXYGEN PERCENT SATURATION.   The  following  table  provides  a  summary  for
the  three  basins  (all  stations and all  depths).   The statistical  outputs  are
presented in Appendices A,  B and  C  while   Tables   4,   5,   and   6  present  the
individual survey results for each basin.

                    DISSOLVED OXYGEN  PERCENT SATURATION  (Z)
                     WESTERN
CENTRAL
EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75%
N
95.2
0.7
94.2
0.7
120.9
71.8
49.8
8.2
90.6
101.1
142
81.4
1.7
90.0
1.1
115.6
9.1
106.4
26.7
81.5
99.4
249
84.5
1.9
89.9
0.7
106.5
42.7
63.8
15.6
78.2
94.5
69
     The following table provides a comparison  of the  dissolved   oxygen   percent
saturation  by  basin and limnion.  Statistical  outputs are provided  in  Appendix
D.

       DISSOLVED OXYGEN PERCENT SATURATION (%)  - EPILIMNION -  HYPOLIMNION

MEAN
ST. DEV.
N
WESTERN
EPILIMNION
95.2
8.2
142
CENTRAL
EPILIMNION HYPOLIMNION
95.4
7.4
180
44.9
24.2
69
EASTERN
EPILIMNION HYPOLIMNION
92.8
5.3
36
72.9
17.6
28
     Using a two-tailed T-test with 
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                                                                         PAGE  22
OXYGEN DEPLETION.  When stratification does not  occur  in  the  western  basin,
dissovlved   oxygen  concentrations  remain  over  70*  saturated.    Changes  in
saturation reflect fluctuations in  temperature  and  productivity.    Historical
occurrences of thermal  stratification have been documented (Bartish,1984)  in the
western basin (Figure 6) and  usually  occurrs  in  the  north  eastern  corner.
Oxygen demand rates have been measured using ij^ situ instruments and  the western
basin has shown the highest oxygen depletion rate of all  three basins (Davis  et
al, 1985) as a result of the biologically active and organically rich sediments.
Since stratification in this basin is both inconsistent and ephemeral,  it is not
possible  to  use  the  survey  interval   oxygen  depletion  method   employed in
calculations for the central and eastern  basins.

Throughout  the  season,  the  central   basin   epilimnion   dissolved   oxygen
concentration  decreased  from  10.8  mg/1  (June  8)  to  a minimum  of 8.2 mg/1
(September 15).  This decrease in concentration is attributed to a  decrease  in
oxygen  solubility  as  the  water  temperature increased throughout  the summer.
Although the concentration decreased by 2.6 mg/1, the percent saturation did not
drop below 99% (Table 5).

     The average central basin hypolimnion dissovled oxygen decreased from  9.63
mg/1  on  June  8th  to  2.11  mg/1  on August 5th (Figure 11).   A corresponding
decrease in the percent saturation was observed over the  statified period.    The
minimum percent saturation was reached during the August 5th survey  (19.62).   By
comparison, during 1985 the central basin hypolimnion reached a  minimum  percent
saturation  (0.5%)  during  the  late  September survey.   As is typical for late
summer, the lake partially destratified and the hypolimnion oxygen concentration
increased  to  5.9  mg/1  between  the August 5th survey and the September 15th
survey.

     Dissolved oxygen depletion rates  (adjusted  for  vertical   mixing  )   were
calculated for each stratified survey interval.  The 1986 central basin ADJUSTED
oxygen depletion rates are as follow:
SURVEY INTERVAL

JUNE 7 - JUNE 27
JUNE 27 - JULY 16
JULY 16 - AUGUST 6
AUGUST 6- SEPTEMBER 17
DAYS

20
19
21
42
DAILY RATE
MG 02/L/DAY
0.17
0.18
0.10
- 0.02
MONTHLY RATE
MG 02/L/MO
5.10
5.54
3.04
-
     The annual mean ADJUSTED depletion rate was 4.56 mg/1/mo or  0.15  mg/1/day.

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                                                                         PAGE 23
     An additional series of calculations that corrects for seasonal   variations
in  hypolimnion  temperature  and  thickness  were  produced.    The technique to
calculate the CORRECTED oxygen depletion rate was developed by  Rosa   and  Burns
(1986)  when they calculated the central basin representative  region's depletion
rates for 1929 through 1986.  Using the CLEAR 1986 data  base,  Rosa   calculated
the  annual   mean  depletion rate applying the corrections previously mentioned.
The 1986 mean rate was 4.7 mg/l/mo or 0.16 mg/l/day.  The 1986  rates  presented
in  Figure  13  indicate  high  oxygen  depletion  for  the first portion of the
stratified period.  As expected, due to the decreased oxygen in the  hypolimnion
as  the  summer  progresses,  the  rate  at  which oxygen is lost also decreases
(Snodgrass and Fay, 1980).  This rate was included in Figure 14 along  with  the
rates calculated for the historical record.   The 1986 rate is  clearly one of the
highest rates calculated in recent years, even surpassing the  1985 rate of  3.73
mg/l/mo.

     The 1986 central  basin CORRECTED oxygen depletion rates are as follow:
SURVEY INTERVAL
JUNE 7 - JUNE 27
JUNE 27 - JULY 16
JULY 16 - AUGUST 6
AUGUST 6- SEPTEMBER 17
DAYS
20
19
21
42
DAILY RATE
MG 02/L/DAY
0.18
0.18
0.11
NA
MONTHLY RATE
MG 02/L/MO
5.45
5.46
3.19
NA
     The eastern basin epilimnion  average  oxygen  concentration  dropped  from
10.19  mg/1  on  June  27th to 8.56 mg/1  on September 17th and then increased to
9.61 mg/1 on October 29th.   Percent saturation in the epilimnion  did  not  drop
below 89% during the field  season.

     Hypolimnion oxygen values decreased  more than those in the  epilimnion   but
never   reached   the   severe   conditions  characterizing  the  central   basin
hypolimnion.  The epilimnion concentration decreased by 1.63 mg/1   between  June
27  and  September 17 (82 days) while the hypolimnion decreased 3.63 mg/1  during
the same period.  Hypolimnion concentrations decreased from 11.23 mg/1   on  June
27th  to  a  minimum  of 6.48 mg/1  on October 29th.   A corresponding decrease in
percent saturation resulted in a minimum  of 54Z on October 29th (Figure 12).

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                                                                         PAGE 24
     The 1986 eastern basin ADJUSTED oxygen depletion rates are as follow:
SURVEY INTERVAL
JUNE 27 - SEPTEMBER 17
SEPTEMBER 17 - OCTOBER 29
DAYS
82
43
DAILY RATE
MG 02/L/DAY
0.044
0.029
MONTHLY RATE
MG 02/L/MO
1.33
0.87
     The historical record of dissolved oxygen depletion for the  eastern  basin
is  not  as  extensive  as that of the central basin.   Due to the large interval
between survey midpoints it is difficult to interpret  the  trend  (if  any)   in
oxygen  depletion  rates  for  the eastern basin.   Although the early stratified
interval (June 27 -  September  17)  is  too  large  (82  days)  to  demand  any
confidence,  the  data  has  been  plotted  along   with the historical  data base
available since 1970 (Figure 15).  The 1986 average  rate  of  1.10  mg/l/mo   is
slightly  lower  than  most  of the average rates  which ranged from 1.08 to 1.86
mg/l/mo.  The 1986 average rate (1.10) closely resembled the 1985  average  rate
of 1.08 mg/l/mo.  Corrected rates for eastern basin hypolimnion oxygen  depletion
were not calculated due to the fact that the physical  conditions  determined   to
influence  the  central  basin  oxygen  demand  rate do not apply to the eastern
basin.

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                                                                         PAGE  25
                            WATER QUALITY PARAMETERS

     The U.S.  sponsored Lake Erie open lake surveillance/monitoring program was
first  implemented  on  a  routine  basis  in  1973.   Since that time,  a  nearly
continuous data base has been developed for the lake.   The program  has   focused
on  phosphorus  and  central  basin  hypolimnion  oxygen concentrations  although
numerous additional parameters have also been measured.   Together with  Canadian
supported  programs,  the Lake Erie data base has developed into one of  the most
complete  records  on  Great  Lakes  water  quality.   The  data  has   provided
information to track the effects of programs to reduce phosphorus loading  and to
develop models designed to simulate open lake processes.   The following  text  is
intended  to  provide a summary of the 1986 open lake  program and highlight some
of the important characteristics which set Lake Erie apart from the  other   Great
Lakes.

NUTRIENTS

PHOSPHORUS.  Total, total dissolved and soluble reactive phosphorus   forms  were
directly  measured routinely during the open lake program.  Two additional forms
of phosphorus were reported  which  were  determined  by  calculation.   Soluble
organic  phosphorus  was  determined from the difference between total dissolved
(filtered) and soluble reactive phosphorus,  while  particulate  phosphorus  was
determined  from  the  difference  between  total phosphorus and total dissolved
phosphorus.  Annex 3 of the 1978 Water Quality Agreement specifically called for
tracking  of  total phosphorus concentrations, therefore the primary emphasis of
this section has been placed on the various phosphorus fractions.

     Figures 16, 17 and 18 present the seasonal patterns for total phosphorus in
the  western,  central  and  eastern  basins.   Only the western basin data base
(Figure 16) presents a fairly complete seasonal pattern.   The central basin does
not  present a spring survey, and the eastern basin  data  set contains only three
surveys over the field season.  Seasonal patterns for  the  western  and  central
basins  indicate  mid-summer  minima with highest concentrations recorded  during
the fall.  Tables 4, 5 and 6 present the mean and median concentrations  for each
basin  and  survey.   The following table provides a summary of the  annual total
phosphorus data for the three  basins.   Additional,  statistical  summaries  by
basin are presented in Appendices A, B and C, respectively.

                            TOTAL PHOSPHORUS (ug/1)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
752
N
21.5
1.0
19.3
1.2
58.7
0.5
58.2
11.6
13.7
25.9
144
13.4
0.3
13.5
0.4
34.2
5.1
29.1
4.3
10.5
15.5
249
12.7
0.3
12.0
0.3
19.4
8.0
11.4
2.7
10.7
14.4
69

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                                                                         PAGE 26
     Differences in annual variability which are unique to  each  of  the  three
basin  are  clearly  evident  from  this  table.   Maximum/minimum,   25S-75Z and
standard  deviation  statistics  indicate  that  the  largest   variability   is
associated  with  the  western  basin  relative  to  the more stable central and
particularly stable eastern basin.

     The epilimnion and hypolimnion total  phosphorus  basin/1imnion  comparison
shows  that  concentration  differences  between  the  western  and central  basin
epilimnion is the only combination exhibiting a significant difference (a = .05).
Statistical summaries are provided in Appendix D.

               TOTAL PHOSPHORUS (ug/1)  EPILIMNION - HYPOLIMNION

MEAN
ST. DEV.
N
WESTERN
EPILIMNION
21.5
11.6
140
CENTRAL
EPILIMNION HYPOLIMNION
13.1
4.5
173
14.1
3.8
67
EASTERN
EPILIMNION HYPOLIMNION
12.4
2.1
34
13.4
3.4
27
     Figure 19 shows the central  basin limnion distribution of total   phosphorus
in  metric  tonnes  and percent.   Since the epilimnion dominates the  total  basin
volume during the stratified season, it  contains  the  greatest  proportion  of
total  phosphorus  (70%).    Since no anoxic hypolimnion regeneration  of sediment
bound phosphorus  occurred  during  the  1986  season,  the  fall   increase  was
attributed to physical  water/sediment interactions following turnover.

     Total dissolved phosphorus represents the portion of  the  phosphorus   pool
most  readily  available for biological use.   The dissolved fraction  (that  which
passes through a 0.45um filter) consists of organically bound phosphorus having
a  broad  range  of  molecular  weights,  inorganic  phosphorus  also  of varing
molecular weights (condensed or polyphosphates) and to a lesser  degree  soluble
reactive  (ortho)  phosphorus.   Figures  20,  21 and 22 illustrate the seasonal
changes in total dissolved phosphorus.  The following table provides   a  summary
of  the  annual data for the three basins.  Additional statistical  summaries are
presented in Appendix D.

                       TOTAL DISSOLVED PHOSPHORUS (ug/1)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25?
75%
N
5.5
0.4
4.6
0.6
26.4
0.0
26.4
5.0
1.6
7.4
138
5.4
0.2
5.6
0.1
16.6
0.0
16.6
2.5
3.7
6.9
231
4.4
0.2
4.2
0.2
9.8
1.8
8.0
1.9
2.7
5.5
63

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                                                                         PAGE 27
     Unlike  total  phosphorus,  the  total  dissolved  fraction   has   similar
concentrations  throughout  the  three  basins and the variability within basins
(ie.  max/min) is greatly reduced.   The western basin remains the most  variable
of  the three basins;  being strongly affected by resuspension and phytoplankton
growth (Figure 23).

     The differences between the  central   and  eastern  basin  total   dissolved
phosphorus  concentrations  were  statistically different (Q= 0.05)  in both the
epilimnion and  hypolimnion  (Figures  24   and  25).    Considering  the  reduced
sampling schedule for the eastern basin, this difference may not be real.
          TOTAL DISSOLVED PHOSPHORUS (ug/1)  - EPILIMNION - HYPOLIMNION
WESTERN
EPILIMNION
MEAN
ST. DEV.
N
5.5
5.0
138
CENTRAL
EPILIMNION HYPOLIMNION
5.4
2.3
165
5.6
3.0
66
EASTERN
EPILIMNION HYPOLIMNION
4.5
1.8
33
4.3
2.0
26
     As previously mentioned, total  dissolved phosphorus consists of  a   mixture
of inorganic and organic constituents having a wide variety of molecular weights
including  soluble  reactive  (ortho)  phosphorus.    For  the  most  part,    the
digestable  fraction termed soluble  organic phosphorus (that which is determined
by  subtracting  the  soluble  reactive  fraction  from  the   total   dissolved
phosphorus)  comprises  over  602 and  frequently   100%  of the  total dissolved
phosphorus pool.  A comparison of the two data sets is provided in the following
table:

 SOLUBLE REACTIVE PHOSPHORUS (SRP) AND SOLUBLE ORGANIC PHOSPHORUS (SOP)  (ug/1)
WESTERN
SRP SOP
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75%
N
1.0
0.2
0.5
0.1
9.0
0.0
9.0
1.7
0.0
1.0
130
4.8
0.4
4.7
0.6
26.3
0.0
26.3
4.2
1.6
6.6
127
CENTRAL
SRP SOP
0.8
0.1
0.0
0.0
6.2
0.0
6.2
1.3
0.0
1.0
248
4.7
0.2
4.8
0.2
16.6
0.0
16.6
2.4
3.1
6.0
230
EASTERN
SRP SOP
1.6
0.2
0.1
0.4
6.0
0.0
6.0
2.0
0.0
3.6
69
2.8
0.3
2.5
0.2
9.8
0.0
9.8
2.1
1.1
4.1
63

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                                                                         PAGE 28
     The  following  tables  provide  soluble  reactive  and   soluble   organic
phosphorus  basin  comparisons  by  limnion.   Only the central  and eastern basin
hypolimnions indicated  a  statistically  significant  difference  (   a =  0.05)
between  basins  for  the  soluble reactive fraction and both the epilimnion and
hypolimnion were found to differ for soluble organic phosphorus.

         SOLUBLE REACTIVE PHOSPHORUS (ug/1) - EPILIMNION - HYPOLIMNION
WESTERN
EPILIMNION
MEAN
ST. DEV.
N
1.0
1.7
130
CENTRAL
EPILIMNION HYPOLIMNION
1.0
1.4
180
0.4
0.9
68
EASTERN
EPILIMNION HYPOLIMNION
1.4
1.9
36
2.0
2.0
28
          SOLUBLE ORGANIC PHOSPHORUS (ug/1) - EPILIMNION - HYPOLIMNION
WESTERN
EPILIMNION
MEAN
ST. DEV.
N
4.8
4.2
127
CENTRAL
EPILIMNION HYPOLIMNION
4.4
2.2
165
5.2
2.7
65
EASTERN
EPILIMNION HYPOLIMNION
3.1
2.3
33
2.3
1.9
26
     As was the case in  the  presentation  of  the  soluble  organic  fraction,
particulate   phosphorus  concentrations  were  determined  by  subtracting  the
measured  concentrations  of  total   dissolved  phosphorus  from  the   measured
concentrations of total phosphorus.   Since Lake Erie is considered to be greatly
impacted by sediment water interactions in addition to being biologically active
in terms of plankton standing crop,  the particulate fraction is considered to be
an important component of the phosphorus pool.  The following table  provides  a
                          particulate  phosphorus data for the three basins (all
                           The statistical outputs are presented  in  Appendices
                          4, 5 and 6 show the individual survey results for each
summary  of  the  annual
stations and all depths).
A,  B,  and  C.   Tables
basin, respectively.
                         PARTICULATE PHOSPHORUS (ug/1)

                    WESTERN             CENTRAL              EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. OEV.
25Z
75Z
N
16.4
0.7
14.8
0.7
41.4
0.5
40.9
8.1
10.8
19.8
135
8.1
0.2
7.6
0.4
27.2
0.9
26.3
3.5
6.1
9.8
225
8.2
0.4
7.8
0.3
15.8
1.0
14.8
3.1
6.4
9.9
60

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                                                                         PAGE  29
     The following table provides the participate phosphorus  basin  comparison  by
limnion.   Using  a  two-tailed T-test (a  =  0.05),  only  the  western  and  central
basin comparison was shown to be statistically different.   Statistical   outputs
are in Appendix D.
            PARTICULATE PHOSPHORUS (ug/1)   EPILIMNION  -  HYPOLIMNION
WESTERN
EPILIMNION
MEAN
ST. DEV.
N
16.4
8.1
135
CENTRAL
EPILIMNION HYPOLIMNION
7.9
3.6
160
8.6
3.3
65
EASTERN
EPILIMNION HYPOLIMNION
7.8
2.7
32
8.7
3.7
24
     The following table provides a summary for the percentages   of   particulate
and  dissolved  phosphorus  forms  for  the  three  basins.   Figures  26,27  and  28
present seasonal fluctuations in the percentages of particulate   phosphorus  and
dissolved  phosphorus  for the western,  central  and eastern  basins respectively.
The statistical outputs are presented in Appendices A,  B  and C.   Tables  4, 5 and
6 show the individual survey results for each basin,  respectively.
    PERCENT PARTICULATE PHOSPHORUS (PP)  AND TOTAL  DISSOLVED  PHOSPHORUS  (DP)

MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEY.
25%
75%
N
WESTERN
PP
78.3
1.3
79.4
1.1
100.0
34.0
66.0
14.7
69.2
88.5
135 1
DP
21.7
1.3
20.6
1.1
66.0
0.0
66.0
14.7
11.5
30.8
35
CENTRAL
PP
59.6
1.1
59.3
1.4
100.0
8.3
91.7
16.7
50.3
69.6
225 2
DP
40.4
1.1
40.7
1.4
91.7
0.0
91.7
16.9
30.4
49.8
25
EASTERN
PP
63.7
2.0
63.3
1.3
86.5
9.7
76.8
15.7
57.2
75.0
60
DP
36.3
2.0
36.7
1.3
90.3
13.5
76.8
15.7
25.0
42.8
60

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                                                                         PAGE 30
NITROGEN.  Three forms of nitrogen were measured during the 1986  field  season;
nitrate + nitrite, ammonia and total kjeldahl  nitrogen.  The dissolved forms are
readily available for plankton growth while kjeldahl  nitrogen is associated with
organically bound ammonia-nitrogen.

     In recent years there has been an ever increasing concern over  the  steady
rise  in  nitrate nitrogen concentrations throughout the Great Lakes (Hartig and
Gannon 1986).   Lake  Erie  has  been  particularly  susceptible  to  increasing
concentrations  due  to  inputs  from  atmospheric  and tributary (agricultural)
sources within the basin.  The following table provides a summary of the  annual
data  for the three basins.  The statistical outputs are presented in Appendices
A, B and C and Tables 4, 5 and 6 present the individual survey results for  each
basin, respectively.

                            NITRATE + NITRITE  (ug/1)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75*
N
350.3
14.4
312.0
7.5
908.0
0.0
908.0
171.1
256.0
425.0
142
239.4
6.0
236.5
9.8
537.0
69.0
468.0
95.1
155.0
306.0
248
245.9
8.2
219.0
19.1
365.0
130.0
235.0
68.5
194.0
296.0
69
     A distinct seasonal  pattern was evident in both  the  western   and   central
basins  while  no  significant concentration shift occurred in the  eastern  basin
(Figures 29,  30  and  31).    Peak  western  and  central  basin  concentrations
coincided  with spring tributary loading when agricultural  inputs were greatest.
Through the summer, concentrations decreased due to  phytoplankton   utilization,
and   the   decline  continued  into  the  fall  in  the  central  basin.    Fall
concentrations  increased  in  the  western  basin  probably   due  to   increased
tributary  loading.  Central  and eastern basin hypolimnion concentrations showed
an inverse relationship to epilimnion concentrations.

     The following  table  provides  nitrate  +  nitrite  basin  comparisons  by
limnion.  Statistical outputs are in Appendix D.

              NITRATE + NITRITE (ug/1) - EPILIMNION - HYPOLIMNION

MEAN
ST. DEV.
N
WESTERN
EPILIMNION
350.3
171.1
142
CENTRAL
EPILIMNION HYPOLIMNION
219.9
94.0
179
290.0
78.6
69
EASTERN
EPILIMNION HYPOLIMNION
189.5
17.6
36
317.8
39.1
28

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                                                                         PAGE 31
     Basin comparisons using a two-tailed  T-test  with a  =  0.05  indicated  a
significant  difference between the epilimnions for both the western and central
basins and the central and the eastern basins.    A  significant  difference  was
also found between the central and eastern basin hypolimnetic waters.

     The highest and most variable ammonia  concentrations   were  found  in  the
western  basin  (Figure  29).   Ammonia concentrations in the central and eastern
basin surface waters did not  show  the  large   fluctuations  evident  in  other
variables (Figures 30 and 31).  This was largely due to the fact that ammonia is
the most readily assimilated nitrogen source for phytoplankton growth  (Brezonik
1972).   A  comparable  situation  existed  with  soluble   reactive   phosphorus.
Hypolimnion values in both the central and  eastern  basins  were  significantly
greater  than  epilimnion concentrations during the early stratified season,  but
declined through the summer.  By  late  summer   (turnover),  the  central   basin
hypolimnion  concentrations increased again due to decomposition of  settling  and
resuspended organic material.

     The following table provides a summary of  the annual   data  for  the  three
basins.  The statistical outputs are presented  in Appendices A, B and C.  Tables
4, 5 and 6 show the individual survey results for each basin,  respectively.

                                 AMMONIA (ug/1)
                     WESTERN
CENTRAL
EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEY.
25%
75%
N
15.3
1.2
10.6
1.2
98.1
1.0
97.1
14.3
5.0
21.5
141
13.2
0.7
8.5
0.4
57.8
1.7
56.1
11.7
5.6
16.0
249
10.4
1.1
7.2
1.0
37.7
1.5
36.2
8.9
4.1
12.5
68
     The following table provides a  comparison  of  ammonia   concentrations   by
basin  and  limnion.    All   combinations   of  basin-limnion  were   found   to   be
significantly different using a  two-tailed  T-test  (  a  =  0.05).    Additional
statistical  outputs are in  Appendix D.

                   AMMONIA  (ug/1) - EPILIMNION -  HYPOLIMNION

MEAN
ST. DEV.
N
WESTERN
EPILIMNION
15.3
14.3
141
CENTRAL
EPILIMNION HYPOLIMNION
9.1
5.6
180
24.0
15.9
69
EASTERN
EPILIMNION HYPOLIMNION
7.2
3.2
35
12.8
10.4
28

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                                                                         PAGE  32
     The following table provides a summary of the kjeldahl   nitrogen   data   for
the  three basins.  The statistical outputs are presented  in  Appendices A, B  and
C.  Tables 4, 5 and 6  show  the  individual  survey  results  for   each  basin,
respectively.   The  mean values presented in  Tables 4-6 represent  a combination
of individual depth values plus the integrated station samples  (1,  5,  10 and   20
m)  for  kjeldahl   nitrogen.   All  statistics were  generated using the  integrated
station values.  The sample size for this parameter is lower  than for  the other
parameters due to  the use of  integrated samples.

                            KJELDAHL NITROGEN  (ug/1)

                     WESTERN              CENTRAL          EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75Z
N
270
10
260
10
560
120
440
10
210
330
60
240
10
203
10
410
140
270
70
170
290
39
190
20
200
20
300
60
240
70
170
230
8
     The  following  table  provides  kjeldahl   nitrogen  basin  comparisons   by
limnion.   There  was no significant concentration  differences  between  the  three
basins using a two-tailed T-test  (   a =  0.05).    Statistical   outputs  are   in
Appendix D.

                     KJELDAHL NITROGEN (ug/1)  - EPILIMNION

                     WESTERN             CENTRAL            EASTERN
MEAN
ST. DEV.
N
270
100
60
240
70
39
190
70
8

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                                                                         PAGE 33
SILICA.  Seasonal fluctuations in soluble reactive silica concentrations can  be
primarily attributed to tributary loading and biological  uptake by diatoms.   The
western basin data base provides an example of how these  processes  effect  the
seasonal  changes  in  concentration  (Figure  32).    Peak spring concentrations
result from tributary loads which occur from late winter through  early  spring.
As  the diatom community develops during the spring,  a decline in concentrations
is evident through the spring  and  early  summer  growth  period.   During  the
remaining  summer  and  fall,  previously bound biological silica goes back  into
solution and is recycled.  As the fall diatom population increases a decline  in
concentration results.

     Epiliminon concentrations remained low (500 ug/1) throughout the summer  in
both the central and eastern basins.  Hypolimnion concentrations showed a steady
increase through the stratified period.  This is a  result  of  diatom  frustule
dissolution  after the spring diatom pulse has settled.  Concentration increases
were evident in both basins following fall turnover  (Figures 33).

     The following table provides a summary of the annual  data  for  the  three
basins.  The statistical outputs are presented in Appendices A, B and C.   Tables
4, 5 and 6 show the individual survey results for each basin, respectively.

                         SOLUBLE REACTIVE SILICA (ug/1)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75%
N
1101.0
48.9
1160.0
63.8
2772.0
86.0
2686.0
582.5
655.0
1560.0
142
824.6
43.7
583.0
31.8
3563.0
81.0
3482.0
688.3
342.0
1121.0
248
955.2
64.1
771.0
33.8
3026.0
297.0
2729.0
532.1
614.0
1180.0
69
     All combinations of basins and limnions exhibited statistically  significant
differences   (  a  =  0.05).   The  following  table  shows  that  the  highest
concentrations were found in the western basin and in the  hypolimnions  of  the
central and eastern basins.  Substantially lower concentrations were  recorded in
the epilimnion,  however, they were significantly different.   Statistical  outputs
are provided in Appendix D.

           SOLUBLE REACTIVE SILICA (ug/1)  - EPILIMNION -  HYPOLIMNION

MEAN
ST. DEV.
N
WESTERN
EPILIMNION
1101.0
582.5
142
CENTRAL
EPILIMNION HYPOLIMNION
539.0
424.5
179
1565.4
691.1
69
EASTERN
EPILIMNION HYPOLIMNION
741.5
507.2
36
1277.2
430.0
28

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                                                                         PAGE 34
PARTICULATES

     In order to determine the quantity of participate material suspended in the
water  column,  measurements  of  secchi  disk depth, turbidity, total suspended
solids, residual solids, volatile solids, chlorophyll a_ and pheophytin were made
at  all  stations  and  depths.   Secchi transparency and turbidity measurements
provide a general indication of the particulate material  and light  transparency
within  the  water  column.   Information  from  total  suspended  solids can be
sub-divided into inorganic  (residual  solids)  and  organic  (volatile  solids)
fractions.    The  chlorophyll  ^  values  represent  photosynthetically  active
pigments while pheophytin values  indicate  inactive  chlorophyll.    Since  this
portion  of  the  study  did  not  include  any  direct analysis of the plankton
community, a section devoted to plankton is  inappropriate;   therefore  results
from the chlorophyll analysis are included within the particulates section.

SECCHI TRANSPARENCY.  The following table  provides  a  summary  of  the  annual
secchi  transparency  data  for  the  three basins.  The statistical  outputs are
presented in Appendices A, B and C.  Tables 4,  5  and  6  show  the   individual
survey results for each basin.

                            SECCHI TRANSPARENCY (m)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75?
N
1.7
0.1
1.6
0.1
3.9
0.6
3.3
0.7
1.2
2.0
72
5.3
0.3
5.0
0.3
10.2
2.7
7.5
1.7
4.0
6.7
41
3.2
0.5
2.8
0.6
4.5
2.5
2.0
0.9
2.6
3.7
4
     Western basin secchi transparencies range from 0.6 m to  3.9  m,   having  a
median  of  1.6  m.   The  mean  secchi  transparency  in  the western basin was
significantly less than for the central basin (< a = 0.05).   The central   basin,
was  considerably  less turbid, and had secchi transparencies ranging  from 2.7 m
to 10.2 m, with a median of 5.0 m.   The eastern basin had a  small secchi   sample
size  (N=4)  because  most of the sampling in the eastern basin was conducted at
night.  The eastern basin secchi transparencies presented above  were   primarily
from  survey  11  (early November), and were similar to the  central basin secchi
transparencies  measured  during  the  same  survey.   Statistical   outputs  are
provided in Appendix D.

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                                                                         PAGE 35
TURBIDITY.  The following table provides a summary of the annual turbidity  data
for  the three basins.  Tables 4, 5 and 6 show the individual survey results for
each basin, while the statistical outputs are presented in Appendices A,  6  and
C.

                                TURBIDITY (NTU)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75?
N
6.6
0.4
5.7
0.4
28.0
1.2
26.8
4.2
4.0
8.1
144
1.1
0.0
0.9
0.1
3.1
0.3
2.8
0.7
0.6
1.5
248
2.5
0.3
1.5
0.5
8.8
0.4
8.4
2.2
0.9
3.4
69
     The turbidity values for the western basin  were  variable  throughout  the
season,  ranging  from 1.2 NTU (Nepholometric Turbidity Units) to 28.0 NTU.  The
seasonal pattern is similar to the suspended solids data  shown  in  Figure  34.
The western basin has a median turbidity value of 5.7 NTU, which is considerably
higher than either the central (0.9 NTU) or eastern (1.5 NTU) basin medians.  In
addition,  the  turbidity  ranges of the central and eastern basins were smaller
than the western basin range.  The shallow unstratified nature  of  the  western
basin  together  with  its  highly  turbid  tributary  inputs,  accounts for the
dramatic difference between basins.

     The following table provides turbidity basin comparisons  by  limnion  with
statistical outputs presented in Appendix D.

                   TURBIDITY (NTU) - EPILIMNION - HYPOLIMNION

           WESTERN             CENTRAL                    EASTERN
          EPILIMNION   EPILIMNION   HYPOLIMNION   EPILIMNION   HYPOLIMNION
MEAN
ST. DEV.
N
6.6
4.2
144
1.0
0.6
179
1.5
0.6
69
1.1
0.7
36
4.5
2.0
28
     As expected, the western and central basin epilimnion turbidities  differed
statistically  using a two-tailed T-test (  a= 0.05).   No significant difference
between mean epilimnion turbidity values for the central and eastern basins  was
apparent.   The  eastern  basin  hypolimnion turbidity was statistically greater
than the central basin hypolimnion.  The difference can  be  attributed  to  the
November  survey  when  eastern  basin  hypolimnion total suspended solid values
reached peak concentrations.

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                                                                         PAGE 36
CORRECTED CHLOROPHYLL £.  The following table provides a summary of  the  annual
data  for the three basins.  The statistical outputs are presented in Appendices
A, B and C, while Tables 4, 5 and 6 present the individual  survey  results  for
each basin.

                        CORRECTED CHLOROPHYLL A^ (ug/1)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75«
N
7.0
0.4
6.0
0.4
28.9
0.7
28.2
4.9
3.7
9.0
144
2.6
0.2
1.8
0.1
11.4
0.0
11.4
2.4
1.1
3.1
249
1.9
0.2
1.2
0.1
7.2
0.2
7.0
1.8
0.7
2.5
69
     Western basin chlorophyll concentrations ranged from 0.7 ug/1  to 28.9 ug/1,
having  a  median  of  6.0  ug/1.   The values fluctuated throughout the season,
illustrating the high degree of variability characteristic of the western basin.
In  general,  the  chlorophyll  concentrations  were greatest during the spring,
decreased through the early part of summer, and  increased  again  in  the  late
summer  and  early  fall  as  indicated  in  Figure 34.  Volume-weighted data is
presented in Table 10.

     The central and eastern basins standing crops were smaller that that of the
western basin as indicated by the lower annual chlorophyll medians (1.8 ug/1 and
1.2 ug/1, respectively).  Being strongly influenced by  the  western  basin  and
shoreline  nutrient  inputs,  the  central   basin  charactistically has a larger
concentration range (0.0-11.4 ug/1)  than  the  eastern  basin  (0.2-7.2  ug/1).
Volume-weighted data is presented in Tables 11 and 12.

     Central and eastern basin epilimnion  chlorophyll  concentrations  followed
similar  seasonal  patterns  (Figures  35  and  36).   Open  lake concentrations
declined following a spring peak,  reached   minimum  levels  by  mid-summer  and
increased  throughout  the  late  summer  and  fall.   Historically, the highest
concentrations have been found to be reached following fall turnover (Fay 1976).

     In both basins, the hypolimnion is either below or very close to the photic
zone,  therefore  minimal net primary production is associated with this region,
particularly in the central basin.  The central  basin  hypolimnion  chlorophyll
concentrations  decreased  to  a minimum during mid-summer, followed by a slight
increase over the  remaining  field  season  (Figure  35).   The  eastern  basin
hypolimnion  chlorophyll  concentrations remained fairly constant throughout the
season (Figure 36).

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                                                                         PAGE 37
     The following table provides chlorophyll  a^ basin  comparisons  by  limnion.
Statistical outputs are presented in Appendix  D.

           CORRECTED CHLOROPHYLL A (ug/1)  - EPILIMNION  - HYPOLIMNION
WESTERN
EPILIMNION
MEAN
ST. DEV.
N
7.0
4.9
144
CENTRAL
EPILIMNION HYPOLIMNION
3.1
2.6
180
1.4
0.7
69
EASTERN
EPILIMNION HYPOLIMNION
2.6
2.0
36
0.9
0.8
28
     The  western  basin  and  central    basin   epilimnion   chlorophyll    mean
concentrations  differed  statistically.    No significant difference in the mean
epilimnion chlorophyll  values was  apparent  between  the  central   and  eastern
basins.   The central basin and eastern basin hypolimnion chlorophyll  means were
very similar limnologically, yet they were statistically different  {< a = 0.05).
The  frequency  distribution  of  concentrations may account for the statistical
difference (Appendix D).

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                                                                         PAGE 38
PHEOPHYTIN.  The following table provides a summary of the annual data  for  the
three  basins.   The statistical outputs are presented in Appendices A, B and C.
Tables 4, 5 and 6 show the individual survey results for each basin.

                               PHEOPHYTIN (ug/1)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75?
N
4.9
0.4
3.6
0.4
32.7
0.0
32.7
4.7
1.9
6.2
144
1.5
0.1
1.0
0.1
7.6
0.0
7.6
1.4
0.6
1.9
249
1.8
0.2
1.1
0.2
8.9
0.2
8.7
1.9
0.6
2.3
69
     Western basin pheophytin concentrations ranged from 0.0 ug/1  to 32.7  ug/1,
primarily  reflecting  the  strong  potential for the resuspension of previously
settled phytoplankton.  The concentration ranges for the central  (0.0-7.6  ug/1)
and  eastern  (0.2-8.9  ug/1)  basins  were  smaller  and less variable than the
western basin.

     The following table  provides  pheophytin  basin  comparisons  by  limnion.
Statistical outputs are in Appendix D.

                  PHEOPHYTIN (ug/1) - EPILIMNION - HYPOLIMNION


MEAN
ST. DEV.
N
WESTERN
EPILIMNION
4.9
4.7
144
CENTRAL
EPILIMNION
1.5
1.5
180
HYPOLIMNION
1.3
1.1
69
EASTERN
EPILIMNION
2.0
2.3
36
HYPOLIMNION
1.7
1.4
28
The western basin and central basin epilimnion  pheophytin  mean  concentrations
differed  statistically  (< d  =  0.05).    No significant difference in the mean
epilimnion or hypolimnion pheophytin values was apparent between the central  and
eastern basins.

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                                                                         PAGE 39
TOTAL SUSPENDED SOLIDS.  The following table provides a summary  of  the  annual
data  for the three basins.  The statistical outputs are presented in Appendices
A, B and C.  and Tables 4, 5 and 6 show the individual survey results  for  each
basin.

                         TOTAL SUSPENDED SOLIDS (mg/1)

                     WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75%
N
7.5
0.3
6.7
0.2
29.6
2.4
27.2
17.1
4.8
9.0
143
1.5
0.1
1.3
0.1
4.0
0.3
3.7
0.9
0.8
2.0
240
2.8
0.2
1.9
0.2
9.5
0.7
8.8
2.0
1.3
3.4
69
     Western basin total suspended solids values ranged from 2.4  mg/1   to  29.6
mg/1,  having  the  highest median of the three basins (6.7 mg/1).  The seasonal
pattern was primarily influenced by tributary inputs and  sediment  resuspension
during  storm  events.   In  general,  values recorded during the fall  and early
winter represent peak concentrations (Figure 34).

     The central and eastern basin total suspended  solids  concentrations  were
similar,  with the eastern basin range being larger.  Epilimnion total  suspended
solids declined following a spring peak, reached minimum  levels  by  mid-summer
and  increased  to  the  highest concentrations at fall turnover (Figures 35 and
36).  Both the central basin epilimnion and hypolimnion total  suspended  solids
seasonal  patterns  followed  the  chlorophyll trend (Figure 35).  Eastern basin
epilimnion suspended solids values were lower than the hypolimnion and  remained
fairly  constant throughout the season.  The eastern basin hypolimnion suspended
solids values were highest during the November survey (Figure 36).

     The following table provides total suspended solids  basin  comparisons  by
limn ion.  Statistical outputs are in Appendix D.

            TOTAL SUSPENDED SOLIDS (mg/1) - EPILIMNION - HYPOLIMNION
WESTERN CENTRAL
EPILIMNION EPILIMNION HYPOLIMNION
MEAN
ST. DEV.
N
7.5
4.2
143
1.4
0.9
171
1.7
0.6
69
EASTERN
EPILIMNION HYPOLIMNION
1.5
0.6
36
4.5
2.1
28
     As expected, the western  and  central  basin  epilimnion  total   suspended
solids mean concentrations differ statistically (
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                                                                         PAGE 40
no significant difference in the mean epilimnion total suspended  solids  values
for  the  central  and  eastern  basins.    A  significant difference is apparent
between the central and  eastern  basin  hypolimnion,  with  the  eastern  basin
exhibiting higher concentrations.  Similar results are reported for turbidities.

RESIDUAL AND VOLATILE SOLIDS.  Total suspended solids as measured consist  of  a
combination of organic and inorganic (residual)  suspended material.  The initial
total solids is a  direct  measurement  and  after  combustion  of  the  organic
material the remaining inorganic material  is determined.  The difference between
the initial weight and the residual weight is the quanity  of  organic  material
assumed  to  be  present.   The following  table  provides a summary of the annual
data for the three basins.  The statistical outputs are presented in  Appendices
A,  B  and  C.   Tables  4,   5 and 6 show  the individual survey results for each
basin.

    RESIDUAL(RS), VOLATILE(VS) AND PERCENT VOLATILEUVS) SOLIDS (mg/1 AND %)

MEAN
MEAN ST. ER.
MEDIAN
MEDIAN ST. ER.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75%
N
RS
5.6
0.3
4.7
0.2
24.5
1.1
23.3
3.6
3.0
6.9
143
WESTERI*
VS
1.9
0.1
1.7
0.6
5.6
0.1
5.4
0.9
1.4
2.3
143
J
%VS
28.6
0.9
26.6
0.9
60.1
1.7
58.4
10.7
21.4
33.3
143
RS
0.7
0.0
0.6
0.1
3.0
0.0
3.0
0.6
0.2
1.0
240
CENTRAL
VS
0.8
0.0
0.7
0.0
2.3
0.2
2.1
0.3
0.5
0.9
240
%VS
58.4
1.3
54.6
1.8
100.0
22.0
78.0
19.7
42.4
74.5
240
E
RS
2.0
0.2
1.1
0.2
8.2
0.3
7.9
1.9
0.5
2.7
69
[ASTERN
VS
0.8
0.0
0.7
0.0
1.5
0.3
1.2
0.3
0.6
0.9
69
%VS
38.0
2.3
35.5
5.0
71.5
13.2
58.3
19.4
17.8
54.0
69
     Residual solids dominated the  total   suspended  material   in  the  western
basin,  normally  comprising over 70% (Figure 37).   As previously discussed,  the
dominance of inorganic material in the western basin water column resulted  from
the  strong  sediment/water  interactions   and  tributary  inputs.    Even though
residual solid concentrations  were  dominant,  volatile  solids  concentrations
generally  doubled  those  measured in the central  and eastern  basins.   Volatile
solids concentrations  increased  to  peak  values   in  late  summer/early  fall
coinciding with peak chlorophyll concentrations (Figure 34).

     Central and eastern basin epilimnion  mean concentrations  of  residual   and
volatile  solids  were  nearly  identical.   Unlike  the western basin,  volatile
solids dominated the  total  particulate  material   in  both  basins,   generally
comprising  over  60%  in  the  eastern basin and up to 90% in  the central  basin
(Figures 38 and  39).   The  central  basin  volatile  solids  seasonal   pattern
followed  the  chlorophyll   trend  (Figure  35),  however, there was not as  much
similarity between the volatile solids and chlorophyll patterns in  the  eastern
basin (Figure 36).

     Hypolimnion solids concentrations are dominated by residual  solids in  both
basins,  however, the eastern basin concentrations were nearly four times central

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                                                                         PAGE 41
basin values.  The percent composition remained over 80% residual  solids in  the
eastern  basin  while  the central was closer to 60?.  The strong  sediment water
interactions maintained  the  inorganic  dominated  suspended  material   in  the
hypolimnion of both basins.

     The following tables provide residual  and volatile solids basin comparisons
by limnion.  Statistical outputs are in Appendix D.

               RESIDUAL SOLIDS (mg/1)  - EPILIMNION - HYPOLIMNION

            WESTERN            CENTRAL                    EASTERN
          EPILIMNION   EPILIMNION   HYPOLIMNION   EPILIMNION   HYPOLIMNION

MEAN           5.6         0.6            1.0          0.7           3.7
ST. DEV.       3.6         0.7            0.5          0.5           1.8
N            143         171             69           36            28



               VOLATILE SOLIDS (mg/1)  - EPILIMNION - HYPOLIMNION

           WESTERN             CENTRAL                    EASTERN
          EPILIMNION   EPILIMNION   HYPOLIMNION   EPILIMNION   HYPOLIMNION

MEAN           1.9         0.8            0.7          0.8           0.8
ST. DEV.       0.9         0.3            0.0          0.2           0.0
N            143         171             69           36            28
     As expected, the western basin and central  basin  epilimnion   residual   and
volatile  solids  mean  concentrations  differed statistically (<    =0.05).   No
significant difference in the mean epilimnion residual  or volatile solids values
was  apparent  between  the central and eastern  basins.  Although  there wasn't a
significant  difference  between  the  central   and  eastern  basin  hypolimnion
volatile  solids, there was a difference between residual solids concentrations.
As with turbidity, the eastern  basin  hypolimnion  had  a  higher  annual   mean
concentration of residual solids than the central  basin,  which can be attributed
to the November survey.

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                                                                         PAGE 42
PRINCIPLE IONS

     Principle ion measurements were determined at  all   stations  and   sampling
depths  throughout  the  field  season.   Conductivity is a measure of  the total
ionic strength with each of the major ions contributing   proportionately.    Lake
Erie  is  dominated  by the carbonate ion, contributing  over 50%, while chloride
accounts for approximately 12% (Rathke, 1984).   Chloride, carbonate,  bicarbonate
(alkalinity), and hydrogen (pH) ions were examined.

CONDUCTIVITY.  Four major cations (calcium,  magnesium, sodium and potassium)  and
four  major  anions  (carbonate, bicarbonate,  sulfate and chloride) are the main
contributes to the total ionic strength of  water.   Ionized trace  metals   (i.e.
manganese,  copper  and  zinc)  and  other biologically  important elements (i.e.
phosphorus, nitrogen and  iron)  usually  constitute  a   minor  portion of  the
conductivity.   A summary of the annual conductivity values for all three  basins
is presented in the table below and in Appendices A, B  and  C.   Conductivity
values for each basin are summarized by individual  surveys in Tables 4, 5  and 6.

                            CONDUCTIVITY (umhos/cm)
                     WESTERN
CENTRAL
EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75%
N
238.3
1.5
233.0
1.7
308.0
206.0
102.0
18.2
227.0
248.5
144
267.7
0.5
268.0
0.6
298.0
239.0
59.0
7.5
263.0
273.0
249
275.2
0.7
274.0
1.2
288.0
263.0
25.0
6.1
271.0
280.0
69
     Median conductivity values were lowest in  the  western  basin  (233  umhos)  and
increased  in  the central  (268 umhos)  and eastern  (274 umhos)  basins.   However,
the western basin had the largest range (102 umhos)  compared  to the  central   (59
umhos)  and  eastern  (25  umhos)  basins.   The west  to  east increase  can be
attributed to the lower ionic content of the upper  Great  Lakes waters  which
enters the western basin via the Detroit River.   As the Detroit River  is diluted
by other tributaries having higher  ionic  content   as  well  as   internal   lake
processes adding to the conductivity, a general  west to east  gradient  results.

     The seasonal conductivity patterns are presented in Figures  40, 41  and   42.
Western  basin conductivity values decreased from the initial spring high  values
through the last survey in  November.  A sharp increase occurred during  the  late
October   survey   as   a   result   of  intense  storm/wind  activity.    Strong
south/southwest winds mixed the southern shoreline   water  mass  (having  higher
conductivity  values)  into  the  open  waters   of   the  basin.   Central  basin
epilimnion values decreased from spring until  August  and  increased   following
turnover  in  late  September.  In general, the central basin hypolimnion  values
were higher than the epilimnion.  Eastern basin epilimnion  values did  not  change

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                                                                         PAGE 43
appreciably  over  the  field  season  whereas  the  hypolimnion values steadily
increased.

     The following table provides conductivity  basin  comparisons  by  limnion.
Statistical outputs are presented in Appendix D.

                CONDUCTIVITY (umhos) - EPILIMNION - HYPOLIMNION

             WESTERN             CENTRAL                    EASTERN
            EPILIMNION   EPILIMNION   HYPOLIMNION   EPILIMNION   HYPOLIMNION
MEAN
ST. DEV.
N
238.3
18.2
144
264.8
6.4
180
275.3
3.5
69
270.7
3.0
36
281.4
3.7
28
     The western basin and central basin epilimnion conductivity  values  differ
statistically  based  on  a  two-tailed  T-test  with a = 0.05.   The central  and
eastern basin epilimnion conductivity means were more similar  in  concentration
,yet  they were statistically different.  The different seasonal patterns in  the
central and eastern basins reflected by the standard deviations  and ranges,   may
account  for the statistical  difference.  The central basin epilimnion range  was
59 umhos (239-298 umhos) and the eastern  basin  range  was  12   umhos  (263-275
umhos).  Statistical outputs are presented in Appendix D.

     As  in  the  epilimnion,  the  central  and   eastern   basin   hypolimnion
conductivity means were similar limnologically, however, they were statistically
different.  Even though the standard deviations and ranges were  similar, the  two
basins  had  different  frequency  distributions.   The  statistical  output   in
Appendix D illustrates that the eastern basin conductivity values  were  clumped
at the higher end of the histogram.

CHLORIDE.  Figures 40, 41 and 42 illustrate chloride seasonal patterns  for   the
western,   central  and  eastern  basins.   As  one  of  the  conservative  ions
contributing to the total ionic strength of water,  chloride should undergo only
minor   temporal  changes  resulting  from  biotic   utilization.   The  chloride
concentrations in the eastern basin epilimnion and  the central and eastern basin
hypolimnion  were  stable  throughout  the  field  season  (Figures  41 and 42).
However, seasonal chloride values were not as constant in the western basin   and
central  basin  epilimnion.   There appears to be a general decrease in chloride
concentrations throughout the season in the western basin (Figure 40) which   can
be  attributed to a decrease in loading following spring runoff.  In the central
basin epilimnion, chloride concentrations decreased until  August  and  remained
fairly  stable  through the fall (Figure 41).  It appears that external loading,
primarily during the late winter and spring, also influenced the  central  basin
seasonal pattern.

     The following table provides a detailed summary of the annual  chloride data
for  the  three  basins.   Appendices  A, B and C contain additional statistical
outputs  of  the  annual  data  for   each   basin.    In   addition,   chloride
concentrations,  summarized by individual surveys,  are presented in Tables 4,  5,
and 6.

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                                                                         PAGE 44
                                CHLORIDE (mg/1)

                                         CENTRAL
WESTERN
EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75Z
N
11.7
0.2
11.5
0.2
26.0
6.9
19.1
2.9
9.7
13.2
144
14.7
0.1
14.7
0.0
18.0
7.0
11.0
0.9
14.5
15.0
247
15.0
0.0
15.1
0.0
16.3
14.3
2.0
0.3
14.9
15.2
69
     Chloride concentrations were the  lowest  in  the  western  basin.    Higher
chloride  values  in  the  central  and eastern basins may result from the  sewage
treatment plant and tributary discharges along the southern shore of  the   lake.
The eastern basin had a smaller chloride concentration range (2.0 mg/1)  than  the
central (11.0 mg/1) and western (19.1 mg/1)   basins.    The  differences   in  the
annual  range  for  each  basin  were  a  result  of  the seasonal  changes  in  the
chloride concentrations discussed above.

     The  following  table  provides  chloride  basin  comparisons  by   limnion.
Statistical outputs are presented in Appendix D.

                   CHLORIDE (mg/1)  - EPILIMNION - HYPOLIMNION

MEAN
ST. DEV.
N
WESTERN
EPILIMNION
11.7
2.9
144
CENTRAL
EPILIMNION HYPOLIMNION
14.7
1.0
179
15.0
0.7
68
EASTERN
EPILIMNION HYPOLIMNION
14.9
0.3
36
15.1
0.3
28
     As expected, the  western  basin  and  central   basin  epilimm'on   chloride
concentrations  differ statistically based on  a  two-tailed T-test with  d=  0.05.
The central and eastern basin chloride means were very similar,   yet were   also
statistically  different.    The  different  seasonal  patterns  in  the central  and
eastern basins, as reflected by the standard deviations and ranges,  may  account
for  the  statistical  difference.    The  central  basin epilimm'on concentration
range was 10 mg/1  (7-17  mg/1)  and  the  eastern  basin  range   was  1.2   mg/1
(14.3-15.5  mg/1).   Statistical   outputs  are  presented  in  Appendix  0.    No
significant difference was apparent between the  hypolimnion of the  central   and
eastern basins.

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                                                                         PAGE 45
ALKALINITY.  Lake Erie naturally contains a relatively high amount of carbonates
and  bicarbonates  contributed  from  the limestone and dolomite drainage basin.
Therefore, carbonate and bicarbonate ions comprise the majority of  Lake  Erie's
total  ionic strength.  The carbonates and bicarbonates provide the water with a
strong buffering capacity to  resist  changes  in  pH.   Based  upon  a  cursory
examination  of the pH data bases from the early 1970's, acid rain seems to have
had little effect on increasing the acidity of Lake Erie.

     Total alkalinity is a measure of the amount of acid necessary to neutralize
the  carbonate,  bicarbonate  and hydroxyl ions present in water.  The amount of
carbonate ions is represented  by  phenolphthalein  alkalinity.   The  following
table  provides  a  summary  of the annual alkalinity data for the three basins.
Additional  statistical  outputs  are  presented  in  Appendices  A,  B  and  C.
Alkalinity  (total  and phenolphthalein) values for each basin are summarized by
individual surveys in Tables 4, 5 and 6.
          ALKALINITY TOTAL (ALKTOT) AND PHENOLPHTHALEIN (ALKPH)  (mg/1)
                     WESTERN
                  ALKTOT    ALKPH
    CENTRAL
ALKTOT    ALKPH
    EASTERN
ALKTOT    ALKPH
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25%
75?
N
93.3
0.4
93.1
0.8
107.3
84.0
23.3
5.0
89.2
96.7
144
2.5
0.2
2.1
0.2
10.5
0.0
10.5
2.5
0.0
3.9
144
103.0
0.2
103.4
0.4
112.3
93.6
18.7
3.9
99.7
106.1
249
2.8
0.2
2.5
0.2
10.8
0.0
10.8
2.5
0.0
4.4
249
106.8
0.4
107.0
0.3
114.4
100.8
13.6
3.1
105.5
108.4
69
1.8
0.3
1.2
0.7
8.9
0.0
8.9
2.2
0.0
3.0
69
     Total alkalinity values were lowest in the western basin and  increased  in
the  central  and  eastern  basins.    The central  and western basins  had similar
annual phenolphthalein alkalinity ranges and medians, and were higher  than  the
eastern basin values.

     Figures 43,  44  and  45  present  the  seasonal  patterns  for   total   and
phenolphthalein  alkalinity  in the western, central  and eastern basins.  In all
three basins, the total  and phenolphthalein alkalinity  seasonal   patterns  were
similar,  with  the  highest  alkalinity  values  during  the summer  months.  No
phenolphthalein alkalinity was recorded in the  hypolimnion   due  to   pH  values
consistently below 8.3.

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                                                                         PAGE 46
     The following tables  provide  alkalinity  basin  comparisons  by  limnion.
Statistical outputs are presented in Appendix D.


               ALKALINITY TOTAL (mg/1) - EPILIMNION - HYPOLIMNION

MEAN
ST. OEV.
N
WESTERN
EPILIMNION
93.3
5.0
144
CENTRAL
EPILIMNION HYPOLIMNION
101.8
3.3
180
106.1
3.8
69
EASTERN
EPILIMNION HYPOLIMNION
105.2
2.7
36
108.7
2.0
28
     There was a statistically significant difference in  the  total   alkalinity
values  between  the western and central  basin epilimnions based on a two-tailed
T-test with a = 0.05.  In the comparison  between the central  and eastern basins,
total  alkalinity means were statistically different for both the epilimnion and
hypolimnion, however, the concentration difference was not as great  as   between
the  western  and  central  basins.   The  frequency distribution for each basin
differed from one another.  The statistical  outputs  in  Appendix  D  illustrate
that the eastern basin total alkalinity values were clumped at the higher end of
the histogram.


                ALKALINITY PHENOLPHTHALEIN (mgl/1) - EPILIMNION

                    WESTERN            CENTRAL           EASTERN
MEAN
ST. DEV.
N
2.5
2.5
144
3.8
2.2
180
3.4
2.0
36
     A significant difference was apparent between the western and  central  basin
mean  phenolphthalein  alkalinity and there is no significant difference between
the central and eastern basin mean epilimnion phenolphthalein  alkalinity  based
on a two-tailed T-test with a= 0.05.

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                                                                         PAGE 47
pH.  The following table provides a summary of the annual  data  for  the  three
basins.  The statistical outputs are presented in Appendices A, B and C.  Tables
4, 5, and 6 show the individual survey results for pH in each basin.


                                       PH

                      WESTERN             CENTRAL           EASTERN
MEAN
MEAN ST. ERR.
MEDIAN
MEDIAN ST. ERR.
MAXIMUM
MINIMUM
RANGE
ST. DEV.
25S
75%
N
8.21
0.02
8.19
0.02
8.75
7.59
1.15
0.21
8.07
8.36
144
8.09
0.03
8.22
0.01
8.68
7.26
1.42
0.40
7.71
8.48
249
8.02
0.03
8.18
0.09
8.42
7.48
0.94
0.29
7.75
8.26
69
     All three basins had an annual pH median very close  to  8.2.    The  ranges
were  similar  for  the western (7.59-8.75) and central (7.26-8.68) basins.  The
eastern basin had a smaller annual pH range (7.48  to  8.42)  which  may  be  an
artifact of the cruise schedule.  In both the central and eastern basins, the pH
was lower in the hypolimnion.

     The seasonal pH trends are presented in Figures 43,  44  and  45.    In  the
central  basin,  the epilimnion pH values increased throughout the summer months
and reached a maximum in  August.    The  central  basin  hypolimnion  pH  values
decreased  during  the  summer and reached a minimum in August.  The pH remained
stable throughout the season in the eastern basin.  The  same  pattern   was  not
apparent  in both the central and eastern basins possibly because of the lack of
sampling during the summer months in the eastern basin.

     The following table provides pH basin comparisons by limnion.    Statistical
outputs are presented in Appendix 0.


                         pH - EPILIMNION - HYPOLIMNION

MEAN
ST. DEV.
N
WESTERN
EPILIMNION
8.21
0.21
144
CENTRAL
EPILIMNION HYPOLIMNION
8.31
0.15
180
7.50
0.17
69
EASTERN
EPILIMNION HYPOLIMNION
8.27
0.07
36
7.71
0.13
28
     Epilimnion and hypolimnion basin comparisons indicated that all basins were

-------
                                                                         PAGE 48
statistically  different  from one another based  on  a  two-tailed T-test with  a =
0.05, however,  the pH  means  were limnologically similar.  This outcome  seems   to
be  a  result  of  differences in sample size, range,  and frequency  distribution
(See Appendix D).

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                                                                         PAGE 49
                                BASIN COMPARISON

     Previous text within this report discusses similarities and differences  in
mean  concentrations  between  basins for the individual  parameters.   These data
comparisons are based upon epilimnion and hypolimnion  annual   mean  values  for
each  basin.   A summary of basin comparisons using annual  means is presented in
Table 13.  The only consistent gradients (increasing or decreasing east to  west
or west to east) for all basins and limnions occurred for ammonia, conductivity,
alkalinity (total), and pH.  The detailed t-test comparisons for each  parameter
are presented in Appendix D.

     In addition to the annual mean comparisons, a survey by survey analysis was
undertaken.  This analysis should provide a detailed examination of the seasonal
epilimnion changes between the western and the central  basins   and  between  the
central  and  eastern  basin.   A  total  of  six  surveys were examined for the
western-central comparison and three surveys for the central-eastern  comparison.

     The western-central comparison was the most complete,  spanning  from  early
June  through  late  October.  The results are presented  in Table 14.  Nutrient,
chlorophyll, suspended solids and turbidity concentrations were all found to  be
greater in the western basin than in the central, with  total filtered phosphorus
as  the  only  exception.   Internal  (sediments)  and   external   (tributaries)
influences  account  for  the higher values characteristic of  the western basin.
In contrast, conductivity, chloride and  alkalinity  values  were  found  to  be
greater  in  the  central  basin.   This  can  be  attributed  to the  lower ionic
concentrations found in the upper Great Lakes waters which dominate the  western
basin due to the Detroit River input.

     The central-eastern basin comparison consisted of  summer,   early  fall   and
late  fall  surveys  (Table  15).   The clearest differences between  basins were
evident for conductivity, chloride and alkalinity,  with   eastern  basin  values
being  greater  than  central  for  all  comparisons.  This is  consistent with a
similar increasing gradient from the western to the  central basin.    Nutrients
and  suspended  material  were  greater or equal in the eastern basin during the
late June survey (5), followed  by  a  reversal  (central   > eastern)   for  the
folllowing  two  surveys.  The one notable exception was  with nitrate + nitrite,
indicating higher eastern basin concentrations during the fall.   It is   possible
this contrast was due to a greater biological demand for  nitrogen in  the central
basin,  thus keeping concentrations lower.

     The water quality of the central and eastern basins   is considerably  more
similar  than  the  western  and  central   basin  water  quality.   For example,
differences in total phosphorus concentrations between  the  western and  central
basins were as great as 16 ug/1 while the central-eastern gradient was  less than
5 ug/1.  Therefore it is important to understand that  even  though  significant
differences  between  basins occurred for most comparisons, the magnitude of the
difference between the western basin and the  central  basin was  significantly
greater than any differences between the central and eastern basin.

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                                                                         PAGE 50
                           OPEN LAKE SAMPLING REGIONS

     The open lake station pattern for both the central  and eastern  basins  was
developed  from  studies  by  F.   Rosa  and A.  El-Shaarawi (CCIW-NWRI).   These
studies were reviewed by the Lake Erie Task Force under   the  direction  of  the
Surveillance  Work Group who subsequently recommended the current surveillance /
monitoring program (GLISP) to the Water Quality Board of the International  Joint
Commission.   The  central  and  eastern  basin sampling pattern was intended to
provide a data base represent!'tive of the open lake hypolimnetic  water  quality
for the respective basins.

     Tables 16  and  17  present  the  results  from  the  central   and  eastern
within-basin  comparisons.   As  was indicated in the 1985 Open Lake Report (Fay
and Rathke, 1986a), nearly  all  central  and  eastern  epilimnion  (station  by
variable)  comparisons  conform  to  plus or minus one standard deviation  of the
established basin mean criteria.  In most cases,  stations remained within  +  0.5
standard  deviation  of  the  basin  mean  for  all  the variables tested.   This
analysis indicated that the station pattern established  for each basin  provides
represent!'tive  information  both  on  a  temporal and spatial  basis.   A similar
comparison using  hypolimnion  values  indicated   comparable  results   for   both
basins.   As  expected, variability within the hypolimnion was somewhat greater,
however, most comparisons remained within  +_  one  standard  deviation.   It  is
important  to  point  out that although the central basin hypolimnion  appears to
have larger variability than the epilimnion, the  standard  deviations,  in   most
cases were actually smaller (Table 16).

     The western basin sampling pattern was based on the results  of  a  cluster
analysis  study  conducted by Fay and Rathke (1986b). The study was designed to
determine a representative sampling region similar in concept to the central and
eastern  basin  areas.   Since 1986 was the first year for the implementation of
the new western basin surveillance plan,  it  was  appropriate  to  examine  the
variability  of  the selected stations.  The null hypothesis for the analysis of
variance was:  individual stations within the basin would have equal  means  for
each of the variables tested.

     Results from the western basin analysis demonstrated that the six  stations
had  individual  station means within +_ one standard deviation of the  basin mean
(Table 18).  However, the western basin individual  station  means  had  greater
variability than either the central or eastern basins station groupings.  It was
also evident that the difference between stations was greatest for  the western
basin.   In  addition,  due  to  the  extreme temporal variability, the standard
deviations for all  variables were highest in the  western basin  as  compared  to
the  central  or  eastern  basins.  For example,  the standard deviation of  total
phosphorus in the western basin was 2.5 times that of the central  basin.

     In seven of the eleven variables examined for the  western  basin,  maximum
values were recorded for the two southern most stations  (58 and 59).  Both  these
stations are outside the direct influence of the  Detroit  River.   As   they  are
located  in  the  southern  portion of the basin, stations 58 and 59 are largely
influenced by the Maumee River.  Even though  these  stations  exhibited  higher
concentrations for many variables, this southern  section requires representation
in order to adequately characterize the open waters of the western basin.

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                                                                         PAGE 51
                             TROPHIC CLASSIFICATION

     Reviews of the numerous trophic classifications and  trophic  indices  have
been  prepared  by  Rawson  (1956), Zafar (1959), Dobson (1976), Carlson (1977),
Rast and Lee (1978), Gregor and Rast (1979), Maloney (1979) and Steinhart et al,
(1981).   Dobson's  index  is  presented  because  it  evaluates the Great Lakes
offshore summer trophic conditions.  The Dobson index uses  summer  mean  secchi
reciprocals,   total   chlorophyll  a,  particulate  organic  carbon  and  total
phosphorus from the offshore near-surface waters.  Dobson's 1976  trophic  index
is as follows:
SECCHI
RECIPROCALS

30/SD (M)
TOTAL
CHLOROPHYLL

UG/L
PARTICULATE
ORGANIC
CARBON
UG/L
TOTAL
PHOSPHORUS

UG/L
OLIGOTROPHIC
MESOTROPHIC
EUTROPHIC
HYPEREUTROPHIC
 0 - 5
 5-10
10 - 30
   > 30
  0 -  2.5
2.5 -  5.0
5.0 - 15.0
    > 15
  0 - 250
250 - 500
500 - 1500
    > 1500
 0 - 9
 9-18
18 - 50
   > 50
                               SD = SECCHI DEPTH
     In developing his index, Dobson clearly defined  offshore  waters  and  the
summer  period.   Offshore waters are considered to be those waters greater than
20 meters in depth, and the summer period begins following the disappearence  of
the  thermal  bar.  Since the western basin mean depth is only 8.5 meters,  it is
technically not considered to be offshore  water.   In  adddition,  thermal  bar
conditions  as  encountered in the other Great Lakes do not exist in the western
basin.  Therefore, it was necessary to arbitrarily included  the  western  basin
and  define the summer period as spanning from June 1 through September 15.  The
central basin summer period was considered to extend from June 15  to  September
5.  Since the eastern basin resembles the deeper Great Lakes, a different summer
period was used (July - September).

     To calculate the summer  mean  values,  the  individual  survey  means  are
plotted.   The  summer mean is then calculated by using values interpolated from
the graph on a ten day interval.  These interpolated values are then averaged to
determine the summer mean.  The determination of trophic classification for 1986
was based  on  results  of  Secchi  Transparency,  Total  Phosphorus  and  Total
Chlorophyll.  Particulate Organic Carbon was not measured during this study.  No
secchi data was available in the eastern basin due to nightime sampling.

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                                                                         PAGE 52
     The 1986 summer  results  for  the  offshore  near-surface  waters  of  the
western, central  and eastern basins are as follows:



WESTERN BASIN
JUNE 6
JUNE 16 (INT)
JUNE 29
JULY 9 (INT)
JULY 15
JULY 25 (INT)
AUG 5
AUG 15 (INT)
AUG 25
SEPT 5 (INT)
SEPT 15
MEAN
CENTRAL BASIN
JUNE 27
JULY 7 (INT)
JULY 16
JULY 26 (INT)
AUG 6
MEAN
EASTERN BASIN
JUNE 27
JULY 7 (INT)
JULY 17 (INT)
JULY 27 (INT)
AUG 7 (INT)
AUG 17 (INT)
AUG 27 (INT)
SEPT 7 (INT)
SEPT 17
MEAN




SECCHI
RECIPROCALS
30/SD (METERS)

20.27
17.0
12.24
12.6
12.88
14.6
16.48
20.3
23.62
24.2
24.59
18.07 (E)

4.82
4.88
4.93
5.23
5.60
5.09 (M)

NA







NA
NA
INT =
0 =
M =
E =
TOTAL
CHLOROPHYLL
UG/L

4.52
4.6
4.77
5.8
6.40
7.1
7.93
8.5
9.13
10.6
12.55
7.45 (E)

1.34
1.50
1.64
2.20
2.89
1.91 (0)

1.18
1.26
1.35
1.44
1.55
1.64
1.74
1.84
1.93
1.55 (0)
10 DAY INTERPOLATED
OLIGOTROPHIC
MESOTROPHIC
EUTROPHIC
TOTAL
PHOSPHORUS
UG/L

16.6
16.0
15.0
16.8
18.1
21.2
24.8
26.8
28.9
31.2
33.5
22.6 (E)

9.4
9.6
9.8
11.6
13.5
10.8 (M)

12.7
12.6
12.6
12.5
12.5
12.4
12.3
12.3
12.2
12.5 (M)
VALUE




-------
                                                                         PAGE 53
     All three parameters indicate that the western basin is a eutrophic body of
water.   The  central  basin  and  eastern  basin appear to be on the borderline
between  oligotrophic  and  mesotrophic.   For  example,   the   eastern   basin
chlorophyll  data  indicates  oligotrophic conditions while the total phosphorus
concentrations indicate a mesotrophic status.

     When comparing the trophic status  of  1985  with  1986,  the  central  and
eastern  basins  remain  boarderline  between oligotrophic and mesotrophic.  The
differences between years can be attributed to the differences in the number and
timing  of  the  surveys.  For instance, the 1986 eastern basin data technically
should not be included in this analysis because only  the  September  17  survey
conforms to the summer period outlined by Dobson.
                    SECCHI
                  RECIPROCALS
                  30/SO (METERS)
                   TOTAL
                CHLOROPHYLL
                    UG/L
                    TOTAL
                  PHOSPHORUS
                     UG/L
WESTERN BASIN

1985
1986

CENTRAL BASIN

1985
1986

EASTERN BASIN
NA
18.07 (E)
 4.80 (0)
 5.09 (M)
NA
7.45 (E)
2.66 (M)
1.91 (0)
NA
22.6 (E)
12.6 (M)
10.8 (M)
1985
1986

4.50
NA

(0)
0
M
E
1.90 (0)
1.55 (0)
= OLIGOTROPHIC
= MESOTROPHIC
= EUTROPHIC
8.8
12.5

(0)
(M)


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                                                                         PAGE  54
                            QUALITY CONTROL SUMMARY


     During each day of a  survey,  water  was collected  to   be   used   for   quality
control  samples.   Two  terms are used  to describe  the  types  of  quality  control
sample being examined.   First, replicate water  samples were   collected   as   two
separate  samples  (XI   and  X2)   taken   from  the   same   selected   depth.    The
submersible pump was lowered to the designated  depth for   XI   and  then   lowered
again for X2.  Second,  splits or  sub-samples of each replicate were prepared  for
analysis.

                    XI  <	Replicates	> X2,
         AI N	Key i Ik.a tea	r    ^.

  XX           XX
Xll <—Splits—> X12      X21  <—Splits->  X22
     The quality control  program determines  the  PRECISION and  ACCURACY  of   the
analytical  methods  employed.    Precision  is   a  measure of the agreement among
duplicate analysis.  The  standard deviation  of  the difference  between  the splits
represents  the  precision (uncertainty)  of  the  method.  Standard deviations  are
estimated for each analytical  method by summing  the difference between duplicate
analysis, calculating the mean  and dividing  by  1.128.  An acceptable limit (3 s)
for the range of the differences  is  determined  by  multiplying   the   standard
deviation by 3.686 (Clark, 1981).

     One high silica replicate  value was  removed before  the data  was  analyzed.
The  sample bottle was obviously contaminated because  the spikes were also high.
Airborne ammonia contamination  continued  to  be  a  problem  in  1986.   Ammonia
quality control data for  one survey was removed  before analysis because  all four
split values were very different from one another.   An additional   high  ammonia
split value was removed before  analysis.

     The 1986 results for the  difference  between splits  are presented  in  Table
19.   All the range limits for  the Auto Analyzer parameters, except ammonia,  are
less than 2.5? of the chart paper scale.   The range limit  for  the  difference
between  ammonia  splits  was 8.36 ug/1, which is over  eight percent of the chart
scale.   Soluble Reactive  Phosphorus, Nitrate +  Nitrite,  and Chloride have  range
limits  less  than  one percent of the chart scale. All parameters have greater
than 93% of the quality control  samples within  the range limits (3  s).   Appendix
E contains the BMDP statistical  computer  outputs for each parameter.

     Analysis of the difference  between replicates demonstrates another  form   of
precision.   In  addition  to  the analytical variability, the  difference between
replicates takes the variability of the  water   mass  into  consideration.    The
replicates  assist in determining whether a  sample is  representative of  the body
of water at a paticular station  and depth.   The  1986 results for the  difference
between  replicates  are   presented  in  Table  20.  Appendix E contains  the BMDP
statistical  computer outputs for each parameter.

-------
                                                                         PAGE 55
     The mean difference between replicates was within approximately one percent
of  the  chart scale for all Auto Analyzer parameters, except ammonia,  which was
over three increments.  All parameters had  greater  than  90%  of  the  quality
control  samples  within  the  range  limits.   The 1986 mean differences between
replicates were higher than the 1985 means for most  parameters.   However,  the
1986  medians  were comparable to the 1985 means.  The larger means for 1986 can
be explained by the variability in the water mass of  the  western  basin.   The
western basin, which was not sampled in 1985,  was much less homogeneous than the
central and eastern basins.

     Auto Analyzer quality control checks were performed  repeatedly  throughout
the  sampling  period.   Fresh  standards were used in a daily linearity series.
Standards similar to sample concentrations were run before and after a  group  of
samples  (n=10)  as a concentration check.  In addition, at each quality control
station a distilled water sample was run as a  blank for all  Auto  Analyzer  and
suspended solid parameters.

                               1986 BLANK VALUES
            PARAMETER
MEAN
UNITS
Total Phosphorus
Total Filtered Phosphorus
Soluble Reactive Phosphorus
Nitrate + Nitrite
Ammonia
Soluble Reactive Silica
Chloride
Total Suspended Solids
Residual Solids
Volatile Solids
30
30
30
30
30
30
30
28
28
28
0.17
0.91
0.20
1.30
5.77
56.73
0.34
0.30
-0.04
0.34
ug/1
ug/1
ug/1
ug/1
ug/1
ug/1
mg/1
mg/1
mg/1
mg/1
     In general, the 1986 blank values indicated that the distilled  water  used
for  making  standards  and  rinsing  filter units contained minimal  organic and
inorganic material.  The low blank values  also  indicated  very  little  sample
bottle  contamination.   All the blank means, except ammonia, were equivalent to
approximately one percent of the Auto Analyzer  chart  paper.   The  high  blank
values  for  ammonia  confirmed the airborne ammonia contamination problem.   The
1986 phosphorus blank means were lower than the  1985  phosphorus  blank  means.
However,  in  both years the total filtered phosphorus blank was higher  than the
total phosphorus blank.  The phosphorus blank differences may  result  from  the
increased sources of contamination due to the filtering process.

     The quality control program also included the  spiking  of  splits   with  a
known  concentration  in  a  1:1  ratio to determine the accuracy of  the method.
Accuracy is a measure of the difference between a  true  value  and  a   measured
value, and it is expressed using the spike difference and the percent recovery.

-------
                                                                         PAGE 56
     Spike Difference: The difference between the actual spike value and
                       the theoretical spike value.
     Percent Recovery:
         Where:
                       SPIKE DIFFERENCE = ACTUAL - THEORETICAL



                       PERCENT RECOVERY  =   ACTUAL  X  100%

                                               THEORETICAL

                       ACTUAL = Actual Spike Value of the Sample

                       THEORETICAL =  Spike Standard + Original Sample Value
       * Division by 2 because of a 1:1 spike to sample ratio
                       1986 CALCULATED SPIKE DIFFERENCES
PARAMETER  UNITS   N   MEAN  MEDIAN  ST DEV
                                               RANGE LIMIT
                                              LOWER   UPPER
 % SAMPLES
WITHIN RANGE
TP
TFP
SRP
N+N
NH3
SRS
CL
ug/1
ug/1
ug/1
ug/1
ug/1
ug/1
mg/1
98
95
89
95
83
97
95
0.03
-0.21
0.64
0.64
-0.28
28.44
-0.19
-0.28
-0.45
0.13
0.50
-0.60
17.50
-0.05
1.96
1.54
1.25
5.73
3.53
90.84
0.55
-5
-4
-3
-16
-10
-244
-1
.85
.83
.11
.55
.87
.10
.84
5
4
4
17
10
301
1
.91
.41
.39
.83
.31
.00
.46
99
97
100
100
98
97
98
.02
.9%
.0%
.0%
.8%
.9%
.92
                         1986 PERCENT RECOVERY RESULTS

                  MEAN       MEDIAN      ST DEV    PERCENT RECOVERY RANGE
PARAMETER   N
TP
TFP
SRP
N+N
NH3
SRS
CL
98
95
89
95
83
97
95
100.63%
99.132
104.342
100. 21%
98.972
101.712
99.142
98.712
97.412
102.932
100.142
97.322
100.812
99.742
9.062
8.242
8.122
2.232
18.102
5.302
2.622
81.542 -
81.942 -
83.092 -
95.822 -
60.472 -
88.062 -
86.082 -
134.852
150.702
128.002
108.572
166.472
125.512
103.432

-------
                                                                         PAGE  57
     All the spike differences (means)  were  within  one  percent  of  the  Auto
Analyzer  chart  paper  scale.   The  range limits of the spike  differences  were
about +_ 5% of the chart scale for all  parameters except ammonia.   The wide range
(-11.20  ug/1  to  10.46  ug/1)  in ammonia  spike differences resulted in  a large
standard deviation.  The large percent recovery range of 60.47 % to 166.472   was
also indicative of the ammonia contamination problem.

     Overall, the 1986 results indicated good  quality  control.    However,   the
airborne  ammonia  contamination  continued  to be a  problem in  the 1986  ammonia
data base.

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                                                                       PAGE 58
                               REFERENCES  CITED

Bartish,  T.  M.,  1984.  Thermal  Stratification  in  the Western Basin of Lake
     Erie:  Its Characteristics, Mechanisms of Formation, and Chemical and
     Biological  Consequences.  M.S  Thesis,  Ohio State University, 104 pages.

Brezonik, P. L., 1972. Nitrogen: Sources and  Transformations in Natural
     Waters. In: Nutrients in  Natural  Waters.  Ed. Allen H. E. and J. R.
     Kramer. Wiley and Sons.  457 pages.

Burns,N.M.  1976. Oxygen Depletion  in  the Central and Eastern Basins of Lake
     Erie,  1970. J.Fish. Res.  Bd.  Can. 33:512-519.

Carlson,  R.  E.,  1977.  A Trophic State  Index for  Lakes. Limnol. Oceanogr.
     22 (2): 361-368.

Clark, J. L., 1981.  Quidelines for Control  of Analytical Procedures in an
     Interlaboratory Quality  Control  Program.  International Joint Commission
     In-House Mimeo. 11 pages.

Davis,W.S.,  Herdendorf,C.E., and   Fay.L.A., 1985. Evaluation of Sediment
     Oxygen  Demand (SOD) Measurements  in Lake Erie. Ohio Sea Grant Technical
     Bulletin   20 (revised)  133 pages.

Dobson, H.  F. H., 1976. Eutrophication Status of the Great Lakes. Canada
     Centre  for  Inland Waters  (Environment Canada) Unpublished Manuscript.
     124 pages.

Fay, L. A.,  1976. An Investigation of  Corrected  Chlorophyll A_ and
     Pheophytin  A in Lake Erie's Western and  Central Basins. M.S Thesis,
     Ohio State  University, 177 pages.

Fay.L.A., 1984 Western Basin  Nearshore Study  1978-1979; An Evaluation of the
     Temperature and Dissolved Oxygen  Data. CLEAR Technical Report No. 204:3,
     46 pages.

Fay, L. A. and Rathke, D. E.,  1986a.  1985  Open Lake Water Quality Conditions
     for Lake Erie's Central  and Eastern Basins. CLEAR Technical Report
     No.  306, 212 pages.

Fay, L. A. and Rathke, D. E.,  1986b.  Determination of Spatial Zones Within the
     Western Basin of Lake Erie to Establish  Future Sampling Strategies.
     The Ohio State University, CLEAR  Technical  Report No. 305, 211 pages.

Great Lakes  Water Quality Board, 1987. Report on Great Lakes Water Quality.
     Submitted to the International Joint  Commission. 236 pages

Gregor, D.  J. and Rast, W.,  1979.  Trophic  Characterization of the U.S. and
     Canadian Nearshore Zones  of the  Great Lakes. International Joint
     Commission, PLUARG. 38 pages.

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                                                                        PAGE  59
Hanson, B., Rosa, F., and Burns, N.  M.,  1978.   Survey 8:  A Budget Calculation
     Program for Lake Erie.  Canada  Centre for  Inland Waters.  In-House
     Document, Unpublished Mimeo. 54 pages.

Hartig, J. H. and Gannon,J.E.,  1986. Opposing Phosphorus  and  Nitrogen Trends
     in the Great Lakes.  Alternatives.  13:19-23.

Lake Erie Task Force, 1986.  Lake Erie Surveillance  Plan.  Part 5.  IN:
     Great Lakes Internal Surveillance Plan  (GLISP),  International
     Joint Commission, Great Lakes Program Office,  Windsor, Ontario.

Letterhos, J. A., 1982. Clear Analytical  Methods Manual.  The  Ohio State
     University, CLEAR Technical Report No.  205, 142  pages.

Maloney, T. E. (ed). 1979. Lake and Reservoir Classification  Systems.
     EPA 600/3-79-074. 241 pages.

Rast, W. and Lee, G. R., 1978.  Summary Analysis of  the North  America OFCD
     Eutrophication Project: Nutrient Loading-Lake  Responce Relationships
     and Trophic State Indices. EPA 600/3-78-008. 454 pages.

Rathke, D. E., (ed) 1984. Lake Erie Intensive Study 1978-1979,  Final Report,
     EPA 905/4-84-001. 484 pages.

Rawson, D. S., 1956. Algal Indicators of  Trophic Lake Types.  Limnol. and
    Oceanogr. 1(1):18-25.

Reckhow, K. H.,  1980. Techniques for Exploring  and  Presenting Data  Applied
     to Lake Phosphorus Concentrations.  Can. J. Fish. Aquat.  Sci.  37:290-294.

Rosa, F. and Burns, N. M., 1987. Lake Erie Central  Basin  Oxygen Depletion
     Changes from 1929-1980. J. Great Lakes  Research  (In  Press).

Ruttner, F., 1963.  Fundamentals of Limnology. University  of Toronto Press.
     Toronto. 307 pages.

Snodgrass.W.J.,  and Fay.L.A., 1980.  Measurement of  Lake Erie  Sediment Oxygen
     Demand and Its Oxygen Dependancy. Presented at the 23rd  Conf,Great Lakes
     Res., Kingston, Ontario, May 19-22,1980.

Steinhart, C. E., Scheirow,  L.  J., and Chesters, G.,  1981.  An Environmental
     Quality Index  for the Nearshore Waters  of  the  Great  Lakes.

Zafar,  A.  R., 1959. Taxonomy of Lakes. Hydrobiologia  13:287-299.

-------
                                        PAGE  60
TABLES

-------
                                                                PAGE 61
                       TABLE 1

1986 LAKE ERIE OPEN LAKE WATER QUALITY SURVEY SCHEDULE
BASIN
WB
MB
WB
WB, CB
WB, CB, EB
WB, CB
WB, CB
WB
WB, CB, EB
WB
WB, CB, EB
WB
SURVEY
1
2
3
4
5
6
7
8
9
10
11
12
DATE JULIAN DATE JULIAN MID POINT
APRIL 10
MAY 5
MAY 24
JUNE 6 - JUNE 8
JUNE 25 - JUNE 29
JULY 15 - JULY 17
AUGUST 5 - AUGUST 8
AUGUST 25
SEPTEMBER 15 - SEPTEMBER 19
OCTOBER 13
OCTOBER 27 - NOVEMBER 1
NOVEMBER 17
100
125
144
157-159
176-180
196-198
217-220
237
258-262
286
300-305
321
100
125
144
158
178
197
218
237
260
286
303
321
                  WB = WESTERN  BASIN
                  CB = CENTRAL  BASIN
                  EB = EASTERN  BASIN

-------
                                                       PAGE 62
              TABLE 2

GEOGRAPHIC COORDINATES FOR THE 1986
         LAKE ERIE STATIONS
STATION
58
59
60
61
91
92
30
31
32
36
37
38
42
43
73
78
9
10
15
63
BASIN
MB
MB
MB
MB
MB
MB
CB
CB
CB
CB
CB
CB
CB
CB
CB
CB
EB
EB
EB
EB
LATITUDE
(N)
41 41 06
41 43 36
41 53 30
41 56 48
41 50 27
41 57 00
42 25 48
42 15 12
42 04 54
41 56 06
42 06 36
42 16 54
41 57 54
41 47 18
41 58 40
42 07 00
42 32 18
42 40 48
42 31 00
42 25 00
LONGITUDE
(W)
82 56 00
83 09 00
83 11 48
83 02 42
82 55 00
82 41 12
80 12 18
81 06 24
81 00 42
81 28 42
81 34 30
81 40 18
82 02 30
81 56 42
81 45 25
81 15 00
79 37 00
79 41 30
79 53 36
79 48 00
MATER DEPTH
(M)
10.2
9.0
9.0
9.7
11.2
12.0
20.5
21.3
21.5
22.9
23.9
21.6
22.2
22.6
24.1
22.5
46.6
31.8
60.2
45.3
         MB = MESTERN BASIN
         CB = CENTRAL BASIN
         EB = EASTERN BASIN

-------
                                        TABLE 3
                                  SYNOPSIS OF METHODS
                                                                                 PAGE 63
PARAMETER
METHOD
RANGE
DETECTION
LIMIT
Temperature
Dissolved
Oxygen
Total
Phosphorus
Total
Filtered
Phosphorus
Soluble
Reactive
Phosphorus

Nitrate +
Nitrite

Ammonia
Kjeldahl
Nitrogen

Dissolved
Reactive
Silicate
Thermistor (InterOcean)
Mechanical Bathythermograph
NBS Calibrated Thermometer

Electrode (InterOcean,
Titrimetric (Winkler azide
modification)

Persulfate Digestion,
Stannous Chloride
Persulfate Digestion,
Stannous Chloride, AAII
Stannous Chloride, AAII
Cadmium Reduction, AAII
Phenate Method, AAII
Analysis performed by
USEPA

Moli bdosi1i ca te-Ascorbi c
Acid-Oxalic Acid, AAII
0-35 °C
0-20 mg 02/1
0-100 ug P/l
Expanded further
by Machine or
Manual Dilutions

0-100 ug P/l
Expanded further
by Machine or
Manual Dilutions

0-50 ug P/l
0-1 mg N/l
0-100 ug N/l
0-200 ug N/l
0-400 ug N/l
0.2 °C



0.05 mg 02/1



0.2 ug/1




0.2 ug/1




0.2 ug/1



0.005 mg/1
0.5 ug/1
1.0 ug/1
2.0 ug/1
0-5.00 mg Si02/l   0.03 mg/1

-------
                                  TABLE 3 (CONTINUED)
                                  SYNOPSIS OF METHODS
                                                                                 PAGE 64
PARAMETER
Transparency
Turbidity
METHOD
Secchi Disk
Hach Turbidimeters
RANGE
NA
0-1000 NTU
DETECTION
LIMIT
0.01 m
0.02 NTU
Chlorophyll


Pheopigment
Suspended
Solids

Residual
Solids
Specific
Conductance

Chloride

Alkalinity

pH
Phyto-
plankton
Zooplankton
(Model 2100A and Ratio)

Acetone extinction
Varian Spectrophotometer

Acetone extinction
Varian Spectrophotometer

Gravimetric, using Whatman
GF/C glass fiber filters

GF/C Glass Fiber Pad Ignited
and Weighed on Electronic
Balance

In situ probe (Interocean)
Electrode (Beckman, YSI)

Ferricyanide, AAII

Titrimetric (.02N HC1)

Electrode (InterOcean,
Martek, Orion)

Optical examination
(Collected w/ Niskin
Bottle,  Preserved
w/ Lugols) Analysis
performed by USEPA

Optical examination
(64 u net, CaC03
formalin + sucrose)
Analysis performed by
USEPA
0-50 ug/1



0-50 ug/1

0-10,000 mg/1


0- 1,000 mg/1



0-1000umhos/cm


0-50 mg Cl/1

0-250 mg/1 CaCOS

0-14
macro +
nanoplankton
.075 mm
0.02 ug/1



0.04 ug/1

0.01 mg/1


0.01 mg/1



2 umhos/cm


0.2 mg/1

0.5 mg/1

0.1


species
species

-------
                         TABLE 4
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 65
SURVEY DEPTH
DATE
SURVEY 1
APRIL 10
EPI





SURVEY 2
MAY 5
EPI





SURVEY 3
MAY 24
EPI





SURVEY 4
JUNE 6
EPI





STATISTICS


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
TEMPERATURE
CO


6.28
0.22
6.60
5.80
6.80
12


10.71
0.14
10.55
10.30
11.10
12


14.90
0.36
14.90
14.25
15.70
12


16.97
0.18
17.00
16.60
17.30
12
DISSOLVEC
OXYGEN
(MG/L)


12.49
0.17
12.40
12.10
12.80
12


11.52
0.10
11.45
11.30
11.70
12


10.23
0.21
10.30
9.65
10.80
12


9.68
0.14
9.50
9.30
10.10
12
) % DO
SAT. (
(I)


102.50
1.00
102.36
100.15
104.22
12


102.37
0.90
101.97
100.51
104.11
12


98.76
2.24
101.51
91.84
104 . 14
12


97.43
1.32
96.90
93.65
100.24
12
CORRECTED
:ONDUCTIVITY
(UMHOS)


252.92
6.84
255.50
228.00
264.00
12


236.75
4.75
234.50
224.00
251.50
12


234.42
3.32
235.50
225.00
242.00
12


233.00
1.10
233.50
230.00
236.00
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 66
SURVEY DEPTH
DATE
SURVEY 5
JUNE 29
EPI





SURVEY 6
JULY 15
EPI





SURVEY 7
AUGUST 5
EPI





SURVEY 8
AUGUST 25
EPI





STATISTICS


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
TEMPERATURE
CO


21.87
0.34
21.75
21.35
22.40
12


22.81
0.28
22.70
22.05
23.10
12


24.34
0.20
24.30
23.90
24.75
12


23.15
0.08
23.20
23.00
23.40
12
DISSOLVE!
OXYGEN
(MG/L)


7.96
0.32
7.90
6.90
9.00
12


8.26
0.32
8.35
7.40
9.05
12


8.10
0.16
8.00
7.65
8.50
12


7.99
0.08
8.00
7.80
8.10
12
) % DO
SAT. (
(%)


89.61
4.13
87.05
76.44
101.89
12


95.07
4.25
94.38
84.84
104.51
12


96.63
2.12
95.64
90.10
102.77
12


92.38
0.91
92.06
90.40
93.43
12
CORRECTED
:ONDUCTIVITY
(UMHOS)


245.50
4.45
243.50
232.50
253.50
12


235.08
1.98
236.50
228.00
240.50
12


230.17
2.64
228.00
222.50
237.00
12


234.25
2.30
233.50
229.00
238.50
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 67
SURVEY DEPTH
DATE
SURVEY 9
SEPTEMBER 15
EPI





SURVEY 10
OCTOBER 13
EPI





SURVEY 11
OCTOBER 27
EPI





SURVEY 12
NOVEMBER 17
EPI





STATISTICS


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
TEMPERATURE
CO


19.27
0.12
19.25
19.00
19.60
12


15.43
0.25
15.90
14.50
15.90
12


12.49
0.09
12.50
12.25
12.70
12


6.06
0.25
5.95
5.65
6.80
12
DISSOLVED
OXYGEN
(MG/L)


8.58
0.11
8.65
8.50
8.85
12


9.17
0.85
9.10
- 8.95
9.45
12


10.13
0.12
10.10
9.90
10.55
12


11.47
0.09
11.45
11.20
11.80
12
% DO
SAT. (
U)


90.70
1.17
91.69
89.38
93.48
12


89.33
0.53
89.94
88.08
90.59
12


93.16
1.07
92.87
91.04
96.64
12


93.77
0.52
93.94
93.07
95.18
12
CORRECTED
:ONDUCTIVITY
(UMHOS)


227.42
3.02
226.00
219.00
231.50
12


230.75
4.04
230.50
223.00
234.00
12


257.75
4.25
256.50
253.50
263.00
12


241.50
10.46
220.00
214.00
270.00
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 68
SURVEY
DATE
SURVEY 1
APRIL 10






SURVEY 2
MAY 5






SURVEY 3
MAY 24






SURVEY 4
JUNE 6






DEPTH STATISTICS
P


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
TOTAL
'HOSPHORUS
(UG/L)


17.0
1.4
14.9
13.5
18.6
11


10.8
0.9
10.1
8.4
13.3
11


8.5
1.5
6.5
4.8
13.4
12


16.6
2.5
14.5
9.8
20.7
10
TOTAL
FILTERED
PHOSPHORUS
(UG/L)


1.3
0.4
1.3
0.3
1.9
9


2.3
1.5
0.4
0.0
2.7
10


1.0
0.4
0.0
0.0
2.4
11


2.1
0.7
1.5
0.3
2.6
12
SOLUBLE
REACTIVE
PHOSPHORUS
(UG/L)


0.6
0.2
0.1
0.0
1.1
10


ND
ND
ND
ND
ND
ND
.

0.9
0.1
0.8
0.6
1.0
12


1.1
0.2
1.0
0.8
1.4
12
TOTAL
CHLORIDE
(MG/L)


14.6
1.7
14.8
9.7
17.0
12


12.0
0.8
12.0
9.4
15.3
12


11.9
0.8
12.4
9.6
14.0
12


12.2
0.4
11.9
11.7
12.6
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 69
SURVEY
DATE
SURVEY 5
JUNE 29






SURVEY 6
JULY 15






SURVEY 7
AUGUST 5






SURVEY 8
AUGUST 25






DEPTH STATISTICS
P


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN '
Ql
Q3
N
TOTAL
HOSPHORUS
(UG/L)


15.0
1.9
14.4
10.0
20.8
12


18.1
0.9
17.7
16.3
20.6
12


24.8
2.0
23.4
21.2
30.1
12


28.9
3.3
23.1
20.0
42.4
12
TOTAL
FILTERED
PHOSPHORUS
(UG/L)


3.1
0.7
3.0
1.0
5.1
12


7.5
0.5
8.2
6.1
9.0
12


6.7
0.8
6.8
4.6
7.3
12


5.5
0.8
5.3
3.2
6.3
12
SOLUBLE
REACTIVE
PHOSPHORUS
(UG/L)


0.9
• 0.4
0.0
0.0
1.6
12


1.1
0.2
0.9
0.5
1.8
12


0.3
0.1
0.0
0.0
0.9
12


0.0
0.0
0.0
0.0
0.0
12
TOTAL
CHLORIDE
(MG/L)


12.7
0.7
12.2
11.3
13.8
12


10.7
0.3
11.1
10.2
11.4
12


9.9
0.4
9.6
8.9
11.3
12


11.1
0.5
10.7
9.7
12.1
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 70
SURVEY
DATE
SURVEY 9
SEPTEMBER 15






SURVEY 10
OCTOBER 13






SURVEY 11
OCTOBER 27






SURVEY 12
NOVEMBER 17






DEPTH STATISTICS
P


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
TOTAL
HOSPHORUS
(U6/L)


33.5
3.8
27.9
25.4
43.3
12


27.7
2.5
24.3
21.4
31.7
12


28.1
2.8
26.8
21.8
32.6
12


26.5
4.7
19.1
15.0
38.9
12
TOTAL
FILTERED
PHOSPHORUS
(UG/L)


9.2
1.8
6.4
5.5
11.8
12


10.0
1.3
9.5
6.1
13.8
12


9.6
2.0
6.9
5.0
14.1
12


5.3
1.5
2.8
2.3
6.4
12
SOLUBLE
REACTIVE
PHOSPHORUS
(UG/L)


0.1
0.1
0.0
0.0
0.1
12


2.6
0.9
1.9
0.0
3.7
12


1.7
0.9
0.0
0.0
2.1
12


1.6
0.6
0.8
0.4
1.3
12
TOTAL
CHLORIDE
(MG/L)


10.3
0.5
10.6
8.7
11.4
12


11.5
0.7
12.8
8.6
13.3
12


13.3
0.4
13.0
12.2
14.6
12


9.8
1.0
s.r
7.2
13.0
12

-------
                                                                  PAGE 71
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY
DATE
SURVEY 1
APRIL 10




-

SURVEY 2
MAY 5






SURVEY 3
MAY 24






SURVEY 4
JUNE 6






DEPTH STATISTICS


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
NITRATE
NITRITE
(UG/L)


583.6
45.1
590.5
480.0
609.0
10


429.8
40.3
382.0
323.0
502.0
12


330.6
10.9
328.5
298.0
359.5
12


282.9
7.8
282.0
268.5
306.5
12
AMMONIA
NITROGEN
(UG/L)


32.2
9.8
19.2
6.8
56.3
10


12.7
1.8
12.9
7.9
18.1
11


15.0
3.1
10.7
7.9
18.7
12


18.7
3.0
16.6
11.0
25.4
12
KJELDAHL
NITROGEN
(MG/L)


0.22
0.04
0.25
0.10
0.30
6


0.20
0.04
0.20
0.10
0.20
6


0.23
0.02
0.20
0.20
0.30
6


0.25
0.02
0.25
0.20
0.30
6
SOLUBLE
SILICA
(UG/L)


1133.9
147.9
1266.5
1226.0
1392.0
10


845.0
217.6
652.5
268.5
1189.5
12


305.4
85.4
187.5
134.5
317.5
12


489.6
100.7
332.5
257.5
692.5
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 72
SURVEY
DATE
SURVEY 5
JUNE 29






SURVEY 6
JULY 15






SURVEY 7
AUGUST 5






SURVEY 8
AUGUST 25






DEPTH STATISTICS


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
NITRATE
NITRITE
(UG/L)


408.3
53.8
362.0
307.5
469.5
12


362.8
27.0
332.0
311.0
443.0
12


277 .4
11.1
272.5
256.0
303.5
12


172.7
16.7
165.0
131.5
234.5
12
AMMONIA
NITROGEN
(UG/L)


26.4
5.5
23.6
11.7
29.3
12


18.5
3.8
18.7
4.7
30.5
12


12.9
1.6
10.9
9.5
17.1
12


14.2
2.3
13.8
6.8
19.4
12
KJELDAHL
NITROGEN
(MG/L)


0.18
0.04
0.15
0.10
0.30
6


0.18
0.03
0.20
0.10
0.20
6


0.20
0.03
0.20
0.20
0.20
6


0.25
0.06
0.20
0.20
0.30
6
SOLUBLE
SILICA
(UG/L)


1122.8
81.8
1092.5
1025.0
1317.0
12


836.9
130.3
802.5
567.0
949.0
12


1468.9
136.6
1340.5
1229.5
1642.0
12


1345.3
130.4
1579.0
786.0
1688.0
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 73
SURVEY
DATE
SURVEY 9
SEPTEMBER 15






SURVEY 10
OCTOBER 13






SURVEY 11
OCTOBER 27






SURVEY 12
NOVEMBER 17






DEPTH STATISTICS


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
NITRATE
NITRITE
(UG/L)


132.8
21.2
151.5
102.0
190.0
12


297.5
28.1
302.0
268.5
321.0
12


522.3
35.9
503.0
413.0
588.0
12


442.2
68.7
309.0
291.0
562.0
12
AMMONIA
NITROGEN
(UG/L)


7.5
2.5
3.8
2.0
7.9
12


14.6
3.3
13.2
4.8
21.7
12


8.9
2.4
5.5
4.5
9.5
12


5.2
0.7
4.5
3.5
6.3
12
KJELDAHL
NITROGEN
(MG/L)


0.29
0.05
0.20
0.20
0.45
12


0.23
0.02
0.20
0.20
0.20
12


0.30
0.05
0.25
0.20
0.40
6


0.25
0.07
0.20
0.10
0.40
6
SOLUBLE
SILICA
(UG/L)


1173.0
139.6
1236.5
1029.0
1482.0
12


1582.5
69.2
1650.0
1500.0
1695.0
12


1676.0
62.0
1612.5
1526.0
1815.0
12


1238.8
142.2
1107.5
910.0
1737.5
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 74
SURVEY DEPTH
SURVEY 1
APRIL 10
EPI





SURVEY 2
MAY 5
EPI





SURVEY 3
MAY 24
EPI





SURVEY 4
JUNE 6
EPI





STATISTICS CORRECTED
CHLOROPHYLL A
(UG/L)


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


5.89
0.63
6.69
4.22
7.92
12


5.16
0.38
5.34
5.02
6.09
12


7.19
1.01
6.45
4.59
9.31
12


4.52
0.72
4.21
2.20
6.43
12
PHEOPHYTIN
(UG/L)


6.89
1.35
5.56
4.37
7.87
12


4.10
0.40
3.94
3.26
5.17
12


3.47
1.28
2.27
1.38
3.17
12


5.45
0.73
5.28
3.60
6.39
12
TURBIDITY
(NTU)


7.94
2.02
5.80
4.00
8.65
12


4.54
0.26
4.45
4.05
5.45
12


3.58
0.78
2.35
1.90
4.20
12


8.12
• 1.48
8.35
3.60
9.70
12
SECCHI
(M)


1.50
0.22
1.35
1.10
2.00
6


1.70
0.11
1.80
1.60
1.90
6


2.67
0.23
2.60
2.20
3.30
6


1.48
0.20
1.50
1.10
2.00
6

-------
                                                                  PAGE 75
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
SURVEY 5
JUNE 29
EPI





SURVEY 6
JULY 15
EPI





SURVEY 7
AUGUST 5
EPI





SURVEY 8
AUGUST 25
EPI





STATISTICS CORRECTED
CHLOROPHYLL A
(UG/L)


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


4.77
1.07
4.12
2.32
5.50
12


6.40
1.02
6.14
4.27
8.87
12


7.93
1.09
8.72
4.44
10.75
12


9.13
2.68
5.70
2.63
11.01
12
PHEOPHYTIN
(UG/L)


2.02
0.50
1.72
0.55
3.47
12


1.60
0.57
0.98
0.71
1.44
12


3.23
0.90
2.23
1.60
3.14
12


10.29
2.61
6.74
4.32
11.97
12
TURBIDITY
(NTU)


6.28
1.08
5.60
3.40
8.55
12


4.14
0.44
3.75
3.10
4.80
12


4.67
0.61
3.90
3.10
5.35
12


6.84
0.58
6.25
5.25
8.25
12
SECCHI
(M)


2.45
0.31
2.20
2.00
2.50
6


2.33
0.24
2.25
1.90
2.90
6


1.82
0.21
1.95
1.30
2.20
6


1.27
0.09
1.35
1.00
1.40
6

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 76
SURVEY DEPTH
SURVEY 9
SEPTEMBER 15
EPI





SURVEY 10
OCTOBER 13
EPI





SURVEY 11
OCTOBER 27
EPI





SURVEY 12
NOVEMBER 17
EPI





STATISTICS CORRECTED
CHLOROPHYLL A
(UG/L)


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


12.55
1.95
11.40
8.27
15.89
12


5.23
0.54
5.30
3.52
6.52
12


7.32
1.35
7.31
3.09
10.22
12


8.11
1.37
8.01
2.76
12.22
12
PHEOPHYTIN
(UG/L)


2.91
0.81
1.83
1.65
2.72
12


5.96
0.83
6.18
3.13
7.54
12


8.71
1.62
7.76
4.93
11.50
12


4.11
3.80
0.51
2.68
5.78
12
TURBIDITY
(NTU)


6.84
0.41
7.10
5.50
7.95
12


8.98
0.68
8.35
6.95
10.30
12


6.75
0.53
6.30
5.60
7.40
12


11.05
2.10
7.90
6.80
17.00
12
SECCHI
(M)


1.22
0.07
1.25
1.20
1.30
6


1.18
0.09
1.20
1.00
1.30
6


1.50
0.14
1.55
1.10
1.70
6


1.17
0.22
1.20
0.60
1.40
6

-------
                                                                  PAGE 77
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
DATE
SURVEY 1
APRIL 10
EPI





SURVEY 2
MAY 5
EPI





SURVEY 3
MAY 24
EPI





SURVEY 4
JUNE 6
EPI





TOTAL RESIDUAL
STATISTICS SUSPENDED SOLIDS SOLIDS
(MG/L) (MG/L)


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


8.36
2.35
5.90
4.38
7.24
11


5.50
0.29
5.59
4.94
6.31
12


5.01
0.88
3.39
2.87
6.35
12

•
7.92
1.38
5.96
4.24
9.80
12


6.41
2.01
4.28
2.99
5.67
11


4.07
0.26
3.99
3.63
4.93
12


3.47
0.78
2.02
1.61
4.51
12


6.05
1.16
4.00
2.96
7.96
12
VOLATILE
SOLIDS
(MG/L)


1.95
0.37
1.62
1.40
1.91
11


1.43
0.05
1.39
1.28
1.58
12


1.54
0.12
1.50
1.38
1.84
12


1.87
0.25
1.58
1.33
2.23
12
ZVOLATILE
SOLIDS


28.29
4.05
21.73
20.31
37.70
11


26 .42
1.18
25.93
23.16
29.98
12


35.80
3.29
34.64
27.55
44.89
12


25.54
1.84
24.15
20.30
29.95
12

-------
                                                                  PAGE 78
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
DATE
SURVEY 5
JUNE 29
EPI





SURVEY 6
JULY 15
EPI





SURVEY 7
AUGUST 5
EPI





SURVEY 8
AUGUST 25
EPI





TOTAL RESIDUAL
STATISTICS SUSPENDED SOLIDS SOLIDS
(MG/L) (MG/L)


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


6.55
1.03
6.34
3.24
8.66
12


4.84
0.44
4.72
3.73
5.46
12


5.48
0.74
5.00
3.59
6.10
12


8.82
0.90
7.22
6.52
11.60
12


4.73
0.94
3.96
2.13
7.00
12


3.20
0.43
2.82
2.17
3.84
12


3.63
0.54
2.99
2.40
4.63
12


5.90
0.59
5.04
4.37
7.00
12
VOLATILE
SOLIDS
(MG/L)


1.83
0.19
1.84
1.20
2.39
12


1.64
0.17
1.55
1.26
1.76
12


1.84
0.26
1.63
1.19
2.12
12


2.91
0.36
2.70
2.00
4.30
12
^VOLATILE
SOLIDS
(*)


32.84
3.95
29.24
22.76
48.25
12


35.43
3.81
32.44
23.72
44.74
12


34.44
2.61
34.01
27.69
42.35
12


32.64
1.41
31.55
29.78
36.60
12

-------
                                                                  PAGE 79
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
DATE
SURVEY 9
SEPTEMBER 15
EPI





SURVEY 10
OCTOBER 13
EPI





SURVEY 11
OCTOBER 27
EPI





SURVEY 12
NOVEMBER 17
EPI





TOTAL RESIDUAL
STATISTICS SUSPENDED SOLIDS SOLIDS
(MG/L) (MG/L)


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


9.45
0.55
9.68
7.97
10.45
12


9.40
0.55
8.77
8.04
10.50
12


7.30
0.30
7.27
6.49
7.82
12


11.48
1.81
9.40
7.13
17.11
12


6.43
0.51
6.88
4.76
7.43
12


7.46
0.49
7.44
5.83
8.52
12


5.79
0.31
5.78
5.03
6.20
12


9.66
1.61
7.73
5.96
14.55
12
VOLATILE
SOLIDS
(MG/L)


3.01
0.33
2.64
2.37
3.27
12


1.94
0.20
2.07
1.82
2.31
12


1.52
0.05
1.47
1.41
1.68
12


1.83
0.21
1.64
1.19
2.56
12
^VOLATILE
SOLIDS
(%}


32.09
3.00
28.00
24.58
35.66
12


20.73
2.17
22.68
17.80
25.15
12


21.17
1.10
21.02
19.00
23.77
12


17.76
1.49
16.31
14.27
17.72
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 80
SURVEY DEPTH STATISTICS
DATE
SURVEY 1
APRIL 10
EPI





SURVEY 2
MAY 5
EPI





SURVEY 3
MAY 24
EPI





SURVEY 4
JUNE 6
EPI







MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
01
03
N


MEAN
STD. ERR.
MEDIAN
Ql
03
N


MEAN
STD. ERR.
MEDIAN
Ql
03
N
ALKALINITY
PH PHENOLPHTHALEIN
(SU) (MG/L)


7.92
0.03
7.90
7.87
7.94
12


8.27
0.02
8.28
8.20
8.35
12


8.12
0.04
8.14
8.02
8.27
12


8.19
0.03
8.17
8.11
8.19
12


0.0
0.0
0.0
0.0
0.0
12


2.78
0.35
3.10
1.85
3.55
12


2.42
0.45
2.15
2.00
3.45
12


3.22
0.33
3.40
2.00
4.00
12
ALKALINITY
TOTAL
(MG/L)


89.72
0.50
89.85
88.30
91.40
12


89.26
0.84
88.95
87.15
91.55
12


90.44
0.65
90.60
88.20
92.35
12


89.23
0.36
89.55
88.60
90.15
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 81
SURVEY DEPTH STATISTICS
DATE
SURVEY 5
JUNE 29
EPI





SURVEY 6
JULY 15
EPI





SURVEY 7
AUGUST 5
EPI





SURVEY 8
AUGUST 25
EPI







MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR. -
MEDIAN
Ql
Q3
N
ALKALINITY
PH PHENOLPHTHALEIN
(SU) (MG/L)


8.11
0.06
8.05
7.94
8.29
12


8.21
0.07
8.23
8.04
8.30
12


8.43
0.04
8.47
8.27
8.52
12


8.50
0.04
8.44
8.41
8.63
12


1.55
0.62
0.00
0.00
2.85
12


2.32
0.76
1.90
0.00
3.85
12


5.89
0.80
5.50
3.95
7.65
12


5.82
0.66
5.65
4.10
7.30
12
ALKALINITY
TOTAL
(MG/L)


98.57
1.43
96.40
94.55
103.20
12


97.54
0.88
97.90
96.10
99.55
12


97.08
0.57
96.95
95.55
99.05
12


96.60
0.46
96.35
95.70
97.70
12

-------
                   TABLE 4 (CONTINUED)
1986 WESTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                  PAGE 82
SURVEY DEPTH
DATE
SURVEY 9
SEPTEMBER 15
EPI





SURVEY 10
OCTOBER 13
EPI





SURVEY 11
OCTOBER 27
EPI





SURVEY 12
NOVEMBER 17
EPI





STATISTICS


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
ALKALINITY
PH PHENOLPHTHALEIN
(SU) (MG/L)


8.38
0.06
8.34
8.26
8.48
12


8.13
0.02
8.14
8.07
8.19
12


8.23
0.03
8.24
8.16
8.33
12


8.06
0.05
8.10
8.05
8.13
12


4.03
0.60
3.30
2.40
5.40
12


0.00
0.00
0.00
0.00
0.00
12


1.81
0.40
1.50
1.10
2.60
12


0.36
0.20
0.00
0.00
0.70
12
ALKALINITY
TOTAL
(MG/L)


94.64
0.78
93.80
92.90
96.40
12


88.22
0.65
87.75
86.50
90.00
12


96.23
1.01
96.40
95.15
98.15
12


92.24
2.39
87.35
86.30
98.60
12

-------
                                                                        PAGE  83
                                   TABLE 5
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS

SURVEY
DATE
DISSOLVED
DEPTH STATISTICS TEMPERATURE OXYGEN
(°C) (MG/L)
% DO
SAT.
U)
CORRECTED
CONDUCTIVITY
(UMHOS)
SURVEY 4
JUNE 6 - JUNE 8

          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
14.52
 0.31
14.35
13.60
15.60
30   '

 7.86
 0.16
                                   7,
                                   7.
  .85
  ,70
 8.20
14
10.82
 0.01
10.85
10.40
11.30
30
  .63
  .12
  .65
  .30
10.00
14
9.
0.
9.
9.
103.56
  0.93
103.47
100.53
107.10
 30

 81.26
  1.04
 81.43
 78.68
 84.15
 14
268.9
  0.6
296.5
267.0
271.0
 30

274.9
  1.0
273.5
273.0
277.0
 14
SURVEY 5
JUNE 25 - JUNE 29

          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
17.81
 0.19
17.65
17.00
18.90
30

 9.46
 0.17
 9.40
 8.90
10.00
16
 9.46
 0.07
 9.50
 9.10
 9.80
                                              30
 6.59
 0.17
                                               6.
                                               6.
                                               7.
                                              16
   50
   10
   15
          96.89
           0.58
          97.20
          95.48
          98.86
          30

          57.21
           1.44
          56.92
          53.31
          61.49
          16
            266.6
              0.6
            266.0
            265.0
            270.0
             30

            275.6
              0.7
            275.0
            274,
            277,
             16

-------
                                                                        PAGE  84
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS

SURVEY
DATE

DEPTH STATISTICS


TEMPERATURE
CO
DISSOLVED
OXYGEN
(MG/L)
% DO
SAT.
m
CORRECTED
CONDUCTIVITY
(UMHOS)
SURVEY 6
JULY 15 - JULY 17

          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
20.72
0.25
20.90
19.60
22.00
30
10.88
0.25
10.85
10.10
11.30
18
8.85
0.09
8.45
8.50
9.10
30
3.71
0.28
3.55
3.10
4.00
18
96.94
1.38
99.51
90.99
101.84
30
33.01
2.43
31.84
27.65
34.77
18
262.5
0.8
263.0
261.0
266.0
30
275.9
0.6
276.0
274.0
278.0
18
SURVEY 7
AUGUST 5 - AUGUST 8
          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
23.62
 0.07
23.50
23.30
23.80
30

12.90
 0.33
12.80
11.80
13.75
20
 8.46
 0.08
 8.50
 8.20
 8.70
30

 2.11
 0.14
 2.40
 1.60
 2.60
20
 99.08
  0.94
 99.22
 95.27
102.67
 30

 19.63
  1.40
 22.40
 14.69
 23.94
 20
258.9
  1.9
259.0
256.0
260.0
 30

274.7
  1.1
274.5
272.0
278.0
 20

-------
                                                                        PAGE  85
                             TABLE 5  (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS

SURVEY
DATE

DEPTH STATISTICS TEMPERATURE
CO
DISSOLVED
OXYGEN
(M6/L)
% DO
SAT.
U)
CORRECTED
CONDUCTIVITY
(UMHOS)
SURVEY 9
SEPTEMBER 15 - SEPTEMBER 19
          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
03
N

MEAN
STD. ERR.
MEDIAN
01
Q3
N
19.22
 0.07
19.15
19.00
19.50
30

17.30
 0.00
17.30
17.30
17.30
 1
 8.19
 0.05
 8.20
 8.00
 8.30
30

 5.90
 0.00
                                                 90
                                                 90
                                                 90
        86.55
         0.61
        86.32
        84.19
        88.25
        30

        59.80
         0.00
        59.80
        59.80
        59.80
         1
           264.7
             1.0
           265.5
           263.0
           269.0
            30
           275.0
             0.0
           275.0
           275.0
           275.0
             1
SURVEY 11
OCTOBER 27 - NOVEMBER 1
          EPI
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
15.02
 0.08
14.90
14.60
15.50
30
 9.
 0.
 9.
 9.
 9.
30
24
05
20
10
30
89.33
 0.39
88.97
88.74
90.96
30
266.9
  0.7
267.5
265.0
270.0
 30

-------
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                       PAGE 86
SURVEY          DEPTH  STATISTICS    TOTAL     TOTAL     SOLUBLE      TOTAL
DATE                              PHOSPHORUS  FILTERED   REACTIVE    CHLORIDE
                                             PHOSPHORUS  PHOSPHORUS
                                    (UG/L)     (UG/L)     (UG/L)      (MG/L)

SURVEY 4
JUNE 6 - JUNE 8
                EPI
                HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
12.4
1.0
11.2
9.3
13.9
25
14.1
0.9
13.9
12.3
15.0
12
5.1
0.6
4.7
2.6
7.3
20
4.7
0.9
5.0
2.4
5.8
12
0.4
0.1
0.1
0.0
0.9
30
0.7
0.2
0.6
0.0
1.1
14
15.2
 0.1
15.2
14.7
15.4
30
15,
 0,
                                                                       14.8
                                                                       14.6
                                                                       15.4
                                                                       14
SURVEY 5
JUNE 25 - JUNE 29
                EPI
                HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
9.4
0.7
8.7
7.0
10.7
29
16.4
1.3
14.8
13.6
16.4
16
2.8
0.3
2.6
1.6
3.5
26
5.6
1.0
3.9
3.3
5.6
16
0.1
0.1
0.0
0.0
0.0
30
0.2
0.1
0.0
0.0
0.2
15
 15.0
  0.1
 15.0
 14.7
 15.1
 30
 14.8
                                                                           .1
                                                                           .7
  0.
 14.
 14.6
 15.0
 16

-------
                             TABLE 5  (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                        PAGE  87
SURVEY          DEPTH  STATISTICS    TOTAL     TOTAL     SOLUBLE      TOTAL
DATE                              PHOSPHORUS  FILTERED   REACTIVE    CHLORIDE
                                             PHOSPHORUS  PHOSPHORUS
                                     (UG/L)     (UG/L)      (UG/L)       (MG/L)

SURVEY 6
JULY 15 - JULY 17
                EPI
                HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
9.8
0.4
9.5
8.4
11.6
29
12.1
0.6
11.6
10.1
13.1
18
4.1
0.5
4.1
2.5
5.5
29
5.0
0.6
5.5
3.3
6.8
18
0.0
0.0
0.0
0.0
0.0
30
0.0
0.0
0.0
0.0
0.0
18
14
 0
14
14
15.0
29
15.0
 0.1
14.8
14.8
15.3
17
SURVEY 7
AUGUST 5 - AUGUST 8

                EPI
                HYPO
MEAN
STD. ERR.
MEDIAN
01
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
13.5
0.5
13.2
12.3
14.4
30
13.8
0.5
14.2
11.5
15.7
20
6.1
0.2
5.8
5.3
6.3
30
6.2
0.3
6.3
5.0
7.0
19
0.5
0.2
0.0
0.0
0.6
30
0.5
0.1
0.3
0.0
0.9
20
14.4
 0,
14,
14,
14,
30

14,
 0,
                                                                        14.9
                                                                        14.5
                                                                        15.0
                                                                        20

-------
                                                                       PAGE 88
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
DATE
SURVEY 9
STATISTICS TOTAL TOTAL
PHOSPHORUS FILTERED
PHOSPHORUS
(UG/L) (UG/L)



SOLUBLE
REACTIVE
PHOSPHORUS
(UG/L)

TOTAL
CHLORIDE
(MG/L)

SEPTEMBER 15 - SEPTEMBER 19
EPI





HYPO





MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
17.4
0.9
17.1
14.9
19.3
30
20.1
0.0
20.1
20.1
20.1
1
7.1
0.3
7.3
6.0
7.9
30
13.0
0.0
13.0
13.0
13.0
1
3.7
0.1
3.8
3.4
4.0
30
6.2
0.0
6.2
6.2
6.2
1
14.6
0.1
14.7
14.4
15.0
30
14.9
0.0
14.9
14.9
14.9
1
SURVEY 11
OCTOBER 27
- NOVEMBER 1

     EPI
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
15.7
0.3
15.3
14.5
16.3
30
6.6
0.2
6.5
5.7
7.4
30
0.6
0.1
0.2
0.0
1.3
30
                                                                        14.6
                                                                         0.1
                                                                        14.6
                                                                        14.4
                                                                        14.8
                                                                        30

-------
                                                                       PAGE 89
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
DATE
SURVEY 4
JUNE 6 - JUNE 8
EPI





HYPO





STATISTICS


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
NITRATE
NITRITE
(UG/L)


285.0
23.0
309.5
155.0
407.0
30
260.9
37.9
198.0
182.0
242.0
14
AMMONIA
NITROGEN
(UG/L)


9.6
0.9
8.3
5.5
12.8
30
30.3
2.7
29.7
23.8
36.2
14
KJELDAHL
NITROGEN
(MG/L)


0.34
0.02
0.33
0.32
0.35
9
NA
NA
NA
NA
NA
NA
SOLUBLE
SILICA
(UG/L)


478.5
138.6
265.0
213.0
328.0
29
643.2
46.0
663.5
583.0
744.0
14
SURVEY 5
JUNE 25 - JUNE 29
                EPI
                HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
261.6
22.6
257.0
140.0
350.0
30
264.0
13.5
250.0
222.0
308.0
16
10.4
1.5
7.5
4.8
15.4
30
41.4
2.3
39.8
35.5
47.2
16
0.21
0.02
0.19
0.17
0.24
10
NA
NA
NA
NA
NA
NA
482.2
77.1
371.0
263.0
557.0
30
1201.9
47.2
1200.0
1081.5
1337.0
16

-------
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                       PAGE 90
SURVEY
DATE
DEPTH   STATISTICS
NITRATE   AMMONIA   KJELDAHL   SOLUBLE
NITRITE   NITROGEN  NITROGEN   SILICA
(UG/L)    (UG/L)     (MG/L)    (UG/L)
SURVEY 6
JULY 15 - JULY 17
                EPI
                HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
240.7
11.8
263.5
190.0
290.0
30
298.2
7.9
308.5
281.0
322.0
18
8.2
0.8
6.8
4.9
10.0
30
17.3
3.7
10.3
6.4
23.2
18
0.19
0.01
0.20
0.16
0.20
10
NA
NA
NA
NA
NA
NA
495.0
31.6
455.0
370.0
650.0
30
1791.6
109.8
1845.5
1544.0
2026.0
18
SURVEY 7
AUGUST 5 - AUGUST 8

                EPI
                HYPO
MEAN
STD. ERR.
MEDIAN
Ql
03
N
MEAN
STD. ERR.
MEDIAN
01
Q3
N
223.8
6.1
231.5
205.0
247.0
30
329.7
8.4
345.0
296.0
362.0
20
10.2
1.0
8.2
6.0
15.8
30
11.4
1.7
8.5
6.6
14.4
20
ND
ND
ND
NO
ND
ND
ND
ND
ND
ND
ND
ND
332.5
33.7
312.5
162.0
492.0
30
2232.8
78.0
2129.5
1988.0
2443.0
20

-------
                                                                       PAGE 91
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY
DATE
SURVEY 9
SEPTEMBER












DEPTH STATISTICS

15 - SEPTEMBER 19
EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
HYPO MEAN
STD. ERR.
MEDIAN
01
03
N
NITRATE
NITRITE
(U6/L)


163.6
7.6
172.0
152.0
193.0
30
173.0
0.0
173.0
173.0
173.0
1
AMMONIA
NITROGEN
(UG/L)


10.4
1.0
8.0
6.0
14.0
30
30.8
0.0
30.8
30.8
30.8
1
KJELDAHL
NITROGEN
(MG/L)


0.20
0.01
0.20
0.20
0.20
31
NA
NA
NA
NA
NA
NA
SOLUBLE
SILICA
(UG/L)


963.7
43.2
963.0
894.0
1174.0
30
2874.0
0.0
2874.0
2874.0
2874.0
1
SURVEY 11
OCTOBER 27
- NOVEMBER 1
                EPI
MEAN
STD. ERR.
MEDIAN
01
03
N
142.2
2.4
145.0
139.0
154.0
29
5.8
0.5
5.0
3.6
6.4
30
0.23
0.02
0.25
0.17
0.28
10
                                                             480.
                                                              29.
                                                             535,
                                                             414.0
                                                             589.0
                                                              30
.3
.6
.5

-------
                                                                       PAGE 92
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
SURVEY 4
JUNE 4 - JUNE 8
EPI





HYPO





STATISTICS CORRECTED
CHLOROPHYLL A
(UG/L)


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


1.87
0.15
2.04
1.09
2.39
30
2.06
0.23
2.40
1.21
2.63
14
PHEOPHYTIN
(UG/L)


1.46
0.18
1.21
0.71
2.16
30
2.53
0.39
2.24
1.61
3.46
14
TURBIDITY
(NTU)


0.73
0.06
0.60
0.50
0.70
30
1.22
0.08
1.15
1.10
1.50
14
SECCHI
(M)


5.10
0.47
4.95
4.40
5.00
6
NA
NA
NA
NA
NA
NA
SURVEY 5
JUNE 25 - JUNE 29

          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 1.34
 0.12
 1.11
 0.89
 1.70
30

 1.36
 0.12
                                  1.
                                  1.
                                  1.
                                 16
   52
   09
   71
 0.32
 0.05
 0.27
 0.13
 0.40
30
  .80
  ,12
  .62
 0.53
 0.86
16
0.
0.
0.
 0.64
 0.07
 0.60
 0.40
 0.70
30

 1.90
 0.14
 1.55
 1.45
 2.35
16
6.23
0.67
6.70
4.70
7.20
9

NA
NA
NA
NA
NA
NA

-------
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                       PAGE 93
SURVEY   DEPTH   STATISTICS
             CORRECTED
           CHLOROPHYLL A
              (UG/L)
                                              PHEOPHYTIN
                                                (UG/L)
                          TURBIDITY
                            (NTU)
                                  SECCHI
                                    (M)
SURVEY 6
JULY 15 - JULY 17

          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
03
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
1.64
0.15
1.69
0.95
2.16
30
1.05
0.14
1.08
0.67
1.44
18
                              0.86
                              0.21
                              0.43
                              0.33
                              0.84
                             30

                              0.72
                              0.11
                              0.60
                              0.43
                              0.93
                             18
0.55
0.06
0.50
0.40
0.50
30
6.08
0.46
6.40
4.70
7.00
10
1.41
0.15
1.25
1.00
1.90
18
NA
NA
NA
NA
NA
NA
SURVEY 7
AUGUST 5 - AUGUST 8
          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 2.
 0.
 2.
 1.
 3.
30
89
30
83
76
72
 1.14
 0.12
                                  1,
                                  0.
  .20
  .63
 1.47
20
 1.59
 0.24
 1.05
 0.68
 1.89
30

 1.42
 0.17
 1.19
 0.87
 1.79
20
 0.55
 0.03
 0.55
 0.50
 0.70
30

 1.26
 0.11
 1.15
 0.90
 1.55
20
5.36
0.22
5.20
4.90
5.90
9

NA
NA
NA
NA
NA
NA

-------
                                                                       PAGE 94
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY   DEPTH   STATISTICS    CORRECTED
                             CHLOROPHYLL A    PHEOPHYTIN   TURBIDITY  SECCHI
                                (UG/L)          (UG/L)       (NTU)       (M)
SURVEY 9





SEPTEMBER 15 - SEPTEMBER 19
EPI





HYPO





MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
4.09
0.46
3.47
2.25
4.82
30
1.71
0.00
1.71
1.71
1.71
1
2.58
0.29
2.02
1.15
4.16
30
1.26
0.00
1.26
1.26
1.26
1
1.57
0.08
1.50
1.30
1.80
29
2.40
0.00
2.40
2.40
2.40
1
3.07
0.03
3.10
3.00
3.10
3
NA
NA
NA
NA
NA
NA
SURVEY 11
OCTOBER 27 - NOVEMBER 1
          EPI
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 6.70
 0.59
 6.35
 5.36
 9.68
30
 2.34
 0.35
 1.45
 0.94
 2.94
30
1,
0,
84
10
                                                             1.90
                                                             1.
                                                             2.
                                                            30
  50
  20
2.78
0.05
2.75
2.70
2.85
4

-------
                                                                       PAGE 95
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY   DEPTH   STATISTICS
DATE
                 TOTAL       RESIDUAL  VOLATILE  ^VOLATILE
            SUSPENDED SOLIDS  SOLIDS    SOLIDS     SOLIDS
                 (MG/L)       (MG/L)    (MG/L)      (%)
SURVEY 4
JUNE 6 - JUNE 8

          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 0.98
 0.05
  .90
                                    0,
                                    0.
                                    1.
                                   30
   83
   19
 1.68
 0.10
 1.63
 1.51
 1.85
14
              0.30
              0.40
              0.23
              0.17
              0.38
             30

              0.92
              0.08
              0.89
              0.77
                                                 1,
                                                14
                11
            0.69
            0.30
            0.68
            0.55
            0.78
           30

            0.76
            0.02
            0.75
            0.69
            0.80
           14
                     71.34
                      2.38
                     72.25
                     62.96
                     80.12
                     30

                     46.80
                      2.80
                     44.89
                     43.50
                     48.68
                     14
SURVEY 5
JUNE 25 - JUNE 29

          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 0.85
 0.07
 0.73
 0.62
   01
 1,
29

 2
 0
   08
   15
                                    1.91
                                    1.
                                    2.
                                   16
   55
   53
 0.29
 0.05
 0.21
 0.14
 0.34
29
  .25
  ,14
  .99
 0.82
 1.63
16
1,
0,
0,
           0.56
           0.04
           0.49
           0.39
           0.66
          29
  .83
  .03
  .79
  .74
 0.88
16
0.
0,
0.
0.
67.00
 2.69
65.22
57.08
76.62
29

41.92
 2.29
44.74
33.79
48.79
16

-------
                                                                       PAGE 96
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                   TOTAL       RESIDUAL  VOLATILE  ZVOLATILE
SURVEY   DEPTH   STATISTICS   SUSPENDED SOLIDS  SOLIDS    SOLIDS     SOLIDS
DATE                               (MG/L)       (MG/L)    (MG/L)      (?)
SURVEY 6
JULY 15 - JULY 17
EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
HYPO MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


0.69
0.06
0.60
0.42
0.92
26
1.43
0.14
1.37
0.97
1.81
18


0.23
0.04
0.13
0.10
0.31
26
0.87
0.11
0.78
0.57
1.26
18


0.46
0.03
0.43
0.34
0.60
26
0.57
0.04
0.54
0.40
0.70
18


71.04
2.90
71.06
64.43
80.80
26
42.87
3.23
38.74
32.38
50.16
18
SURVEY 7
AUGUST 5 - AUGUST 8
          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 0.88
 0.03
 0.82
 0.75
 1.02
27

 1.53
 0.14
 1.53
 1.06
 1.96
 0.14
 0.03
 0.11
 0.05
 0.18
27

 0.81
 0.10
 0.80
 0.43
                                   20
 1,
20
                                                   15
 0.74
 0.04
 0.75
 0.58
 0.95
27

 0.72
 0.07
 0.65
 0.57
 0.85
20
83.53
 3.15
86.83
76.79
94.41
27

49.77
 4.17
51.53
36.51
60.13
20

-------
                                                                       PAGE 97
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                   TOTAL       RESIDUAL  VOLATILE  ^VOLATILE
SURVEY   DEPTH   STATISTICS   SUSPENDED SOLIDS  SOLIDS    SOLIDS     SOLIDS
DATE                               (MG/L)       (MG/L)    (MG/L)       (%)

SURVEY 9
SEPTEMBER 15 - SEPTEMBER 19
          EPI
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
03
N

MEAN
STD. ERR.
MEDIAN
01
03
N
 2.
 0.
 2.
 1.
 2.
29

 2.
 0.
 2.
 2.
 2.
 1
27
12
02
86
35
56
00
56
56
56
1.14
0.10
1.01
0.77
1.34
29
1.63
0.00
1.63
1.63
1.63
1
1.13
0.06
1.06
0.94
1.25
29
0.93
0.00
0.93
0.93
0.93
1
51.57
2.05
52.47
45.91
57.89
29
36.33
0.00
36.33
36.33
36.33
1
SURVEY 11
OCTOBER 27 - NOVEMBER 1
          EPI
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 2.
 0.
 2.
 1.
 3.
30
67
15
67
91
50
 1,
 0,
 1,
 1,
 2,
30
.62
.11
.52
.14
.32
 1.05
 0.06
 1.15
 0.73
 1.28
30
39.97
 1.20
40.19
35.15
44.93
30

-------
                                                                       PAGE 98
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY
DATE
DEPTH    STATISTICS
          ALKALINITY         ALKALINITY
  PH    PHENOLPHTHALEIN        TOTAL
 (SU)       (MG/L)             (MG/L)
SURVEY 4
JUNE 6 - JUNE 8

             EPI
             HYPO
          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N

          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N
 8.28
 0.02
 8.28
 8.22
 8.36
30

 7.69
 0.04
                                     7.
                                     7.
                                     7.
                                    14
   67
   61
   72
 3.38
 0.39
 2.85
 1.90
 5.30
30

 0,
 0,
 0,
 0,
 0,
14
   19
   19
   00
   00
   00
 96.87
  0.31
 97.40
 95.60
 98.20
 30

 99.24
  0.46
 99.50
 97.80
100.10
 14
SURVEY 5
JUNE 25 - JUNE 29

             EPI
             HYPO
          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N

          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N
 8.26
 0.01
 8.26
 8.23
 8.32
30

 7.55
 0.02
 7.56
 7.49
 7.60
16
 4.
 0.
 4.
 3.
 5.
30
   25
   29
   20
   60
   00
 0.
 0.
 0.
  .00
  .00
  .00
 0.00
 0.00
16
103.65
  0.42
104.05
102.50
105.10
 30

 108.25
   0.44
 107.80
 107.25
 109.20
 16

-------
                                                                        PAGE  99
                             TABLE 5  (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY     DEPTH    STATISTICS                ALKALINITY         ALKALINITY
DATE                                  PH    PHENOLPHTHALEIN        TOTAL
                                      (SU)        (MG/L)             (MG/L)
SURVEY 6
JULY 15 - JULY 17

             EPI
             HYPO
            MEAN
            STD. ERR.
            MEDIAN
            Ql
            03
            N

            MEAN
            STD. ERR.
            MEDIAN
            Ql
            Q3
            N
 8.35
 0.02
 8.39
 8.22
 8.45
30

 7.41
 0.04
                                     7.
                                     7.
                                     7.
                                    18
   37
   35
   42
 3.89
 0.32
                                                  4.
                                                  2.
                                                  5.
                                                 30
   00
   70
   60
 0.00
  .00
  .00
  .00
 0.00
18
0.
0.
0,
103.21
  0.38
103.20
102.00
103.90
 30

107.12
  0.35
107.25
106.60
107.70
 18
SURVEY 7
AUGUST 5
- AUGUST 8
             EPI
             HYPO
            MEAN
            STD. ERR.
            MEDIAN
            Ql
            Q3
            N

            MEAN
            STD. ERR.
            MEDIAN
            Ql
            Q3
            N
 8.53
 0.02
 8.53
 8.48
 8.59
30

 7.40
 0.03
                                     7.
                                     7.
                                     7.
                                    20
   37
   32
   49
 6.79
 0.31
 6.95
 5.70
 7.40
30

 0.
 0.
  00
  00
 0.00
 0.00
 0.00
20
102.98
  0.25
102.80
101.80
103.80
 30

108.32
  0.29
108.20
107.25
109.25
 20

-------
                                                                      PAGE  100
                             TABLE 5 (CONTINUED)
          1986 CENTRAL BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY
DATE
DEPTH    STATISTICS
          ALKALINITY         ALKALINITY
  PH    PHENOLPHTHALEIN        TOTAL
 (SU)       (MG/L)             (MG/L)
SURVEY 9
SEPTEMBER 15 - SEPTEMBER 19
             EPI
             HYPO
          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N

          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N
 8.21
 0.02
 8.21
 8.14
 8.27
30

 7.56
 0.00
                                       ,56
                                       ,56
                                       .56
 2.37
 0.19
 2.15
 1.70
 3.20
30

 0.
 0.
 0.
 0.
 0.
 1
00
00
00
00
00
104.93
  0.15
104.85
104.30
105.70
 30

108.20
  0.00
108.20
108.20
108.20
  1
SURVEY 11
OCTOBER 27
- NOVEMBER 1
             EPI
          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N
 8.25
 0.02
 8.22
 8.19
 8.27
30
 2.13
 0.18
 1.95
 1.30
 2.80
                                                 30
                99.22
                 0.15
                99.40
                98.50
                99.80
                30

-------
                                                                       PAGE  101
                                   TABLE 6
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS

SURVEY
DATE

DEPTH STATISTICS TEMPERATURE
CO
DISSOLVED
OXYGEN
(MG/L)
% DO CORRECTED
SAT. CONDUCTIVITY
(*) (UMHOS)
SURVEY 5
JUNE 25 - JUNE 29

          EPI
          MESO
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD.ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
15.14
 0.34
15.50
14.65
16.05
12

 9.60
 0.35
                                   9.
                                   9.
  .60
  .00
10.20
 3
 5.40
 0.21
                                   5
                                   5
                                   5
                                  12
  .30
  .05
  .95
10.19
 0.11
10.30
10.10
10.35
12

11.17
 0.26
11.20
10.70
11.60
 3

11.23
 0.31
11.60
10.35
12.05
12
 98.81
  1.30
 99.77
 96.04
100.54
 12

 97.23
  2.00
 96.47
 94.21
101.01
  3

 90.76
  2.25
 93.65
 84.44
 96.45
 12
270.3
  0.6
270.5
269.0
271.5
 12

273.3
  1.3
272.0
272.0
276.0
  3

278.3
  0.6
278.0
277.0
280.0
 12

-------
                                                                      PAGE  102
                             TABLE 6 (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS

SURVEY
DATE

DEPTH STATISTICS TEMPERATURE
ro
DISSOLVED
OXYGEN
(MG/L)
% DO
SAT.
U)
CORRECTED
CONDUCTIVITY
(UMHOS)
SURVEY 9
SEPTEMBER 15 - SEPTEMBER 19
          EPI
          MESO
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
18.31
 0.04
18.30
18.25
18.40
12

11.90
 0.00
11.90
11.90
11.90
 1
 6.87
 0.50
  .80
  ,70
  .50
                                    6.
                                    5.
                                    7,
 8.56
 0.05
 8.55
 8.45
 8.65
12
   90
   00
   90
   90
   90
                                   10
 7.60
 0.38
 8.00
 7.70
 8.30
10
88.64
 0.52
88.73
87.22
89.77
12

62.72
 0.00
62.72
62.72
62.72
 1

62.76
 2.80
65.58
63.78
68.39
10
270.0
  0.9
270.
268.
272.0
 12
                                                                        .5
                                                                        .0
272.0
  0.0
272.0
272.0
272.0
  1

282.6
  0.9
282.5
280.0
286.0
 10

-------
                                                                       PAGE  103
                             TABLE 6 (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS

SURVEY
DATE

DEPTH STATISTICS

TEMPERATURE
ro
DISSOLVED
OXYGEN
(MG/L)
% DO
SAT.
(*)
CORRECTED
CONDUCTIVITY
(UMHOS)
SURVEY 11
OCTOBER 27 - NOVEMBER 1
          EPI
          ME SO
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
13.93
 0.07
13.95
13.85
14.10
12

13.50
 0.00
13.50
13.50
13.50
 1

 7.38
 0.24
 9.61
 0.06
                                      35
                                      10
                                      50
 9.
 9.
 9.
12

 9.
 0.
 9.
 9.
 9.
 1
                                                  60
                                                  50
                                                  75
70
00
70
70
70
 6.48
 0.14
 6.55
 6.10
             6,
             6
   60
90.87
 0.64
90.64
89.78
92.51
12

90.95
 0.00
90.95
90.95
90.95
 1

54.27
 1.32
54.50
51.06
55.15
 6
271.7
  1.0
273.0
269.0
274.5
 12

277.0
  0.0
277.0
277.0
277.0
  1

285.3
  1.1
286.5
282.0
287.0
  6

-------
                   TABLE 6 (CONTINUED)
1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                            PAGE 104
SURVEY DEPTH
DATE
SURVEY 5
JUNE 25 - JUNE 29
EPI





MESO





HYPO





STATISTICS TOTAL
PHOSPHORUS
(UG/L)


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


12.7
0.9
13.3
10.0
15.0
10
11.4
0.8
11.5
10.0
12.7
3
13.0
1.0
12.4
10.2
14.9
10
TOTAL
FILTERED
PHOSPHORUS
(UG/L)


3.7
0.7
2.6
2.4
4.3
10
3.3
1.1
3.3
2.2
4.4
2
2.9
0.4
2.5
2.1
2.9
10
SOLUBLE
REACTIVE
PHOSPHORUS
(UG/L)


0.0
0.0
0.0
0.0
0.0
12
0.0
0.0
0.0
0.0
0.0
3
0.0
0.0
0.0
0.0
0.0
12
TOTAL
CHLORIDE
(MG/L)


14.7
0.0
14.7
14.6
14.7
12
15.0
0.2
15.1
14.7
15.2
3
15.2
0.1
15.0
14.5
15.2
12

-------
                             TABLE 6 (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                                      PAGE 105
SURVEY
DEPTH  STATISTICS    TOTAL     TOTAL     SOLUBLE      TOTAL
                  PHOSPHORUS  FILTERED   REACTIVE    CHLORIDE
                             PHOSPHORUS  PHOSPHORUS
                    (UG/L)     (UG/L)     (UG/L)      (MG/L)
SURVEY 9





SEPTEMBER 15 - SEPTEMBER 19
EPI





MESO





HYPO





MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
12.2
0.5
11.4
11.2
12.8
12
14.5
0.0
14.5
14.5
14.5
1
11.1
0.6
10.6
10.0
11.9
10
5.0
0.3
4.8
4.3
5.3
12
6.6
0.0
6.6
6.6
6.6
1
5.2
0.6
4.5
4.1
6.4
10
4.0
0.3
3.8
3.4
4.3
12
4.0
0.0
4.0
4.0
4.0
1
4.4
0.1
4.5
4.3
4.6
10
15.2
0.1
15.2
15.1
15.4
12
15.2
0.0
15.2
15.2
15.2
1
15.2
0.0
15.2
15.1
15.3
10

-------
                   TABLE 6 (CONTINUED)
1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                            PAGE 106
SURVEY DEPTH
DATE
SURVEY 11
OCTOBER 27 - NOVEMBER
EPI





ME SO





HYPO





STATISTICS TOTAL
PHOSPHORUS
(UG/L)

1
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N


12.4
0.6
11.9
11.3
12.9
12
10.4
0.0
10.4
10.4
10.4
1
17.8
0.5
17.7
16.8
18.4
6
TOTAL
FILTERED
PHOSPHORUS
(UG/L)


4.7
0.6
4.2
3.7
4.8
11
2.6
0.0
2.6
2.6
2.6
1
5.3
0.7
5.9
4.0
6.2
6
SOLUBLE
REACTIVE
PHOSPHORUS
(UG/L)


0.1
0.1
0.1
0.0
0.2
12
0.0
0.0
0.0
0.0
0.0
1
1.8
0.3
1.7
1.3
1.9
6
TOTAL
CHLORIDE
(MG/L)


14.9
0.1
15.0
14.9
15.2
12
15.2
0.0
15.2
15.2
15.2
1
15.1
0.0
15.1
15.0
15.1
6

-------
                   TABLE 6 (CONTINUED)
1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                            PAGE 107
SURVEY DEPTH
DATE
SURVEY 5
JUNE 25 - JUNE 29
EPI





MESO





HYPO





STATISTICS


MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
NITRATE
NITRITE
(UG/L)


178.9
6.5
173.0
170.0
197.0
12
226.7
5.7
222. 0
220.0
238.0
3
278.5
3.0
275.0
270.5
285.0
12
AMMONIA
NITROGEN
(UG/L)


9.0
0.8
9.0
6.7
11.2
12
30.5
5.6
34.4
19.5
37.7
3
23.3
1.9
22.3
19.9
27.1
12
KJELDAHL
NITROGEN
(MG/L)


0.15
0.03
0.18
0.11
0.20
4
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
SOLUBLE
SILICA
(UG/L)


862.3
254.0
513.0
471.0
648.0
12
471.7
5.6
474.0
461.0
480.0
3
926.5
92.5
836.0
786.5
914.0
12

-------
                   TABLE 6 (CONTINUED)
1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                            PAGE 108
SURVEY
DATE
SURVEY 9
SEPTEMBER


















DEPTH STATISTICS

15 - SEPTEMBER 19
EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MESO MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
HYPO MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
NITRATE
NITRITE
(UG/L)


194.3
2.9
194.5
186.0
198.0
12
327.0
0.0
327.0
327.0
327.0
1
352.1
1.3
351.0
350.0
352.0
10
AMMONIA
NITROGEN
(UG/L)


7.2
1.0
6.5
4.2
9.2
11
1.5
0.0
1.5
1.5
1.5
1
5.0
1.2
3.3
2.5
6.9
10
KJELDAHL
NITROGEN
(MG/L)


0.16
0.01
0.20
0.10
0.20
23
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
SOLUBLE
SILICA
(UG/L)


627.2
23.6
651.5
558.0
690.0
12
966.0
0.0
966.0
966.0
966.0
1
1413.7
91.2
1314.5
1205.0
1590.0
10

-------
                   TABLE 6 (CONTINUED)
1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                                            PAGE 109
SURVEY
DATE
SURVEY 11
OCTOBER 27


















DEPTH STATISTICS

- NOVEMBER 1
EPI MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MESO MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
HYPO MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
NITRATE
NITRITE
(UG/L)


195.3
4.0
202.0
185.0
204.5
12
244.0
0.0
244.0
244.0
244.0
1
339.0
15.3
352.0
339.0
361.0
6
AMMONIA
NITROGEN
(UG/L)


5.3
0.7
5.1
3.4
7.3
12
2.7
0.0
2.7
2.7
2.7
1
4.8
0.8
4.9
4.0
6.3
6
KJELDAHL
NITROGEN
(MG/L)


0.23
0.03
0.23
0.20
0.27
4
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
SOLUBLE
SILICA
(UG/L)


735.0
24.5
731.5
694.5
792.5
12
1073.0
0.0
1073.0
1073.0
1073.0
1
1751.0
59.1
1800.0
1770.0
1805.0
6

-------
                                                            PAGE 110
                   TABLE 6 (CONTINUED)
1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
DATE
SURVEY 5
JUNE 25 - JUNE 2
EPI





MESO





HYPO





STATISTICS
(

9
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
CORRECTED
:HLOROPHYLL A
(UG/L)


1.18
0.10
1.16
0.98
1.36
12
0.83
0.17
0.70
0.63
1.16
3
1.24
0.28
0.77
0.71
1.30
12
PHEOPHYTIN
(UG/L)


0.82
0.18
0.59
0.32
1.27
12
1.43
0.21
1.25
1.19
1.85
3
2.36
0.44
2.12
1.28
2.55
12
TURBIDITY
(NTU)


1.57
0.32
1.20
0.70
2.70
12
1.23
0.09
1.20
1.10
1.40
3
4.18
0.49
3.85
3.05
5.75
12
SECCHI
(M)


4.50
0.00
4.50
4.50
4.50
1
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA

-------
                                                                      PAGE 111
                             TABLE 6 (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY   DEPTH   STATISTICS
DATE
             CORRECTED
            CHLOROPHYLL
              (UG/L)
             PHEOPHYTIN
              (UG/L)
           TURBIDITY
            (NTU)
SECCHI
 (M)
SURVEY 9
SEPTEMBER 15 - SEPTEMBER 19
          EPI
          ME SO
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
   93
   20
   12
 1.25
 2.49
12

 0.67
 0.00
 0.67
 0.67
 0.67
 1
 0.42
 0.06
  .39
  .28
  .60
                                   0.
                                   0.
                                   0.
                                  10
 1.76
 0.43
 0.99
 0.58
 3.24
12

 0.73
 0.00
 0.73
 0.73
 0.73
 1

 0.66
 0.06
 0.61
 0.53
 0.73
10
0.78
0.05
0.75
0.65
0.90
12
4.30
0.00
4.30
4.30
4.30
1
3.13
0.20
3.01
2.90
3.80
10
NO
ND
ND
ND
ND
ND
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA

-------
                                                            PAGE 112
                   TABLE 6 (CONTINUED)
1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
DATE
SURVEY 11
STATISTICS CORRECTED
CHLOROPHYLL A
(UG/L)


PHEOPHYTIN
(UG/L)

TURBIDITY
(NTU)

SECCHI
(M)

OCTOBER 27 - NOVEMBER 1
EPI





MESO





HYPO





MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
5.05
0.52
5.29
3.25
6.65
12
3.34
0.00
3.34
3.34
3.34
1
0.98
0.17
1.01
0.72
1.35
6
3.36
0.92
1.73
0.70
6.53
12
2.75
0.00
2.75
2.75
2.75
1
2.24
0.49
1.91
1.36
2.59
6
0.97
0.05
0.95
0.90
1.00
12
2.00
0.00
2.00
2.00
2.00
1
7.33
0.53
7.65
6.00
8.30
6
2.70
0.12
2.70
2.50
2.90
3
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA

-------
                                                                      PAGE 113
                             TABLE 6 (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY   DEPTH   STATISTICS
DATE
                 TOTAL       RESIDUAL  VOLATILE  ^VOLATILE
            SUSPENDED SOLIDS  SOLIDS    SOLIDS     SOLIDS
                 (MG/L)       (MG/L)    (MG/L)      (%)
SURVEY 5
JUNE 25 - JUNE 29

          EPI
          ME SO
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 1.74
 0.26
 1.47
 1.07
   61
                                    2
                                   12
 1.77
 0.19
 1.58
 1.57
                                      15
 4.19
 0.68
 4.51
 2.94
 6.54
12
 1.04
 0.19
 0.86
 0.51
 1.66
12

 1
 0
16
,12
                                                1.06
   03
   40
 3.98
 0.59
                                                3.
                                                2.
                                                5.
                                               12
   79
   29
   38
 0.70
 0.07
 0.64
 0.47
 0.89
12

 0.60
 0.54
 0.08
 0.51
 0.75
         0.93
         0.10
         0.79
         0.65
         1.29
         12
43.65
 2.87
39.55
35.89
52.99
12

34.03
 0.72
34.71
32.57
34.80
 3

20.43
 1.70
19.47
16.09
21.89
12

-------
                                                                      PAGE 114
                             TABLE 6 (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                   TOTAL       RESIDUAL  VOLATILE  ^VOLATILE
SURVEY   DEPTH   STATISTICS   SUSPENDED SOLIDS  SOLIDS    SOLIDS     SOLIDS
DATE                               (MG/L)       (MG/L)    (MG/L)      (?)

SURVEY 9
SEPTEMBER 15 - SEPTEMBER 19
           EPI
          MESO
          HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 1.
 0.
 1.
 1.
 1.
12

 3.
 0.
 3.
 3.
 3.
 1
14
04
13
02
23
58
00
58
58
58
 2.84
 0.21
                                    2.
                                    2.
                                    3.
                                   10
   83
   71
   24
 0.43
 0.03
 0.41
 0.38
 0.49
12
   85
   00
   85
   85
   85
          2.32
          0.17
          2.33
          2.22
          2.72
         10
 0.71
 0.03
 0.72
 0.67
 0.78
12

 0.72
 0.00
 0.72
 0.72
 0.72
 1

 0.52
 0.04
 0.50
 0.43
 0.60
10
62.16
 2.07
65.29
59.92
67.14
12

20.28
 0.00
20.28
20.28
20.28
 1

18.27
 0.74
17.64
16.77
20.18
10

-------
                                                                      PAGE 115
                             TABLE 6 (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
                                   TOTAL       RESIDUAL  VOLATILE  ZVOLATILE
                              SUSPENDED SOLIDS  SOLIDS    SOLIDS     SOLIDS
                                   (MG/L)       (MG/L)    (MG/L)      (%)
SURVEY   DEPTH   STATISTICS
DATE
SURVEY 11
OCTOBER 27 - NOVEMBER 1
          EPI
          MESO
          HYPO
                  MEAN
                  STD. ERR.
                  MEDIAN
                  Ql
                  Q3
                  N

                  MEAN
                  STD. ERR.
                  MEDIAN
                  Ql
                  03
                  N

                  MEAN
                  STD. ERR.
                  MEDIAN
                  Ql
                  Q3
                  N
 1.60
 0.11
 1.57
 1.35
 1.76
12
 1.83
 0.00
 1.83
 1.83
 1.83
 1
 6.39
 0.45
 6.80
 5.18
 7.09
0.71
0.06
0.71
0.51
  92
 0,
12

 1,
 0,
 1,
 1,
 1,
 1
  08
  00
  08
  08
  08
5.48
0.39
5.86
4.39
6.03
6
 0.89
 0.07
 0.89
 0.74
 0.99
12

 0.75
 0.00
 0.75
 0.75
 0.75
            0.92
            0.06
            0.94
            0.79
            1.06
            6
55.91
 2.07
56.32
52.36
59.58
12

40.98
 0.00
40.98
40.98
40.98
 1

14.35
 0.03
14.30
14.15
14.95
 6

-------
                                                                       PAGE  116
                             TABLE 6  (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY
DATE
DEPTH    STATISTICS
         ALKALINITY         ALKALINITY
 PH    PHENOLPHTHALEIN        TOTAL
(SU)        (MG/L)             (MG/L)
SURVEY 5
JUNE 25 - JUNE 29

             EPI
             ME SO
             HYPO
          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N

          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N

          MEAN
          STD. ERR.
          MEDIAN
          Ql
          Q3
          N
 8.29
 0.02
 8.30
 8.22
 8.26
12

 8.04
 0.04
 8.06
 7.96
 8.09
 3

 7.85
 0.02
                                      7
                                      7
                                      7
                                     12
  .86
  .83
  .87
   79
   66
                                                   4.35
                                                   2.95
                                                   6.35
                                                  12
   80
   14
                                                   1.50
                                                   0,
                                                   3,
                                                   3
   00
   90
 0.0
 0.0
 0.0
 0.0
 0.0
12
107.73
  0.50
108.10
106.45
108.60
 12

108.40
  0.70
108.20
107.30
109.70
  3

107.87
  0.36
107.75
107.00
108.35
 12

-------
                                                                       PAGE  117
                             TABLE 6 (CONTINUED)
          1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH STATISTICS
DATE


PH
(SU)
ALKALINITY
PHENOLPHTHALEIN
(MG/L)
ALKALINITY
TOTAL
(MG/L)
SURVEY 9
SEPTEMBER 15 - SEPTEMBER 19
             EPI
             MESO
             HYPO
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N

MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
 8.26
 0.02
 8.24
 8.22
 8.27
12
   76
   00
   76
   76
   76
 7.60
 0.01
 7.60
 7.57
 7.63
10
 3.54
 0.33
 3.55
 2.65
 4.05
12

 0.
 0.
 0.
 0.
 0.
 1
00
00
00
00
00
 0.00
 0.00
 0.00
 0.00
 0.00
10
105.99
  0.14
106.05
105.50
106.40
 12

112.20
  0.00
112.20
112.20
112.20
  1

110.80
  0.50
110.55
109.60
111.30
 10

-------
                                                            PAGE 118
                   TABLE 6 (CONTINUED)
1986 EASTERN BASIN MEAN/MEDIAN WATER QUALITY MEASUREMENTS
SURVEY DEPTH
DATE
SURVEY 11
STATISTICS

ALKALINITY
PH PHENOLPHTHALEIN
(SU) (MG/L)


ALKALINITY
TOTAL
(MG/L)

OCTOBER 27 - NOVEMBER 1
EPI





MESO





HYPO





MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
MEAN
STD. ERR.
MEDIAN
Ql
Q3
N
8.27
0.01
8.27
8.24
8.30
12
8.01
0.00
8.01
8.01
8.01
1
7.65
0.03
7.66
7.58
7.67
6
1.81
0.26
1.85
1.10
2.55
12
0.00
0.00
0.00
0.00
0.00
1
0.00
0.00
0.00
0.00
0.00
6
101.79
0.15
101.85
101.40
102.10
12
102.50
0.00
102.50
102.50
102.50
1
106.97
0.20
107.05
106.90
107.10
6

-------
                                                                      PAGE  119
                                   TABLE 7

                 LAKE ERIE WESTERN BASIN REPRESENTATIVE AREA
                 LIMNION, OXYGEN AND TEMPERATURE DATA, 1986*
DATE
4/10
5/5
5/24
6/6
6/29
7/15
8/5
8/25
9/15
10/13
10/27
11/17
SURVEY
1
2
3
4
5
6
7
8
9
10
11
12
STRAT
%
UN STRAT
UNSTRAT
UN STRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
LIMNION
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
VOLUME
(Km3)
12.0
12.1
12.1
12.1
12.1
12.1
12.0
12.0
11.9
12.0
12.0
12.0
HYPO
AREA
(km2)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
THICKNESS
(m)
9.8
9.8
9.8
9.8
9.8
9.8
9.8
9.8
9.7
9.8
9.8
9.8
OXYGEN
(mg/1)
12.6
11.5
10.3
9.7
7.9
8.1
8.0
8.0
8.6
9.2
10.2
11.5
TEMP
(°C)
6.2
10.6
14.7
16.9
21.7
22.6
24.2
23.1
19.2
15.4
12.4
6.0
* THIS DATA WAS DERIVED FROM THE SURVEY 8 VOLUME WEIGHTING PROGRAM

-------
                                   TABLE 8

                 LAKE ERIE CENTRAL BASIN REPRESENTATIVE AREA
                 LIMNION, OXYGEN AND TEMPERATURE DATA, 1986*
                                                                      PAGE 120
DATE SURVEY
6/6-6/8 4



6/25-6/29 5



7/15-7/17 6



8/5-8/8 7



9/15-9/19 9



STRAT LIMNION
STRAT EPI
MESO
HYPO
TOTAL
STRAT EPI
MESO
HYPO
TOTAL
STRAT EPI
MESO
HYPO
TOTAL
STRAT EPI
MESO
HYPO
TOTAL
STRAT EPI
MESO
HYPO
TOTAL
VOLUME
(Km3)
89.3
6.5
17.6
113.4
85.4
8.0
20.1
113.5
82.9
10.3
20.2
113.4
76.9
13.3
22.7
112.9
112.3
0.1
0.1
112.5
HYPO
AREA
(km2)


4631.6



4785.7



4809.5



4729.2



500.0

THICKNESS
(m)
18.6
1.4
3.8

17.8
1.7
4.2

17.3
2.1
4.2

16.0
2.8
4.8

23.4
0.3
0.2

OXYGEN
(mg/1)
10.8
10.1
9.7

9.4
8.0
6.6

8.8
6.1
3.7

8.4
5.0
2.0

8.2
6.7
6.0

TEMP
CO
14.6
10.7
7.8

18.0
13.4
9.3

20.8
14.8
10.8

23.8
18.0
12.7

19.3
17.7
17.4

10/27-11/1 11   UNSTRAT  TOTAL    112.9
23.5
9.2    15.0
* THIS DATA WAS DERIVED FROM THE SURVEY 8 VOLUME WEIGHTING PROGRAM

-------
                                                                    PAGE  121
                                 TABLE 9

               LAKE ERIE EASTERN BASIN REPRESENTATIVE AREA
               LIMNION, OXYGEN AND TEMPERATURE DATA, 1986*
DATE SURVEY STRAT
6/25-6/29 5 STRAT



9/15-9/19 9 STRAT



10/27-11/1 11 STRAT



LIMNION
EPI
MESO
HYPO
TOTAL
EPI
MESO
HYPO
TOTAL
EPI
MESO
HYPO
TOTAL
VOLUME
(Km3)
29.1
19.6
23.6
72.3
39.0
15.2
17.6
71.8
58.1
5.7
8.4
72.2
HYPO
AREA
(km2)


1522.6



1455.6



1076.9

THICKNESS
(m)
18.5
12.4
15.5

24.8
9.7
12.1

36.9
4.2
7.8

OXYGEN
(rng/1 )
10.2
11.0
11.7

8.6
7.4
8.1

9.6
8.5
6.6

TEMP
(°C)
15.3
9.6
5.0

18.4
13.0
6.8

14.0
11.6
7.6

THIS DATA WAS DERIVED FROM THE SURVEY 8 VOLUME WEIGHTING PROGRAM

-------
                                                                      PAGE 122
                                   TABLE 10

                 LAKE ERIE WESTERN BASIN REPRESENTATIVE AREA
   VOLUME WEIGHTED TOTAL PHOSPHORUS AND CORRECTED CHLOROPHYLL A DATA, 1986*
DATE
4/10
5/5
5/24
6/6
6/29
7/15
8/5
8/25
9/15
10/13
10/27
11/17
SURVEY STRAT LIMNION
1
2
3
4
5
6
7
8
9
10
11
12
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
UNSTRAT
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
VOLUME
(km3)
12.0
12.1
12.1
12.1
12.1
12.1
12.0
12.0
11.9
12.0
12.0
12.0
TOTAL PHOSPHORUS
metric cone.
tons (ug/1)
191.3
126.0
96.7
196.2
172.2
215.3
284.1
319.0
372.3
311.6
319.7
266.4
16.0
10.4
8.0
16.3
14.2
17.7
23.6
26.6
31.3
25.9
26.6
22.2
CORR CHL A
metric cone.
tons (ug/1)
69.1
60.6
91.4
53.4
52.1
69.5
83.5
101.8
133.1
61.9
87.9
84.0
5.8
5.0
7.5
4.4
4.3
5.7
6.9
8.5
11.2
5.2
7.3
7.0
* THIS DATA WAS DERIVED FROM THE SURVEY 8 VOLUME WEIGHTING PROGRAM

-------
                                                                      PAGE 123
                                   TABLE 11

                 LAKE ERIE CENTRAL BASIN REPRESENTATIVE AREA
   VOLUME WEIGHTED TOTAL PHOSPHORUS AND CORRECTED CHLOROPHYLL A DATA,
1986*
DATE SURVEY STRAT LIMNION
6/6-6/8 4



6/25-6/29 5



7/15-7/17 6



8/5-8/8 7



9/15-9/19 9



10/27-11/1 11
STRAT EPI
MESO
HYPO
TOTAL
STRAT EPI
MESO
HYPO
TOTAL
STRAT EPI
MESO
HYPO
TOTAL
STRAT EPI
MESO
HYPO
TOTAL
STRAT EPI
MESO
HYPO
TOTAL
UN STRAT TOTAL
VOLUME
(km3)
89.3
6.5
17.6
113.4
85.4
8.0
20.1
113.5
82.9
10.3
20.2
113.4
76.9
13.3
22.7
112.9
112.3
0.1
0.1
112.5
112.9
TOTAL PHOSPHORUS
metric cone.
tons (ug/1)
1121.8
97.6
306.4
1525.8
867.2
109.4
319.4
1296.0
820.5
102.4
243.4
1166.3
1034.1
183.7
307.6
1525.4
2004.1
0.9
2.2
2007.2
1805.8
12.6
14.9
17.4
13.5
10.2
13.7
15.9
11.4
9.9
9.9
12.0
10.3
13.4
13.8
13.5
13.5
17.8
19.6
20.2
17.8
16.0
CORR CHL A
metric cone.
tons (ug/1)
163.9
11.7
32.5
208.1
112.3
9.7
26.8
148.8
137.2
10.1
24.7
172.0
230.7
22.5
24.7
277.9
511.2
0.1
0.2
511.5
690.2
1.8
1.8
1.8
1.8
1.3
1.2
1.3
1.3
1.6
1.0
1.2
1.5
3.0
1.7
1.1
2.5
4.6
2.0
1.9
4.6
6.1
* THIS DATA WAS DERIVED FROM THE SURVEY 8 VOLUME WEIGHTING PROGRAM

-------
                                                                      PAGE  124
                                   TABLE 12

                 LAKE ERIE EASTERN BASIN REPRESENTATIVE AREA
   VOLUME WEIGHTED TOTAL PHOSPHORUS AND CORRECTED CHLOROPHYLL A DATA, 1986*
DATE SURVEY STRAT
6/25-6/29 5 STRAT



9/15-9/19 9 STRAT



10/27-11/1 11 STRAT



LIMNION
EPI
MESO
HYPO
TOTAL
EPI
MESO
HYPO
TOTAL
EPI
MESO
HYPO
TOTAL
VOLUME
(km3)
29.1
19.6
23.6
72.3
39.0
15.2
17.6
71.8
58.1
5.7
8.4
72.2
TOTAL PHOSPHORUS
metric cone.
tons (ug/1)
379.7
232.8
267.8
880.3
493.7
200.2
197.4
891.3
751.7
70.9
148.4
971.0
13.0
11.9
11.4
12.2
12.6
13.1
11.2
12.4
12.9
12.5
17.7
13.4
CORR. CHL.A
metric cone.
tons (ug/1)
32.0
15.5
20.7
68.2
71.7
18.7
8.3
98.7
249.2
18.4
9.5
277.1
1.1
0.8
0.9
0.9
1.8
1.2
0.5
1.4
4.3
3.2
1.1
3.8
* THIS DATA WAS DERIVED FROM THE SURVEY 8 VOLUME WEIGHTING PROGRAM

-------
                                                                        PAGE 125
                                    TABLE 13
                           LAKE ERIE BASIN COMPARISON
                               1986 ANNUAL MEANS
                                        EPILIMNION           HYPOLIMNION

                                  WB and CB    CB and EB      CB and EB
TEMPERATURE                          <             >              >
DISSOLVED OXYGEN                     >             =              <
DISSOLVED OXYGEN % SATURATION                      >              <
TOTAL PHOSPHORUS                    ' >
TOTAL FILTERED PHOSPHORUS                          >              >
SOLUBLE REACTIVE PHOSPHORUS                                       <
SOLUBLE ORGANIC PHOSPHORUS           =             >              >
PARTICULATE PHOSPHORUS               >
% PARTICULATE PHOSPHORUS             >
NITRATE + NITRITE                    >             >              <
AMMONIA                              >             >              >
KJELDAHL NITROGEN                                                 NT
SOLUBLE REACTIVE SILICA              >             <              >
SECCHI DISK                          <             NT             NT
TURBIDITY                            >             =              <
CHLOROPHYLL A                        >             =              >
PHEOPHYTIN                           >
TOTAL SUSPENDED SOLIDS               >             =              <
RESIDUAL SOLIDS                      >             =              <
VOLATILE SOLIDS                      >             =              <
* VOLATILE SOLIDS                    <             >              >
CONDUCTIVITY                         <             <              <
CHLORIDE                             <             <
ALKALINITY TOTAL                     <             <              <
ALKALINITY PHENOLPHTHALEIN           <             =              NT
pH                                   <             <              <

       COMPARISON BASED ON A TWO-TAILED T-TEST WITH    d = 0.05

              Result:   >  -  SIGNIFICANTLY GREATER
                       <  -  SIGNIFICANTLY LESS
                       =  -  NOT SIGNIFICANTLY DIFFERENT
                       NT -  NOT TESTED

-------
                                                                        PAGE 126
                                    TABLE 14
                    LAKE ERIE EPILIMNION - BASIN COMPARISON
                           WESTERN AND CENTRAL BASIN
                                SURVEY
          4           5           6           7           9          11
      MB    CB    MB    CB    MB    CB    MB    CB    MB    CB    MB    CB
TEMPERATURE (°C)

 X   17.0  14.5  21.9  17.8  22.8  20.7  24.3  23.6  19.3  19.2  12.5   15.0
 t      6.77       10.88        4.73        3.46        0.35      -18.79
Result    >>>>           =           <

TOTAL PHOSPHORUS (ug/1)

 X   16.6  12.4  15.0   9.4  18.1   9.8  24.8  13.5  33.5  17.4  28.1   15.7
 t      1.93        2.75        9.58        5.36        4.09        4.41
Result    =>>>>>

TOTAL FILTERED PHOSPHORUS (ug/1)

 X    2.1   5.1   3.1   2.8   7.5   4.1   6.7   6.1   9.2   7.1   9.6    6.6
 t     -2.97        0.33        4.87        0.68        1.10        1.53
Result    <=>===

NITRATE + NITRITE (ug/1)

 X   282   285   408   261   362   240   277   223   132   163   522   142
 t     -0.09        2.99        4.85        4.50       -1.37       10.56
Result    =>>><>

SOLUBLE REACTIVE SILICA (ug/1)

 X   499   479  1123   482   837   495  1469   332  1173   964  1676   480
 t      0.06        4.82        2.55        8.08        1.43       19.65
Result    =           >           >           >             =         >

       COMPARISON BASED ON A TMO-TAILED T-TEST WITH   a = 0.05

                   X = MEAN
                   t = T STATISTIC
              Result:  >  -  SIGNIFICANTLY GREATER
                       <  -  SIGNIFICANTLY LESS
                       =  -  NOT SIGNIFICANTLY DIFFERENT

-------
                                                                        PAGE 127
                              TABLE 14 (CONTINUED)
                    LAKE ERIE EPILIMNION - BASIN COMPARISON
                           WESTERN AND CENTRAL BASIN

4
WB CB
SURVEY
5 6 7
WB CB WB CB WB CB

9 11
WB CB WB CB
TURBIDITY (NTU)

 X    8.1   0.7   6.3   0.6   4.1   0.5   4.5   0.5   6.8   1.6   6.8   1.8
 t      4.99        5.23        8.07        6.39       12.77        9.04
Result    >>>>>>

CHLOROPHYLL A (ug/1)

 X    4.5   1.9   4.8   1.3   6.4   1.6   7.9   2.9  12.6   4.1   7.3   6.7
 t      3.61        3.19        4.64        4.45        4.22        0.49
Result    >>>>>=

TOTAL SUSPENDED SOLIDS (mg/1)

 X    7.9   1.0   6.6   0.8   4.8   0.7   5.5   0.9   9.4   2.3   7.3   2.7
 t      5.02        5.55        9.30        6.24       12.67       15.14
Result    >>>>>>

CONDUCTIVITY (umhos)

 X   223   269   246   267   235   263   230   259   227   265    258  267
 t    -30.69       -4.71      -15.26       -8.38      -11.72       -2.12
Result   <            <           <           <           <           =

CHLORIDE (mg/1)

 X   12.2  15.2  12.7  15.0  10.7  14.1   9.9  14.4  10.3  14.6  13.3 14.6
 t     -7.33       -3.14       -7.25      -11.12       -8.87       -3.04
Result    <<<<<<

ALKALINITY TOTAL (mg/1)

 X   89.2  96.8  98.7 103.7  97.5 103.2  97.1 103.0  94.6 104.9  96.2 99.2
 t     -13.95      -3.41       -6.90      -11.01      -12.99       -2.93
Result    <<<<<<

       COMPARISON BASED ON A TWO-TAILED T-TEST WITH   d  =0.05

                   X = MEAN
                   t = T STATISTIC
              Result:  >  -  SIGNIFICANTLY GREATER
                       <  -  SIGNIFICANTLY LESS
                       =  -  NOT SIGNIFICANTLY DIFFERENT

-------
                                                                        PAGE 128
                                    TABLE 15
                    LAKE ERIE EPILIMNION - BASIN COMPARISON
                           CENTRAL AND EASTERN BASIN
                                      SURVEY
                    5                    9                    11
              CB        EB         CB        EB          CB        EB
TEMPERATURE (°C)

 X           17.8      15.1        19.2      18.3        15.0      13.9
 t                7.08                 10.93                  8.29
Result              >                     >                     >

TOTAL PHOSPHORUS (ug/1)

 X            9.4      12.7        17.4      12.2        15.7      12.4
 t               -2.60                  5.34                  5.24
Result              <                     >                     >

TOTAL FILTERED PHOSPHORUS (ug/1)

 X            2.8       3.7         7.1       5.0         6.6       4.7
 t               -1.33                  4.56                  3.04
Result                                    >                     >

NITRATE + NITRITE (ug/1)

 X            261       179         164       194         142       195
 t                3.52                 -3.80                -11.75
Result              >                     <                     <

SOLUBLE REACTIVE SILICA (ug/1)

 X            482       862         964       627         480       735
 t               -1.43                  6.84                 -6.63
Result                                    >                     <

       COMPARISON BASED ON A TWO-TAILED T-TEST WITH    a = 0.05

                   X = MEAN
                   t = T STATISTIC
              Result:  >  -  SIGNIFICANTLY GREATER
                       <  -  SIGNIFICANTLY LESS
                       =  -  NOT SIGNIFICANTLY DIFFERENT

-------
                                                                        PAGE 129
                              TABLE 15 (CONTINUED)
                    LAKE ERIE EPILIMNION - BASIN COMPARISON
                           CENTRAL AND EASTERN BASIN
                                       SURVEY
                     5                    9                    11
               CB        EB         CB        EB          CB        EB
TURBIDITY (NTU)

 X            0.6       1.6         1.6       0.8         1.8       1 0
 t               -2.83                  8.32                  7.54
Result              <                     >                     >

CHLOROPHYLL A (ug/1)

 X            1.3       1.2         4.1       1.9         6.7       5.0
 t                1.03                  4.29                  2.11
Result                                    >                     >

TOTAL SUSPENDED SOLIDS {mg/1)

 X            0.8       1.7         2.3       l.l         27       16
 t               -3.37                  8.70                  5.68
Result              <                     >                     >

CONDUCTIVITY (umhos)

 X            267       270         265       270         267       272
 t               -3.77                 -3.07                 -3.89
Result              <                     <                     <

CHLORIDE (mg/1)

 X           15.0      14.7        14.6      15.2        14.6      14.9
 t                2.88                 -5.59                 -2.90
Result              >                     <                     <

ALKALINITY TOTAL (mg/1)

 X          103.7     107.7       104.9     106.0        99.2     101 8
 t               -5.35                 -4.20                 -9.76
Result              <                     <                     <

       COMPARISON BASED ON A TWO-TAILED T-TEST WITH   d = 0.05

                   X = MEAN
                   t = T STATISTIC
              Result:  >  -  SIGNIFICANTLY GREATER
                       <  -  SIGNIFICANTLY LESS
                       =  -  NOT SIGNIFICANTLY DIFFERENT

-------
                                             TABLE 16
                   Central  Basin Representative Area Means  and Standard
                   Deviations  Compared to  the Means of  the  Individual
HTORA86 ANOVA CENTRAL BASIN EPi ALL SURVEYS               Stations Comprising the Area
PAGE 130
VARIABLE TEMP VARIABLE ALKTOT VARIABLE CONdCORR YAR1ABU TURBID
STATION FRE? MEAN STO.DEV. FR™ MEAN STb.OEV. FREQ. MEAN STD.OEV. FREO. KEAN STO.DEV.
42.000 IB 191667 34305 18. 100.250 .7607 18. 263.833 6.1285 17.0.894118 0.49oB
0.000 5: ":z"o INM .•: 101.317 .5321 ». ™.*« j.wi }•• i.»«|' o-»
73.000 18. 18.6556 3.4998 18. 102.000 .0700 18. 264.833 5.5439 8. 0.855556 0.6W7
38000 IB 180944 8555 18 101839 .0542 IB. 264.333 6.4989 18. 1.33333 0.6704
"im Si uloS ism la8! !8!:l" .5755 u. MS.ni 4.3011 i*-*-™™ O.MU
36.000 18. 18.8389 .8887 18. 101.489 .5528 18. 265.944 5.5463 8. 0.883333 0.5458
in nnn in 17 HHT1 5992 18 102 039 .8078 18. 263.000 7.2841 18. 1.02778 0.6614
M'OOO S' i7*"a nil n. 02.939 9730 is. 266.056 IO.IMJ 18.0.977778 0.6339
is a as -is a 55 a a sts as a vsa as:
VARIABLE TEMP VARIABLE ALKTOT VARIABLE CONOCORR VARIABLE TURBID
MEAN 18.4833 101.8133 264.7611 0.9760
ST.DV. 3.335 3.261 6.478 0.642
STATION
42.000*
43.000*
73.000*
38.000*
37.000*
36.000*
30.000 *
31 .000 *
78.000 *
32.000 *
krATIOH
42.000
43.000
73.000
3B.OOO
37. QUO
36.000
30.000
31.000
78.000
32.000
MEAN
ST.DV.
STATION
•-
42.000*
43.000*
73.000 •
38.000*
37.000*
36.000*
30.000 *
31.000*
78.000*
32.000*
STATION
42.000
43.000
73.000
38.000
37.000
36.000
30.000
31.000
78.000
32.000
MEAN
SfATf!oV
42.000**
43.000 *
73.000*
38.000*
37.000*
36.000*
30.000 *
31.000*
78.000 •
32.000 *
A
A
A
A
A
A
A
A
A
A

•*
*•
M
VARIABLE TSS
FREQ. MEAN STD.DEV.
17.
17.
16.
IB.
17.
17.
17.
17.
17.
18.
.15412
.47294
.46000
.54556
.08765
.37235
.63176
.62000
.30941
.47222
0
0
1
0
0
0
1
.6342
.9613
.1022
.BIBS
.5446
.8493
.1840
1.1423
0
1
.7411
.1488
VARIABLE TSS
1.4135

S










0.929
S N S
A
A
A
A
A
A
A
A
A
A













S »••-
•*
••
••
••
••
••
»•
••
••
**
VARIABLE NITNIT
FREQ. MEAN STO.DEV.
18.
17.
18.
18.
18.
18.
18.
18.
18.
18.
255.000
282.706
200.167
270.167
184.000
240.778
205.611
179.056
188.500
196.722
109
141
81
102
54
118
55
61
68
45
.1524
.4164
.9377
.3697
.0120
.8388
.3366
.6532
.9896
.8512
VARIABLE MITHfT
219.9218

S









9J.967
S N S
A
A
A
A
A
A
A
A
ft
A












S »••-
••
•*
•»
••
••
••
••
••
**
A **
A *•
A **
A •*
A ••
A ••
A ••
A ••
A ••
A ••
•VARIABLE CHLACORR
FREQ. MEAN STD.OEV.
18.
18.
18.
IB.
18.
18.
18.
18.
18.
18.
2.29222
3.S38B9
3.23500
3.43556
2.39167
2.35833
3.90722
4.36722
3.06167
2.29333
1.9710
2.S574
3.4681
3.0650
1.5620
1.9423
3.5982
3.2441
1.6404
1.8647
VARIABLE CHLACORR
3.0881

S










2.632
SMS
A
A
A
A
A
A
A
A
A
A

S +••-
*•
*•
**
**
ft*
**
*•
••
••
**
VARIABLE SRS
FREQ. MEAN STD.DEV.
18.
18.
18.
18.
18.
18.
18.
17.
18.
18.
527.500
623.889
397.778
857.111
414.111
456.333
724.111
472.588
410.000
503.111
353.0733
470.8238
186.7350
590.9570
308.6258
249.5641
765.8403
251.9901
233.6908
279.7894
VARIABLE SRS
539.0223

S









424.477
SMS
A
A
A
A
A
A
A
A
A
A


A
A
A
A
A
A
A
A
A
A
•»
••
A
A
A
A
A
A
A
A
A
A
VARIABLE CORRTP VARIABLE CORRTFP
FREQ. MEAN STD.DEV. FREQ. MEAN STD.DEV.
18.
17.
18.
16.
17.
17.
18.
17.
18.
17.
13.1667
14.0529
12.9333
14.5375
14.0118
12.5235
13.4389
12.3471
12.1833
11.9059
4.7027
3.8507
5.1592
3.8635
6.8875
5.8009
3.3083
3.4224
2.7279
4.1014
VARIABLE CORRTP
13.0977

S










4.496
SMS
A
A
A
A
A
A
A
A
A
A
VARIABLE a
FREQ. MEAN STO.
18.
18.
18.
18.
18.
18.
18.
•18.
17.
18.
14.7833
14.9056
14.6722
14.5500
13.4722
15.1111
14.7556
14.8056
14.6176
14.9167

S »••-

*•
»«
• *
*•
«»
*•
•*
•*
••
DEV.
0.4423
0.7067
0.6341
0.7221
2.4275
0.9573
0.5032
0.2209
0.4305
0.3930
17. 5.14706 2 4731
18. 5.94444 2.9758
18. 4.62778 2.5167
17. 5.91765 1.8905
16. 5.13125 1.8351
16. 5.70625 3.2157
16. 5.93125 1.5010
16. 4.65000 1.9208
14. 6.13571 2.J76U
17. 4.82941 2.0967
VARIABLE CORRTFP
S . 3885
2.346
S S N S S »
A
A
A
A
A
A

A
A
A
.









VARIABLE CL
14.6592

s +**-i s
• *>
**
**
**
ft*
• *
*•
ft*
(.**








J
1.023
SMS
A







A

S »








*












-------
                                        TABLE  16   (Cont.)
                                                                                                  PAGE  131
HYDRA86 ANOVA CENTRAL BASIN HYPO ALL SURVEYS



DESCRIPTIVE STATISTICS
VARIABLE TEMP
VARIABLE 00
STATION FREQ. MEAN STO.OEV. FREQ. MEAN STD.DEY.
42.000 7. 9.80000 1.4799
43.000 8. 9.27500 1.1696
73.000 7. 9.78S71 1.4206
38.000 9. 10.9556 2.9172
37.000 8. 10.0000 2. 3256
36 .COO 8. 10.9375 2.9159
30.000 6. 11.1167 1.9671
31.000 5. 12.0600 2.9913
78.000 S. 11.6800 2.6243
32.COO 6. 11.6000 1.6769
VARIABLE TEMP
MEAN 10.6145
ST.OV 2.266
STATION

42.000
43.000
73.000
38.000
37.000
36.00J
30.000
31.000
78.000
- S S M S S +*•-
7 ( •»
8 ( ••
7 { ••
9 ( ..
8 ( *•
8 ( ••
6 ( *•
5 ( *•
) 5 ( •»
32.000 ) 6 ( **
VARIABLE CONOCORR VARIABLE TURBID
FREQ. MEAN STD.OEV. FREQ. MEAN STO.OEV.
7. 5.91429 2.6252 7. 275.714 3.0394 7
8. 5.38750 3.2673 8. 274.750 2.9641 8
7. 5.30000 2.8449 7. 276.000 2.5166 7
9. 5.44444 . 3.3512 9. 277.111 4.4845 9
8. 5.22500 3.1075 8. 275.750 1.8323 8
8. 5.32500 3.2119 8. 275.625 3.7009 8
6. 4.41667 2.7140 6. 275.167 2.3166 6
S. 4.48000 3.0898 S. 272.600 1.3416 5
5. 4.40000 3.8827 5. 270.800 S.58S7 S
6. 4.86667 2.6319 6. 276.667 3.6697 6
VARIABLE 00
5.1464
2.917

S S M S S
7
8
7
9
8
8
6
5
5
6
.12857 0.3684
.62500 0.8172
.10000 0.3162
.94444 0.5637
.33750 0.7269
.76250 0.4596
.68333 0.3656
.14000 0.3209
.00000 0.2550
.46667 0.4179
VARIABLE CONDCORR VARIABLE TURBID
275.2609
3.534

1.4565
0.578

+**- S S M S S *••- S S M S S +
** 7
•• 8
•• 7
•" 9
** 8
•» S
•• 6
•• 5
*• ) S
** ) 6
v»
**
**
»*
*-*
**
**
*»
**
**
7 (
* i
8 (
7 (
9 (
8 (
B (
6 (
5 (
5 (
6 (
VARIABLE TSS
VARIABLE CORRTP
STATION FREQ. MEAN STD.DEV. FREQ. MEAN STD.DEV.
42.000 7. 1.36714 O.SB99
43.COO 8. 1.89625 0.9125
73. COO 7. 1.30857 0.4349
38. COO 9. 2.14444 0.4809
37. COO 8. 1.77625 0.7055
36.000 8. 1.95125 0.3749
30. COO 6. 1.83167 0.3769
31.COO 5. 1.30200 0.3529
78. GOO 5. 1.16000 0.3038
32.000 6. 1.54333 0.4242
VARIABLE TSS
MEAN 1.6751
ST.DV. 0.604
STATION

42.000
43.000
73.000
38. OH
37. QUO
36.000
30.000
31.000
78.000
32.000
- S S M S S «•**-
17 ( "
) 8 ( ••
7 **
9 •*
a
8 **
6 **
5 ••
5 ( **
6 ( ••
7. 13.4143 2.3255
7. 15.4429 4.0873
7. 14.0000 2.8971
9. 16.9667 7.6277
8. 12.3625 1.9508
8. 13.6250 1.0361
6. 14.6333 1.7096
4. 12.2500 2.1205
5. 12.8800 2.1822
6. 13.9333 3.5064
VARIABLE CORRTP
14.1104
3.754

VARIABLE CORRTFP
VARIABLE SRS
FREQ. MEAN STD.DEV. FREQ. MEAN STD.DEV.
7. 5.28571 3.7267
7. 5.34286 2.8965
7. 4.41429 2.0194
9. 8.67778 4.4407
8. 3.98750 1.6479
7. 6.04286 1.9561
6. 6.16667 1.48S5
5. 4.54000 0.8649
4. 5.47500 2.6550
6. 4.75000 2.9818
VARIABLE CORRTFP
5.5712
2.956

S S M S S +••- S S M S S *••-
7 *
7 •
7 •
9 •
8
8 *
6 *
4 •
5
6 •
7 ( "
• 7 ( **
• 7 *•
. 9 *.
8
• 7 «.
« 6
* 5 ••
. 4 .,
•6 **
7. 1154.29 586.3474
B. 1561.13 725.3353
7. 1507.57 615.3069
9. 1692.44 930.7275
8. 1500.50 611.0602
8. 1494.25 612.5256
6. 1729.17 473.6376
5. 1765.40 760.2436
5. 1807.00 1130.4344
6. 1577.17 577.7441
VARIABLE SRS
1565.3914
691.131

S S M S S *
7 (
a
7
9
8
8
6
5
5
6

-------
                                                    TABLE  17
                          Eastern  Basin  Representative  Area  Means and
                          Standard Deviations  Compared  to the  Means  of
                          the  Individual  Stations  Comprising the  Area
                                                                                                  PAGE  132
  HYDRA86 ANOVA EASTERN BASIN EPI ALL  SURVEYS

  DESCRIPTIVE STATISTICS
STATION

* 15.000
• 63.000
* 9.0000
* 10.000
            VARIABLE
          FREQ
9.   15.5667
9.   16.1333
9.   16.0444
9.   15.4333
TEMP
  STD.DEV.

      2.0952
      1.8641
      1.9641
      2.2935
                               VARIABLE
                              FREQ.    MEAN

                               9.  105.589
                               9.  105.067
                               9.  105.233
                               9.  104.789
                                ALKTOT
                                  STO.OEV.

                                     3.0271
                                     3.0935
                                     2.8222
                                     2.3804
VARIABLE
FREQ.
9.
9.
9.
9.
MEAN
270.333
271.222
271.000
270.111
CONDCORR
STD.DEV.
4.2426
2.7285
2.2361
2.9345
                                                                                               VARIABLE
                                                                                              FREQ.    MEAN

                                                                                               9.  1.17778
                                                                                               9.  1.63333
                                                                                               9. 0.777778
                                                                                               9. 0.844445
                                                                                                TURBID
                                                                                                  STO.DEV.
                                                                                                                 0.4868
                                                                                                                 1.2217
                                                                                                                 0.1202
                                                                                                                 0.2651
    MEAN
  ST.OV.
STATION

* 15.000
• 63.000
* 9.0000
* 10.000
            VARIABLE
               TEMP
            15.7944
             1.994
                                        VARIABLE
                                                    ALKTOT
                         ( «* )
                            105.1695
                              2.736
                                                                    VARIABLE
                                                                                CONOCORR
                                        S   +**-
                                           I ** )
                                           ( •• )
                                           ( •* )
                                                                           270.6667
                                                                             3.024
                                                                                                 VARIABLE
                                                                                                            TURBID
                                                                                              1.1083
                                                                                              0.730

                                                                                               M   S
                                                                                               9
 STATION

 * 15.000
 * 63.000
 • 9.00JO
 • 10.000
   VARIABLE
 FREQ.    MEAN

   9.  1.71556
   9.  1.88667
   9.  1.20556
   9.  1.15778
    TSS
      STD.DEV.

         0.4415
         0.9141
         0.1197
         0.3392
VARIABLE
FREQ. HE AN
9. 2.24000
9. 2.27667
9. 3.16333
9. 3.18556
CHLACORR
STO.OEV.
1.2008
1.3799
2.8390
2.3738
VARIABLE
FREQ.
8.
9.
9.
8.
MEAN
13.4625
13.3222
10.7556
12.1000
CORRTP
STD.DEV.
1.6379
2.1695
1.6272
2.1408
VARIABLE
FREQ. MEAN
7. 5.07143
9. 3.82222
9. 4.84444
8. 4.42500
CORRTFP
STO.DEV.
1.9576
1 1498
1.7444
2.5076
    MEAN
  ST.DV.
 STATION
            VARIABLE
        •-   S
• 15.000*  )
* 63.000*  )
• 9.0000*  )
• 10.000*  )
               TSS
             1.4914
             0.607
                                        VARIABLE
                                   ***-   S
                                  (  ** )
                                  (  *• )
                                  (  •* )
                                  (  *• )
                                                    CHLACORR
                              2.7164
                              2.028
                                                                    VARIABLE
                                                                                CORRTP
                                                      +**-
                                                      ( ** )
                                                      ( *• )
                                                      t ** )
                                                      ( ** )
                                                                            12.3882
                                                                             2.142
                                                                                                 VARIABLE
                                                                       ( *• )
                                                                                                            CORRTFP
                                                                                              4.5121
                                                                                              1.849
STATION
* 15.000
• 63.CUO
• 9.00UO
* 10. QUO
VARIABLE NITNIT
FREQ. MEAN STD.DEV.
9.
9.
9.
9.
189.444
188.556
183.222
196.667
26.231
11.21!
12.011
17.01'
    MEAN
  ST.DV.
 STATION

 •  15.000'
 •  63.000'
 *  9.0000'
 *  10.0C3'
            VARIABLE
                        NITNIT
•-   S
189.4722
 17.572

  M    S
  9
  9
                          ( ** )
VARIABLE
FREQ.
9.
9.
9.
9.
MEAN
852.
609.
597.
906.
444
889
000
667
VARIABLE


- S
)
\
1
)


S




741
507


9
9

SRS
VARIABLE
STO.DEV.
596
106
117
810
SRS
.5000
.151
M S
9


9
.4977
.5838 •
.0085
.4835
FREQ.
9.
9.
9.
9.

14
15
15
14
MEAN
.8333
.0333
.0333
.8111
VARIABLE


S +
(
(
(
(


- S
)
)
)
)







14.
0.
S M
9


9
CL
STD




CL
9278
292
S

9
9



.DEV.
0.
0.
0.
0.








2062
2915
2958
3296



S
(
(
I
(

-------
                                                   TABLE  17  (Cont.)
                                                                                             PAGE  133
  HYORA86  ANOVA  EASTERN BASIN HYPO ALL SURVEYS

  DESCRIPTIVE  STATISTICS
STATION F
* 15.000
* 63.000
* 9.0000
* 10.000

MEAK
ST.DV.
STATION
-
• 15.000 )
* 63.000 )
* 9.0000 )
* 10.000 ]
VARIABLE TEMP
REQ. MEAN STD
9. 5.82222
7. 6.28571
8. 6.82500
4. 6.70000
VARIABLE TEMP
6.3500
1.364

S S H S
9
7
8
4
.DEV.
1.3854
0.8971
1.8668
0.5354




S
I
1
|
I
  VARIABLE
FREQ.     MEAN
                                                        DO
      9.10000
      9.14286
      8.62500
  4.  8.67500
9.
7.
                                                          STD.DEV.

                                                              2.4388
                                                              2.1931
                                                              2.8619
                                                              1.7173
  VARIABLE
FREQ.     MEAN

  9.  282.778
  7.  280.429
  8.  281.625
  4.  279.250
CONDCORR
  STD.DEV.

      3.8333
      2.9921
      3.7009
      4.7170
                                                                                 VARIABLE
                                                                               FREQ.    MEAN

                                                                                 9.  4.75556
                                                                                 7.  4.38571
                                                                                 8.  3.73750
                                                                                 4.  5.50000
                                                               TURBIO
                                                                 STO.OEV.

                                                                     2.7974
                                                                     1.8407
                                                                     1.4362
                                                                     1.2247
                                            VARIABLE
                                      ,..«-    s
   DO
8.9143
2.311

 H    S
 9
 7
8
4
                                 VARIABLE      CONDCORR
                                         281.3571
                                           3.734

                           +•*-   S    S    M   S    S
                          ( « )               9
                                                                                                        VARIABLE
                                                                                              TURBID
                                                                                           4.4786
                                                                                           2.029

STATION
* 15.000
• 63.000
* 9.0000
* 10.000
VARIABLE TSS
FREQ.
9.
7.
8.
4.
MEAN
4.16444
4.57571
3.98375
6.07500
STD.DEV.
2.32
2.59
1.61!
1.44
VARIABLE
FREQ.
9.
6.
7.
4.
MEAN
12.8889
13.0833
12.6286
16.2000
CORRTP
STD.DEV.
4.1044
3.1160
3.1753
2.2015
                                                                         VARIABLE
                                                                       FREQ.    MEAN

                                                                         9.  4.25556
                                                                         7.  3.78571
                                                                         8.  4.95000
                                                                         2.  4.30000
                                             CORRTFP
                                               STO.DEV.

                                                   1.4732
                                                   2.4889
                                                   2.0730
                                                   2.9698
    MEAN
  ST.DV.
STATION

• 15.000
* 63.000
• 9.0000
* 10.000
             VARIABLE
   TSS
4.4886
2.118
                                           VARIABLE
               CORRTP
           13.3731
            3.446
                                                                          VARIABLE
           S   +•*-   S
                                    ( **
                           SMS
                   )           9
                   )            6
                   )           7
                   )                4
                                         S   ***-   S
                                           CORRTFP
                                        4.3462
                                        1.986

                                         M    S
                                         9
                                                                               -   S     S    M    S    S
                                                                                )             9
                                                                                )            7
                                                                                )          8
                                                                                )               4

                                                                                 VARIABLE     SRS
                                                                               FREQ.     MEAN     STD  DEV.
                                                  9.  1295.44      371.1314
                                                  7   1152.86      358.6230
                                                  8.  1520 75      482.0657
                                                  4.  966.500      416.2519

                                                  VARIABLE     SRS
                                                          1277  1786
                                                          429.986
                                                                             •-   S

-------
HYORA86 ANOVA WESTERN BASIN ALL SURVEYS

DESCRIPTIVE STATISTICS
    TABLE 18

Western  Basin Representative  Area Means
and Standard Deviations Compared to the
Means  of the Individual Stations Comprising
the Area.
                                                                                  PAGE 134
VARIABLE TEMP
STATION FREQ.
91.000 24.
92.000 24.
61.000 24.
60.000 24.
59.000 24.
58.000 24.
MEAN STD.DEV.
16.0167
16.1708
15.7125
15.9208
16.4708
16.8375
6.3392
6.4002
6.0635
6.2410
6.1428
6.4617
VARIABLE TEMP
MEAN
ST.DV.
STATION
•- S
* 91.000* )
* 92.000* )
* 61.000* )
• 60.000* )
• 59.000* )
• 58.000* )
16.1882
6.177

S M S
B
B
B
B
8
B



S *•*-
( **
( *•
( **
( **
( **
( **
VARIABLE ALKTOT
FREQ.
24.
24.
24.
24.
24.
24.
MEAN STD.
92.5208
93.4042
91.4208
92.0750
94.1375
96.3250
VARIABLE
OEV. FREQ.
3.8377
4.8300
3.6303
5.4863
4.5911
6.1931
VARIABLE ALKTOT



S
)
)
)
)
)
)
93.3139
5.024

SMS
B
B
B
B
B
B



S +**-
( **
( **
( **
( *•
( **
( **
24.
24.
24.
24.
24.
24.
MEAN
239.708
237.250
235.292
230.417
239.542
247.542
VARIABLE



S






238.
18.

S M
B
B
B
B
B

CONDCORR
VARIABLE TURBID
STD.DEV. FREQ.
14.6628
12.1127
20.2688
15.4580
19.502S
22.2808
CONDCORR
2917
187

S S *••-
( •*
( **
( "
( **
( **
B ( **
24.
24
24.
24.
24.
24
MEAN STD.
5.22500
4 66667
5.83750
5 16250
8.73750
10 1375
DEV.
1 9479
1.7687
2.2417
2.4020
4.8190
6 5548
VARIABLE TURBID



S






6.6278
4.213

SMS
B
8
B
B
B
B



S *
(
(
(
1
1
'
VARIABLE TSS
STATION FREQ.
91.000 24.
92 .COO 23.
61. COO 24.
60. COO 24.
59.000 24.
58.000 24.
MEAN STD
5.97083
5.96261
6.40125
5.83458
9.62708
11.1529
.DEV.
2.0955
2.2156
2.2248
2.4352
4.4676
6.1435
VARIABLE TSS
MEAN
ST.DV.
STATION "
*- S
91.000* )
92.000* )
61.000 • )
60.000 * )
59.000 ' )
58.0CJ * )
7.5022
4.129

S M S
B
8
B
B
B
B



S +«•-
*•
**
ft*
**
**
• *
VARIABLE CHLACORR
FREQ.
24.
24.
24.
24.
24.
24.
MEAN STD
5.10750
7.37250
4.54625
6.67292
9.54875
8.85208
.DEV.
2.5933
3.6656
3.0390
5.7615
6.7054
4.3247
VARIABLE CHLACORR



S
)
)
)
)
)
)
7.0167
4.861

S M S
B
B
B
B
a
B



S +**-
**
**
•*
**
**
**
VARIABLE
FREQ.
23.
23.
23.
23.
24.
24.
MEAN
17.7870
18.7609
14.5913
21.3000
26.3667
29.3750
VARIABLE



S
)
)
)
)
)
)
21.
11.

CORRTP
STD.DEV.
4.5925
7.4991
6.1328
13.9368
13.7725
12.7897
CORRTP
4564
559

S M S S +•*-
B
B
B
B


**
**
•*
**
B ••
8
VARIABLE CORRTFP
FREQ.
23.
22
22.
23.
24.
24.
MEAN STD
5.41304
5.04091
2.54091
5.17391
6.57500
7.69583
DEV.
3 9128
3.1204
2.0344
5.9302
6 8663
4 9783
VARIABLE CORRTFP



S






5.4551
4 981

S M S
B
B
B
B
B
B



S *•
(
1
(
(
(
(
VARIABLE
STATION
91.000
92.000
61.CLO
60. QUO
59.000
SB.Ol'O
FREQ.
24.
24.
24.
22.
24.
24.
MEAN
350.083
301.625
361.292
317.273
356.542
412.375
VARIABLE
MEA^
ST.DV.
STATION

91.000
92.000
61.000
60.000
59.000
58.00J



- S
)
)
)
}
)
)
350.
171.

S M
B
8
B
B
8

NITNIT
VARIABLE
STD.DEV.
ISO
147
162
171
149
227
NITNIT
3239
140

S





B
.3115
.1476
.2112
.9056
.6712
.8367
FREQ.
24.
24.
24.
22.
24.
24.
MEAN
1301.33
974.042
1162.67
1089.45
1011.08
1066.75
VARIABLE



S
1








***- S
•• )
•• )
" )
•• )
•• )
** )
1101
582

S

B


B

SRS

VARIABLE
STD.DEV. FREQ. MEAN
704
634
505
457
541
607
SRS
.0493
.470

M S
B

B
B

B
.1633
.1708
.2873
.4514
.7502
.8964




S +"-
( "
( **
( *•
( "
( ••
( **
24. 12.1583
24. 12.1667
24. 12.5917
24. 10.1792
24. 10.8333
24. 12.0333
VARIABLE
11
2

CL
STO






CL
.6604
.923

S S M S



B
B

B
B
B


B

.DEV.
2.8503
2.1007
4.8101
2.5377
1.7727
1.8170




S +•







-------
                                                         PAGE  135
                 TABLE 19

1986 QUALITY CONTROL SUMMARY BY PARAMETER;
        Differences Between Splits
PARAMETER
PHOSPHORUS:
TOTAL PHOSPHORUS
TOTAL FILTERED
SOLUBLE REACTIVE
NITRATE + NITRITE
AMMONIA
SOLUBLE SILICA
CHLORIDE
TURBIDITY
CONDUCTIVITY 25°C
PH
UNITS
ug/1
ug/1
ug/1
ug/1
ug/1
ug/1
mg/1
NTU
umhos
SU
N
49
48
47
50
44
49
50
48
49
49
MEAN
0.57
0.75
0.09
1.12
2.56
24.00
0.13
0.05
2.65
0.02
MEDIAN
0.40
0.40
0.00
1.00
1.30
10.00
0.10
0.00
2.00
0.01
STD
DEV
0.51
0.66
0.08
0.99
2.27
21.28
0.12
0.04
2.35
0.02
RANGE <
LIMIT F
1.86
2.45
0.29
3.66
8.36
78.43
0.42
0.16
8.66
0.07
PERCENT
SAMPLES IN
IANGE LIMIT
98.0?
95.8%
93.6%
94.02
97.7?
93.9%
96.0%
97.9%
95.9%
98.0%

-------
                                                         PAGE 136
                 TABLE 20

1986 QUALITY CONTROL SUMMARY BY PARAMETER;
      Differences Between Replicates
PARAMETER
TEMPERATURE
DISSOLVED OXYGEN
PHOSPHORUS:
TOTAL PHOSPHORUS
TOTAL FILTERED
SOLUBLE REACTIVE
NITRATE + NITRITE
AMMONIA
SOLUBLE SILICA
SECCHI
TURBIDITY
TOTAL SUSPENDED
SOLIDS
RESIDUAL SOLIDS
VOLATILE SOLIDS
CORR CHLOROPHYLL A
PHEOPHYTIN
CONDUCTIVITY 25°C
CHLORIDE
ALKALINITY TOTAL
ALKALINITY
PHENOLPHTHALEIN
PH
UNITS
°C
mg/1
ug/1
ug/1
ug/1
ug/1
ug/1
ug/1
M
NTU
mg/1
mg/1
mg/1
ug/1
ug/1
umhos
mg/1
mg/1
mg/1
SU
N
23
23
24
23
23
25
20
24
11
24
25
25
25
25
25
24
25
25
25
24
MEAN
0.02
0.10
1.42
1.49
0.23
3.48
3.22
76.83
0.13
0.27
0.31
0.36
0.30
1.30
2.06
4.17
0.32
0.70
0.21
0.03
MEDIAN
0.00
0.10
0.90
0.60
0.00
1.00
2.85
43.50
0.00
0.20
0.18
0.19
0.15
0.58
1.09
3.00
0.30
0.60
0.10
0.01
STD
DEV
0.02
0.09
1.26
1.32
0.20
3.09
2.85
68.11
0.12
0.24
0.27
0.32
0.27
1.15
1.83
3.70
0.28
0.62
0.19
0.03
RANGE
LIMIT
0.07
0.33
4.64
4.87
0.75
11.37
10.52
251.06
0.42
0.88
1.01
1.18
0.98
4.25
6.73
13.63
1.05
2.29
0.69
0.10
PERCENT
SAMPLES IN
RANGE LIMIT
95.71
100. OX
95.8%
91.3%
95.7%
92.0%
100. OX
91. 7%
90.9%
100.0%
96.0%
92.0%
92.0%
92.0%
92.0%
95.8%
100.0%
100.0%
92.0%
95.8%

-------
                                        PAGE 137
FIGURES

-------
          MICHIGAN
 DETRorr
TOLEDO
                                                                                  NEW YORK
                                                                  PENNSYLVANIA
                                                                   LAKE ERIE MAIN LAKE

                                                                   SAMPLING LOCATIONS
                Figure 1  1986 Lake Erie Open Lake Sampling Locations
                                                                                            TD


                                                                                            §
                                                                                            CO
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-------
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FIGURE  3  WESTERN BASIN MEDIAN TEMPERATURES.  1986
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-------
                                                                          PAGE 141
28.
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                                   MONTH
     FIGURE  4  CENTRAL BASIN MEDIAN TEMPERATURES.  1986

-------
                                                                     PAGE  142
    EPILIMNION
                                            12
                          12
                         ffl
                                                      12
                                                    I
    APR    MAY    JUN    JUL    AUG    SEP     OCT    NOV    DEC
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                              MONTH

FIGURE  5  EASTERN BASIN MEDIAN TEMPERATURES,  1986

-------
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                                         STATION
                                                                                          NORTH
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                                                           17
            Figure 6.   Stratification of the Western Basin Seen From a North-South
                      Cross-Section on June 3,  1981  (Bartish, 1984).
                                                                                                         co

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           in the Western  Basin, 1986.

-------
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                                                                                 cr>
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Figure  8 .  Thermal Profiles from Station 073 in the Central Basin, 1986,
                                                                                 en

-------
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                                                                        PAGE 146
        CENTRAL BASIN
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         APR    NAY    JUN
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     MONTH
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                                   MONTH

     FIGURE 9  CENTRAL AND EASTERN BASIN HYPOLIMNION THICKNESS,  1986

-------
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      Figure  10.  Thermal Profiles from  Station 15 in the Eastern Basin,  1986.

-------
                                                                         PAGE  148
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         APR    MAY    JUN     JUL    AUG    SEP    OCT    NOV    DEC

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     FIGURE 11 CENTRAL BASIN HYPOLIMNION MEDIAN DISSOLVED OXYGEN
                CONCENTRATION AND PERCENT SATURATION,  1986

-------
                                                                              PAGE 149
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              APR    MAY    JUN    JUL    AUG    SEP    OCT    NOV    DEC
                                        MONTH
             DISSOLVED OXYGEN
             PERCENT SATURATION
              APR    NAY    JUN    JUL    AUG    SEP    OCT     NOV    DEC
                                        MONTH

          FIGURE 12 EASTERN BASIN  HYPOLIMNION MEDIAN DISSOLVED OXYGEN
                     CONCENTRATION  AND PERCENT SATURATION.  1986

-------
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          FIGURE 13  CENTRAL BASIN  HYPOLIMNION CORRECTED OXYGEN DEPLETION

                     RATES.  1986
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-------
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              1925  1930  1935  1940  1945  1950 1955  1960  1965  1970  1975  1980  1985
           FIGURE  14  CENTRAL BASIN MEAN HYPOLIMNION CORRECTED OXYGEN  DEPLETION

                       RATES FROM 1929  THROUGH 1986

-------
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                                                               1986
FIGURE 15  EASTERN BASIN HYPOLIMNION ADJUSTED OXYGEN DEPLETION RATES

           FROM 1970 THROUGH 1986
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          FIGURE 16  WESTERN BASIN  MEDIAN TOTAL PHOSPHORUS  CONCENTRATIONS.   1986
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-------
                                                                   PAGE  154
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    FIGURE 17 CENTRAL BASIN MEDIAN TOTAL PHOSPHORUS CONCENTRATIONS.  1986

-------
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                                                                          PAGE  155
                               IB
                                        12
                                       []
12
 APR    MAY    JUN  '   JUL    AUG
                           MONTH

HYPOLIMNION
                                                   OCT    NOY    DEC

10.0
 5.0
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                               IB
                                                 IB
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         APR    NAY    JUN    JUL    AUG    SEP    OCT     NOV    DEC
                                    MONTH
     FIGURE 18  EASTERN  BASIN MEDIAN TOTAL PHOSPHORUS CONCENTRATIONS.  1986

-------
                                                                             PAGE 156
     2200
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Of.
           * TOTAL
           H EPILIKNION
           A HYPOLIMNICN
         !•  OMESOLDWION
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     1200
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              APR    NAY    JUN
         .  DfflLDWION
           AHYPOLIMNION
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JUL    AUG
     MONTH
SEP    OCT    NOV    DEC
              APR    MAY    JUN    JUL    AUG    SEP    OCT    NOV    DEC
                                       MONTH

          FIGURE  19  CENTRAL BASIN LIMNION DISTRIBUTION  OF TOTAL PHOSPHORUS
                      IN METRIC TONS AND PERCENT,  1986

-------




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          TOTAL PHOSPHORUS
          PARTICULATE PHOSPHORUS
          TOTAL FILTERED PHOSPHORUS
»_ ..I. .* _ • .1. I.
MAR    APR
                                    JUL    AUG
                                      MONTH
   FIGURE 20  WESTERN BASIN  MEDIAN TOTAL PHOSPHORUS.  PARTICULATE
               PHOSPHORUS  AND TOTAL FILTERED  PHOSPHORUS CONCENTRATIONS,
               1986
                                                                                       -o
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                                                                                       o
                                                                              CJI
                                                                              —I

-------
                                                                          PAGE 158
18. B

18.

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10.0.

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 2.0

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 EPILIMNIGN

ID TOTAL PHOSPHORUS
A PARTIOLATE PHOSPHORUS
O TOTAL FILTERED PHOSPHORUS
O SOLUBLE REACTIVE PHOSPHORUS
        MAY    JIB?   ill
         APR
        HYPOLIWttON

        n TOTAL PHOSPHORUS
        A PARTIOLATE PHOSPHORUS
        O TOTAL FILTERED PHOSPHORUS
        « SOLUBLE REACTIVE PHOSPHORUS
SEP    DCT    NOV    DEC
         APR    MAY    JUN
                             AUG    SEP
                            MONTH
       OCT    NOV    DEC
     FIGURE 21   CENTRAL  BASIN MEDIAN TOTAL PHOSPHORUS.  PARTICULATE
                  PHOSPHORUS,  TOTAL FILTERED PHOSPHORUS AND SOLUBLE
                  REACTIVE PHOSPHORUS CONCENTRATIONS.  1986

-------
                                                                          PAGE 159
s
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              EPILIMNIGN
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             « SH.U8LE REACTIVE PHOSPHORUS
         APR    MAY    JUN
              HYPOLIMNION

             D TOTAL PHOSPHORUS
             ^ PARTICULATE PHOSPHORUS
             0 TOTAL FILTERED PHOSPHORUS
                                   B.  .
               SflllHF REACTIVE PHOSPHORUS
                                                               NOV    DEC
                                    MONTH
         APR
                                          AUG    SEP
                                        MONTH
OCT    NOV    DEC
     FIGURE 22, EASTERN  BASIN MEDIAN TOTAL PHOSPHORUS,  PARTICULATE
                 PHOSPHORUS.  TOTAL FILTERED PHOSPHORUS AND SOLUBLE
                 REACTIVE PHOSPHORUS CONCENTRATIONS,  1986

-------
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              A SOLUBLE ORGANIC PHOSPHORUS


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              'MAR'  '  APR    MAY
                                                                      NOV    DEC
                                             MONTH
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                                                                                              CD
          FIGURE 23  WESTERN BASIN MEDIAN  TOTAL FILTERED  PHOSPHORUS.  SOLUBLE

                     ORGANIC PHOSPHORUS AND SOLUBLE REACTIVE PHOSPHORUS

                     CONCENTRATIONS.  1986

-------
                                                                               PAGE
§
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14.

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              EPILIMNIQN

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-------
                                                                              PAGE 162
i
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              EPILIMNION
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             Q TOTAL FILTERED PHOSPHORUS
             A Sta.ljg.E ORGANIC PHOSPHORUS
             O SOLUBLE REACTIVE PHOSPHORUS
              APR    NAY    JUN
                                     AUG     SEP
                                   MONTH
OCT    NOV    DEC
          FIGURE 25   EASTERN  BASIN MEDIAN TOTAL FILTERED PHOSPHORUS.  SOLUBLE
                       ORGANIC  PHOSPHORUS AND SOLUBLE  REACTIVE PHOSPHORUS
                       CONCENTRATIONS,  1986

-------
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               MAR    APR    MA
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IUN   JUL    AUG    SEP    OCT


         MONTH
                                                        NOV    DEC
          FIGURE 26  WESTERN BASIN MEDIAN PERCENT COMPOSITION OF PARTICULATE
                     PHOSPHORUS AND TOTAL FILTERED PHOSPHORUS.  1986
                                                                                              en
                                                                                              m
                                                                                (7)
                                                                                CO

-------
                                                                        PAGE 164
70

60
       EPILINNION

       * PARTICULATE PHOSPHORUS
       ED TOTAL FILTERED PHOSPHORUS

40

30
10
APRNAYJUN
       HYPOLIMNION
                            JULAUGSEPQCTNQVOEC
                                  MONTH
      A PARTIOJLATE PHOSPHORUS
      O TOTAL FILTERED PHOSPHORUS
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801
50
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10
        APR    MAY     JUN    JUL    AUG    SEP    OCT    NOV    DEC
                                  MONTH

    FIGURE 27  CENTRAL BASIN MEDIAN  PERCENT COMPOSITION OF  PARTICULATE
                PHOSPHORUS AND TOTAL  FILTERED PHOSPHORUS,  1986

-------
                                                                        PAGE  165
 70
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 30
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       EPILIMNIQN
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 APR    MAY    JUN
                             JUL    AUG    SEP    OCT
                                  MONTH
NOV    DEC
 HYPOLIMNION
A PARTIOJUTE PHOSPHORUS
B TOTAL FILTERED PHOSPHORUS
        APR    MAY    JUN
                      JUL     AUG
                           MONTH
                                          SEP    OCT    NOV    DEC
    FIGURE 28  EASTERN BASIN  MEDIAN  PERCENT  COMPOSITION OF PARTICULATE
                PHOSPHORUS AND TOTAL  FILTERED PHOSPHORUS,  1986

-------
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                                MONTH
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 NOV    DEC
          FIGURE 29  WESTERN BASIN  MEDIAN NITRATE PLUS NITRITE  AND AMMONIA

                      NITROGEN CONCENTRATIONS.  1986
                                                                                                  o
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-------
                                                                                  PAGE  167
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                                        MONTH
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         . m NITRATE + NITRITE
          OAM40NIA
              APR    MAY    JUN    JUL     AUG
                                        MONTH
OCT    NOV    DEC
                       40.0

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                       30.0

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          FIGURE 30  CENTRAL BASIN  MEDIAN  NITRATE  PLUS NITRITE AND AMMONIA
                      NITROGEN CONCENTRATIONS,  1986

-------
                                                                                 PAGE 168

350
300
§
1 250
1 m
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* 100
| 50
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0 AMMONIA

	 & 	 H !
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                                        MONTH
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O AMMONIA
              APR   'NAY    JUN    JUL    AUG    SEP    OCT    NOV    DEC
                                        MONTH
                                                                            \
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       1-4
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          FIGURE 31   EASTERN BASIN MEDIAN NITRATE PLUS  NITRITE  AND AMMONIA
                      NITROGEN CONCENTRATIONS,  1986

-------
    1800.0




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               MAR    APR    MAY   JUN    JUL    AUG    SEP    OCT   NOV    DEC



                                           MONTH




          FIGURE  32 WESTERN BASIN MEDIAN SOLUBLE REACTIVE  SILICA CONCENTRATIONS.

                    1986
01
UD

-------
                                                                              PAGE 170
     2400
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     1200
     2400
     2200
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     1400-
     1200-
      400r
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D EPILUWION

-------
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      2.0
      0.0
        D CHLOROPHYLL A CUG/L)

        A TOTAL SUSPENDED SOLIDS (MG/L)

        O VOLATILE SOLIDS  (MG/L)
A..
                                           -~L.
               MAR    APR    MAY    JUN    JUL    AUG    SEP    OCT    NOV    DEC


                                             MONTH



          FIGURE 34  WESTERN BASIN MEDIAN CHLOROPHYLL A, TOTAL SUSPENDED SOLIDS

                     AND  VOLATILE SOLIDS CONCENTRATIONS, 1986
                                                                                      CD

-------
                                                                              PAGE 172
§
      3.0
      2.0
      IB

      2.B

      1.0
             EPILIMNION
             E OlOROPHYLL A OJG/TJ
             * TOTAL SUSPENDED SOLIDS OG/L)
             0 VOLATILE SOLIDS OG/L)
              APR    MAY    JUN
              HYPOLIMNICN
JUL    AUG    SEP
     MONTH
OCT    NOV    DEC
             D CHLOROPHYLL A OC/L)
             A TOTAL SUSPENDED SOLIDS OG/D
             O VOLATILE SOLIDS OG/D
              APR    NAY    JUN    JUL    AUG    SEP    OCT    NOV    DEC
                                        MONTH

          FIGURE 35   CENTRAL  BASIN MEDIAN CHLOROPHYLL  A. TOTAL SUSPENDED
                       SOLIDS AND VOLATILE SOLIDS CONCENTRATIONS,  1986

-------
                                                                              PAGE  173
§
7.8-

6.0-
   i
5.0[
   T
   *
4.0

3.0

2.0

1.0'
      0.0
      7.8-

      8.0

      5.8-

I    «.

      3.0

      2.0

      1.81-
      0.0L
             EPILINNION
             DCHLGROPHYLLA OE/L)
             A TOTAL SUSPENDED SOLIDS QG/U
             © VOLATILE SOLIDS OCA)
              APR    NAY    JUN    JUL    AUG    SEP    OCT    NOV    DEC
                                        MONTH
        HYPOLIHNION

       D CHLOROPHYLL A  (US/D
       * TOTAL SUSPENDED SOLIDS OG/L)
       O VOLATILE SOLIDS OGXL)
              APR    MAY    JUN    JUL    AUG     SEP    OCT    NOV    DEC
                                        MONTH

          FIGURE 36   EASTERN  BASIN MEDIAN CHLOROPHYLL  A,  TOTAL SUSPENDED
                       SOLIDS AND VOLATILE SOLIDS CONCENTRATIONS.  1986

-------
UJ
u
a:
LU
o.
      100


       90
70



60



50



40



30



20



10



 0
         RESIDUAL SOLIDS


         VOLATILE SOLIDS
               MAR   APR    MAY    JUN   JUL    AUG    SEP    OCT    NOV    DEC


                                            MONTH



          FIGURE 37  WESTERN BASIN MEDIAN  PERCENT COMPOSITION  OF RESIDUAL

                     AND VOLATILE SOLIDS.  1986
                                                                                     CD

-------
                                                                        PAGE  175
102
        EPILIMNIQN
       « RESIDUAL SOLIDS
       0 VOLATILE SOLIDS
 78
 48
 30
 20
 10
100
         APR    MAY    JUN
        HYPOLIMNION
       O RESIDUAL SOLIDS
       O VOLATILE SOLIDS
JUL    AUG    SEP    OCT    NOV    DEC
      MONTH
 70-
 801
   I
 50-
 40-
 30-
 20.
 10.
 0 -
        APR    MAY    JUN
JUL    AUG     SEP    OCT    NOV    DEC
     MONTH
    FIGURE 38  CENTRAL BASIN MEDIAN PERCENT COMPOSITION OF  RESIDUAL
                AND VOLATILE SOLIDS,  1986

-------
                                                                         PAGE 176
100
 70
 40

 30
 20
 10
  0


100
 78
 60 -
 "
 20
 10
 0
        EPILIMNIQN

       O RESIDUAL SOLIDS
       O VOLATILE SOLIDS
APR    NAY    JUN
        HYPOLIMNION

       O RESIDUAL SOLIDS
       O VOLATILE SOLIDS
JUL    AUG
     MONTH
SEP    OCT    NOV    DEC
        APR    NAY    JUN    JUL    AUG    SEP    OCT    NOV    DEC
                                   MONTH

    FIGURE 39   EASTERN BASIN  MEDIAN  PERCENT  COMPOSITION  OF RESIDUAL
                 AND VOLATILE SOLIDS,  1986

-------
o
2:
>
H-l

h-
u
o
u
270



265



260



255



250



2451-



240



235



230



225



220
               CONDUCTIVITY


               CHLORIDE
               MAR   APR    MAY    JUN    JUL    AUG    SEP    OCT    NOV    DEC


                                            MONTH
                                                                                            n
n
o

n
m
H
•—i

O
                                                                                            CD
          FIGURE 40  WESTERN BASIN  MEDIAN CONDUCTIVITY AND  CHLORIDE

                     CONCENTRATIONS.  1986

-------
                                                                PAGE  178





to
s»
2
3
£
>
1-4
§
§
y^









$

0
i

^
1-
M
>
1— 1
1



291
285

28B




275

270

265



260


290

285

280




tyrjK
C/J

270
265

?flfl
EPILIMNIDN
• D CONDUCTIVITY
CD CHLORIDE
_. *
®^

«t
' ^^L
\^
(SL ^-'*®'— 	 --^
>®r-^ "^"°
X-
— --B
B-"
fcgj
s
/ •

,

.
MAR APR MAY JUN JUL AUG SEP OCT NOV DEC
MONTH
HYPOLIWION
i i

. 0 CONDUCTIVITY
0 CHLORIDE
^ •

^^^.^y- •• •- — • CJ
""^t^""*^^ '
B»_
-j»-*^-fcJNi^«j— •«
— ^»*SF Tir U


.
•

16.0
15.5



15.0



14.5

14.0



13.5

10. fl
13. D
16.0

15.5

15.0




IA 
-------
                                                                              PAGE  179
2901-

   I
   i
285J-

   t

2801-
   i


275 j-
   i


270 !•
 EPILIMNION


D CONDUCTIVITY

0 CHLORIDE
                                                                         llOLB
                                                                         -lis
                                                                         -15.0
                                                                         -14.0
                                                                          13.5
2551
290
285 1-
        MAR    APR    MAY   JUN
           HYPOLIWION


           D CONDUCTIVITY

           © CHLORIDE
                                 .J ..I..*.-!** «!—*_.• .&«l_t.»A UL. l_*_ *v.A«U»Ai~*.-JwA.^.
                                  JUL   AUG    SEP    OCT   NOV    DEC

                                   MONTH
                                                               '13.0
                                                                         116.B
275 j-
                                                                         -15.0

                                                                         •


                                                                         -14.5
270'
                                                                         -•14.0
285}-
   ^
                                                                         -13.5

        MAR    APR    MAY   JUN    JUL    AUG   SEP    OCT   NOV   DEC

                                   MONTH


    FIGURE 42  EASTERN BASIN MEDIAN CONDUCTIVITY AND  CHLORIDE

                 CONCENTRATIONS, 1986

-------
_J
z
I—I
_J
<
_l
110.01-
100.0
 90.0
 80.0
 70.0
 60.0
 50.0
 40.0
 30.0
 20.0
 10.0
                  ALKALINITY TOTAL
                  ALKALINITY PHENOLPHTHALEIN
               MAR
L    AUG
 MONTH
-
•
n
•
-
&
-
•
-

10.0
9.5
9.0
8.5
8.0 3:
7.5
7.0
6.5
R ffl
                                                                       DEC
          FIGURE 43  WESTERN BASIN MEDIAN ALKALINITY  AND PH CONCENTRATIONS.  1986
                                                                                                CO
                                                                                                o

-------
                                                                   PAGE  181
110.0
100.0
90.0
80.0
1 70S^>A,^LJI,L,..,iitiiiiiiiiiil
10.0
9.5
9.0
8.5

8.0
7.5
7.0
8.5
a a
O.O
10.3
9.5
9.0
8.5
8.0
7.5
7.0
as
R fl
    APR    MAY    JUIT   JUL    AUG    SEP   OCT    NOV    DEC
                            MONTH

FIGURE 44  CENTRAL BASIN MEDIAN ALKALINITY AND PH CONCENTRATIONS.
           1986

-------
                                                                PAGE 182






i
s
\x
V
l-l
z
1
<










i


v
z
I
*






110.01- EPILIMNION Q_
r ^" 	 — ..
lWtZ[ m ALKALINITY TOTAL
90.01-
i.
80. 0i-
70.0J-
r ^ PH A • 	 — A.
80.01- — •*-
•
50.0-
40. 0r
30.0!-
i
20. 0J-
b
- — Ml
10. 0r o ALKALINITY PHENOLPHTHALEIN
r ^*"~ *• — ^ I., , .— -/*%
APR NAY JUN JUL AUG SEP OCT NOV DEC
MONTH
110.01- HYPOLIWION g 	 . 	 S 	
r
4 nn rtf
100. H>-
; D ALKALINITY TOTAL
90.0-
80.0-
70. 0|-
r
60.0-
; A PH
** '*~~~~~' 	 _A
40. 0r "^
30.0-
20. 0r
1
10. 0J- O ALKALINITY PHENOLPHTHALEIN
a nL • xv xis. —v
APR HAY JUN JUL AUG SEP QCT ffiv DEC
MONTH
110.0
1
1"
-9.5
,

-9.0
-8.5

"
-8.0

-;7.5
-7.0
•
•;8.5
i
-Ja.i

1 10.0
i *•* "
-9.5
j
-9.0
•las
'
™
-8.0

•7.5
-7.0
4

^B.5
4

-*- 'O.B

FIGURE 45  EASTERN BASIN MEDIAN ALKALINITY AND PH CONCENTRATIONS.
           1986

-------
                                         PAGE 183
APPENDIX A

-------
HYDRA86 WESTERN BASIN ALL DATA
                                                                                                      PAGE 184
mttmtm
( TEMP t
iismsmti
MAXIMUM
? MINIMUM
25.6000004
4.A999V98
NUMBER OF DISTINCT VALUES . 81 RANGE 20.R999V9A
NUMBER UF VfttllFS CllUNTFD. . 144 VARIANCE .18. 15.16407
NUMBER OF VALUES NOT COUNTED 0 ST.DEV. 6.176863?
<0.{-l)l>/2 5. 1500001
LOCATION ESTIMATES ST. ERROR
MEAN 14.1BR19*1 0.5147386
HFUIAN IA.7V9V992 0.5/7.1304
H
N
nuut



S

0
1

PERCENTS
VAl ue
4.700
4.W
5.600
S./OO
5.800
6.700
6.500
6.600
6.800
7.000
7.300
10.100
-.0.300
10.400
10.700
11.000
11.100
11.200
11.600
12.000
12.100
i:niiHT
2
7
1
I
2
7
1
.1
4
2
2
1
3
...






2
CEll
1.4
1.4
0.7
M
1.4
1.4
0.7
7.1
2.8
1.4
1.4
O./
2.1
1.4
0.7
0.7
1.4
0.7
0.7
O./
1.4
CUM
1.4
2.8
3.5
C.4
6.9
8.3
9.0
U.I
13.9
15.3
16.7
17.4
19.4
70.8
21.5
72.2
23.6
.'4.3
25.0
75.7
27.1
VAl HE i:
12.400
1 .' , 500
12.600
12,800
12.900
11.100
14.000
14.100
14.200
14.100
14.500
14.700
14.900
TJ.OOO
15.100
IS.VOO
16.000
1A.JOO
16.600
16.700
17.100
HINT
1
.1
2
1
3
1
1
1
1
1
2
1
2
1
1
A
2
4
2
t
1




PERCFNTS
I'F.ll
0.7
7.1
1.4
0.7
7.1
0.7
0.7
0.7
0.7
0.7
1.4
0.7
1.4
0.7
0.7
4.7
1.4
2.8
1.4
1.4
0.7
HUH
77.8
,'9.9
31.7
.11.9
.14.0
34.7
35.4
.(4.1
36. R
«7.5
38.9
•(9.4
41.0
41.7
42.4
14.5
47.9
hO.7
52.1
53.5
54.2
SKEUNESS
MIRTOSIS
N M
D A
E N
H FACH '»'
H H HHHH REPRESENTS
HH H HH H HHHH 2
HH H H HHHH H HHHH CQUNT(S)
HH HHH HHHH H HHHH
HH HHH HHHHHH HHHH
HHH HHHHHHHHHH HHHHH
EACH
VALUF
-0.30
-1.1'
EACH

'-' ABOVE = 1.0000
1= 5.0000
U- 24.0000
(11- 11.8000002
VALUF/S.F. 03: 22.100000-1
-1.47 S-- 10.01U3U
-2.74 St= 22.3450570
'.' BFLOU = 0.2000
Q S
3 i n


PERfFHlS
VftlllE C.nilNr CEI.I
17.300 4 7.8
17,900 ? 1.4
18.600
18.700
18.900
19.100
19.200
19,300
19.500
19.600
19.700
19,800
21.100
71,100
21.400
71,500
21.600
71.900
22.000
.'7.200
22.400
0.7
0.7
0.7
1.4
0.7
0.7
0.7
2.1
0.7
0.7
0.7
0.7
0.7
0.7
1.4
2.U
0.7
0.7
0.7
TDM
•iA.9
•|8.3
59.0
19.7
60.4
41.8
A?.rj
A1.2
6.1.9
4o.O
66.7
«7.4
68.1
48.7
69.4
70.1
71.5
74.3
7'i.0
73.7
76.4
VALUE
22, '00
••I. 700
27.800
'2.900
23.000
71.100
23.200
73.300
23.400
71.500
23.600
74,100
74.200
.'4.400
74.700
74.800
2S.OGO
7-1.600



COUNT
1
7
1
1
4
I
4
n
4
1
1
2
3
1
2
I
2
1



X

PERCENTS
CFLL
0.7
1,4
O./
0.7
7.R
0.7
I'.B
1.4
"".B
0.7
0.7
1.4
3.1
0.7
1.4
0.7
1.4
0.7



CUM
/7.1
79.5
79.2
79.9
82.6
81.3
HA.l
87.5
90.3
91.0
91.7
91.1
95.1
9'). 8
97.2
97.9
99.3
100.0




-------
HYDRARi WESTERN BASIN ALL DATA
PAGE  185
mmtmit
I DO <
VARIABI F NUHDFR 	
t
HAXIMUH
lit u ruiiM
13.7000000
L AAAAAA1
NUMBER OF DISTINCT VAl UES . 49 RANGF 7.0999999
NUMBER (IF VAIIIKS CIIIINrFD. . 142 VARIANCE 2.395!)493
NUMBER OF VALUES NOT COUNTED 2 ST.BEV. 1.6110709
io.i-OD/2 i. ?:>ooooo
LOCATION ESTIMATES SF.FRROR
MEAN 9.6542744 0.13519B1
MEDIAN 9. .1999996 0.1737050
NODE unr iiurnur
M

N
S 0
1
M H
SKEUNESS
KURTOSIS
0 S
3 +

HH

HH
H HH H
H HH H
HHHH H
HHHHHHHHH
HHHHHHHHH
HHHHHHHHHHH
HHHHHHHHHHHH
HHHHHHHHHHHHHriH


FACH -H-
LEPkl-SFNTS
COUNT (Si
E1CH ';' ABOVE = 0.5000
L° 5.0000
U= 1^.5000
01- P. 5000000
VALUF VALUF/S.F. 03= 11,0000000
0.23 1.10 S-- 8.0431538
-0.74 -1.80 S+s 11. '652950
EACH • . ' BELOU = 0.0750
H
D A
I N
PERCENTS
VALUE
6.400
6.700
6.900
7.400
7.600
7.700
7.800
7.900
B.OOO
8.100
8.200
8.100
8.400
COUNT
2
1
3
S
3
1
6
I
3
)
2
1
1
CEl I
1.4
O./
2.1
3.5
2.1
0.7
4.2
1.4
2.1
1.4
1.4
o.;
0.7
CUN
1.4
2.1
4.2
7.7
9.9
10.6
14.8
16.2
18.3
19.7
21.1
71.8
22.5
VAl HE
8.500
H.600
8.700
fl.HOO
8.900
9.000
.100
.700
.300
,400
.500
.600
.700
COUNT
6
7
S
4
5
3
4
5
2
5
4
.1
2
PERCENTS
CF.U
4.2
1.4
3.5
2.8
3.!i
2.1
7.8
3.5
1.4
3.5
?.R
7.1
1.4
CUM
76.8
7R.2
31.7
34.5
3K.O
40.1
41.0
46.5
4/,9
')1.4
54.2
•16.3
57.7
VAl HE
9.800
10.000
10.100
10.700
10.300
10.400
10.500
10.600
10.800
11.000
11.100
11.700
11.400
COUNT
1
4
2
3
1
1
1
:>
3
)
1
4
6
X
PERCENTS
CEI.l
0.7
T.8
1.4
!.'>
0.7
0.7
0.7
I.1!
7.1
1.4
0.7
2.8
4.7
CUM
•"iB.Ti
61.3
67.7
AA.2
66.9
67. 6
AH. 3
/l.B
/.1. 9
X5.4
76.1
78.9
B3.1
VALUF
11.500
11.600
11.000
11.900
17.000
12.700
12.400
12.500
12.ROO
11.500



COUNT
4
2
4
1
3
3
2
1
2
2





PERCENTS
I'ELL
7.8
1.4
7.8
0.7

2.
1.
0.
1.
1.



CUM
R5.9
87.3
90.1
90.8
93.0
91.1
96. S
97.2
98.6
100.0




-------
HTDRAH6 WESTERN BASIN ALL DATA
                                                                                                     PAGE 186
smmms*
t PCRDO *
ItltlllltUI

VARIABI F NIIMBFR





NUMBER OF DISTINCT
NUMBKR (IF VSllltS
NUMBER OF VALUES







VALUES





t
CnilNTFD. .
NOT COUNTED






LOCATION ESTIMATES











H
I
N
















MEAN
MEDIAN
Mnnr
nuuL















MAXIMUM
4 MINIMUM
129 RANGF
142 VARIANCE
2 ST.DLV.
(03-U1I/2




120.
..
49.
67.
B.
5.




B700077
0599976
810005'.'
'54.10527
71B45H2
71S0002











ST.fRkOR
95.1811523 0.68V6777
94.1850052 0.741R9S4
OC 'XOQOH













PERCENTS
UALUF COUNT
71.06
71.90
75.45
76.08
76.79
78.07
80.81
81.98
83.12
84.33
85.35
85.62
85.68
85.99
86.61
87.01
87.45
87.59
87.91
Bfl. 52
88.57
89.18
89.20
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
2
1
1
1
1
CFll
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
O./
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
CUh
0.7
1.4
2.1
2.8
3.5
4.2
4.9
•5.4
7.0
7.7
8.5
9.2
9.9
10.6
11.3
12.0
12.7
13.4
14.8
15. S
16.2
16.9
17.6








S Q
1












H M

D A
I N
PERCENTS
VAt HE COUNT IIEI L
90.74
90.82
90.87
91.00
91.09
91.25
91.27
91.53
91.56
91.61
91.65
91.72
91.89
92.01
92.06
92.12
92.39
97.41
92.49
92.50
92.66
9?. 69
92.97
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
O./
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
26.1
24.8
7/.S
.'8.2
28.9
>9.6
30.3
11.0
31.7
.12.4
3.1.1
.(3.8
34. 5
.(5.2
35.9
.46.6
37.3
38.0
38.7
39.4
40.1
40.8
11. f.





SKEUNESS
KURTOSIS

Q S
3 +



H
EACH



VALUF
-0.11
0.69
EACH





PERCENT S
VAI HE COUNT CF.1 1
94.07
94.30
94.43
94.58
95.10
9D.26
95.27
9:i. 50
95. 7i
95.81
95.91
94.43
96.50
97.03
97.2V
97.44
97.47
97.74
97.93
9R.17
98.24
9H.43
98. 5V
0.7
0.7
0.7
0.7
0.7
0.7
2.1
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
CUM
:,o.o
50.7
',1.4
'.12.1
:i?.B
11.5
•i5.6
•j6.3
:;7.o
57.7
58. 5
:>9.2
59.9
60.6
61.3
42.0
63.4
64.1
64. R
AH. 3
66.2
66.9
6/.6




M
H
H FACH 'H1
HHH REPKI-CFNIS
HHHH H 3
HHHHHHH COUNT(S)
HHHHHHHHH
HHHHHHHHHH
HHHHHHHHHHHHHHHHH H
•-• AROVE = 2.5000
L* 70.0000
U= P2.3000
01- 90.6299973
VALUF/S.F. 03= 101.0599976
•0.54 S-« B6. 9424923
1.69 St= 103.3996124
'.' BELOV - 0.5000

ft

X

PERCENTS
VALUE COUNT CEIL CUrt
101.64 1 0.7 7f.l
101.86 2 1.4 77.5
101.88
102.07
107.36
10,!. 40
10?. SI
10?. 94
103.03
103.19
103.71
103.86
103.9'.
104.14
104.?:;
104.28
105.19
to1;. 60
106.64
106.64
10*. fly
107.09
107.41
0.7 78.2
0.7 78.9
1.4 80.3
0.7 81. 0
0.7 81.7
0.7 8?. 4
0.7 Rl.l
0.7 83.8
0.7 84.5
0.7 85.:
0.7 H3.9
1.4 87.3
1.4 RB.7
0.7 89.4
0.7 90.1
0.7 90.8
0.7 91.3
0.7 9.'. 3
0.7 91.0
0.7 93.7
0.7 94.4
89.32
89.46
89.56
89.58
89.91
89.96
90.18
90.30
90.40
90.63
1 0.7
0.7
0.7
0.7
<>.;
0.7
0.7
1.4
0.7
0.7
18.3
19.0
19.7
20.4
V\. 1
21.8
72.5
23.9
,'4.6
25.4
9.1.05
93.24
93.25
93.40
93.43
93.47
93.39
93.81
93.83
93.99
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
42.3
43.0
43.7
44.4
4-j.l
4'). 8
47.2
47.9
48.6
49.3
9R.62
99.40
99.49
99.7!)
100.08
100.35
100.47
100.54
100.56
101.06
? 1.4
0.7
0.7
0.7
' 0.7
0.7
0.7
0.7
0.7
0.7
69.0
69.7
/0.4
71.1
71.8
>2.5
/1. 2
73.9
/4.6
71.4
107.41
108.10
108.25
110.3V
112.57
115.15
120.87



0.7
0.7
1.4
0.7
0.7
0.7
0.7



9S.1
95. R
97.2
97.9
90.6
99.3
100.0




-------
HYDRAS* WESTERN BASIN ALL  DATA
                                                                                                                    PAGE  187
  tmmmu
  > CORRTP   t
  mm******

VARIABIF NIINBER	
NUHBER OF DISTINCT VAI UES .
MUHBFR (IF VAlllfS CmiHTFO. .
NUHBFR OF VALUES NOT COUNTED
  2
114
140
  4
NAXINUH
HINIHUn
RANG?
VARIANCE
ST.DFV.
 SB.700000R
  0.5000000
 S8.700000R
133.60HR104
 11.558927:1
  6.099*999
LOCATinN ESTIMATES
                   MEAN
                   HEHIAN
                   NODE
   21.4564747
   19.3000011
   22.6000004
                  ST.FRROR
                   0.97*9077
     H  H
     HHHH
     HHHH
     HHHH
     HHHH
    HHHHHH
   HHHHHHH H
  HHHHHNHHHH
  HHHHHHHHHH  HHH
 HHHHHHHHHHHHHHHH HHH
I	(I
 EACH 'H-
REPRFSFNTS
     2
 CHUNKS)
                                                                                              EACH •-'  ABOVE =
                                                                          SKFUNESS
                                                                          MJRTOSIS
                                                           VALUF
                                                            l.OS
                                                            0.97

                                                             EACH
                                                      UALUF./S.F.
                                                            5.08
                                                            2.34

                                                     •.'  BFLOU =•
                                                         1.0000
                                                         0.0000
                                                       41.0000

                                                      01-    13.6500006
                                                      03°    3S.8S00004
                                                      S-=    9.8974972
                                                      5+=    31.0153542

                                                         0.5000
H
N
s
0
1
PERCENTS
VA1 IIF COUNT CFl I
0.3000
3.4000
4.SOOO
5.1000
5.2000
5.4000
a.OOOO
6.7000
i.9000
7.1000
3.1000
3.7000
a. 4000
9.0000
».60oo
9.8000
10.1000
10.7000
10,-iOOO
11.1000
11.7000
17.1000
12.3000
1 0.7
1 0.7
1 0.7
1 O./
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
i o.;
2 1.4
1.4
0.7
0.7
0.7
0.7
0.7
1.4
0.7
CUD
0.7
1.4
7.1
2.9
3.6
4.3
S.O
3.7
6.4
7.1
7.9
a. 6
9.3
10.0
11.4
12.9
13. i
14.3
1S.O
IS. 7
16.4
17.9
18.6
H
D
I
H H
A D
H E
VAI IIF COUNT
13.6000
13.7000
13.9000
14.0000
14.1000
14.ROOO
14.9000
15.7000
15.4000
IS.fiOOO
15.6000
15.7000
16.0000
16.1000
16.2000
16.4000
16.7000
16.9000
17.7000
17.7000
18.1000
Ifl.'iOOO
18.6000
1
7
1
1
2
1
1
7
1
7
1
)
1
1
1
1
1
7
1
7
1
1
1
a
3

PERCENT R
RF11
0.7
1.4
0.7
O./
1.4
0.7
0.7
1.4
0.7
1.4
0.7
1.4
0.7
0.7
O./
0.7
0.7
1.4
0.7
1.4
0.7
0.7
0.7
CUN
75.0
7A.4
77.1
77.9
29.3
30.0
30.7
32.1
37.9
.14.3
35.0
36.4
37.1
37.9
3R.6
.19.3
40.0
41.4
42.1
41.6
44.3
45.0
4S.7
S
+



PERfFHTS
VAl UE COUNT HFI 1
20.7000 1 0.7
70.6000 f 1.4
20.7000
71.0000
21.3000
VI. 4000
21.7000
77.0000
22.1000
77.7000
22.3000
77.3000
22.6000
77.7000
22.9000
7.1.1000
23.4000
•M.nooo
24.3000
74.4000
24.7000
VS. 0000
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
1.4
0.7
2.9
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
25. MOO 2 1.4
r.tm
57.9
!l4.3
ss.o
S-j.7
36. 4
57. 1
r.7.9
!>R.6
60.0
60.7
67.1
62.9
6!i.7
66.4
6/.1
67.9
69.3
;o.o
70.7
71.4
73.1
72.9
M.3
VA1.IIF COUNT
27.ROOO
?7.9000
78.6000
79.2000
30.3000
31.0000
3?.r)000
37.6000
32.7000
17.9000
33.7000
17.AOOO
37.ROOO
39.9000
•40.3000
41.4000
42.4000
44.4000
44.7000
45.1000
46.0000
46.'.'000
46.9000





1
1
I
1
I
1
1
1
1
1
1
n
1
1
1
1
\
1

H
X
PERCENTS
r.F.1 1.
0.7
0.7
0.7
0.7
0.7
7.1
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
CUM
79.3
RO.O
R0.7
81.4
R7..1
R4.3
Hfi.O
85.7
RA.4
87.1
R7.9
flfl.6
R1.3
90.0
90.7
91.4
92.9
91.6
94.3
9'i.O
95.7
9A.4
97.1
17.6000
12.9000
13.1000
13.2000
11.3000
13.5000
1
1
1
2
7
1
0.7
0.7
0.7
1.4
1.4
0.7
19.3
20.0
70.7
77.1
7J.6
24.3
18. ROOD
18.9000
19.0000
19.1000
19.SOOO
19.8000
2
1
1
2
7
1
1.4 47.1
0.7 47.9
0.7 48.6
1.4 50.0
1.4 51.4
0.7 52. 1
7b.7000
26.0000
76.1000
26.3000
77.3000
27.6000
0.7
0.7
0.7
0.7
0.7
0.7
7T.O
75.7
76.4
77.1
77.9
7R.6
51.9000
54.4000
55.ROOO
58.7000


1 0.7 97.9
1 0.7 98.6
1 0.7 99.3
1 0.7 100.0



-------
HYDRA86 UFSTFRN BASIN All  DATA
                                                                                                                   PAGE  188
  tmmmts
  t r.QRiiTFP  I
  tmimim

VARIABIF HIINBFR	
NUHBER OF DISTINCT VAI UFS .
NUHBFR OF WAI UFS rOIINTFO. .
NUMBER OF VALUES NOT COUNTED

3
as
138
A

MAX I HUH
HINIHUH
RANGE
VARIANCE
ST.DEV.
(03-OD/2
26.3999796
0.0000000
26.3999m
•"4.817S687
4.9817717
2.9000001
LOCATION ESTIMATES
                   MEAN
                   HFDIAN
                   MODE
5.4550774
4.5999999
0.0000000
ST.FRROR
 0.4740797
 0.6067180
H
H
H
HH
HH HH
HHHHH
HHHHHH
HHHHHHH H
HHHHHHHHHHHH HH
                                                                                             EACH  '-' ABOVE =>
                                                                                                           UD
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                       VALUF
                                                        1.40
                                                        2.36

                                                        EACH
                                                VALUF./S.F.
                                                      6.73
                                                      S.6S

                                                '.' BFLOU =
                                                                                   FACH  'H1
                                                                                  REPRFSENTS
                                                                                       4
                                                                                   COUNT(S)
                 	II

                    l.SOOO
                    0.0000
                   31.3000

                  01:    1.6000000
                  03°    7.4000001
                  S-=    0.4738507
                  S+=   10.4362946

                    0.2500
N
I
N

s a
1





Q
H H 3
0 A
I N



PERCENTS
VAI UF
0.0000
0.3000
0.4000
O.AOOO
0.7000
0.9000
'..0000
1.7000
1.3000
1.4000
l.SOOO
l.AOOO
'..8000
1.9000
2.0000
1.7000
2.3000
2.4000
2.6000
<.;ooo
2.8000
2.9000
COUNT
17
1
1
2
4
1
1
1
2
7
1
7
1
1
1
1
1
t
2
5
2
7
CFIl
12.3
O.I
0.7
1.4
2.9
0.7
0.7
0.7
1.4
1.4
0.7
1.4
0.7
0.7
0.7
0.7
0.7
1.4
1.4
.1.6
1.4
1.4
CUM VAI UF
12.3 3.0000
13.0 3.1000
13.8 .3000
n.2 .4000
18.1 .3000
18.8 .9000
19.6 .1000
70.3 .2000
71.7 .4000
73.2 .5000
23.9 .7000
7S.4 .0000
26.1 .9000
76.8 '.i.1000
77. S 5.3000
7R.3 5.4000
29.0 3.5000
.10.4 5.6000
31.9 5.8000
35.5 5.9000
37.0 6.0000
JR. 4 A. 1000
COUNT
2
1
2
1
2
3
1
1
1
7
1
7
1
1
1
.1
S
1
1
1
1
7
S


PERCFN1R
C.El I CUM
1.4 39.9
0.7 40.6
1.4 42.0
0.7 42.8
1.4 44.2
7.7 44.4
0.7 47.1
0.7 47.8
0.7 48.6
1.4 30.0
0.7 SO. 7
1.4 32.2
0.7 52. 9
0.7 S3. 6
0.7 54.3
7.7 56.5
3. A 60.1
0.7 A0.9
0.7 61.6
0.7 A2.3
0.7 6.1.0
1.4 64. S






PERrFNTS
VAI HE COUNT CFI I
.7000 2 1.4
.JOOO
.4000
.5000
.8000
7.1000
7.3000
7.4000
7.7000
7.8000
7.9000
S.,'000
8.3000
R.5000
8.7000
fl.SOOO
8.9000
9.1000
9 . 3000
9.4000
10.3000
10,4000
2.9
0.7
0.7
2.9
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
V.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
AIi. 9
A8.8
69. A
70.3
Iti.l
73.9
/4.A
7S.4
7A.1
7A.8
77.5
7R.3
/9.0
R0.4
fll.2
R1.9
82.6
83.3
H4.1
84.8
85. 5
RA.2
H
X




PERCENTS
VAI HE COUNT CFI 1
10.6000 1 0.7
11.4000
11.9000
17.6000
12.7000
17.9000
13.0000
13.3000
13.7000
14.7000
14.6000
14.8000
15.3000
14.0000
16.9000
17.. '000
20.4000
77.. 1000
26.4000
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7



CUM
87.0
87.7
88.4
89.1
89.9
90.6
91.3
92.0
97.8
91.5
94.2
94.9
95.7
94.4
97.1
97.8
98.6
99.3
100.0




-------
HYDRAB6 UESTERN BASIN ALL DATA
PAGE  189
***«»***«**
* SRP t
mitmmi
VARIABIF NUMBFR 	
fl
MAXIMUM
MINIMUM
9.0000000
0.0000000
NUMBER OF DISTINCT VALUES . 33 RANGE 9.0000000
NUMBFR ,)F VA1UES COUNTED. . 130 VARIANCE 2.930*953
NUMBER OF VALUFS NOT COUNTED 14 ST.DEV. 1.7177589
(03-OD/2 0.5000000
LOCATION ESTIMATES ST.FRROR
MEAN 0.99R4611) 0.1506374
MFDIAN 0.41)00000 0.1443176
S 0
N
N
MODE
0
N H
D
I
A
N

0.0000000
S


PERCENTS
VAl HE
0.00000
0.10000
0.20000
0.3QOOO
0.40000
0.30000
0.60000
0.70000
0.80000
COUNT
54

4
7
2
5
6
1
3
CFll
41.5
2.3
3.1
I.S
1.5
3.8
4.6
0.8
3.B
CUM
41.3
43.8
46.9
48.5
50.0
33.8
SB. 5
S9.2
63.1
VAl llf
0.90000
1.00000
1.10000
1.70000
1.30000
1.30000
1.60000
1.70000
l.BOOOO
COUNT
1
15
1
1
2
4
2
1
4


SKFUNESS
KURIOSIS


PERCENTS
CELL
0.8
11.3
0.8
0.8
1.5
3.1
1.5
0.8
3.1
CUM
63.8
75.4
76.7
76.9
7B.S
81.5
B3.1
R3.8
86.9
VAl HE
1.90000
/. 20000
2.30000
7.70000
3.00000
1.70000
3.40000
4.00000
4.30000
COUNT
1
1
2
1
2
1
1
1
1

H
H

H
H
H
H
HH
HH
HHHH
HHHHHHHHH H HH HH
EACH
VAl IIF
2.91
8.93
EACH



EACH 'M-
REPRFSENTS
7
COUNT (S)
•-' ABOVE •= 0.5000
L= 0.0000
U= 10.5000
01- 0.0000000
IJAIUF./S.E. 03' 1.0000000
13.57 S-= -0.7192973
20.79 S+ = 2.7162204
'.' BFLOM = 0.0750
M

PERCFNTS
CFll
0.8
0.8
1.5
0.8
1.5
0.8
0.8
0.8
0.8
CUM
87.7
88. 5
90.0
90.8
9?. 3
93.1
93. R
94.6
93.4
UAI IIF. COUNT
S. 60000 1
4.70000 1
7.30000 1
0.20000 1
8.50000 1
9.00000 1




X
PERCENTS
CEIL
0.8
0.8
0.8
0.8
O.B
0.8



CUM
96.2
96.9
97.7
9H.5
99.2
100.0




-------
HYDRAB6 WESTERN BASIN ALL  DATA
                                                                                                                   PAGE  190
  tllumtm
  I CALCSOP  *
UARIABIF NUMBER ......
NUMBER UF DISTINCT VAl UES .
NUHBFR OF VALIIFS CflllHTFO. .
NUMBER OF VALUES NOT COUNTED
  7
 if
127
 17
HAXINUN
MINIMUM
RANGE
VARIANCE
ST.KF.V.
(Q3-Q1I/2
24.299999?
 0.0000000
?6.799999?
18.0Al!i482
 4.7498879
 2.3000000
LOCATION ESTIMATES
                   MEAN
                   NFDIAN
                   MODE
    4.80*2983
    4.6999998
    0.0000000
     ST.FRROR
      0.377114*
      0.5773104
                                                                         SKEUNESS
                                                                         KURTOSIS
H
H
H H
HH H
HH HM
HHHHH
HHHHH
HHHHHH
HHHHHHH H
HHHHHHHHHH H
EACH '-' ABOVE =
L=
U=

VALUF VALUF/S.F.
1.67 7. 45
4.91 11.30



EACH -H-
REPRFSENIS
3
COUNT(S)


H
1,5000
0.0000
Jl.-iOOO
01 = 1.4000000
03° A. 5999999
S-= 0.5764103
St- 9.0561867
                                                                                             EACH
                                                                                                      BELOU
                                                                                                                    0.2500
H
t
i
N


VAl HE
0.00000
0.10000
0.30000
0 . 40000
0.50000
0.70000
1.00000
1.. 10000
1 . 40000
l.AOOOO
1.70000
1.80000
1.90000
2.00000
2.40000
2.30000
2.60000
2.70000
S Q
1



CnilHT
16
1
3
3
2
7
1
1
1
7
3
2
1
7
1
1
2
3
H
A
N
PERCENTS
CFl I CUM
12.6 17.6
0.8 13.4
2.4 15.7
7.4 18.1
1.6 19.7
l.A 71.3
0.8 27.0
O.fl 72. B
0.8 23.6
l.A 75.2
2.4 27.6
l.A 79.1
0.8 29.9
l.A 31.5
0.8 37.3
0.8 J3.1
1.6 34.6
2.4 37.0
0 S
3 *



VAl UF CnilNl
2.80000 1
.1.00000
3.10000 ;
3.30000
3.40000
3.90000
4.10000
4.70000
4.30000
4.50000
4.70000
4.80000
4.90000
•i. 10000
5.30000
5.40000
5.50000
5.AOOOO
H
X

PERCENTS PERCENTS PERCENTS
r ceil CUM VAI HE COUNT CEII CUM VAIUE COUNT CFII. CUM
O.fl 37. B 5.70000 1 0.8 65.4 8.40000 0.8 88.2
> 1.6 .19.4 5.80000 7 1.6 66.9 9.30000 0.8 89.0
[ l.A 40.9 6.00000 1 O.B 67.7 9.50000 1.6 90.6
0.8 41.7 A. 10000 1 O.R AR.5 10.40000 0.4 91.3
0.8 47. S A. 70000 1 0.8 69.3 10. 50000 O.B 97.1
3.1 45.7 A. .10000 3 2.4 71.7 11.40000 0.8 97.9
0.8 4A.S 6.40000 1 0.8 77.4 12.40000 0.8 93.7
0.8 47.2 A.AOOOO 4 3.1 75.6 17.50000 0.8 94.5
0.8 4R.O 6.70000 1 0.8 76. 4 12.60000 O.B 95.3
1.6 49,6 6.80000 3 2.4 78.7 12.70000 0.8 96.1
0.8 50.4 7.10000 1 0.8 79.5 13.00000 0.8 96.9
0.8 51.2 7.30000 3 2.4 81.9 13.10000 0.8 97.6
O.fl 52.0 7.BOOOO 1 O.B 87.7 13.80000 1 O.fl 98.4
1 2.4 54.3 7.90000 7 l.A 84.3 >0. 50000 1 0.8 99.2
0.8 55.1 B. 20000 1 O.B 85. 0 26.30000 1 0.8 100.0
1 3.1 58.3 8.30000 1 O.B 85.8
r 5.3 63.8 8.40000 1 0.8 8A.A
1 0.8 64.6 R.bOOOO 1 0.8 87.4

-------
HYDRA86 MESTERN BASIN All  DATA
                                                                                                 PAGE  191
  ««***>*«>*«»
  « CALCPP   I
  mmtiim

UARIARIF NUMBER	
NUMBER OF DISTINCT VAIUES .
NUHBFR (IF VAIIIFS COUNTKO. .
HUHBER OF VALUES NOT COUNTED
                 S
               103
               135
                 9
        HAXIMUH
        HINIHUH
        RANliF
        VARIANCE
        ST.PFV.
        (03-1)11/2
  41.400001*
   0.3000000
  40.9000013
  66.1786499
   B.US0260
   4.499V995
LOCATION FSTINATES
                   HE AN
                   HEDIAM
                   NODE
                  16.3970356
                  14.8000002
                  12.800000?
             ST.FRRDR
              0.7001316
              0.771*882
                                                   HHH
                                                   HHH
                                                   HHHHH
                                                   HHHHHH
                                                   HHHHHH
                                                   HHHHHHH
                                                 HHHHHHHHH  H  H
                                                 HHHHHHHHHHH  HH  H
                                               HHHHHHHHHHHHHHHHH  HH
                                                   FACH  'H'
                                                  REPRESFNTS
                                                                                                                         CQUNTIS)
                                                                              -U
                                                                                              EACH '-' ABOVE •=
                                                                                                            L=
                                                                                                            U-
                                                                          SKFVNESS
                                                                          KURTOSIS
                                                                          VALUF
                                                                           1.04
                                                                           0.95

                                                                            EACH
                                                             VALUF/S.F.
                                                                   4.9?
                                                                   2.25

                                                             '.' BFIOU  =
                                                          2.0000
                                                          0.0000
                                                         41.0000

                                                       01-    10.8000002
                                                       03=    19.799*992
                                                       S-»     8.2*20096
                                                       S+«    24.5120e25

                                                          0.5000
H
T
1 t
N




S 0
1


N
D
E
PERCENTS
VALUF COUNT CFl I
O.SOOO
3.4000
4.SOOO
4.8000
3.0000
4.0000
4.2000
4.4000
6.9000
7.5000
7.7000
7.8000
B.1000
8.2000
8.3000
8.4000
B.9000
9.0000
9.4000
9.5000
9.4000
0.7
0.7
1.5
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.5
0.7
0.7
1.3
0.7
0.7
0.7
9.HOOO 7 1.5
10.1000 3 2.2
CUN
0.7
l.S
3.0
1.7
4.4
5.2
S.9
A. 7
7.4
8.1
8.9
9. A
10.4
11.1
12.6
13.3
14.1
15.6
16.3
17.0
17.8
19.3
21.3
VAI HE
10.9000
11.2000
11.3000
11.4000
11.9000
17.1000
12.6000
17.HOOO
12.9000
1.1.0000
13.1000
13.2000
13.3000
13.6000
13.9000
14.0000
14.1000
14.7000
14.4000
14.6000
14.8000
13.0000
15.4000
COUNT
1
1
2
7
1
1
1
4
2
1
2
1
1
7
1
1
2
7
1
7
2
1
2
H H
D A
I N
Q
3


PERCENTS
CEU
0.7
0.7
1.3
1.5
0.7
0.7
0.7
1.0
1.3
0.7
l.h
0.7
0.7
1.5
0.7
0.7
1.5
1.5
0.7
1.3
l.!i
0.7
1.5
CUN
27.
78.
29.
11.
31.
32.
33.3
36.3
37.8
38.3
40.0
40.7
41.3
43.0
43.7
44.4
4r>.9
47.4
48.1
49.6
31.1
31.9
S3. 3
S
t





PERCENTS
VAI HE COUNT CFl I
13.9000
16.1000
16.3000
16.6000
16.7000
16.DOOO
17.0000
17.1000
17.7000
17.9000
18.0000
18.7000
18.4000
18.6000
18.8000
19.7000
19.3000
19.5000
19.6000
19.HOOO
20.0000
70.6000
20.8000
0.7
0.7
7.2
0.7
0.7
1.5
0.7
1.5
0.7
0.7
0.7
0.7
1.5
1.5
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
S7.0
v.a
60.0
60.7
61.5
63.0
63.7
65.2
65.9
66.7
6/.
68.
69.
71.
71.
72.
73.3
74.1
74. R
75.4
76.3
77.0
7V. 8
H
X

PERCENTS
VAI ME COUNT CFl L CUN
72.0000
77.1000
22.7000
?3.V>00
23.7000
74.7000
24.5000
74.6000
75.0000
76.4000
26.9000
79.1000
30.8000
31.4000
31.6000
31.8000
32.0000
37.4000
32.7000
31.3000
0.7 fll.S
0.7 82.2
0.7 IH.O
0.7 81.7
0.7 B4.4
0.7 85.2
l.S 86.7
0.7 87.4
0.7 B8.1
0.7 Bfl.9
0.7 89.6
0.7 90.4
0.7 91.1
0.7 91.9
0.7 9?. 6
0.7 93. J
0.7 94.1
0.7 94.8
0.7 95.6
0.7 96.3
38.4000 1 0.7 97.0
38.6000 1 0.7 97.3
39.7AOO 1 0.7 V8.5
       10.4000
       10.7000
       10.0000
1   0.7  72.2
3   2.7  24.4
3   7.7  76.7
15.6000
13.7000
15.8000
1   0.7
2   l.!i
1   0.7
53.6
56.3
71.1000
21.4000
71.5000
7   1.5  79.3
1   0.7  80.0
1   0.7  80.7
                                           19.9000
                                           41.4000
0.7  99.3
0.7 100.0

-------
HTDRA86 VESTCRN BASIN ALl  DATA
                                                                                                                    PAGE  192
  imimmi
  I PERPP    I
  musmm

VARIABIF NUMBER 	
NUMBER OF DISTINCT VALUES .
NUMBER (IF VAIIIFS r.QIIMTFD. .
NUMBER OF VALUES NOT CDUNTFD
  6
119
US
  9
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.KEV.
(D.I-OD/2
100.0000000
 33.9700012
 66.02999R8
214.8197021
 14.6SA7JB7
  9.6599998
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   NODE
   78.3217239
   79..«H9*994
  100.0000000
     ST.ERROR
      1.2614504
      1.077*449
H
HH H
HHM H
HHH H
HHHHMH H
H HHHHNHHH
HHHHHHHHHH
H HHHHHHHHHHH

EACH 'H-
RFPRFSFNIS
3
COUNT (S)



                                                                                              EACH '-•  ABOVE =
                                                                                    5.0000
                                                                                   15.0000
                                                                                  1 JO. 0000
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                MM
                                                                               .FE.
                                                                                AD
                                                                                NI
                                                           VALUF
                                                           -0.53
                                                            0.00

                                                             EACH '.
                                                            0     S
                                                            3     t
                                                      VALUE/S.F.
                                                           -2.49
                                                            0.00
01°
03°
S-=
S+ =
                                                             A9.1A00037
                                                             88.4R00014
                                                             A?. 6*49971
                                                             92.9784544
                                                                                                       BFLOU
                                                      PERCFNTS
                                                                                      PERCENTS
                                                                                                                     0.7SOO
                                                                                                                      PERCENTS
VAl HE COUNT f.Fl 1
33.97
34. SB
43.71
47.92
51. BA
SI. 93
S2.34
52.99
53.32
53.67
S4.BO
5*3. 13
57.48
57.80
59.66
39.72
60.31
60.86
61.11
61.53
62.17
62.30
43.25
0.7
O./
0.7
0.7
0.7
0.7
0.7
0.7
0.7
O./
0.7
0.7
0.7
O./
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUh
0.7
1.3
7.2
3.0
3.7
4.4
5.2
3.9
6.7
7.4
8.1
4.9
9.6
10.4
11.1
11.9
12.6
13.3
14.1
14.8
13.6
U.I
17.0
VAl IIF COUNT I'.F.l I
67.30
AH. 22
68.66
A9.16
69.34
69.79
70.09
70.36
71.62
71.91
72.20
73.64
73.93
/4.02
74.09
74.27
74.47
/4.50
73.56
73.59
75.62
73.70
76.11
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
fl. 7
0.7
CUM
73.0
73.7
74.4
n.2
23.9
76.7
77.4
78.1
78.9
79.6
30.4
.11.1
31.9
32.6
33.3
.14.1
34.8
35.6
36.3
.17.0
J/.B
.18.5
3V. 3
VAl HE COUNT CF( I
78.30
/B.74
78.84
7R.87
78.88
78.91
78.93
/9.39
79.41
X9.8S
80.07
80.11
80.71
80.89
81.38
01.47
81.74
81.91
82.02
87.06
82.27
0^.66
83.1?
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.5
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUH
4!!.?
4'3.9
4A.7
47.4
48.)
48.9
49.6
50.4
51.1
51.9
57.6
•H.3
34.1
54.8
•iA.3
57.0
7.7. fl
•ifl.5
59.3
40.0
A0.7
A1.5
62.7
VALUE COUNT
BS.71 1
83 . 80 1
84.?* 1
R4.41 1
84. M 1
84.80 1
84. BS 1
87.52 1
87.49 1
88.20 I
f9. 48 1
88.86 1
H8.9« 1
39.49 1
89.6:. 1
90.36 I
91.0V I
91.27 I
91.70 1
91.99 I
92.34 1
93.14 1
93.19 1
CF1L
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7'
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
AR.l
48.9
49.6
70.4
71.1
71.9
77.6
71. 3
74.1
74.8
73.6
74.3
77.0
77.8
78.5
79.3
80.0
80.7
81. 5
82.2
81.0
83.7
84.4
64.00
64.79
64.90
65.39
45.44
66.40
67.04
0.7
0.7
0.7
0.7
0.7
0.7
0.7
17.8
18.5
19.3
20.0
?0.7
21.5
72.2
7A.49
76.55
77.37
77.94
78.00
78.09
78.15
0.7
0.7
0.7
0.7
0.7
0.7
0.7
40.0
40.7
41.5
42.7
41.0
43.7
44.4
01.60
83.70
84.39
84.55
H4.76
85.27
85.50
0.7
0.7
0.7
0.7
0.7
0.7
0.7
41.0
A3. 7
A4.4
65.?
A3. 9
66.7
47.4
91.89
95.31
95.53
95.83
97.99
100.00 1

0.7
0.7
0.7
0.7
0.7
> 11.9

8'i.2
83.9
84.7
H7.4
flH. I
100.0


-------
HYDRA86 UESTERN BASIN All  DATA
                                                                                  PAGE  193
  stmmmt
  I PERTFP   «
  i*t*smm«

VARIABIF NUMBER	
NUMBER OF DISTINCT VAIUFS .
NUMBER (IF VAHIFS COUNTED. .
NUMBER OF VALUES NOT COUNTED
  4
11?
135
  9
MAX INUN
NINIHUN
RANGF
VARIANCE
ST.DFV.
 66.07999RR
  0.0000000
 66.029998H
?14.R197479
 14.45*7307
  9.6399998
LOCATION FST1HATES
                   HEAN
                   HFDIAN
                   NODE
   21.67829.12
   70.A100004
    0.0000000
     ST.FRROR
      1.2614505
      I.079A45S
                                                                         SKEMNESS
                                                                         KURTOSIS
H
H HH
H HHH
H HHH
H HHHHHH
HHHHHHHH H
HHHHHHHHHH
HHHHHHHHHHH H
EACH '-' ftSDVE =
L»
U=

VALUF VALUF./S.F.
0.53 2.49
0.00 0.00

FACH 'H'
REPRFSENTS
3
COUNT (S)



5.0000
0.0000
1 OS. 0000
01- 11.5700U05
03* 10.8400002
S-= 7.0715626
S+ = 36.3350258
                                                                                             EACH
                                                                                                      BFLOU
                                                                                                                    0.7500



N
N

S


PERCENTS
VAI ME COUNT CFl I
0.000 16 11.9
2.010
4.170
4.470
4.690
6.110
6.810
6.840
7.640
8. 010
8.300
0.7
0.7
0.7
0.7
O.S
0.7
0.7
0.7
0.7
0.7
8.730 1 0.7
8.910 1 0.7
9.640 1 0.7
10.350
10. -510
11.010
11.140
11.520
11.800
12.310
17.480
13.150
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUH
11.9
12.6
13.3
14.1
14.8
IS. 6
16.3
17.0
17. e
18.5
19.3
70.0
20.7
71.5
22. 2
73.0
23.7
74.4
25.?
7'5.9
26.7
77.4
2B.1
0
1 NN
DA
IN
Q
3


S
4





PERCFN1S
VAI IIF COUNT I:EI i
14.730
15.240
15.450
15.610
16.300
16.400
16.880
17.340
17.730
17.940
17.980
18.090
18.260
18.330
18.670
19.110
19.290
19.890
19.930
70.150
20.390
70.610
21.070
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.5
0.7
0.7
0.7
0.7
Q. 7
0.7
0.7
0.7
am
34.1
34.8
3!i.6
36.3
37.0
37.8
38.5
19.3
40.0
40.7
41.5
42.2
43.0
41.7
45.2
4r).9
46.7
47.4
48.1
48.9
49.6
t.0.4
'il.l
VAI HE
21.910
77.000
22.040
77.630
23.450
73.510
23.890
74.100
24.3BO
74.410
24.440
75.500
25.530
75.730
25.910
75.980
26.070
76.160
27.800
78.090
28.380
79.440
29.910
COUNT
1
1
1
1
1
1
1
1
1
1
1
1
1
I
1
1
1
1
1
1
1
1
1






PERfFNTS
CFl I
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
run
57.0
17.8
SB.!!
59.3
60.0
A0.7
61. 5
62.2
63.0
63.7
64.4
61. 2
65.9
66.7
67.4
AR.l
AR.9
69.6
70.4
71.1
71.9
72.6
73.3
H
X

PERCENTS
VAI HE COUNT I:EII. CUH
3^.600
14.160
34.410
«.100
35.710
.16.000
36.7r)0
17.700
37.R30
18.470
38.890
19.140
39.490
40.780
40.340
42.200
42. VO
44.870
45.700
44.130
46.680
47.010
47.660
0.7 79.3
0.7 RO.O
0.7 80.7
0.7 81.5
0.7 B7.2
0.7 8.1.0
0.7 BA.7
0.7 84.4
0.7 RS.7
0.7 85.9
0.7 86.7
0.7 87.4
0.7 88. 1
0.7 88.9
0.7 89. 6
0.7 90.4
0.7 91.1
0.7 91.9
0.7 92.6
0.7 93.3
0.7 94.1
0.7 94. B
0.7 95.6
13.200
13.360
11.590
13.740
14.200
-.4.290
14.500
0.7
0.7
0.7
0.7
0.7
0.7
i o.;
78.9
29.6
30.4
31.1
11.9
32.6
.13.3
71.090
21.120 1
71.130
21.160
71.260
21.500
71.850
0.7
0.7
0.7
0.7
0.7
0.7
0.7
M.9
52.6
III. 3
54.1
•>4.8
55.6
H6.3
10.710
30.460
30.840
31.340
11.780
32.500
(3.940
0.7
0.7
0.7
0.7
0.7
0.7
0.7
74.1
74. R
7'). 6
76.3
77.0
77.8
78.5
48.070
48.140
13.080
54.790
65. 430
66.030

1 0.7
I 0.7
I 0.7
1 0.7
I 0.7
1 0.7

96.3
97.0
97. B
98.5
99.3
100.0


-------
HYDRA86 VESTERN BASIN ALL DATA
                                                                                                                  PAGE  194
  tutiMttm
  > NITNIT   t
VARIABLE NUMBER ......
NUMBER OF DISTINCT VALUES .
NUMBER (IF VAIUES COUNTED. .
NUMBER OF VALUES NOT  COUNTED
  4
11?
142
  2
MAXIHUH
MINIMUM
RANGE
VARIANCE
ST.DEV.
«M-Ql>/2
  908.0000000
    0.0000000
  908.0000000
297H9.0410136
  171.1404114
   D4.:>OQOQOO
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   hODE
  350.3739441
  312.0000000
   NOT  UNIOUF
     ST.ERROR
     14.3617849
      7.3055571
     HH
     HH
     HH
     HH
     HH
    HHH
  H HHHHH
  H HHHHHH H
  HHHHHHHHHH
HHHHHHHHHHHHHHHHHHH
 EACH 'M'
REPRFSENTS
     3
 COUNT(S)
                                                                                             EACH '-' ABOVE =
                                                                                                           L>
                                                                                                           U-
                                                                         SKEUNESS
                                                                         KURTOSIS
                                                          VALUE
                                                           1.09
                                                           1.S3

                                                            EACH
                                                     VALUF./S.F.
                                                           5.31
                                                           3.85

                                                    ••• BFLOU *
                                                         30.0000
                                                          0.0000
                                                       1030.0000

                                                        01   234.0000000
                                                        Q3>  425.0000000
                                                        S-=  179.1835327
                                                        S+»  571.4643555

                                                          7.3000
H
N

S


PERCENTS
VALUE COUNT CEI 1
0.
69.
95.
102.
117.
126.
136.
137.
139.
144.
146.
159.
183.
184.
186.
197.
206.
210.
218.
1.4
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
1.4
1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
220. 7 1.4
234. 2 1.4
233. 1 0.7
236. 1 0.7
CUM
1.4
2.1
7.8
4.2
4.9
S.6
6.3
7.0
7.7
8.5
9.9
11.3
12.0
12.7
13.4
14.1
14. B
15.5
16.2
17.6
19.0
19.7
20.4
0
1 N N
0 A
I N
0
3


PERCFNTS
VA1 HE COUNT CEI I
270. 1 0.7
771. 1 0.7
272. 1 0.7
273. 1 0.7
276. 2 1.4
780. ! 1.4
282. 1 0.7
284.
285.
787.
289.
290.
292.
294.
295.
296.
297.
799.
300.
301.
303.
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
o.;
1.4
1.4
0.7
0.7
0.7
305. 7 1.4
307. 2 1.4
CUM
2R.7
78. 9
79. *
30.3
31.7
33.1
33.8
34.5
Jb.2
35.9
36.6
3/.3
38.0
38.7
39.4
40.1
41.3
43.0
43.7
44.4
45.1
46.5
47.9
S
t





PERCFNfS
VAl UF COUNT CEI I
322. 1 0.7
374. 2 1.4
325. 1 0.7
327. 1 0.7
330. 1 0.7
3J3. 1 0.7
334. 2 1.4
318. 1 0.7
141. 1 0.7
347. 1 0.7
350. 1 0.7
355. 1 0.7
358.
.160.
362.
.164.
365.
.(69.
379.
180.
390.
.194.
406.
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
53.*
57.0
57.7
58.5
59.?
5V. 9
61.3
62.0
67.7
«1.4
64.1
64.8
6S.S
46.2
66. 9
67.6
6R.3
69.0
69.7
70.4
71.1
71.8
77.5



H
X

PERCENTS
VALUE COUNT CELL
467. 1 0.7
476. 1 0.7
480. 1 0.7
481.
483.
487.
496.
498.
519.
')20.
521.
HO.
532.
•)78.
585.
•>90.
591.
•)94.
598.
609.
680.
A99.
722.
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
CUM
79.6
no. 3
ei.o
81. 7
H7.4
8J.1
R3.B
B4.5
85.2
R5.9
R6.6
87.3
BG.O
88.7
B9.4
90.1
91.5
97.3
93.0
93.7
94.4
9-i.l
93.8
238.
240.
247.
256.
267.
268.
269.
2
1
7
2
1
1
1
1.4 71.8
0.7 22.5
1.4 21.9
1.4 25.4
0.7 76.1
0.7 26.8
0.7 77.5
308.
311.
313.
314.
.118.
319.
371.
1
2
1
1
1
2
7
0.7 48. 6
1.4 50.0
0.7 50.7
0.7 51.4
0.7 52.1
1.4 53.5
1.4 54.9
407.
410.
416.
425.
439.
443.
447.
1
1
1
2
1
2
1
0.7 73.2
0.7 7.1.9
0.7 /4.6
1.4 7A.1
0.7 76.8
1.4 78.2
0.7 78. 9
760.
B17.
R20.
895.
900.
908.

1
1
1
1
1
1

0.7 96.5
0.7 97.2
0.7 97.9
0.7 98.6
0.7 99.3
0.7 100.0


-------
HYDRA86 WESTERN BASIN ALL DATA
                                                                                                                    PAGE  195
  ummm*
  * NH3      I
  imuitmt

VARIABLE NUHBER 	
NUMBER OF DISTINCT VALUES .
MUHBF.lt I1F VALIIFS CflUNTtD. .
NUMBER OF VALUES NOT COUNTED
                 3
               104
               141
                 3
      HAXIMUH
      MINIMUM
      RANGE
      VARIANCE
      ST.DFV.
      (OJ-Q1I/2
          98.0999985
            1.0000000
          97.0999981;
         204.5578259
          14.3021965
            fl.7300000
LOCATION F.STIHATES
                   MEAN
                   NFD1AN
                   NODE
                  13.3390093
                  10.6000004
                  MOT UNIQUE
            ST.FRROR
             1.2044623
             1.1835*85
                                                                          SKEVNESS
                                                                          KURTOSIS
                         H
                         H
                         HH
                         HH
                         NH
                         HH  H
                         HHHHH
                         HHHHHH
                         HHHHHHH
                         HHHHHHHHHH  H  H
                                                                                              EACH '-' ABOVE =
                                                                         VALUE   VM.UE/S.F.
                                                                          2.40        11.61
                                                                          8.43        20.4!)
                                                                                              EACH
                                                                                                       BELOV =
                                      FACH  -H'
                                     REPRFSFN1S
                                          4
                                      COUNT(S)
                                                                          	U

                                                                             'i.OOOO
                                                                             0.0000
                                                                           105.0000

                                                                           Ola    5.0000000
                                                                           03=   71.5000000
                                                                           S-»    1.0368128
                                                                           S+ =   29.64120e7

                                                                             0.7500
S
H
N

0
1 M M
D A
I N
0
3


PERCENTS
























VALUE COUNT CEU
1.000 2 1.4
1.100
2.000
2.100
2.700
2.800
3.000
3.500
4.000
4.200
4.500
4.600
4.700
4.900
0.7
0.7
0.7
0.7
o.;
2.8
1.4
2.8
0.7
3.5
1.4
2.8
2.1
5.000 5 3.5
5.200 1 0.7
5.600 1 0.7
5.700 1 O./
.000 3 2.1
.300 1 0.7
.400 1 0.7
.500 7 1.4
.800 1 0.7
CUM
1.4
2.1
2.8
3.5
4.3
•5.0
7.8
9.2
12.1
17.8
16.3
17.7
20.6
72.7
26.2
77.0
27.7
78.4
30.5
31.2
31.9
.13.3
34.0
S
t





PERCFNTS
VAIIIE COUNT CEIL
7.900 1 0.7
8.000 '> 1.4
8.300
8.500
8.700
8.800
9.300
9.400
9.700
9.800
10.000
10.700
10.400
10.600
10.800
11.000
11.300
11.600
11.800
12.000
12.200
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
12.900 2 1.4
14.200 1 0.7
CUM
39.0
40.4
41.1
41.8
47.6
43.3
44.7
45.4
46.1
46.8
4H.2
48.9
49.6
SO. 4
51.1
•)1.8
52.5
SI. 2
54.6
!i5.3
S6.0
37.4
58. 7



PERCENTS
VAIUE cmmr CEIL run
15.700
13.400
15.600
I1). 800
16.400
16.700
16.900
17.100
17.500
17.700
18.100
18.400
18.600
19.300
19.800
>0.000
20.300
70.500
21.500
72.000
22.100
.'2.300
22.500
0.7 61.0
0.7 61.7
0.7 62.4
0.7 63.1
0.7 63.8
0.7 64.5
0.7 A!..?
1.4 A*. 7
1.4 6R.1
0.7 68. 8
0.7 69.5
0.7 70.2
0.7 70.9
0.7 71.6
0.7 72.3
0.7 73.0
0.7 73.8
0.7 74.5
0.7 /fi.7
0.7 73.9
0.7 76.6
0.7 77.3
0.7 7R.O



h
X

PERCENTS
VAI IJE COUNT TEI L
73.700 1 0.7
M.OOO I 0.7
7,5.000
75.100
26.000
76.100
26.200
27.900
28.000
78.100
29.700
79.900
30.700
32.500
33.000
14.000 •
35.300
16.300
38.200
43.300
45.100
56.300
56.600
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
R) .6
8-*.3
83.0
83.7
84.4
B'i.1
83.8
RA.5
87.2
87.9
88.7
89.4
90.1
90.8
91.5
92.9
93.6
94.3
9-;.o
9-1.7
96.5
97.2
97.9
        7.000
        7.200
        7.600
J   7.1  36.2
1   0.7  36.9
I   1.4  .58.3
14.300
14.700
l'j.100
1   0.7  SB.9
1   0.7  39.6
1   0.7  A0.3
72.600
23.300
73.400
7   1.4  79.4
1   0.7  RO.l
1   0.7  A0.9
58.800
67.000
98.100
0.7  98.6
0.7  99.3
0.7 100.0

-------
HYDRASi UESTFRN BASIN ALI IiATA
                                                                                                                      PAGE  196
  t KJELCOMP *
  «****•!««•***

VARIABLE NUMBER 	         2
NUMBER OF DISTINCT VAl UFS  .        27
NUMBFR IIF VALIIFS OlIIHrfO.  .        60
NUMBER OF VALUFS HOT fOUNTFO       84
LtlCATlnH FSTIHATES
                   MFAH
                   MF.UIAN
                   nonr
                         MAXIMUM
                         MINIMUM
                         RANGE
                         VARIANCE
                         ST.DEV.
                                      0.27116A7
                                      0.7AQOOOO
                                     NOT  UNIOUF
                                   O.T.AOOOOO
                                   O.l.iOOOOO
                                   0.44000CO
                                   Q.009M10
                                   0.09RRORO
                                   O.OAOOOOO
                                                                                                     H
                               Sf.FRNOR
                               0.01?75A1
                               0.0144138
                                                                   HH  ri
                                                                   HH  H
                                                                   HH  H
                                                                  HHHH H
                                                               H HHHHHHH
                                                              HH HHHHHHH H
                                                              HHHHHHHHHH H
                                                              HHHHHHHHHH HHH
                                                                                                                           F n'H ' M
                                                                                                                               1
                                                                                                                           CCUNM?i
                                                                                        HHH
                                                                                                EACH  •-'  AM1UE  =
                                                                                                                       0.0350
                                                                                                                       0.07-.0
                      PERCENTS
                                                                           SSEUNESS
                                                                           KURTOSIS
                                                                                              VALUE
                                                                                               0.74
                                                                                               0.40

                                                                                                EACH
                                                                                VALUF/S.F.
                                                                                      I.}"1
                                                                                      0.9-i

                                                                               •.' BF.l OU -
M
N
5 0
1

N M
0 A
I N
0
3

S
1

n
X
     VAl HE
       0.1700
       0.1100
       0.1400
       0.1-500
       O.UOO
       0.1800
       0.7000
              COUNT
                  3
                  1
                  3
                  1
                  2
                  I
                  1
CFII
 5.0
 I./
 5.0
 I./

 5.0
 1.7
 CUM
 5.0
 A.7
11.7
11.3
16.7
71.7
23.3
                                                       PERCENTS
UAI IIF
  0.7100
  0.7700
  0.2300
  O..MOO
  0.2500
  O.^AOO
  0.7700
COUNT
    3
    7
    1
    4
    3
    •i
    3
r.Fi i
 •i.O
 1..1
 1.7
 A.7
 5.0
 R..I
 3.0
 rim
78.3
11.7
33.3
40.0
fi.O
•.)3.3
SR.3
                                                                                       PERfENTS
                                                                                         01     O.-1! 00000
                                                                                         01'
                                                                                         s- =
                                                                                         St°    0.3i>99747

                                                                                           0.0050
                                                                                                                        PERCEHTS
VAl llf
  0.7900
  0.3100
  0.3700
  0.1100
  0.3400
  0.1500
  0.3900
COUNT
    5
    1
    1
    .<
    3
    7
    7
mi
 b.l
 5.0
 1.7
 5.0
 ->.o
 1.1
 1.3
 run
AA.7
/I. 7
7.«.1
/fl.3
A1.1
86.7
90.0
UAI IIF COUNT r
0.4000 1
0.1100 1
0.4100 1
0.1100 1
0 . 5100 1
O.'icOO 1
:i i cun
.7 91.7
.7 91.3
.7 95.0
.7 9o.7
.7 9R.3
.7 100.0

-------
HYDRAS* UEaTtiM BASIN ALL DATA
                                                                                                                    PAGE  197
  ittiitttm*
  i SRS      *
VAR1ABIF NUMBER ......
NUMBER OF DISTINCT UALUES .
NUMBER OF VA1IIFS COUNTED. .
NUMBER OF VALUES NOT COUNTED
  6
122
142
  2
NAXIHUH
MINIMUM
RANGE
VARIAHCF
ST.DEV.
(03-011/2
  2772.0000000
    Hi.0000000
  26B6.0000000
339771.8437300
   382.4704390
   452.5000000
LOCATION ESTIMATES
                   MEAN
                   HFDIAN
                   MODE
 1101.0493164
 11AO.0000000
 1880.0000000
     ST.ERROR
     48.8/98370
     63.7972174
          H
 H      H H
 H      H HH
 H  H H HHHH
 HH H HHHHHH
 HH HHHHHHHH
HHH HHHHHHHHH
HHH HHHHHHHHH
HHHHHHHHHHHHHHHH
 EACH 'H-
REPRtSFNTS
                                                                                                                        COUNT(S)
                                                                                                                    -U
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                              EACH  '-'  ABOVE •=
                                                          VAIIIF   VALIIE/S.E.
                                                          -0.02        -0.09
                                                          -0.48        -l.*A
                                                                                              EACH
                                                                                                      BFLOU
                                                                     130.0000
                                                                      0.0000
                                                                    3 no. oooo

                                                                    01-  ASS.0000000
                                                                    01= 13AO.0000000
                                                                    S-=  318.57R8574
                                                                    S+- 1683.519775*

                                                                     25.0000
N
I
N




S

0
1

M
A
N
PERCENTS
VAIUE
86.
100.
10S.
126.
143.
17S.
200.
221.
229.
245.
250.
257.
263.
265.
275.
292.
300.
307.
316.
347.
349.
359.
365.
COUNT
1
1
1
1
2
1
1
2
1
7
2
1
1
1
1
1
1
1
1
1
1
1
1
CEIL
0.7
0.7
0.7
0.7
1.4
0.7
0.7
1.4
0.7
1.4
1.4
0.7
0.7
0.7
0.7
O./
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
0.7
1.4
2.1
2.8
4.2
4.9
5.6
7.0
7.7
9.2
10.6
11.3
12.0
U.7
13.4
14.1
14.8
IS. 5
16.2
16.9
17.6
18.3
19.0
VAIUE
703.
707.
742.
749.
750.
743.
809.
HID.
811.
836.
870.
872.
874.
913.
950.
V54.
970.
973.
985.
1000.
1009.
1010.
1049.
COUNT







1
1
1
1
1
1
1
1
1
1






H
D
I


0 3
3 t

N
0
E
PERCFNTS
CELl
0.7
0.7
0.7
0.7
1.4
o.;
0.7
.7
.7
.7
,7
.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
o.;
0.7
0.7
0.7
CUM
26.8
77.5
78.2
78.9
30.3
.11.0
31.7
12.4
33.1
33.8
34.5
33.2
33.9
36.6
37.3
38.0
38.7
39.4
40.1
40.8
41.5
42.3
43.0
VAl HE
1130.
1190.
1205.
1P70.
1222.
12>6.
1231.
1737.
1258.
1 219.
1270.
1274.
1283.
1789.
1307.
1146.
1364.
1375.
1392.
1400.
1410.
1440.
1443.
COUNT
2
1
2
1
1
1
1
1
1
1
1
1
1
•)
1
1
1
1
2
1
1
1
1




PERCEHTS
CEIL
1.4
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
CUM
T.0.0
•iO.7
5?.l
•52.8
•i3.5
•>4.2
S4.9
VS. 6
3A.3
57.0
•)7.7
'.18. 5
S9.3
60.6
61.3
A2.0
67.7
63.4
64. B
A3. 5
66.2
AA.9
67.6
VALIIF.
1560.
1!>66.
1SR8.
1598.
1600.
UIO.
1624.
1625.
1640.
1A60.
1680.
1A90.
149*.
1700.
1714.
17?5.
1742.
1750.
17S3.
1824.
1840.
1H80.
1935.
CmirlT
2
I
1
1
1
1
1
2
i
1
2
1
n
I
1
1
1
n
1
I
1
1
1
n
X


PERCENTS
TELL
1.4
0.7
0.7
0.7
0.7
0.7
0.7
1.4
1.4
0.7
1.4
0.7
1.4
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
7.1
0.7
CUK
75.4
76.1
7A.3
77.5
/B.2
70.9
79.6
31.0
R?.4
81.1
84.5
S-i.2
86.6
87.3
Bfl.O
88. 7
B9.4
90.8
11.5
97.3
93.0
95.1
9ri.B
385. !
431.
515.
610.
635.
637.
655.
668.
! 1.4
0.7
0.7
0.7
1.4
0.7
0.7
0.7
70.4
21.1
71.8
27.5
73.9
24.6
75.4
26.1
1050.
1062.
1074.
1075.
1080.
1105.
1121.
1127.
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
43.7
44.4
4S.1
4-.1.8
46.5
47.2
47.9
4R.6
14A3.
1474.
1SOO.
1501.
1571.
1526.
1530.
1533.
1
1
1
1
1
2
1
1
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
68.3
69.0
69.7
70.4
71.1
77.5
73.2
73.9
2000.
2057,
2196.
2303.
2JB4.
2772.


0.7 96.5
0.7 97.2
0.7 97.9
0.7 98.6
0.7 99.3
0.7 100.0



-------
HYDRAR6 UES1ERN BASIN AIL DATA
                                                                                                                    PAGE  198
  utimmtt
  « SECCHI   t
  tttiisnmt

VARIABLE NUHBER 	
NUMBER OF DISTINCT UAIUES .
NUHBER [IF VAIIIFS CDUNTIrO. .
NUHBER OF VALUES NOT COUNTED
 9
23
72
72
HAXIKUH
MINIMUM
RANGF
VARIANCE
ST.DEV.
(QJ-OD/2
1.9000001
0.4000000
3.3000000
0.44171S2
0.6A4M1A
0.4000000
LOCATION ESTIHATES
                   HEAN
                   HFDIAN
                   HODE
   1.4902778
   I.HiOOOOl
  NOT imiOUF
     ST. ERROR
      0.07R377A
      0.11)4701
      H  H               EACH 'H-
      H  H              REPRFSENTS
     HH  H                   2
     HH  H               COUNT(S)
    HHHHHH
    HHHHHHHH
  HHHHHHHHHHH HHH  H
L	U
                                                                                              EACH •-' ABOVE *
                                                                                                            L =
                                                                                                            U=
                                                                                   0.2000
                                                                                   0.2000
                                                                                   4.4000
                                                                          SKENNESS
                                                                          KURTOSIS
                                                          VALUE
                                                           0.96
                                                           0.90

                                                            EACH
                                                      VALUF/S.F.
                                                            3.34
                                                            l.SS

                                                     '.• BELOU -
                                                                                                                   01-
                                                                                                                   03-
                                                                                                                   S—
                                                             ,2000000
                                                             i0000000
                                                             ,0754462
                                                            2.3549094
                                                                                                                     0.0300

H
N

S
-


0
1



N
D
I

H
A
N
0 S
3 +



H
X



VAIIIF COUNT
0.4000
O.ROOO
0.9000
I. 0000
I. 1000
'..2000
2
1
3
3
7
3
PERCENTS
CEl 1 CUM
2.8 2.8
1.4 4.2
4.2 B.3
4.'.' 12.5
9.7 22.2
4.7 74.4
PERCFNTS
UAI HE COUNT CF.l I
1.3000
1.4000
1.5000
l.AOOO
1.7000
1.8000
9 17. H
S 6.9
3 4.2
.1 4.2
2 ?.H
3 4.2
CUN
3B.9
43. 8
50.0
1)4.2
56.9
41.1
PERPFNTS
UAI UE COUNT CEl L
1.9000
7.0000
2.1000
7.2000
2.3000
7.4000
4 !i.A
9 12. S
1 1.4
y 2.8
2 7.B
7 2.8
CUH
«6.7
79.2
BO. 6
83.3
R6.1
88.9
VALUE COUNT
2.5000
;.?ooo
3.1000
1.3000
3.9000

n
?
1
2
1

PERCENTS
CELL CUM
7.B 91.7
7.8 94.4
1.4 95.8
2.8 9R.4
1.4 100.0


-------
HYDRAB6 WESTERN BASIN ALL DATA
                                                                                                                    PAGE  199
  MISSTSSMM
  t TURBID   I
VARIABIF NtlHBER ......
NUMBER OF DISTINCT VALUES .
NUMBER (IF VAUIFS COUNTFO. .
NUMBER OF VALUES NOT COUNTED
 10
 71
144
  0
HAXIHUH
HIHIHUH
RANGF
VARIANCE
ST.DFV.
<03-Ul)/2
28.0000000
 1.2000000
26.799999?
17.7'.i04158
 4.7131243
 2.Q500002
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
    6.4277771
    5.6W99B
    3.0999999
     ST.ERROR
      0.3310937
      0.4.130129
  H
  H
  HH
  HHHH
  HHHH
 HHHHH
 HHHHH
 HHHHHH
HHHHHHHHHHHHH
 FftCH •«'
REPRFSEHTS
     4
 COUNT(S)
                                                   H  H
                                                                          SKEVINESS
                                                                          KURTOSIS
                                                                                              EACH •-' ABOVE
                                                           VALUF    VALUF/S.F.
                                                            2.24         10.95
                                                            6.88         16.B4

                                                             EACH '.
                                                                       1.5000
                                                                       0.0000
                                                                      31.5000

                                                                     01-    3.9500000
                                                                     03>    R.or.oooo:
                                                                     S- =    2.414652B
                                                                     S+»   10.8409014

                                                                       0.2500
N
N
S
- H
D
E
0
1

H H
D A
I N
0
3

S
«

PERCENTS
VALUF
1.200
1.600
1.800
2.000
2.100
2.300
2.400
2.SOO
2.700
2.800
2.900
3.100
3.200
3.300
3.600
3.HOO
3.900
4.000
COUNT
1
1
1
1
2
?
2
7
1
7
1
10
1
3
2
3
1
1
CEU
0.7
0.7
0.7
0.7
1.4
1.4
1.4
1.4
0.7
1.4
0.7
6.9
0.7
J.I
1.4
7.1
0.7
o.;
CUN
0.7
1.4
2.1
2.8
4.2
•3.6
6.9
8.3
9.0
10.4
11.1
18.1
18.7
/o.a
22.2
74.3
2S.O
;>5.7
VAIIIE
4.100
4.200
4.300
4.400
4.SOO
4.400
4.700
4.ROO
5.000
3.200
5.300
5. WO
5.600
S.700
6.200
6.400
6.500
6.600
COUNT
2
1
2
4
1
3
3
7
3
.1
3
3
2
5
1
1
1
3








PERCENTS
I:F.U
1.4
2.1
1.4
2.8
0.7
7.1
2.1
1.4
7.1
2.1
7.1
2.1
1.4
3.S
0.7
0.7
0.7
2.1
CUN
77.1
79.2
30.6
33.1
34.0
36.1
3H.7
.19.6
41.7
43.7
4:1.8
47.9
49.3
S2.8
53.5
•)4.2
54.9
54.9
VAI HE
4.700
6.800
6.900
7.000
7.100
7.300
7.400
7.600
7.700
7.800
a. ooo
B.100
a. 300
a.Aoo
B.700
8.800
B.900
9.000
mum
4
4
1
2
3
)
1
.1
3
7
1
.1
2
1
3
7
1
2




PERCFNTS
CEll
7.8
2.8
0.7
1.4
2.1
1.4
0.7
2.
2.
1.
0.
2.
1.
0.7
2.1
1.4
0.7
1.4
CUH
59.7
67.5
A1.2
64.6
66.7
68.1
6R.7
70.8
77.9
74.3
75. 0
77.1
/fl.S
79.2
B1.7
02. 6
83.3
84.7
M
X


PERCENTS
VALUE COUNT CEI.I.
9.100 2 1.1
9.500 T 7.1
9.900
10.400
10.600
10.800
11.100
12.300
13.300
13.800
15.700
16.600
17.000
18.200
23.000
74.000
28.000
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7

CUH
86.1
88.2
88.9
89.6
90.3
91.0
97.4
91.1
93.7
94.4
95.1
9-5.8
97.7
97.9
98. 6
99.3
100.0


-------
HYDRABi WESTERN BASIN ALL DATA
                                                                                   PAGE 200
  I CHLACORR I
  mittmiti

VARIABLF NUNHER 	
NUMBER OF DISTINCT VALUES .
NUNBER UF VAUIFS CmiNTFD. .
NUNBER OF VALUES NOT COUNTED
  2
137
144
  0
HAXIHUH
NIHIHUH
RANGF
VARIANCE
ST.DFV.
(U3-01>/2
28.9340003
 0.7000000
26.2299995
2.1.625A409
                                                              2.A32!i004
LOCATION F.STINATES
                   MEAN
                   MEDIAN
                   NODE
    7.0146678
    S.VA50002
    B.8000002
     ST. ERROR
      0.405051H
      0.4070321
   H
 H H
 M H
 HHHHH
 HHHHH
 HHHHH H
 HHHHHHH
HHHHHHHHHH
HHHHHHHHHHHHH
 FACH 'H'
REPRFSENTS
     3
 COUNT(S)
                                                     H  H
                                                                       -U
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                              EACH  '-' ABOVE  =
                                                           UALUF    VALUF/S.E.
                                                            1.91         9.3*
                                                            5.47         13.40
                                                                                              EACH
                                                                                                      BFLOU =
                                                                       1.3000
                                                                       0.0000
                                                                      11.3000

                                                                     01-     3.7730001
                                                                     03°     R.9900007
                                                                     S-=     2.1560464
                                                                     St-    11.8772898

                                                                       0.2500
S 0
It - 1
N

0 S
N H N3 *
DA D
I N E









PERCENTS PERCFNTS PERtENlS
VALUF COIINF ITU
0.7000
1.1400
1.1900
1.3000
1.4300
1.3700
1.S400
1.H100
1.8900
1.9100
2.0200
2.2700
2.3400
2.3600
2.3700
2.3900
2.4100
2.4.100
2.4800
2.'.ilOO
2.5600
2.A200
2.6900
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
o.;
0.7
0.7
0.7
HUH VAIIIE COUNT CEU
0.7
1.4
2.1
2.8
3.5
4.2
4.9
5.6
6.2
A.
7.
8.
9.
y.
10.
U.
11.
12.
13.
14.
IS.









.8400
.0000
.0900
.I'.iOO
.2200
.2300
.3000
..1100
.3900
.5-ioo
.5900
.AlOO
.6600
.AHOO
.7000
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
o.;
0.7
0.7
0.7
0.7
0.7
0.7
.7400 1 0.7
.9000 1 0.7
.9400 1 0.7
4.9700 I 0.7
5.0100 1 0.7
5.0300 1 O./
16.0 3. 0400 1 0.7
16.7 5.0700 1 0.7
CUM VAIIIF COUNT CEU
7A.4
?7.1
28.5
?9.2
29.9
.10.6
31.2
31.9
32.6
33.3
34.0
34.7
.1700 1 0.7
.2AOO
.7700
.3-JOO
.4000
.4900
.5100
.1)100
.5800
.H900
.9000
.9400
35,4 7.0700
36.1 7.3400
36. R 7.4BOO
37.5 7.:>100
3B.2 7.5300
.18. 7.5700
39. 7.6800
40 . 7 . 7600
41. 7.8300
41. 7.9100
47. 8.0700
0.7
0.7
O./
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
O./
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
•57.1
h2.8
S3. 5
54.2
54.9
•53.4
5A.2
b6.9
57. A
'1R.3
59.7
60.4
61.1
At. 8
A?.r>
A3. 2
63.9
A4.6
65.3
66.0
AA.7
67.4
6B.1
VALUE COUHT
9.6400 1
9.H100 1
10.1.100 1
10.1500 I
10.6400 1
10.8200 1
10.9000 1
10.9600 1
11.1400 1
11.3300 1
11.3800 1
11.4300 I
11.4500 1
11.4600 1
11.7900 1
1?.OBOO 1
12.1200 1
l.>. 1200 1
12.8100 1
1J.0600 1
13.1AOO 1
11.9600 1
14.5100 1
H
X

PERCENTS
CELL CUM
0.7 70.5
0.7 79.2
0.7 79.9
0.7 80.6
0.7 81.2
0.7 81.9
0.7 87.6
0.7 83.3
0.7 R4.0
0.7 84. 7
0,7 BS . 4
0.7 86.1
0.7 86.8
0.7 87. S
0.7 88. 2
0.7 88.9
0.7 R9.6
0.7 90.3
0.7 91.0
0.7 91.7
0.7 97.4
0.7 91.1
0.7 91.7
2.7000 :
2.8400
2.9000
2.9800
3.2000
3.2200
3.2400
3.2600
3.4400
3.4800
3.6300
3.8200
! 1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
18.1
IB. 7
19.4
20.1
70. B
21.5
72.2
22.9
71.6
24.3
75.0
25.7
5.1700 !
3.2400
3.7HOO
5.3000
5.. 1800
5.8900
3.V100
S.9300
5.9400
5.9600
5.9700
6.1200
' 1.4
O./
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
43.7
44.4
4S.1
411.8
46.5
47.2
47.9
4H.6
49.3
50.0
50.7
51.4
8.1000
8.1600
H.7000
8.7500
8.1-900
8.3500
8.5400
8.8000
9.1800
9.3800
9.4800
9.5300
1
1
1
1
1
1
1
3
1
1
1
1
0.7 68.7
0.7 69.4
0.7 70.1
0.7 70.8
0.7 71.5
0.7 7?. 7
0.7 72.9
2.1 7!i.O
0.7 7-J.7
0.7 7A.4
0.7 77.1
0.7 7V. 8
14.7800
14.7900
14. AlOO
1S.3AOO
17.H100
18.6SOO
;6.<600
28.7200
PH. 9300



0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7



94.4
95. 1
9'i.a
96.5
97.2
97.9
98.6
99.3
100.0




-------
HYDRA86 WESTERN BASIN AIL DATA
                                                                                                                   PAGE 201
  mmtum
  t PHEO     I
  utmttstts

VARIABLF NUMBER	
NUMBER OF DISTINCT VALUES .
NUMBER OF UAllltS r.lHIMTtO. .
NUMBER OF VALUES NOT  COUNTED
  3
133
144
  0
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.DLV.
(03-01>/2
32.7099991
 0.0000000
32.70999V1
21.8539104
 4.474816*
 2.1300001
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
    4.B94S14A
    •i.tiSOOOOO
    1.7100000
     ST.ERROR
      0.3895681
      0.357*374
                                                                         SKEHNESS
                                                                         KURTOSIS
H
HH
HH
HH
HHH
HHHH
HHHH
HHHHHH
HHHHHHH H
EACH '-' ABOU



VALUE VALUF/S
2.71 13
10.34 25








HH
E *
L =
U-

.F.
.28
.37


EACH 'H'
REPRESENTS
5
COUNT (S)


H
2.0000
0.0000
42.0000
01- 1.9400001
03' A. 2000003
S-= 0. 2176980
S** 9.5473312
                                                                                             EACH
                                                                                                      BELOU -
                                                                                                                   0.3000
S 0
H- M H
N D D
E I
0
H 3
A
N
PERCENTS
Al UE COUNT C.Fl I
0.00000
0.02000
0.31000
0.34000
0.54000
0.43000
0.44000
0 . 70000
t. 71000
0.81000
0.96000
0.97000
0.99000
l.OAOOO
.32000
.J5000
. 36000
.41000
. 4BOOO
.37000
0.7
0.7
0.7
1.4
1.4
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
1.4
1.4
0.7
0.7
.53000 1 0.7
.•59000 1 0.7
.71000 3 2.1
CUM
0.7
1.4
2.1
3.3
4.9
S.6
6.2
6.9
7.6
8.3
9.7
10.4
11.1
11. B
12. S
li.2
14.6
16.0
16.7
17.4
18.1
18.7
20.8
S
1








PERCENTS PERCEHTS
VA1 HE COUNT CEI 1
2.27000
7.7VOOO
2.32000
2.3BOOO
2.39000
7.4HOOO
2.53000
7.&9000
2.61000
7.67000
2.73000
7 . 74000
2.82000
2.8AOOO
2.91000
2.92000
2.96000
3.03000
3.04000
3.06000
3.24000
3.77000
3.29000
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
CUM VAUIE COUNT CEIL
29.9 3.69000
30.6
31. -2
31.9
32.6
33.3
34.0
34.7
35.4
16.1
36.8
17.5
3H.2
38.9
.90000
.97000
.97000
.16000
.30000
.34000
.43000
.57000
.61000
.78000
.87000
.95000
.98000
39.6 3.00000
40.3 S.OAOOO
41.0 3.11000
41.7 5.19000
42.4 3.70000
43.1 1.37000
44.4 3.39000
43.1 5.40000
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
4'.i.8 3.4r>000 1 0,7
CIIN
34.2
34.9
SIi.A
b6.2
iA.9
S7.6
38.3
•59.0
ri».7
60.4
61.1
41.8
67.5
63.2
43.9
64.6
6S.3
6A.7
6/.4
68.1
68.7
A9.4
/O.I
N
X




PERCENTS
VAUIE COUNT TELL
6.88000 2 1.4
6.95000 0.7
7.06000 0.7
7.0VOOO 0.7
7.10000 0.7
7.33000 0.7
7.42000 0.7
7.5VOOO I 0.7
7.65000 1 0.7
7.66000 1 0.7
8.42000
8.75000
8.85000
8.96000
9.4.1000
9.74000
10.73000
10.45000
io.r.ftooo
11.09000
ii.. woo
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
11. 50000 I 0.7
11.91000 1 0.7
CUM
79.2
79.9
80.6
81.2
81. 9
82.6
R3.3
84. 0
H4.7
8r>.4
R6.1
86.8
87.5
88.2
88.9
89.6
90.3
91.0
91.7
92.4
93.1
91.7
94.4
1.74000
1.75000 1
1.80000
1.87000 1
1.91000
1.97000 1
2.01000
2.09000
2.14000
2.21000
2.23000
! 1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
22.2
27.9
71.6
74.3
75.0
25.7
76.4
77.1
77.8
28.5
/9.2
3.34000
3.43000
1.48000
3.50000
J.'.i.lOOO
3.S4000
3.5AOOO
3.57000
J.5HOOO
3.63000
3.64000
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
46. S
47.2
47.9
4A.6
49.3
50.0
50.7
51.4
52.1
52.8
A3. 5
3.73000
3.87000
5.84000
3.92000
4.03000
6.10000
6.1.1000
6.77000
A. 11000
6.47000
4.71000
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
70.8
71.5
72.2
72.9
71.4
74.3
75.0
7Ii. 7
74.4
7/.1
77. B
12.07000
12.82000
13.11000
16.9AOOO
20.24000
22.69000
22.82000
32.71000



0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7



9-i.l
93.8
96.5
97.2
97.9
98.6
99.3
100.0




-------
HYDRAB6 UESTERN BASIN ALL DATA
                                                                                                                    PAGE 202
  tmmimt
  t TSS      t
  mmmm

UARIABLF NUMBER 	
NUMBER OF DISTINCT MMUES .
NUMBER \}F VAUIFS MIIHTfO. .
NUMBER OF VALUES NOT COUNTED
 11
132
143
  1
HAX IHUH
MINIMUM
RANGE
VARIANCE
ST.DFV.
(03-011/2
27.6000004
 2.3900001
27.2100010
17.0509777
 4.1797830
 2.10*9999
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   HODE
    7.50223A4
    4.4799998
   NOT IINIQUF
     ST.ERROR
      0.341.3080
      0.2751668
   H
   H
 HHH
 HHHH
 HHHH
 HHHHH
 HHHHH
HHHHHHH
HHHHHHHH
HHHHHHHHHHH HH
                                                                                              EACH •-' ABOVE =
                                                                                                            L=
                                                                                                            U«
                                                                          SKEUNES5
                                                                          KURTOSIS
                                                           VALUF
                                                            2.01
                                                            6.23

                                                             EACH
                                                      UALUF/S.F.
                                                            9.83
                                                           15.71

                                                     •.• BELOU »
 EACH 'H'
REPRFSENTS
     3
 COUNT(S)
                                                     	U

                                                        1.5000
                                                        1.5000
                                                       33.0000

                                                      01-    4.7700000
                                                      03°    8.9899998
                                                      S--    I.3729534
                                                      St»   11.4315193

                                                        0.2500
S
H
N

VAL UE COUNT
2.390
2.400
2.630
2.750
2.800
2.860
2.900
2.930
2.940 1
3.140 ?
3.180 1
3.270 1
3.310 1
3.330 1
3.470 2
3. "550
3.700
3.710
3.820
3.860
3.910
3.920
4.040
Q
1 H H
D A
I N
PERCENTS
CFU CUM
0.7 0.7
0.7 1.4
0.7 2.1
0.7 2.8
0.7 3.5
0.7 4.2
0.7 4.9
0.7 3.6
0.7 6.3
1.4 7.7
0.7 8.4
0.7 9.1
0.7 9.8
0.7 10. S
1.4 11.9
0.7 12.6
0.7 13.3
O./ 14.0
0.7 14.7
0.7 13.4
0.7 14.1
0.; 16.8
0.7 17.5
o s
3 * 	 S


PERCENT? PERCENTS PERCENTS
VAIIIE COIIHT CEU CUM VRIUF. COUNT CF.U CUM VALUE COUNT CELL CUM
4.770 1 0.7 7S.2 4.810 0,7 32.4 9.430 1 0.7 V7.A
4.880 7 1.4 74.6 4.870 0.7 53.1 .460 \ 0.7 78.3
5.010 1 0.7 ?/.3 4.890 1.4 54.5 .570 0.7 79.0
•5.040 1 0.7 78.0 4.900 0.7 55.2 .550 0.7 79.7
5.080 1 0.7 7B.7 4.970 0.7 '..5.9 .560 0.7 80. 4
1.230 1 0.7 ?9.4 7.010 0.7 'iA.4 .410 0.7 81.1
3.320 2 1.4 30.8 7.030 0.7 57.3 .6*0 0.7 81. B
•j. 400 1 0.7 .11.5 7.050 0.7 -iB.O .800 0.7 83.5
5.440 1 0.7 32.2 7.240 1.4 59.4 10.030 0.7 83.2
5.440 7 1.4 .13.6 7.760 0.7 60.1 10.080 0.7 81.9
5.530 t 0.7 34.3 7.490 0.7 60. B 10.250 0.7 B4.6
•5.770 1 0.7 J-5.0 7.520 0.7 41.5 10.440 0.7 83.3
5.780 1 0.7 35.7 7.560 0.7 47.? 10.770 0.7 86.0
r.,810 7 1.4 37.1 7.480 0.7 42.9 11.020 0.7 84.7
5.830 1 0.7 37. B 7.730 0.7 A3.* 11.340 0.7 87. 4
5.900 1 0.7 .18.5 7.820 0.7 44.3 11.600 0.7 BB.l
5.910 1 0.7 39.2 7.B90 0.7 AJi.O 11.970 0.7 BR.fl
5.950 1 0.7 39.9 7.900 0.7 Vi.7 11.980 0.7 BV.5
6.130 1 0.7 40.6 7.980 1.4 67.1 12.300 0.7 90.2
6.160 1 0.7 41.3 8.100 0.7 47.8 12.400 0.7 90.9
6.200 2 1.4 4J.7 8.120 0.7 AH. 5 13.140 0.7 91.6
6.JSO 1 0.7 43.4 8.770 0.7 49.2 11.300 0.7 92.3
6.370 2 1.4 44.8 B.330 0.7 69.9 13.480 0.7 93.0
4.090
4.100
4.130
4.170
4.370
4.3BO
4.460
4.490
4.510
4.670
0.7
0.7
0.7
0.7
0.7
0.7
O./
0.7
0.7
0.7
18.2
18.9
19.6
20.3
71.0
21.7
72.4
23.1
71.8
24.5
6.450
6.480
A, SCO
6.510
6.590
6.600
6.670
6.680
6.740
6.770
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
45.5
46.2
46.9
47.6
48.3
49.0
49.7
SO. 3
31.0
51.7
8.390
B.560
8.600
8.480
8.940
8.960
8.980
8.990
9.110
9. 180
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
70.4
71.3
72.0
7J.7
73.4
74.1
M.8
75.5
76.2
74.9
13.740
14.770
14.740
15.490
14.860
17.360
19.520
71.020
71.940
29.400
I 0.7
1 0.7
I 0.7
I 0.7
1 0.7
1 0.7
I 0.7
1 0.7
1 0.7
1 0.7
93.7
94.4
93.1
95. 8
94.5
97.2
97.9
98.4
99.3
100.0

-------
HYDRAR6 WESTERN BASIN ALL  DATA
                                                                                  PAGE 203
  mmsms*
  » RS       t
  misumu

UARIABIF NIIHBER	
NUHBER OF DISTINCT VAIUES .
NUMBER UF VAllltS COUNTFD. .
NUHBER QF VALUES NOT COUNTED
 12
133
143
  1
HAXINUN
MINIMUM
RANGE
VARIANCE
ST.DEW.
(03-011/2
24.4779995
 1.1400000
23.3400002
12.8444500
 3.5R39155
 1.9349999
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
    3.5609107
    4.7.W9998
   NOT UNIQUE
     ST.ERROR
      0.2997071
      0.7367138
 H H
 mm
 HHHH
 HHHH
 HHHH
 HHHHH
HHHHHHH
HHHHHHHHHHH H
 EACH 'H'
REPRFSENTS
     4
 COUNT(S)
                                                                      -U
                                                                         SKEUNESS
                                                                         KURTOSIS
                                                                                             EACH '-'  ABOVE  =
                                                                                                          L«
                                                                                                          U=
                                                          VALUF   VALUF/S.F.
                                                           2.10        10.75
                                                           6.5A        16.0?
                                                                                             EACH
                                                                                                      BELOW
                                                                      l.SOOO
                                                                      0.0000
                                                                     11.5000

                                                                    01-    3.0400000
                                                                    03°    6.909999B
                                                                    S-=    1.9769951
                                                                    S* =    9.1446259

                                                                      0.2000
S Q
M - 1 N
N D
I
Q S
H 3 *
A
N









PERCENTS PERCENTS
VALUE COUNT CFl 1
.140
.210
.220
.430
.450
.150
.360
.700
.760
.800
.860
.880
.890
2.080
2. ISO
2.190
2.250
2.330
2.370
2.470
2.540
2.600
2.610
0.7
0.7
0.7
O./
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
O./
0.7
0.7
0.7
CUM VAUIE COUNT I'.El I
0.7 3.050 1 0.7
1.4 J.IOO P 1.4
2.1 3.290
2.8 3.520
3.5 3.690
4.2 3.730
4.9 3.750
S.6 3.800
6.3 3.870
7.0 3.920
7.7 3.960
9.1 3.970
9.8 3.980
10.5 .020
11.2 .160
11.9 .180
12.6 .200
13.3 .720
14.0 .280
14.7 .290
IS. 4 .310
16.1 .320
16.8 .350
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
O.V
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
CUM
75.9
77.3
28.0
78.7
79.4
10.8
31.5
32.2
3'/.9
33.6
34.3
33.0
3S.7
36.4
37.1
37.8
3R.5
19.2
39.9
40.6
41.3
42.0
47.7
'Ml III:
4.970
5.070
5.130
3.140
5.160
•3.700
5.250
5.270
3.3BO
•3.420
5.600
•5.420
5.660
•5.670
5.720
5.840
5.850
3.890
5.990
6.000
6.070
6.080
6.130
COUNT
1
1
1
1
1
I
1
1
1
/
I
1
1
1
1
1
1
1
1
1
1
1
1












PERfFNTS
CF.U
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
dm
52.4
53.1
33. B
54.5
55.7
50.9
56.6
57.3
58.0
59.4
60.1
60.8
61.5
62.2
A7.9
63.6
64.3
63.0
65.7
66.4
67.1
67.8
6R.5
VALUE
7.1?0
7.150
7.400
7.440
7.4*0
7.620
7.770
7.820
7.840
7.980
P. 010
8.030
8.150
8.280
8.570
9.060
9.340
9.8fO
9.980
10.100
10.580
tO. 700
11.060
COUNT
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
\
1
1
1
H
X

PERCENTS
TEI L CUh
0.7 77.6
0.7 78.3
0.7 79.0
1.4 80.4
1.4 81. B
0.7 87.5
0.7 R3.2
0.7 81.9
0.7 84.6
0.7 H5.3
0.7 86. 0
0.7 86.7
0.7 87.4
0.7 88.1
0.7 HB.8
0.7 89.5
0.7 90.2
0.7 90.9
0.7 91.6
0.7 92.3
0.7 93.0
0.7 91.7
0.7 94.4
2.620
2.710
2.740
2.770
2.780
2.840
2.870
2. 880
2.960
2.990
3.040
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
1 0.7
7 1.4
1 0.7
1 0.7
17.5
18.2
18.9
19.6
70.3
21.0
71.7
22.4
73.8
24.5
73.2
.450 :
.520 1
.550
.570
.600
.680
.690
1.710
1.740
1.890
1.910
' 1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
44.1
44.8
45.5
46.2
46.9
47.6
48.3
49.0
SO. 3
51.0
M.7
6.180
6.270
6.420
6.720
6.810
6.860
6.R90
6.900 J
6.910
7.070
7.110
0.7
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
69.2
69.9
70.6
71.3
72.0
77.7
73.4
74. B
75.5
76.2
76.9
12.180
12. 350
14.140
14.9*0
1 -5.800
18.140
19.020
J4.4BO



0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7



91.1
95.8
96.5
97.2
97.9
98. 6
99.3
100.0




-------
HYDRAB6 UESTERN BASIN ALL DATA
                                                                                                                    PAGE 204
  ttmmmt
  » VS       I
  itmmms

VARIABLF NIIHBER	
NUHBER OF DISTINCT VALUES .
NUHBFR W VAUIFS COUHTKO. .
NUHBER OF VALUES NOT COUNTED
 13
10B
143
  1
HAXIHUH
HIHIHUH
RANGF
VARIANCE
ST.DEV.
(03-011/2
5.S999W
0.1400000
5.4*00000
0.8409270
0.9170707
0.4ASOOOO
LOCATION ESTIMATES
                   HE AN
                   HF.DIAN
                   HOBE
    1.9413784
    1.7100000
    1.5700001
     ST.ERROR
      0.07AA851
      0.0606218
    H
    H
    HH
    HH
    HHH
   HHHH
   HHHHHH
  HHHHHHHH
H HHHHHHHHHHHH HHHH
 EACH 'H'
REPRhSFNTS
     4
 COUNT(S)
                                                                                              EACH '-'  ABOVE  =
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                           VALUE
                                                            1.65
                                                            3.20

                                                             EACH
                                                      VALUF/S.F.
                                                            8.03
                                                            7.82

                                                     '.'  BELOU =
                                                       0.3000
                                                       0.0000
                                                       4.3000

                                                     01'     1.3600000
                                                     03*     7.7900000
                                                     S-»     1.0743076
                                                     S»»     2.85B3491

                                                       O.OSOO
H
N


VAIUE
0.1400
O.A400
0.7900
0.8000
0.8300
0.9100
0.9800
.0100
.0900
.1100
.1300
.1600
.1700
.1800
.1900
1.2000
1.2100
1.7200
1.2400
1.2600
1.2700
1.2800
1.3000




COUNT
1
1
1
1
2
1
1
1
1
1
2
1
2
7
3
1
2
1
1
1
1
s D B s
1 H H H 3 t £
D 0 A X
E I N
PERCENTS PERCENTS PERCENTS PERCENTS
CEI1 CUH VAIUE COUNT Mil CUH VAMIE COUNT CEI I CUH VALUE COUNT CEIL CUH
0.7 0.7 .3500 0.7 74.5 1.7600 1 0.7 15.2 2.4300 1 0.7 79.7
07 14 .3400 7.1 76.6 1.7700 1 0.7 5->.9 7.4500 1 0.7 80.4
0.7 2.1 .3700 1.4 28.0 1.7900 1 0.7 56.A 2.5400 1 0.7 81.1
0.; 2.8 .3800 0.7 78.7 .8000 1 0.7 57.3 2.-J800 I 0.7 81. 8
, 4 4.2 .4000 0.7 29.4 .8100 1 0.7 5R.O 2.A100 2 1.4 B3.2
0'7 4.9 .4100 7.1 31.5 .H400 1 0.7 58.7 7.6300 1 0.7 81.9
07 56 .4200 0.7 3J.2 .8700 2 1.4 AO.l 2.6500 1 0.7 84.6
07 A3 .4300 0.7 32.9 .H800 1 0.7 40.8 2.A900 1 0.7 8',. 3
0.7 7.0 .4400 0.7 33.6 .9100 2 1.4 67.2 2.7700 1 0.7 86.0
0.7 7.7 .4400 0.7 .14. 3 .9100 7 1.4 43.6 7.7900 I 0.7 84.7
0.7 B.4 .4700 1.4 35.7 .9900 1 0.7 A4.3 2.B800 I 0.7 87.4
07 9.1 .4800 2.1 37.8 7.0000 .« 2.1 44.4 2.9200 7 1.4 88.8
14 10 5 .5300 0.7 38.5 2.0200 1 0,7 67.1 2.9400 1 0.7 B9.5
07 11.2 .1400 0.7 39.2 7.0400 7 1.4 48.5 1.0300 1 0.7 90.2
1.4 12.6 .5600 0.7 39.9 2.0400 1 0.7 69.7 3.1500 1 0.7 90.9
14 I* o .-.700 2.8 42.7 7.0800 1 1.4 70.6 1.1800 2 1.4 92.3
2 i 14 1 .5900 0.7 43.4 2.1000 1 0.7 71.3 3.3400 1 0.7 93.0
0.7 4.8 .AOOO 0.7 44.1 7.1100 1 0.7 72.0 3.4000 1 0.7 93.7
t 4 ie.2 .6200 0.7 44.8 2.1800 1 0.7 72.7 3.7700 1 0.7 94.4
O./ 18.9 .6400 1.4 46.2 2.2000 7 1.4 74.1 1.7500 I 0.7 91.1
0.7 19.6 .6700 7.1 48.3 2.2100 1 0.7 74. 8 4.0600 1 0.7 9...B
07 70.3 .A900 0.7 49.0 7. WOO 1 0.7 73.5 4.1300 1 0.7 96.5
0.7 21.0 .7100 2.1 51.0 2.3000 1 0.7 7k. 2 4.5800 1 0.7 97.3
        1.3100     1    0.7  f\.7         1.7200      1    0.7   31.7         i.3200      1   0.7  76.9
        1.3200     1    0.7  22.4         1.7300      1    0.7   52.4         2.3900      1   0.7  V7.A
        1.3300     1    0.7  73.1         1.7400      7    1.4   S3.B         7.4000      1   0.7  78.3
        1.3400     1    0.7  23.8         1.7500      1    0.7   54.5         2.4200      1   0.7  79.0
                                                                      4.7600
                                                                      S.0700
                                                                      •5.1200
                                                                      5.6000
                                                                    t   0.7  97.9
                                                                    1   0.7  98.6
                                                                    I   0.7  99.3
                                                                    1   0.7 100.0

-------
HVDRA86 WESTERN BASIN ALL DATA
                                                                                                                    PAGE  205
  usmmut
  I PERVS    I
  utmumt

VARIABIF. NUHBER	
NUMBER OF DISTINCT VAl UES .
NUHBER UF VAIIIFS COIIMTFD. .
NUHBER OF VALUES NOT COUNTED
 14
142
143
  1
NAXINUH
HINIMUM
RANGF
VARIANCE
ST.DEV.
(03-OU/2
 60.1399994
  1.7700000
 S8.4199982
115.3050354
 10.747.tt6V
  S.9AOOOOO
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
   28.59A91R1
   7A.5A99997
   26.S699997
     ST.FRROR
      0.8987367
      0.9419678
   HHH
   HHH
  HHHH
 HHHHHH
HHHHHHH H H
MHHHHHHHH HHH
HHHHHHHHHHHHHHH H
 EACH -H1
REPKFSFNTS
     3
 COUNT(S)
                                                                       -U
                                                                                              EACH '-' ABOVE '
                                                                                                            L«
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                           VALUF
                                                            0.79
                                                            0.23

                                                             EACH
                                                      VALUF/S.F.
                                                            3.83
                                                            0.55

                                                     '.' BELOy •
                                                         3.0000
                                                         0.0000
                                                        A3.0000

                                                       01'    71.3300004
                                                       03=    3?.7700005
                                                       S-»    17.8495903
                                                       St«    19.344245?

                                                         0.5000
H
N

VAl HE CDUN
1.720
13.310
13.490
13.700
13.820
14.530
14.710
14.990
16.130
16.210
16.410
16.310
16.690
16.990
17.260
17.300
17.640
17.820
17.890
17.930
18.450
18.650
18.690



PERCENTS
r CFU CUN
0.7 0.7
0.7 1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
O./
0.7
0.7
0.7
0.7
0.7
2.1
2.B
3.5
4.2
4.9
S.6
6.3
7.0
7.7
8.4
9.1
9.8
10.5
11.2
11.9
12.6
13.1
14.0
14.7
13.4
16.1
S 0
1 N H
D A
I N
VAl HE CnUHl
21.430
71.540
21.690
71.730
21.810
71.890
21.980
77.160
22.200
72.310
I
r ci


22.390 1
72.430 1
22.590 1
72.770 1
22.870
72.990
23.110
7.1.140
24.150
74.160
24.370
74.520
24.560
ERCENTS
:i L CUM
.7 25.9
.7 76.6
.7 77.3
.7 78.0
.7 2B.7
.7 79.4
.7 30.1
.7 30.8
.7 31.3
.7 32.2
.7 32.9
.7 11.6
.7 34.3
.7 35.0
.7 33.7
.7 36.4
.7 37.1
.7 37.8
.7 38.5
.7 39.2
.7 39.9
.7 40.6
.7 41.3
0 S
3 *


VAl HE COIIM
26.850
76.870
27.030
77.790
27.4AO
77.510
27.A30
77.870
28.210
78.230
28.520
78.840
28.860
79.020
29.070
79.110
29.270
79.A90
29.700
79.980
30.000
10.710
30.690



PERCFH rS
r r.F.i L CUM
0.7 51.7
0.7 57.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
53.1
53.8
54.5
55.2
55.9
36.6
57.3
•>8.0
58.7
59.4
60.1
60.8
61.5
62.2
6?. 9
A3. 6
A'.. 3
45.0
65.7
66.4
67.1



VALUE COIN
33.570
.14.940
36.270
36.730
36.940
17.700
37.740
.17.880
38.050
39.090
39.580
40.760
47.300
41.200
43.340
41.580
43.A10
41.940
43.950
45.320
45.870
45.890
N


PERCENTS
[ CEI L CUM
0.7 76.9
0.7 77.6
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
46.970 0.7
7B.3
79.0
79.7
R0.4
81.1
81. B
IP. 5
81.2
83.9
84.6
BS.3
8A.O
RA.7
87.4
8B.1
88.8
89.5
90.2
90.9
91.6
92.3
18.740
18.900
19.060
19.100
19.130
19.900
70.130
20.230
20.310
20.410
20.840
21.290
21.350
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
O./
0.7
O./
0.7
0.7
16.8
17.5
18.2
18.9
19.6
20.3
71.0
21.7
,'2.4
23.1
71.8
24.5
75.2
74.590
24.680
74.940
25.190
75.230
25.300
7-5.330
25.470
75.160
25.600
75.930
23.990
76.570
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
? 1.4
42.0
47.7
43.4
44.1
44.8
45.5
46.2
46.9
47.6
48.3
49.0
49.7
51.0
.(0.720
30.810
30.930
31.010
31.300
31.370
.12.080
32.470
.17.770
33.150
31.170
33.270
.11.420
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
47.8
AR.5
A9.2
A9.9
70.6
71.3
72.0
72.7
73.4
74.1
74.8
;r>.5
76.2
47.920
48.930
49.580
49.940 .
10.8:0
52.200
51.010
53.A10
55.400
56.380
60.140


I 0.7
1 0.7
I 0.7
I 0.7
1 0.7
1 0.7
1 0.7
I 0.7
V 0.7
1 0.7
1 0.7


93.0
93.7
94.4
95.1
9'3.8
9A.S
97.2
97.9
98.6
99.3
100.0



-------
HYDRA86 UESTERN BASIN AIL DATA
                                                                                                      PAGE  206
iMuttnm
1 CIINOCORR «
tttmmist
HAXIHUM 308.0000000
VARIABLE NUMBER 	 8 NINIHUN 70*. 0000000
NUMBER OF DISTINCT VAI UES . 58 RANCE 102.0000000
NUMBER OF VAL IIFS C.nilHTFD. . 144 VARIANCE 330.76/4561
NUMBER OF VALUES NOT COUNTED 0 ST.DHV. 18.1870136
(O.I-OD/2 10.7500000
LOrATIOH ESTIMATES ST.fRROR
MEAN 238.JV16718 1.5155845
HF.OIAN 7.J3. 0000000 1.7370517
N
N
MODE
230.0000000
s a
1 H M M
PERCENTS
UAL UE COUNT
206. 1
211.
213.
214.
216.
217.
218.
21?.
220.
221.
222.
223.
224.
325.
226.
1
2
.<
1
4
1
3
3
3
1
?
2
.1
4
I'.Fl I
0.7
0.7
L.4
2.1
0.7
2.H
0.7
7.
2.
2.
0.
1.
1.
2.
2.8
CUM
0.7
1.4
2.8
4.1
5.6
8.3
9.0
11. 1
13.2
15.3
U.O
17.4
18.7
?0.8
23.6
BO A
E I N
a
3
S
t
SKEUNESS
KURTOSIS
PERCENTS
VAUIE r.niINT
227. 4
278.
229.
230.
231.
232.
233.
234.
235.
236.
237.
218.
239.
?40.
241.
5
4
A
7
5
6
1
3
5
4
A
1
.1
I
r.Ei i
2.B
i.:>
7.8
5.6
4.9
3.5
4.2
0.7
7.1
3.5
7.8
4.7
0.7
2.1
7.1
CUM
26.4
?9.9
32.6
.18.2
43.1
46.5
50.7
•J1.4
53.5
-.16.9
59.7
63.9
64.6
66.7
68.7
VAl UE COUNT
243. 1
244.
245.
246.
247.
248.
249.
250.
251.
2S2.
753.
as.
256.
J57.
258.
n
2
7
1
1
1
7
2
T
3
4
2
3
1
H
HH
HHH
HHH
HHH
HHHHH H
HHHHHHHHH
HHHHHHHHHH
HHHHHHHHHHHHHH
EACH '-• ABOVE =
L»
U=-
VALUE VALUF/S.F.
1.26 6.70
2.03 4.97
EACH •.' BFLOU -
PERCENTS
r.ni
0.7
1.4
1.4
1.4
0.7
0.7
0.7
1.
1.
2.
7.
2.
1.
7.
0.
CUM
69.4
70.8
77.2
73.6
74.3
7').0
75.7
77.1
78.5
80.6
B7.6
8*3.4
R6.R
88.9
89.6
EACH 'H1
REPRESENTS
3
CDUNT(S)
H H HH
S.OOOO
205.0000
310.0000
01- 227.0000000
03" 248.5000000
5-= 770.1046600
S+= 2S6. 47B69B7
1.0000
M
X
PERCENTS
VALUE COUNT CFI L
260. 1 0.7
763.
265.
248.
269.
271.
275.
181.
284.
791.
292.
302.
308.


2 1.4
0.7
0.7
1.4
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7


CUM
90.3
91.7
¥7.4
93.1
94.4
91).!
95.8
9A.5
97.3
9V.9
98. 6
99.3
100.0



-------
HYORA86 WESTERN BASIN ALL DATA
                                                                                                                    PAGE 207
  mttmt***
  I CL       *
  mmtsttu

VARIABIF NIINBF.R	
NUMBER UF DISTINCT UAIUES .
NUHBFR (IF VAIIIFS COIIHrF.D. .
NUMBER OF VALUES NOT COUNTED
  7
 73
144
  0
HAX1MUH
MINIMUM
RANGE
VARIANCE
ST.DFV.
(OJ-UU/2
24.0000000
 6.7000001
19.1000004
 8.5466032
 2.9734374
 1.7300000
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   NODE
   11.6604147
   Il.tiOOOOOO
   11.3999996
     ST.FUROR
      0.24.16215
      0.2070726
     H
     H
     HH
   H HHH
  HH HHH
 HHHHHHH H
 HHHHHHHHH
 HHHHHHHHH
HHHHHHHHHHHH
 EACH 'H'
REPRF1F.NTS
     3
 COUNT(S)
                                                     H H
                                                                       -U
                                                                          SKEVNESS
                                                                          KURTOSIS
                                                                                              EACH '-' ABOVE =
                                                           VALUE    VALUF/S.F.
                                                            1.23          6.05
                                                            4.04          9.90
                                                                                              EACH
                                                                                                       BELOU =
                                                                       1.0000
                                                                       6.0000
                                                                      ?7.0000

                                                                     01=     9.699999B
                                                                     03=    1J.199999B
                                                                     S-a     R.7169570
                                                                     St»    H.5B3B718

                                                                       0.1SOO
!
H
N
i Q
1



N H
D A
I N
0
3



PERCENTS
VAI.UF
6.900
7.100
7.200
7.300
7.400
7.500
7.700
7.800
7.900
8.000
B.100
B.200
8.300
B. 400
8.700
8.800
8.900
9.000
9.100
COUNT
1
2
2
1
2





2
3
2
1
1
7
2
7
1
C.Ell
0.7
1.4
1.4
0.7
1.4
0.7
0.7
0.7
0.7
6.1
1.4
2.1
1.4
O./
0.7
1.4
1.4
1.4
0.7
CUM
0.7
2.1
3.5
4.2
5.6
6.2
6.9
7.6
B.3
9.0
10.4
12.5
13.9
14.6
15.3
16.7
18.1
19.4
20.1
VAl HE
9.200
9.300
9.600
9.700
9.800
9.900
10.000
10.100
10.200
10.300
10.500
10.700
10.900
11.000
11.100
11.7.00
11.300
11.400
11.500
COUNT
3
1
1
3
4
3
1
.1
2
1
1
1
2
7
1
4
4
5
4
S
t







PERCFNTS
CEIL
7.1
0.7
0.7
2.1
7.B
2.1
0.7
2.1
1.4
0.7
0.7
0.7
1.4
1.4
0.7
2.8
2.R
1.-3
2.8
CUM
77.2
22.9
2.1.6
75.7
2H.5
30.6
31.2
.11.3
34.7
.V5.4
36.1
36.8
3B.2
.19.6
40.3
43.1
4:1.8
49.3
52.1
VAIUE
11.600
11.700
11.800
11.900
12.000
12.100
12.200
17.300
12.500
12.600
12. BOO
12.900
13.000
13.100
13.200
11.300
13.500
13.600
13.700
COUNT
1
4
1
1
1
1
3
.1
4
3
1
.1
1
7
3
3
2
2
1




PERfENTS
I'.F.t L
0.7
2.8
0.7
1.4
0.7
1.4
7.1
2.1
7.8
7.1
0.7
2.1
0.7
1.4
7.1
2.1
1.4
1.4
0.7
CUM
S2.8
5-5.6
5A.2
57.6
SB. 3
59.7
61.8
A3. 9
66.7
48.7
69.4
71.5
72.2
73.6
73.7
77. B
79.2
80.6
B1.2


H
X
PERCENTS
VALUE COUNT CELL
14.000 3 7.1
14,200
14.500
14.700
15.000
15.200
15.300
15.400
15.T.OO
15.600
16.800
17.100
17.300
17.600
73.300
0.7
0.7
2.8
1.4
0.7
7.1
2.B
0.7
0.7
0.7
0.7
0.7
0.7
0.7
76.000 I 0.7



CJH
81.3
84.0
H4.7
87.5
HR.9
89.6
91.7
94.4
95.1
9'i. B
96. S
97.2
97.9
98.6
99.3
100.0




-------
HTDRA84 WESTERN BASIN ALL  DATA
                                                                                                                    PAGE 208
  tmmutst
  * ALKTOT   I
  M**»*>UUI

VARIABLE NUMBER 	
NUHBER OF DISTINCT VALUES .
NUHBER OF UALIIFS COUNTtD. .
NUHBER OF VALUES NOT COUNTED
             6
           100
           144
             0
                  NAXIHUH
                  MINIMUM
                  RANGE
                  VARIANCE
                  ST.DEV.
                    107.3000071
                     84.0000000
                     23.3000031
                     25.74/4A9B
                     5.0241HS5
                     3.7749977
LOCATION ESTINATES
                   MEAN
                   MEDIAN
                   NODE
              93.3138733
              93.0999985
              93.8000031
                        ST.FRROR
                        0.4184R24
                        0.7303553
                                                    H
                                              HH  H H
                                              HHH H H
                                             HHHHHHHH
                                             HHHHHHHHH
                                             HHHHHHHHHH
                                             HHHHHHHHHH
                                             HHHHHHHHHHH   H
                                           HHHHHHMHHHHHHHHHH
                                                             EACH 'H'
                                                            REPRESENTS
                                                                 2
                                                             COUNT(?)
                                                                                         -U
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                             EACH '-' ABOVE •=
                                                                                                           U-
                                                                     VALUE   VALUF/S.F.
                                                                      0.49         2.39
                                                                     -0.27        -O.Sri
                                                                                              l.SOOO
                                                                                             81.0000
                                                                                            113.5000
                                                                                                                  01-
                                                                                                                  03°
                                                                                             B9.1S00015
                                                                                             96.6999969
                                                                                             RR.28968B1
                                                                                             9R.3JB05B5
                                                                                             EACH
                                                                                                      BELOW
                                                                                                                    0.2000
N
N


VALUF
84.00
83. SO
85.70
8 A. 00
86.10
8A.20
86.40
Si. SO
86.80
87.00
87.20
87.30
87.40
87. 50
87.60
87.70
B7.90
88.00
88.20
88. 50
88.60
88.70
38.80




r.OUHT
1
1
1
1
1
•f
2
1
3
1
1
2
1
)
i
1
2
1
1
3
3
1
1
SO OS
- 1 HH H 3 t »
DA D x
IN E
PERCENTS PERCFNTS PERCFNIS PERCENTS
CEU CUM VAUIE milNI CELL CUM Vftl HE COUNT CEU CUM VftLUE COUNT CELL CUM
0.7 0.7 B9.40 2 1.4 27.1 93.10 3 7.1 31.4 97.50 3 1.4 BO. 6
0.7 1.4 89.50 0.7 77.8 93.20 1 0.7 32.1 97.60 1 0.7 81.2
0.7 2.1 89.70 0.7 7B.5 93.60 1 0.7 '..X.B 97.80 1 0.7 81.9
0.7 2.8 89.80 0.7 79.2 93.80 4 2.8 V5.6 97.90 1 0.7 82.6
0.7 3.5 89.90 1.4 JO. 6 94.20 2 1.4 '5A.9 98.30 1 0.7 83.3
1.4 4.9 90.00 0.7 .11.2 94.40 7 1.4 1>I».3 9B.40 1 0.7 81.0
1.4 6.2 90.10 0.7 31.9 94.50 2 1.4 59.7 98.50 1 0.7 B4.7
0.7 6.9 90.20 0.7 .«2.6 94.60 1 0.7 60.4 98.60 1 0.7 85. 4
2.1 9.0 90.40 1.4 34.0 94.70 3 7.1 *7.S 98.70 1 0.7 flA.l
0.7 9.7 90.50 2. 34.1 95.00 1 0.7 A3. 2 98.80 1 0.7 8A.B
0.7 10.4 90.70 0. 36.8 95.30 1 0.7 63.9 99.00 1 0.1 87.5
1.4 11.8 90.80 0. .«7.5 95.50 1 0.7 A4.6 99.10 1 2.1 89.6
0.7 12.5 91.00 0. 38. 2 95.60 1 0.7 «i.3 99.30 1 0.7 90.3
1.4 U.9 91.10 1. 39.6 VS. 80 t 1.4 4A.7 99.60 1 0.7 9\.0
1.4 15.3 91.40 0. 40.3 95.90 2 i.4 AH.l 99.80 1 0.7 91.7
0.7 14.0 91.50 0. 41.0 9A.10 .1 2.1 /O.I 100.00 2 1.4 »1.1
1.4 17.4 91.60 0. 41.7 96.70 1 0.7 70.8 101.10 2 1.1 94.4
O./ 18.1 91.70 0. 42.4 94.30 1 0.7 J1.3 101.70 1 0.7 91.1
0.7 18.7 91.80 1. 43.7 94.50 3 2.1 7T.A 10?. 30 1 0.7 95.8
?.l 70.8 91.90 0.7 44.4 9A.60 1 0.7 /4.3 102.80 \ 0.7 9A.5
2.1 22.9 92.00 O./ 4!i.l 96.70 2 1.4 7Ii.7 103.60 1 0.7 97.3
O./ 71.4 92.10 7 1.4 44.5 94.90 1 0.7 M.4 103.90 1 0.7 97.9
0.7 24.3 92.30 1 0.7 47.2 97.00 1 0.7 77.1 106.90 1 0.7 98.6
        89.00
        89.30
0.7
0.7
75.0
23.7
92.60
92.70
1.4
0.7
48.6
49.3
77.20
97.40
0.7  n.a
1.4  79.7
107.10
107.30
0.7  99.3
0.7 100.0

-------
HYDRAR6 WESTERN »ASIN ALL DATA
                                                                                                                  PAGE   209
  mtmun*
  * ALKPH    «
  tmtftitsit

VARIABI.F NIIHBER	
NUMBER OF DISTINCT VALUES .
NUMBER 'IF VALIIFS COUNTED. .
NUHBER OF VALUES NOT COUNTED
  7
 54
144
  0
MAXIHUH
hiHIHUH
RANGF
VARIANCE
ST.DKV.
(Q3-UU/2
10.3000000
 0.0000000
10.SOOOOOO
 4.4A703B2
 2.547037?
 1.9-JOOOOO
LOCATION ESTIMATES
                   MEAN
                   NF.DIAN
                   MODE
    2.5173411
    2.0WW
    0.0000000
     ST.ERROR
      0.2119190
      0.7020727
 H
 H
 H
 H
 H
 H
 H
 H  HH
 H HHH HH H H
 HHHHHHHHHHHHHHH HH HH
I	-	U
 EACH 'H'
REPRESENTS
     5
 COUNT(S)
                                                                                              EACH '-'  ABOVE  •=
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                           VALUE
                                                           0.97
                                                           0.47

                                                             EACH
                                                      VALUF/S.F.
                                                            4.73
                                                            1.14

                                                     '.'  BFLOU  -
                                                       O.SOOO
                                                       0.0000
                                                       lO.SOOO

                                                     01 =    0.0000000
                                                     03=    3.9000001
                                                     S-»   -0.0256758
                                                     St-    5.0603986

                                                       0.1000
s
H
N

H
D
I
H
A
N
Q
3


PERCENTS
VALUE COUNT CELL
0.0000 4V 34.0
0.8000 2 1.4
i.oooo o.;
1.2000 0.7
i.30oo o.;
1.4000 1.4
1.3000 2.H
1.4000 0.7
1.7000 O./
1.8000 1.4
l.fOOO 2.1
2.0000 2.B
2.1000 '.) 1.1
2.2000 2 1.4
CUN
.14.0
35.4
.U.I
36.8
.17.3
38.9
41.7
42.4
43.1
44.4
46.3
49.3
S2.B
34.2
VALUF
7.. WOO
2.4000
2.'jOOO
2.6000
7.7000
2.9000
.1.0000
3.1000
.1.2000
3.4000
.1.3000
3.6000
.I.SOOO
3.9000
COUN1
T
2
1
1
1
1
?
4
7
3
1
3
7
3



S
t





PERCFNTS PERCFN1S
CEIL
2.1
1.4
0.7
0.7
0.7
0.7
1.4
?.R
1.4
2.1
0.7
3.3
1.4
2.1
ClIH VALUF COUNT CEI I
!)6.2
57.6
3H.3
39.0
:t9.7
60.4
At. 8
64.6
A4.0
.1000
.3000
.4000
.5000
.AOOO
.7000
.8000
.9000
.1000
6B.1 5.4000
AB.7 h.AOOO
72.2 5.7000
73.6 4.1000
7-1.7 6.4000
0.7
0.7
0.7
0.7
2.1
2.8
0.7
0.7
0.7
0.7
2.8
1.4
0.7
0.7
nm
/A. 4
77.1
77.8
/R.r.
80.6
83.3
R4.o
84.7
85.4
BA.l
H8.9
90.3
91.0
91.7
N
X




PERCENTS
VALUE COUNT CF.Lt
A.-iOOO
6. AOOO
A. 9000
7.1000
7.2000
8.1000
H.2000
8.4000
8.7000
10.0000
10.3000
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
lO.TiOOO 1 0.7


CUM
92.4
93.1
91.7
94.4
9'i.l
93.8
96.5
97.2
?7.9
98.6
99.3
100.0



-------
HYDRAH6 WESTERN BASIN AIL DATA
PAGE   210
ttmtmus
1 PH *
tttuitmts
S
MAXIMUM
MIMIHUM
a.7r.ooooo
7.5900002
NUMBER OF DISTINCT VALUES . 47 RANGf 1.1599998
NUMBFR IIF VAIUES CnilHtED. . 144 VARIANCE 0.0457705
NUMBER OF VALUES NOT COUNTED 0 ST.DEV. 0.21276HH
(O.I-Ul>y2 0.147V)04
LOCATION ESTIMATES ST. ERROR
MEAN B. 2127767 0.01/7307
MEDIAN H. 1899996 0,0173204
^

MODE



8.1800003

S

PERCENTS
VAl UF
7.390
7.810
7.850
7.860
7.870
7.880
7.890
7.900
7.920
7.940
7.960
7.980
7.990
8.000
8.020
8.030
8.040
COUNT
1
1
1
'I
2
•i
2
.1
1
1
1

1
1
2
1
2
CFtl
0.7
O.I
0.7
1.4
1.4
1.4
1 .4
7.1
0.7
0.7
0.7
7.1
0.7
0.7
1.4
0.7
1.4
CUN
0.7
1.4
2.1
3.5
4.9
6.2
7.6
9.7
10.4
11.1
11.8
13.9
14.6
IS. 3
16.7
17.4
IB. 7
VAl HE
8.050
8.060
8.070
8.080
8.100
8.110
8.120
H.130
8.140
8.150
8.160
8.170
8.180
8.190
8.200
8.720
8.230
COUNT
4
2
S
7
3
4
2
4
2
)
2
4
7
4
3
4
2
0
1

SKEyNESS
MJRTOSIS
0
H H 3

D A
I N

PERCENTS
2.8
1.4
3.5
1.4
2.1
2.8
1.4
2.8
1.4
1.4
1.4
2.8
4.9
2.H
2.1
2.8
1.4
CUM
21.5
J2.9
76.4
77.8
29.9
J2.6
34.0
.16.8
38. 2
39.6
41.0
41.7
48.6
51.4
5.1.5
16.2
57.6
VAl HE
8.240
8.750
8.260
8.770
8.290
8.300
8.310
8.120
8.330
3.350
8.360
8.370
8.380
8. .190
8.400
3.110
8.420
COUNT
2
4
2
4
2
.1
2
1
1
4
4
1
2
7
1
1
2
u~
EACH
VALUF
0.27
0.03
EACH
S
1


HH
HH
HHHH
HHHHHH
HHHHHH
HHHHHHHH
HHHHHHHHH HH
H HHHHHHHHHHHHH
EACH 'H'
REPRVSFNTS
3
COUNT(S)
•-' ABOVE » 0.0750
L- 7.4250
U= 9.0000
01- B. 0499997
VALUFSS.F. 03° 8.3550005
1.07 S" B. 0000076
0.12 St- 8.4?55447
'.' BFLOU • 0.0100
N

PERCENTS
RF.U
1.4
2.8
1.4
2.8
1.4
2.1
1.4
0.7
0.7
2.8
7.8
0.7
1.4
1.4
0.7
0.7
1.4
CUM
59.0
61.8
6.4.?
66.0
67.4
69.4
/O.H
SI. 5
77.2
7-3,0
77. B
S8.5
/9.9
01.2
81.9
82.6
H4.0
VAl UF CQIIUT
B.430 3
8.440 1
8.460 1
8.470 2
8.480 2
8.510
B.570
8.580
8.610
8.620
8.640
8.670 2
8.68(1 1
8.690 1
8.730 1
8.750 I



PERCENTS
CEIL
2.1
2.1
0.7
1.4
1.4
0.7
0.7
0.7
0.7
0.7
0.7
1.4
0.7
0.7
0.7
0.7

CUM
H4.1
RS..2
RB.9
90.3
91.7
92.4
VS. 1
93.7
»4.4
91. J
95.8
97.2
97.9
98.6
99.3
100.0


-------
                                        PAGE  211
APPENDIX B

-------
HYDRAB6 CENTRAL BASIN ALL DATA
                                                                                                                   PAGE   212
umsmiu
» TEHP *
Ittmmm
1
HAXIHUH
NIK I HUH
24.7000008
A. 1999998
NUHBER OF DISTINCT VAI UES . 116 RANGE 18.5000000
NIIHBER OF VALIIFS r.DUNTFD. . 749 VARIANCE J1.8flflb059
NUNBER OF VALUES NOT COUNTED 0 ST.DEV. 4.67BSI!i4
(03-OD/2 1.1999*98
LOCATION ESTIMATES ST. ERROR
HEAN 16.3028107 0.29648B9
HEDIAN 16.0000000 0.5484829
N
N
NODE



NOT UNIQUE
S Q
1


PERCENTS
VAIUE
6.200
7.500
7.700
7.800
7.900
8.000
8.200
8.300
8.600
8.800
9.000
9.100
9.500
9.700
9.800
9.900
10.000
10.100
10.200
10.400
10.500
10.400
10.700
COUNT
1
7
2
7
1
1
3
1
2
1
4
1
2

1
1
2
7
1

1
1
1
CFtL
0.4
O.H
0.8
O.fl
0.4
0.4
1.2
0.4
O.B
O.fl
1.6
0.4
0.8
1.7
0.4
0.4
0.8
O.R
0.4
1.7
0.4
0.4
0.4
CUH
0.4
1.2
2.0
2.8
3.2
3.6
4,8
5.2
6.0
6.8
8.4
8.8
9.6
10.8
11.2
11.6
12.4
13.3
13.7
14.9
15.3
1-5.7
16.1
VAI UF
11.500
11.800
11.900
12.000
12.200
12.300
12.400
12.500
12.700
17.800
13.100
13.700
13.300
13.500
13.600
13.700
13.800
14.000
14.300
14.400
14.500
14.600
14.800
COUNT
1
4
1
1
1
1
1
1
1
1
2
3
2
1
2
.1
2
7
1
4
1
A
5


SKFVNESS
KURTOSIS
N N
D A
I N

PERCFNTS
CEIL
0.4
1.6
0.
0.
0.
0.
0.
0.
0.4
0.4
O.B
1.2
0.8
0.4
O.H
1.2
0.8
0.8
0.4
1.6
0.4
2.4
2.0
CUH
19.7
71.3
21.7
72.1
22.5
72.9
73.3
23.7
74.1
74.5
25.3
76.5
77.3
77.7
78.5
79.7
30.5
.11.3
.11.7
.13.3
33.7
.16.1
3R.2
VAI (IE
15. BOO
16.000
16.300
16.600
16.700
16,900
17.000
17.200
17.300
17.400
17.500
17.600
17.700
17.900
IB. 300
18.400
18.500
18.700
18. BOO
18.900
19.000
19.100
19.200
COUNT
1
1
1
7
2
't
2
1
4
1
1
'I
1
3
4
?
1
!i
2
3
4
H
3

H
H
H H
HHH
HH HH H
HHH HH H
H HHH HHH H
HHHH HHH HHH H
HHHHH HHHHHHHHH H
HHHHHHHHHHHHHHHHHH
HHHHHHHHHHHHHHHHHHH
EACH
VALUF
-0.10
-0.93
EACH
0
3



EACH 'H'
REPRFSFN1S
3
COUNT 
'-' ABOVE = 1.0000
L= 4.0000
U= 27.0000
01: 13.1000004
VALUF /S.F. 03= 19.5000000
-0.67 S-- 11.6242952
-3.01 S* = 70.9813271
'.' BELOU = 0.1500
S
+ H


PERCFNTS
CFU
0.4
0.4
0.4
0.8
O.H
0.8
0.8
0.4
1.6
0.4
0.4
O.R
0.4
1.7
\.t
0.8
0.4
7.0
0.8
1.7
1.6
3.2
1.2
nun
49.8
10.2
50.6
SI. 4
57.2
53.0
53.8
S4.2
5S.H
S6.2
5A.6
57.4
S7.B
h9.0
60. A
61.4
61.8
A3. 9
A4.7
AS. 9
67. •>
70.7
71.9
VALUE
19.900
70.200
20.400
70.500
20.600
.•0.800
21.000
71.200
21.300
71.500
21.700
72.000
22.100
22.200
22.300
72.400
23.100
73.200
23.300
73.400
23.600
73.700
23. BOO
COUNT
1
\
1
1
1
Z
1
1
3
I
1
I
1
3
I
I
1
3
6
6
}
' 2
3

X
PERCENTS
TELL
0.4
0.4
0.4
0.4
0.4
O.B
0.4
0.4
1.7
0.4
0.4
0.4
0.4
I.?
0.4
0.4
0.4
1.2
7.4
2.4
1.?
0.8
1.2
cun
;9.s
79.9
BO. 3
80.7
ftl.l
81.9
B7.3
82.7
R3.9
84.3
hi. 7
81.1
85.5
84.7
87.1
87.6
HB.O
89.2
91.6
94.0
95.2
96.0
97.2
10.800
10.900
11.100
11.200
11.100
11.400
1
I
1
2
7
1
0.4 16.5
0.4 16.9
0.4 17.3
0.8 18.1
O.H 18.9
0.4 19.3
14.900
15.200
13.300
13.400
13. -500
15.600
9
2
4
1
.1
9
3.6 41.8
O.fl 47.6
1.6 44.2
0.4 44.6
1.2 15.8
3.6 49.4
19.300
19.400
19.500
19.AOO
19.700
19.ROO
1
3
A
3
1
3
0.8 72.7
1.2 73.9
7.4 74.3
1.7 77.5
0.4 77.9
1.2 7V. 1
73.900
24.000
74.100
24.200
74.400
24.700
I
1
2
1
I
1
0.
0.
0.
0 *
0.
0 .
97.6
98.0
90.8
99.7
9V. o
100.0

-------
HYDRA86 CENTRAL BASIN AIL DATA
PAGE   213
itmmmt
1 DO *
imtumts
MAXIMUM
MINIMUM
11.6000004
1.0000000
NUMBER OF DISTINCT VALUES . 72 RANGE 10.6000004
NUMBER IIF VAIIIFS COIINTfD. . 749 VARIANCE 6.2J8S3BO
NUMBER OF VALUES NOT COUNTED 0 ST.DEV. 2.4957039
( 03-OJ )/2 O.BOOOOOO
LOCATION ESTIMATES ST. ERROR
MEAN 8.0546188 0.1381388
MEDIAN H. 8999996 0.1134700
N
N
MODE



9.0000000


PFRCCNTS
VAL Ut"
1.000
1.100
1.400
1.600
1.700
2.200
2.300
2.400
2.500
2.600
2. BOO
2.900
3.000
3.100
3.200
3.300
3.500
3.600
COUNT
2
1
1

2
1
1
n
i
A
1
7
1
1
2
1
1
1
r.Fu
0.8
0.4
0.4
0.8
O.B
0.4
0.4
1.7
0.4
7.4
0.4
O.rt
0.4
0.4
O.B
0.4
0.4
0.4
C.UH
0.8
1.2
1.6
2.4
3.2
3.6
4.0
•3.2
5.6
8.0
8.4
9.2
9.6
10.0
10.8
11.2
11.6
12.0
VAl IIF
3.800
3.900
4.000
4.100
4.500
5.700
5.900
6.100
6.200
6.300
6.500
6.700
7.000
7.100
7.200
7.100
7.700
7.800
COUNT
1
7
1
1
2
.1
1
7
1
1
2
1
1
1
2
1
3
.1
S

SKEUNESS
KURTOSIS
0
in


A
N
PERCENTS
CEIl
0.4
0.8
0.4
0.4
O.H
1.7
0.4
O.B
0.4
0.4
O.B
0.4
0.4
0.4
O.B
0.4
1.2
1.2
RUM
12.4
11.3
13.7
14.1
14.9
16.1
1A.5
17.3
1/.7
18.1
18.9
19.3
19.7
70.1
20.9
71.3
22.5
73.7
VAl HE
7.900
8.000
8.100
8.700
8.300
8.400
8.500
8.600
8.700
8.800
8.900
9.000
9.100
9.200
9.300
9.400
9.500
9.600
COUNT
5
9
6
A
10
R
S
A
6
>
a
i/
14
10
8
•i
9
H

H


HH
HHH EACH 'H'
HHHH REPRESENTS
HHHH 5
HHHHH COUNT(S)
HHHHH H
HH H HHHHHHHH
HHHHHHHH HHHHHHHHHHHHH
EACH
VALUE
-1.3S
0.94
EACH
0
nn i
DD
IE
•-• ABOVE = 0.5000
L= 0.3000
U= 12.0000
01- 7.9000001
VALUF/S.F. 03= 9.3000000
-8.71 S-= -i. 5589151
3.07 S+=- 10.5503225
'.' BFLOU s 0.1000
S
t M


PERCFHIS
RFIL
2.0
l.A
7.4
2.4
4.0
3.2
2.0
2.4
7.4
0.8
1.?
4.8
5.6
4.0
1.7
0.8
1.6
1.2
RUN
75.7
79.3
11.7
34.1
3R.2
41.4
43.4
45.8
4H.7
49.0
S7.2
59.0
A4.7
AB.7
71.9
/2.7
7A.3
79.5
VALUE
9.700
9.800
9.900
10.000
10.100
10.200
10.400
to. 500
10.600
10.700
10. POO
10.900
11.000
11.200
11.100
11.400
11.500
11.600
COUNT
6
A
5
1
2
4
3
i
1
4
1
1
2
2
1
1
3
1
X

PERCENTS
CFLL
2.4
••.4
7.0
1.2
0.8
1.6
1.2
0.4
0.4
1.6
0.4
1.2
0.8
0.8
0.4
1.2
1.7
0.4
CUit
81.9
84.3
86.3
87.6
RR.4
90.0
91.2
9! .6
97.0
91.6
94.0
91. 2
96.0
9«.B
97.2
98.4
V9.a
]":? 	

-------
HYDRABA CENTRAL BASIN All  DATA
                                                                                                     PAGE  214
mssmmt
1 PERM 1
iisttunut




NUHDER OF DISTINCT VALUES .
NUMBER
NUMBER


OF VAIIIFS CDIIHTFD. .
OF VALUES NOT COUNTED






4
222
249
0


LOCATION ESTIMATES
















MEAN
MEDIAN
MODE









M

N


81.4067535
MAXIMUM 115.
MINIMUM 9.
RANGE 106.
UAKIANCE 712.
ST.DEV. 26.
(03-01 )/2 4.

ST. ERROR
1.6914961
5A99997
0900002
4799957
42RA499
6913!>86
9749985
















H
H
H H
H HH EACH 'H'
HHHH REFRESFNTS
HHHH 5
HHHHHH COUNT! S)
HHHHHH
HHH HHHHHH
«9. 9800034 1.0940796














NOT UNIQUE













PERCENTS
VALUE COUNT CEIL























9.090
9.180
10.020
17.820
14.350
1 '3.020
IS. ISO
16.360
19.730
20.670
21.610
22.370
22.420
21.100
23.460
21.590
24.280
24.380
25.330
24.050
26.710
77.650
28.130
0.4
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.4
0.4
0.4
0.4
0.4
0.8
0.4
0.4
0.4
0.4
0.4
0.4
0.4
CUM
0.4
0.8
1.2
1.6
7.0
2.4
2.8
3.2
3.6
4.0
4.4
4.8
5.2
5.6
6.0
6.8
7.2
7.6
8.0
8.4
8. 8
9.2
9.6
VAl IIF
78.680
79.240
79.950
HI. 140
81.480
fll.510
81.840
81.980
82.570
87.340
83.070
A3. 570
83.750
HI. 810
84.000
84.060
84.150
H4.190
84.300
84.800
84.870
85 . 060
85.150









S
.



PERCENTS
COUNT CEI 1 CUN
1 0.4 23.7
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
7 0.
I 0.
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
74.1
24.5
74.9
25.3
75.7
26.1
M.5
76.9
77.7
78.1
78.5
78.9
P9.3
79.7
30.1
30.5
.10.9
31.3
11.7
37.1
1 0.4 .12.5
1 0.4 37.9




















SKEVNESS
KURTOSIS

a
N

A
N
HHHHHHHHHHHHHHHHHHHHHHH

EACH



VALUF
-1.37
0.61
EACH

H

D
I
PERCENT S
VAl (IE
90.
90.
91.
91.
91.
91.
92.
92.
92.
9?.
92.
92.
92.
97.
92.
91.
93.
91.
94.
94.
94.
94.
94.
COUNT CEI I
960 2 0.8
990
150
780
370
640
010
060
250
590
650
690
710
780
950
SSO
630
920
100
140
640
670
6BO
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.8
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
CUM
57.6
13.0
53.4
->3.8
54.2
1)4.4
55.0
55.4
55.8
b6.6
57.0
!>7.4
57.8
58.2
58.6
h9.0
r.9.4
19.8
60.7
60.6
61.0
41.4
61.8

•-• ABOVE = 5.0000
L= S.OOOO
U= 120.0000
01- 81.4800034
VALUF/S.F. 03° 99.4100003
-B.84 S-» 14.7153969
1.98 St' 108.0981140
'.' BFLOU = 1.0000
0 S
3 t «

X

PERCENTS
VALUE COUNT CELL CUM
100.080 1 0.4 77.1
100,160 2 0.8 77.9
100.180 1 0.4 78.3
100.230 1 0.4 78.7
100.330 2 0.8 79.3
100.530 1 0.4 79.9
100.570 1 0.4 BO. 3
100.640 1 • 0.4 BO. 7
100.700 2 0.8 81. !i
100.720 1 0.4 81.9
100.930 2 O.B 8T.7
101.280 0.4 81.1
101.730 G.4 A3. 5
101.480 0.4 81.9
101.500 0.4 H4.3
101.600 0.4 84.7
101. H40 0.4 85.1
101.930 0.4 15.5
107.000 0.4 85. 1
102.080 0.4 8n.3
102.7r-0 0.4 A6.7
102.o70 0.4 87.1
102.700 0.4 87.4
28.190
28.280
29.220
29.600
31.340
32.350
34.270
34.340
J4.480
34.770
37.380
39.760
40.830
49.100
50.090
53.210
53.410
54.090
54.260
56.090
57.760
59.210
59.800
60.930
61.400
61.570
6 1 . 790
64.040
67 . 100
69.270
74.000
76.010
77.880
0.4
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
10.0 85.160
10.4 85.660 ;
10.8 85.820
11.2 86.120
11.6 H6.120
12.0 86.510
12.4 06.610
12.9 86.780
11.3 06.990
13.7 87.280
14.1 H7.110
14. S 87.470
14.9 H7.740
IS. 7 87.850
16.1 H7.860
16.5 88.030
16.9 H8.170
17.3 88.250
17.7 H8.300
16.1 88.450
1B.S 88.460
18.9 88.520
19.3 H8.720
19.7 88.820
70.1 09.010
20.5 89.130
70.9 H9.380
21.3 89.4AO
71.7 89.470
27.1 B9.9RO
/2.S V0.090
27.9 90.430
73.3 90.570
0.4 31.3 94.850
! 0.8 34.1 95.270
> 0.8 .14.9 93.480
0.4 35.3 95.6/0
0.4 35.7 95.690
0.4 3A.1 95.870
0.4 16.5 96.070
0.8 3/.3 96.430
0.4 17.8 96.670
0.4 3R.2 96.9M)
0.4 38.6 97.110
0.8 39.4 97.290
1.2 40.6 97.360
0.4 41.0 97.410
0.4 41.4 97.530
0.4 41.8 97.760
0.4 42.2 97.830
0.4 47.6 97.880
0.4 43.0 47.920
0.4 43.4 98.100
1 1.2 44.6 98.370
S 1.2 4!i. B 98.440
? 0.8 46.6 98.520
0.4 47.0 98.590
0.4 47.4 98.700
0.4 47.8 98.860
0.4 18.2 99.000
0.4 4R.A 99.3VO
? 0.8 19.4 99.430
3 1.7 50.6 99.*-iO
1 0.4 r>1.0 99.700
1 0.4 5) .4 99.750
1 0.4 SI. 8 100.070
0.4 62.2 102.820
0.4 67.7 107. 9AO
0.4 A3.1 103. uOO
0.4 43.1 103.070
O.D A4.3 103.390
0.4 64.7 103.400
0.4 65.1 101.460
O.B 65.9 103.550
0.4 66.3 103.760
0.4 66.7 104.040
0.4 A7.1 104.220
0.4 67.5 105.700
0.4 67.9 105.340
O.B 6R.7 105.610
0.8 A9.5 10-3.440
0.4 A9.9 105. BAO
0.4 70.3 106.370
0.4 70.7 104. SSO
0.4 71.1 106.610
0.4 71.5 106.770
0.4 71.9 107.100
0.4 77.3 107.710
0.4 72.7 . 107.530
0.4 73.1 107.970
0.4 71.5 108.260
0.4 >3.9 108. 4KO
0.4 74.3 109.220
0.4 74.7 110.160
0.1 7',.1 110.660
0.4 7-i.S 111.190
0.4 75.9 115.570
0.4 76.3
0.4 74.7
0.4 BH.O
0.4 HR.4
0.4 98.8
0.4 B9.2
0.4 f)9.a
0.4 90.0
0.4 90.4
0.4 90.8
0.4 91.2
0.4 91.6
0.4 97.0
0.4 92.4
0.4 9?. 8
0.4 93.2
0.4 91.ii
0.4 94.0
0.4 91.4
0.4 94.8
0.4 93.2
0.4 95.6
0.4 9A.O
0.4 9A.4
0.4 9A.8
0.4 97.2
0.4 97.6
0.4 98.0
0.4 9H.4
0.4 98.8
0.4 99.2
0.4 99.e
1 0.4 100.0



-------
HVDRAB6 CENTRAL riASIN ALL DATA
                                                                                                                  PAGE   215
  immstitt
  I CORRTP   I
  ismmisu

VARIABIF NUMBER	
NUHBER OF DISTINCT VA1UES .
NUhBfR UF VAIIIFS COUNTFO. .
NUHBER OF VALUES NOT CDUNTFD
  2
122
740
  9
LOCATION ESflHATES
                   HEAN
                   MEDIAN
                   NODE
HAXINUH
NINIHUN
RANGE
VARIANCE
ST.DFV.
(0.1-011/2
34.7000008
 5.0999999
29.1000071
18.6434307
 4.317R039
 7.5000000
   13.3R04I69
   n.aoooooo
   NOT UNIOUF
     ST.ERROR
      0.27B7130
      0.373777V
      H
      H
      H
     HHH
   HHHHH
   HHHHH
  HHHHHH
  HHHHHHH
 MHHHHHHHHH
HHHHHHHHHHHHHH H
                                                                                             EAPH •-' ftSIIVE =
 FACH 'H-
REPRFSFN1S
     5
 COUNTCS)
                                                                                 —-U

                                                                                   1.3000
                                                                                   3.0000
                                                                                  17.5000
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                          UALUF   VALUF/S.F.
                                                           1.17         7.08
                                                           3.58        11.32
                                                                                             EACH
                                                                                                      BFLOU -
                                                                    01°   10.5000000
                                                                    03°   I1). 3000000
                                                                    S-=    9.0626125
                                                                    S+ =   17.6982212

                                                                      0.2SOO
s
N
0
1
N
PERCENTS
VALUE COUNT CHI
5.100
5.400
5.500
S.400
.900
.100
.300
.600
.700
.BOO
.900
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
.000 3 1.7
7.300 1 0.4
7.400 .1 1.7
7.700 3 1.2
7.800 7 O.H
8.100 2 0.8
8.100 7 0.8
8.400 2 O.B
8.100 1 0.4
8.400 2 0.0
B.700 1 0.4
9.000 2 0.8
CUM
0.4
o.e
1.2
1.7
2.1
2.5
2.9
1.3
3.7
4.2
4.4
5.8
6.2
7.5
B.7
9.4
10.4
11.3
17.1
12. S
13.3
13.7
14.6
NN
AD
NI
0
3
S
t



PERCENTS
UAUJF COUNT
10.000
10.100
10.200
10.300
10.400
10. HO
10.600
10.700
10.800
10.900
11.100
11.700
11.300
11.400
11.500
11.600
11.700
1?.000
12.100
12.700
12.300
12.400
12.500
2
7
1
7
1
3
1
3
I
3
2
5
1
7
1
4
2
1
2
1
2
4
2
CEU
O.B
0.8
0.4
O.R
0.4
1.7
0.4
1.7
0.4
1.7
0.8
2.1
1.7
0.8
0.4
1.7
0.8
0.4
O.R
0.4
O.R
1.7
O.B
CUN
22.1
72.9
73.3
74.2
24.6
75.8
7A.2
77.5
77.9
79.2
30.0
.12.1
33.3
34.2
34.6
36.3
37.1
37.5
3R.3
38.8
39.6
41.3
47.1
VAl HE COUNT
13.400
11.500
13.600
13.700
13.900
14.000
14.100
14.300
14.400
11.100
14.600
14.700
14.800
14.900
15.000
15.100
15.700
13.300
15.400
15.500
15.600
13.800
15.900
1
4
3
4
5
V
7
7
2
4
5
.<
5
3
3
4
2
3
1
7
1
•>
7




PERfFNTS
CFU
0.4
1.7
1.7
1.7
2.1
0.8
J.9
O.fl
O.B
1.7
7.1
1.7
7.1
1.7
1.2
1.7
0.8
1.2
0.4
2.9
0.4
0.8
O.B
run
48.8
SO. 4
51.7
51.3
ft). 4
36.2
59.7
60.0
60.8
62.5
64.6
6r).8
6/.9
69.2
70.4
72.1
77.9
74.2
74.6
77.5
;7.9
7B.8
79.6
UAI HE COUNT
17.000
17.100
17.700
17.500
17.600
17.800
18.100
18.300
IB. 400
18.100
18.600
19.000
19.100
19.500
19.600
19.700
20.100
?0.600
70.800
71.200
22. 300
?2.700
27.800
2
2
1
I
n
1
1
1
1
1
I
I
1
1
1
1
3
1
1
1
1
I
1

H
X
PERCENTS
r.EI 1.
0.8
0.8
0.4
0.4
O.B
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
1.2
0.4
0.4
0.4
0.4
0.4
0.4
run
BA.7
87.5
87.9
88.3
R9.2
89.6
90.0
90.4
90.8
91.3
91.7
9?. I
92.3
91.9
91.3
93.7
9r..O
95.4
9r,.8
9A.3
»*.7
97.1
97.5
.200
.300
.400
.500
.AOO
.700
.800
9.900
7
2
t
1
1
2
7
3
0.8 lr>.4 17.600 3 1.7 41.3 16.000 t 0.8 80.4 ''3.800 1 0. 97.9
0.8 16.3 12.700 3 1.2 44.6 16.100 1 0.4 80.8 74.000 1 0. 9B.3
0.8 17.1 17.000 7 O.R 45.4 16.200 1 0.4 81.2 74.700 1 0. 98.7
0.4 17.5 12.900 3 1.2 46.7 16.300 5 2.1 R1.3 27. WO 1 0. 99.2
O.H 1R.1 13.000 1 0.4 47.1 16.400 1 0.4 83.8 .11.700 1 0. 99.6
0.8 19.2 13.100 1 0.4 47.5 14. SCO 2 O.B 04. A 34.700 1 0. 100.0
0.8 70.0 13.200 1 0.4 47.9 16.700 i O.R R5.4
1.7 21.3 13.300 1 0.4 48.3 16.900 1 0.4 Rr>.H

-------
HYDRARA CENTRA1  BASIN AIL DATA
                                                                                PAGE   216
  tmmmu
  I COKRTFP  *
  ttimuust

UARIffBlF NUMBER	
NUMBER OF DISTINCT VAIUES .
NUHBFR HF VAMIFS COUNTED. .
NUMBER OF VALUF5 MPT COUNTED
  3
 89
231
 18
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.I1KU.
(03-011/2
16.6000004
 0.0000000
U. 6000004
 6.4004245
 2.5799060
 I.AOOOOOO
         ESTIMATES
                   MEAN
                   MEDIAN
                   NODE
    3.4406929
    3.1)999999
    6.300000?
     ST.FRROR
      0.1664336
      0.1443376
       H
       H
       H
      HHH
      HHHH
    H HHHH
 H HHHHHHHHH
 HHHHHHHHHHH
HHHHHHHHHHHHHH
 EACH 'H1
REPRESENTS
     5
 COUNT(S)
                                                                       -U
                                                                                              EACH '-•  ABOVE
                                                                          SKEUNESR
                                                                          KURTOSIS
                                                           UALUF
                                                            0.44
                                                            1.59

                                                             EACH
                                                      UALUF./S.F.
                                                            3.74
                                                            4.94

                                                     '.• BEI.ny =
M
N
S

0
I

MM
AD
NI
H
D
E
0 S
3 *

N

                      PERCENTS
                                                      PERCENTS
                                                                                      PERCFNfS
                                                        0.7'iOO
                                                        0.0000
                                                       17.2500

                                                      01-     3.7000000
                                                      03'     6.9000001
                                                      S-=     2.9107869
                                                      S*=     7.9705991

                                                        O.lr)00
                                                                                                                      PERCENTS
V',1 HE
0.00000
0.10000
0.80000
0.90000
1.00000
1.10000
1.20000
1.30000
1.40000
1.50000
1.60000
1.90000
2.00000
2.10000
2.20000
2.30000
2.40000
2.10000
2.60000
2.70000
2.80000
2.90000
3.00000
COUNT
4
1
1
1
I
7
2
.1
I
1
3
1
2
1
3
1
3
2
1
1
2
1
3
CFIL
1.
0.
0.
0.
0.
0.9
0.9
1.3
0.4
0.4
1.3
0.4
0.9
0.4
1.3
0.4
1.3
0.9
0.4
0.4
0.9
0.4
1.3
CUM
1.7
2.2
2.6
3.0
3.5
4.3
3.2
6.5
6.9
7.4
8.7
9.1
10.0
10.4
11.7
12.1
13.4
14.3
14.7
15.2
16.0
16.3
17.7
ftlllF
3.10000
.1.30000
3.40000
.1.50000
3.60000
3.70000
.90000
.10000
.20000
.30000
.40000
.50000
. 60000
.70000
.80000
.90000
3.00000
5.10000
3.20000
3.30000
3.40000
5.30000
3.60000
COUNT
5
3
1
4
2
7
1
5
3
1
I
1
2
7
7
7
4
5
1
7
4
6
S
r.FLi
2.2
1.3
0.4
1.7
0.9
0.9
0.4
2.7
1.3
0.4
0.4
0.4
0.9
0.9
3.0
3.0
1.7
2.7
0.4
3.0
1.7
7.6
7.2
CUM
19.9
71.2
21.6
73.4
24.?
75.1
23.5
77.7
29.0
79.4
29.9
30.3
31.7
32.0
33.1
39.1
39.8
42.0
47.4
45.3
47.2
49.8
51.9
VAI IIP
3.70000
5.80000
3.90000
6.00000
6.10000
6.70000
6.30000
6.40000
6.50000
6.60000
6.70000
6.80000
6.90000
7.00000
7.10000
7.70000
7.30000
7.40000
7.50000
A 60000
7.70000
7.80000
7.90000
r.miNT
8
6
3
3
3
7
11
R
1
7
3
t
4
4
1
1
1
7
7
f
1
4
3
r.Fu
3.3
7.6
1.3
1.3
1.3
0.9
4.8
3.5
0.4
0.9
1.3
0.9
1.7
1.7
0.4
0.4
0.4
0.9
3.0
0.9
0.4
1.7
1.3
CUM
53.4
Tifl.O
r)9.3
60.6
61.9
62.8
67.5
/l.O
71.4
72.3
73.6
/4.S
/6.7
77.9
70.4
70.8
79.7
80.
83.
84.
84.
86.
87.
VAI HE
8.00000
R.I 0000
8.30000
R. 40000
8.50000
B. 60000
8.70000
R. 80000
9.00000
9.10000
9.20000
9.10000
9.40000
10.00000
10.40000
12.70000
12.80000
n. ooooo
is.r.oooo
U. 60000
COUNT
2
2
3
\
3
1
3
1
1
1
1
1
2
1
1
1
1
1
1
1
PFH.
0.9
0.9
1.3
0.4
1.3
0.4
1.3
0.4
0.4
0.4
0.4
0.4
0.9
0.4
0.4
0.4
0.4
0.4
0.4
0.4
CUrt
88.3
8*. 2
90.5
90.9
97.2
9?. 6
93.9
ft. 4
94.8
9r>.2
95.7
96.1
97.0
97.4
97.8
9*. 3
98.7
99.1
99.6
100.0

-------
HYDRA86 CENTRAL BASIN All  DATA
PAGE   217
tuttsmm
« SRP *
tmmum

NUMBER OF DISTINCT VAI UES
NUMBER IIF VAIIIFS COUNT* D.


t
f
NUMBER OF VALUES NOT COUNTED


LOCATION ESTIMATES
MEAN
HFDIAN
MODE








S


















0
N

N

PERCENTS
VAI IIE COUNT CFl I
0.00000 14B T.9.7
0.10000 1 0.4
0.70000 2 O.B
0.. 10000 .1 I..1
0.40000 1 0.4
O.SOOOO H 3.7
0.60000 8 3.2
0.70000 .' 0.8
0.80000 S 2.0
CUH
59.7
60.1
60.9
62.1
67.5
63.7
69.0
69. B
71.8
MAXIMUM 6.1999998
8 MINIMUM 0.0000000
34 RANGE 6.1999998
748 VARIANCE 1.6744281
1 ST.PEV. 1.7939969
(O.I-QD/2 0.5000000

ST.FRROR
0.7670968 0.0821689
0.0000000 0.0000000
0.0000000





SKEUNESS
KURTOSIS

0 S
H 3 4

A
N
PERCENTS
VAI IIF COUNT CFl 1 CUH Vftl IIF COUNT
0.90000 4 1.6 71.4 7.00000 1
1.00000 / 2.8 76.2 2.60000 1
1.10000 2 0.8 77.0 2.70000 1
1.70000 7 0.8 77.8 .1.00000 1
1.30000 8 3.2 81.0 3.70000 2
1.40000 'i 0.8 HI. 9 .1.30000 .<
1.50000 5 2.0 8.4.9 3.40000 2
1.80000 S 7.0 H5.9 .1.60000 7
1.90000 1 0.4 86.1 3.70000 3
H
H
H
H
H
H
H
H
HH









HHHHHHH HHHHHHHH
L
EACH



VALUF
1.80
2.20
EACH





PERCENTS
CFl 1 CUM
0.4 R6.7
0.4 87.1
0.4 B7.5
0.1 87.9
O.B 88. 7
1.7 89.9
0.8 90.7
0.8 91. S
1.7. 97.7

•-• ABOVE =
L»
U=

VALUF/S.E.
11.57
7.06
•.' BF.1IIU =

H

X





EACH 'H'
REPRESENTS
16
COUNT(S)


H

0.3000
0.0000
6.9000
01- 0.0000000
03° 1.0000000
S-= -0.5319002
St = 2.0S60937
0.0710





PERCENTS
VAI IIF COUNT CFLI. CUM
3.80000
1.90000
4.00000
4.20000
4.30000
4.ADOOO
6.20000


5 2.0 94.8
1 I.? 94.0
4 1.6 97.6
•> 0.8 9B. 4
2 O.B 99.2
I 0.4 99.a
I 0.4 100.0



-------
HYDRAR6 CENTRAL BASIN ALL DATA
                                                                                                                  PAGE    218
  titttmt***
  * CALCSnP  *
  tltUIIUMS

VARIABIF NIIMBFR	
NUMBER OF DISTINCT VAIUES .
NUMBER OF UAI IIFS COUNTED. .
NUMBER OF VALUES NOT COUNTED

7
77
730
19

MAXIMUM
MINIMUM
RANGE
VARIANCE
ST. REV.
(O.i-QU/2
16.6000004
0.0000000
16.6000004
5.6317496
2.3731308
1 . 4300000
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
4.663912B
4.1)1)00002
5.3000007
ST.FRROR
 0.1S6479A
 0.7070726
       H
       H
       H
    HHHH
    HHHHH
   HHHHHH
 HHHHHHHHH
 HHHHHHHHH H
HHHHHHHHHH M
HHHHHHHHHHHHH
                                                                                   FACH  -H'
                                                                                  REPRFSENTS
                                                                                       4
                                                                                   COUNT(S)
                                                                 -U
                                                                                              EACH  '-'  ABOVE  =
                                                                                                           L=
                                                                          SKEUNE5S
                                                                          KURTOSIS
                                                       VALUF
                                                        0.79
                                                        2.62

                                                         EACH
                                                 VALUF/S.F.
                                                       4.90
                                                       8.10

                                                '.'  BELOW =
                      0.7"00
                      0.0000
                     17.7300

                    01=    1.0999999
                    03«    A.0000000
                    S-=    2.2907820
                    Sf    7.0370436

                      0.1500
M
N


S

Q
1

MM M
AD D
NI E
Q
3

PERCENTS
VAI HE
0.00000
0.10000
0.80000
0.90000
.00000
. 10000
.70000
.30000
.40000
.50000
.60000
.90000
2.00000
2.10000
2.70000
2.30000
2 . 40000
2.30000
2 . 60000
2 . 70000
COUNT
3
1
2
7
1
1
3
4
2
1
4
7
2
.1
3
7
4
7
1
I
CFll
2.2
0.4
0.9
0.9
0.4
0.4
1.3
I./
0.9
0.4
1.7
0.9
0.9

l.*3
0.9
1.7
0.9
0.4
0.4
CUM
7.2
2.6
3.S
4.3
4.8
5.2
6.5
a. 3
9.1
9.6
11.3
12.2
13.0
14.3
15.7
16.5
18.3
19.1
19.6
70.0
VAI IIF
2.80000
7.90000
3.00000
3.10000
3.20000
1.. 10000
3.40000
.1.50000
3.60000
.1.70000
3.80000
3.90000
4.00000
4.10000
4.20000
4.40000
4.50000
4.40000
4.70000
4.80000
COUNT
4
4
2
5
3
4
1
:,
4
3
5
4
1
5
4
3
4
7
1
A
S







PERCFN1S
I:FI i
1.7
1.7
0.9
2.7
1.3
1.7
0.4
7.7
1.7
1.3
2.2
1.7
0.4
2.7
i.;
i..i
1.7
0.9
0.4
2. A
CUM
71.7
73.5
74.3
76.5
77.8
79.6
30.0
32.2
33.9
35.2
37.4
39.1
39.6
41.7
4f.S
44.8
4A.5
47.4
47.8
•>0.4
VAI IIF
4.90000
•5. 00000
5.10000
5.70000
5.30000
5.40000
5.50000
5.AOOOO
5.70000
5.00000
5.90000
A. 00000
6.10000
6.70000
6.30000
6.40000
6.50000
A. 70000
6.80000
A. 94000
COUNT
6
A
5
1
9
7
7
.1
3
S
1
•i
5
3
3
7
1
4
3
1






PERCFNTR
CFll
7.6
7.6
2.2
0.4
1.9
1.0
1.0
1..1
1.3
7.7
0.4
2.7
2.7
1.1
1.3
1.0
0.4
1.7
1.3
1.3
CUM
53.0
51.7
•>7.B
58.3
67.2
A3. 2
AH. 3
A9.6
70.9
71.0
73.5
71.7
77.8
/9.1
BO. 4
HI. 5
81.9
83.7
87.0
Rfl.3
VAI (IK COUNT
7.00000 2
7.10000 1
7.70000 1
7.30000 7
7.50000 2
7.AOOOO 2
7.70000 1
R. 10000 2
B. 50000 2
R. 70000 1
9.80000 1
9.00000 1
9.10000 2
9.40000 I
12.10000 1
!•>. 20000 ••
16.60000 I



H
...A
X
PERCENTS
CFI i. run
0.
0.
0.
0.
0.
0.
0 .
0.
0.
1 .
0 .
0.
0.
0.
0.
0.
0 .
89.1
R9.6
90.0
90.9
91.7
9->.6
VI. 0
91.9
94.8
9A.I
96.5
97.0
9/.8
9R.3
98.7
99.4
100.0




-------
HYDRA84 CCtrniM. BASIN AIL DATA
                                                                                                                 PAGE   219
  *»*»**«***
  t CALCPP   *
  tttttimm

VARIA81F NUMBER 	
NUMBER OF DISTINCT VAIUES .
NUHBFR OF VA1IIFS CDUHTtrO. .
NUMBER OF VALUES NOT COUNTFD
            5
          100
          725
           24
     MAXIMUM
     MINIMUM
     RANGF
     VARIANCE
     ST.DF.V.
      (03-011/2
27.7000008
 0.9000000
76.3000011
U.?93!>92S
 3.50*7720
 1.8'iOOOOl
LOCATION ESTIMATES
                   MEAN
                   HF.DIAN
                   NODE
              8.1048880
              7.S999999
              9.B99999A
           ST.FRROR
            0.2337481
            0.375777B
            H
            H
            HH
           HHHH
           HHHH
           HHHHH
          HHHHHH
         HHHHHHHH
        HHHHHHHHHHHHHH
                 FACH  'H1
                 REPRESENTS
                     6
                 COUNT(S)
                                                                            -U
                                                                                              EACN  '-'  ABOVE  =
                                                                                                           L-
                                                                                                           U=
                                                                          5KFVNESR
                                                                          KURTOSIS
                                                                    VALUF
                                                                      1.20
                                                                      3.99

                                                                       EACH
                                                                                                    UALUF/S.F.
                                                                                                          7.33
                                                                                                       BELOU
                                                                            1.5DOO
                                                                            0.0000
                                                                           14.SDOO

                                                                          Ola    A.0999999
                                                                          03=    9.B000002
                                                                          S--    4.59866.'?
                                                                          St«   11.6111097

                                                                            0.2500
H
I.
N

VAI IIF
0.9000
1.1000
1.2000
l.AOOO
i.aooo
2.0000
2.1000
2.1000
3.0000
3.5000
3.7000
3.9000
4.0000
4.7000
4.3000
4.4000
4.5000
4.6000
4.7000
4.8000
4.9000
5.0000
5.1000



COUNT
1
1
1
t
i
i
i
7
1
3
1
.1
3
1
I
1
1
4
1
1
1
7
1



S 0
1


PERCENTS
CFU CUM
0.4 0.4
0.4 0.9
0.4 1.3
0.9 2.2
0.4 2.7
0.4 3.1
0.4 3.6
0.9 4.4
0.4 .9
1.3 .2
0.4 .7
1.3 .0
1.3 .3
0.4 .8
0.4 10.2
0.4 10.7
0.4 11.1
l.H 12.9
0.4 13.3
0.4 n.a
0.4 14.2
-0.9 15.1
0.4 13.6
H N
D A
I N
VAI IIF
5.4000
Ii.SOOO
5.6000
5. 7000
5.8000
6.0000
6.1000
A./OOO
6.3000
A. 4000
6.5000
A. 6000
6.7000
6.9000
7.0000
7.1000
7.7000
7.. 1000
7.4000
7.5000
7.6000
7.7000
7.8000
0
N
n
E
COUNT
3
.1
5
1
1
.<
4
A
4
1
5
7
7
4
1
3
1
t
3
1
6
1
2
S
+





PERCENTS
r?i i RUM
1.3 19.1
!..< 70.4
2.7 7V. 7
0.4 71.1
0.4 73.6
1.3 M.9
l.R 76.7
7.7 79.3
l.R M.I
0.4 31.6
7.7 31. H
3.1 34.9
3.1 40.0
l.R 41.8
0.4 47.2
2.7 44.4
0.4 44.9
0.9 45.8
1.3 47.1
0.4 47.6
2.7 50.2
0.4 10.7
O.V SI. 6



VAI IIF
8.2000
B.3000
8.4000
B.:iOOO
8.6000
8.7000
8.8000
a. wo
9.0000
9.1000
.2000
.1000
.4000
,-iOOO
.6000
.SOOO
.8000
.9000
10.4000
10.5000
10.AOOO
10.7000
10.9000



COUNT
3
.4
0. 91.9
0. 91.3
0. 91.8
0. 94.2
0. 9*i.l
0. 95.6
0. 96.0
0. 96.4
0. 9A.9
0. 97.3
0. 9/.B
0. 98.2
0. 9R.7
0. 99.1
         5.7000
         S.3000
1.3  16.9
0.9  17.8
7.9000     1   0.4  *!2.0
8.1000     1   0.4  52.4
           11.0000     1
           11.1000     1
0.4  81.6
0.4  84.0
70.AOOO     1
27.POOO     1
0.4  99.6
0.4 100.0

-------
HYDRAH4 CENTRAI BASIN AIL DATA
PAGE   220
minium
1 PERPP 1
mmituu

VAR1ABIF NUMBER 	
NUMBER OF DISTINCT VALUES
NUNBFK OF VAUIFS COUNTFD.





t
.
NUMBER OF VALUES NOT COUNTED


LOCATION ESTIMATES
MEAN
MEDIAN
NODE









M

N






NAXINUN
6 HI HI HUN
212 RANGF
723 VARIANCE
24 ST.DFV.
(DJ-QD/2




100.

t
91.
?H4.
16.
9.




0000000
11 AAflA4
.1 1UUUW4
6900024
0775708
8544521
6A50009











ST. ERROR
59. 3936813 1.17.1630?
?)9. 7900009 1.3749801














PERCENTS
V«l (IF COUNT CFI L
8.310
11. 540
13.210
19.150
19.270
2?. 130
24.570
24.750
27.630
27.850
•8.420
79.500
30. ISO
34.270
13.180
11.490
•5.540
16.730
16.410
36.640
17.360
37.420
37.440
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
CUN
0.4
0.9
1.3
i. a
7.2
2.7
3.1
1.4
4.0
4.4
4.9
•5.3
5.8
A. 2
6.7
7.1
7.6
R.O
8.4
8.9
9.3
9.8
10.2
100.0000000








S
-












0
1



PERCENTS
VAl I1F COUNT CEl I
49.380
50.150
50.180
50.750
50.460
SI .070
51.330
M.430
51.570
52.460
52.610
:>?.890
52.950
a3.420
33.430
51.720
53.830
:i3.970
54.030
•14.160
34.270
:>4.410
54.450
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
1.3
0.4
0.9
0.4
0.4
0.4
TUN
24.0
74.4
24.9
75.3
73. 8
76.2
26.7
77.1
77.6
,'8.0
78.4
7D.9
79.3
79.8
30.7
10.7
31.)
.12.4
37.9
13.8
14.7
34.7
3r).l






SKEVNESS
KURTOSIS

0
HH 3

DA
IN





HHH
HHH FACH 'H'
HHH REPRFSFIITS
HHHH H 4
HHHHHHH COUNT(S)
HHHHHHHHHHH
HHHHHHHHHHH H
HHHHHHHHHHHHHHHHHHH


EACH



VALUF
-0.20
0.37
EACH
S
4



PERCENTS
VAl IIF COUNT CFI 1
59.290
!)9.320
60.100
40.150
60.780
40.790
60.870
60.900
60.990
61.010
61.440
61.530
61.670
62.140
62.190
67.480
62. MO
67.390
62.860
6?. 880
63.160
63.530
63.600
0.4
0.4
0.4
0.4
0.9
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.1
0.4
0.4
0.4
0.4
0.4
ruh
iio.2
SO. 7
51. 1
!>1.6
57.4
52. 9
53.1
53.8
54.2
:>4.7
55.1
Ti.6
56.0
!)A.4
56.9
37.3
«>7.B
18.2
IB. 7
H9.1
39. A
AO.O
60.4



'-• ABOVE = 5.0000
L= 0.0000
U= 115.0000
01= riO.?-iooooo
VALUE/S.F. 03° 69.5800018
-1.73 S-= 42.7192273
1.13 S+ = 76.4481354
'.' BFIQy <• 0.7500

n

X

PERCENTS
VAl HE COUNT HEM run
69.410
A9.580
70.290
70.530
71.750
71.730
71.7BO
71.870
71.9(0
7?. 290
73.040
71.120
73.490
74.240
74.500
71.110
75.450
'•i.660
76.740
76.260
76.47P
76.100
74.840
0.4 74.7
0.
0.
0 .
9.
0 .
0 .
0.
0 .
0.
0.
0 .
0 .
0 .
0 .
0 .
0.
0 .
0.
0.
0.
0.
0.
75.1
75.4
76.0
76.4
76.9
77.3
7H.2
7B.7
7».l
79.6
80. 0
80. 4
80.9
81.3
81.8
87.7
87.7
8.1.1
81.6
84.0
84.4
84.9
37.530
38.390
39.680
40.650
41.310
41.680
47.110
42.480
42.560
42.580
47.760
43.190
43.230
43.610
44.540
46.180
46.310
46.500
46.960
47.190
47.370
47.400
47.500
47.710
47.750
47.800
47.820
47.880
48.110
49.080
1 0.4 10. 7
0.4 11.1
0.4 11.6
0.4 17.0
0.4 12.4
0.4 12.9
0.4 13.3
0.4 13.8
0.4 14.2
0.4 14.7
0.4 15.1
0.4 15.6
0.4 16.0
0.4 16.4
0.4 16.9
0.4 17.3
0.4 17.8
0.4 18.2
0.4 18.7
0.4 19.1
0.4 19.6
0.4 20.0
0.4 70.4
0.4 20.9
0.4 '.'1.3
0.4 21.8
0.4 72.2
0.4 27.7
0.4 73.1
0.4 23.6
:i4.750
54.770
S4 . 890
55.190
55.290
55.490
:>S.S20
55.750
:>5.sao
56.190
AA.230
56.240
A6.310
56.330
'16.690
56.830
')6.890
56.900
:i6.920
56.970
'17.000
57.010
•i7.400
57.620
•iB.380
58.960
•19.010
59.080
S9.190
59.210
7 0.9 16.0
1 0.4 36. 4
> 0.9 (7.3
1 0.4 37.8
1 0.4 (8.2
0.4 38.7
0.4 .(9.1
0.4 39.6
0.4 40.0
0.4 40.4
0.9 41.3
0.4 41.8
0.4 42.2
0.4 47.7
0.4 43.1
0.4 43.6
0.4 44.0
0.4 44.4
0.4 44.9
0.4 45.3
0.4 45.8
0.4 46.2
0.4 46.7
0.4 47.1
0.4 47.6
0.4 48.0
0.4 48.4
0.4 48.9
0.4 49.3
0.4 4V. R
63.650
63.690
63.840
63.960
63.980
64.100
64.110
64.190
64.780
64.470
64.470
64.490
A4.730
64.870
63.330
63.600
63.610
65.750
65.760
66.040
66.110
66.730
66.590
68.000
A8.150
68.670
68.830
69.010
69. 780
69.310
1 0.4 A0.9
1 0.4 61.3
0.4 61.8
0.4 62.7
0.4 62.7
0.4 61.1
0.4 63.6
0.4 64.0
0.4 64.4
0.4 64.9
0.4 65.3
0.4 »5.R
0.4 66.2
0.4 66. 7
0.4 67.1
0.4 67,6
0.4 68.0
0.4 68.4
0.4 68.9
0.4 69.3
0.4 69.8
0.4 70.7
0.4 /0.7
0.4 71.1
0.4 M.6
0.4 77.0
0.4 72.4
0.9 73.3
0.4 73.8
0.4 74.7
77.330
77.930
;u.iio
7B.7?0
78.780
78.950
/9.710
79.B5H
DO. 880
81.730
HI. 580
81.670
B2.220
87.760
82.790
B3.460
R4.470
84.B4A
83.210
85 . J60
86.070
86.0RO
87. 'SO
BB.010 •
H8.170
88.410
89.170
90.770
98.510
100.000
1 0.4 85. 3
i 0.4 Bs.a
0.4 86.2
0.4 86.7
0.4 fl/.l
0.9 88. 0
0.4 88.4
0.4 B8.9
0.4 89.3
0.4 89. P
0.4 90.2
0.4 90.7
0.4 91.1
0.4 91.6
0.4 97.0
0.4 «7.4
0.4 9?. 9
0.4 93.3
0.4 93.8
0.4 94.2
0.4 94.7
0.4 95.1
0.4 9*1.6
0.4 96.0
0.4 94.4
0.4 V6.9
0.4 97.3
0.4 97.8
0.4 98.2
1.8 100.0

-------
HYDRA8A CENTRAL BASIN AIL DATA
                                                                                                    PAGE   221
tsttmsui*
t PERTFP *
mimmu




NUMBER OF DISTINCT VAI UFS .
NUHBFR OF VAI UFS COUNTED. .
NUMBER OF VAI UFS NOT COUNTED



LOCATION ESTIMATES
HFHH











h
U

NFOIAN
MODE












VAI IIF r.OUNl
0.000
1 .<9O





9.780
10.830
11.590
11.630
11.950
12.720
13.920
13.930
14.440
14.790
15.160
15.530
(6.540
17.710
17.740
17.780
18.330
18.420
18.770
19.120
20.150














PERCENTS
P.Fl I CUN
1.8 1.8
0.4 2.2
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4-
3.1
3.6
4.0
4.4
4.9
5.8
6.2
6.7
7.1
7.6
8.0
8.4
8.9
9.3
9.8
10.2
10.7
11. 1
11.6
HAXIHUH 91.
4 MINIMUM 0.
212 RANGF 91.
725 VARIANCE ?R4.
24 ST.DFV. 16.
(03-QD/2 9.

ST.FRROR
40.406314R 1.1236302
40.7099991 1.37A9801
0.0000000








S 0
1 HH
AD
NI
VAI IIF I'.nilNl
30.490
.(0.720
30.990
31.170
31.330
31.850
32.000
33.410
33.770
33.890
33.960
34.240
34.250
34.190
34.400
34.470
3S.IBO
3-1.270
3S.SIO
.(5,530
35.580
3'J.720
35.810
PERCENTS
r T.FI L CUM
0.4 76.2
0.4 76.7
0.9 77.6
0.4 78.0
0.4 28.4
0.4 78.9
0.4 79.3
0.4 79.8
0.4 30.7
0.4 .(0.7
0.4 31.1
0.4 31.6
0.4 32.0
0.4 32.4
0.4 32.9
0.4 33.3
ft. 4 3.1.8
0.4 34.2
0.4 34.7
0.4 35.1
0.4 35.6
1 0.4 16.0
1 0.4 36.4
6900074
0000000
4900074
07«708
8:i44C,71
4650000










H
HHH
HHH FACH -H-
HHH REPRFSFNTS
H HHHH 4
HHHHHHH COUNT(S)
HHHHHHHHHHH
H HHHHHHHHHHH
HHHHHHHHHHHHHHHHHHH









0
3








SKEMNESS
KURTOSIS

S
t


VAI HE COIIN1
40.790
40.810
40.970
40.990
41.040
41.420
42.380
42.400
42.990
41.000
43.030
4.1.080
43
43
43
43
43
43
43
41
43
44
44
.100
.110
.170
.310
.470
.690
.740
.770
.810
.120
.250

EACH



VALUE
0.20
0.37
EACH




PERCENTS
CFI 1 CUM
0.4 SO. 7
0.4 51.1
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.9
0.4
0.4
0.4
M.6
52.0
57.4
52.9
53.3
51.8
54.2
1)4.7
55.1
55.6
54.0
54.4
54.9
:>7.3
•J7.B
58.7
59.6
60.0
40.4
40.9

'-' ABOVE = 5.0000
L» 0.0000
U= llr.. OUOO
01» 10.4700001
VALUE/S.E. 03= 49.7riOOOOO
1.23 S-= 21.5518427
1.11 5t = 57.24074HV
••• BFinu = 0.7500

n


VAI HE CQIIN1
50.970
51.690
5?. 170
52.180
52.700
52.250
52.790
•52.500
57.600
52.430
52.810
•51.040
53.500
51.690
53.870
55.440
54.390
54.770
54. BIO
•57.240
57.470
57.440
57.5?0
PERCEN1S
r.Fi L cun
0.4 76.9
0.4 77.3
0.4 77. B
0.4 78.2
0.4 /fl.7
0.4 79.1
0.4 79.4
0.4 80. 0
0.4 BO. 4
0.4 BO. 9
0.4 B1.3
0.4 81.8
0.4 B?.2
0.4 8.'. 7
0.4 83.1
0.4 8.1.6
0.4 84.0
0.4 84.4
0.4 R4.9
0.4 81.3
0.4 80. R
0.4 B6.2
0.4 86. 7
20.790 1
21.050 2
71.720 1
21.7BO 1
21 .890
22.070
22.670
23.160
'3.500
23.530
71.740
23.760
24.340
24.550
24.890
25.500
75.740
26.510
76.880
26.960
77.710
28.070
78.130
28.220
'8.270
28.750
29.470
29.710
30.420
30.570
0.4
0.9
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.9
0.4
0.4
0.4
0.4
0.4
0.4
0.4
12.0
12.9
13.3
13.8
14.2
14.7
15.1
15.6
16.0
16.4
16.9
17.3
17.8
IB. 2
18.7
19.1
19.4
20.0
70.4
20.9
71.3
21. B
72.7
23.1
73.4
24.0
74.4
74.9
75.3
25. B
35.890
35.900
.(4.020
34.040
36.160
36.310
36.150
36.400
-(4.470
36.640
37.120
37.140
37.410
37.450
.17.520
37.810
37.860
38.330
38.470
38.540
.(B.990
39.010
39.100
39.1RA
39.210
39.770
19.850
39.900
40.680
40.710
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0'.9
0.4
0.4
0.4
0.4
14.9
37.3
37.8
38. 2
38.7
39.1
.19.6
40.0
40.4
40.9
41.3
41.8
42.2
42.7
41.1
41.6
44.0
44.4
44.9
45.3
45.8
46.2
46.7
47.1
47.6
48. 4
48.9
49.3
49.8
50.2
44.480
44.510 1
44.710
44.8)0 1
43.110
45.2.40 1
45.?50
45.550 1
45.590
45.730 1
45.840
45.970 1
46.030
46.150
46.780
46.5/0
46.580
47.050
47.110
47.390
47.540
48.480
48.570
48.670
48.930
49.540
49.750
49.8">0
49.850
50.470
0.4
0.4
0.4
0.4
0.9
0.4
0.9
0.4
0.4
0.4
0.9
0.4
1.3
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
61.3
41.8
42.2
47.7
63.6
64.0
64.9
471.3
65.8
64.7
47.1
47.4
48.9
49.3
49.8
70.7
70.7
71.1
71.6
77.0
72.4
V7.9
71.3
73.8
/4.2
74.7
75.1
/5.6
74.0
74.4
57.890
58.320
18.690
59.3'JO
40.320
61.410
i>2.470
62.^60
42.580
47.440
43.340
43.5VO
41.770
44.460
44.510
64.R70
45.730
49.850
70.500
71.580
72.150
72.370
75.250
75.430
77.470
BO . 710
80.850
86.790
88.440
91.490
I
I
\
1
I
1
\
1
I
1
1
1
I
1
1
1
1
1
1
1
1
1
I
1
1
1
1
1
I
1
0.4 87.1
0.4 87.6
0.4 BR.O
0.4 ftR.4
0.4 RB.9
0.4 89.3
0.4 89.8
0.4 90.2
0.4 90.7
0.4 91.1
0.4 91.6
0.4 97.0
0.4 92.4
0.4 92.9
0.4 91.3
0.4 93.8
0.4 94.2
0.4 94.7
0.4 9*1 . 1
0.4 95.6
0.4 94.0
0.4 94.4
0.4 94.9
0.4 97.3
0.4 97.8
0.4 98.2
0.4 9R.7
0.4 V9.1
0.4 99.6
0.4 100.0

-------
HYDRAR6 CENTRAL BASIN AIL DATA
                                                                                 PAGE   222
  mtmum
  * NITNIT   t
  mtiuimt

VARIABLE NUMBER 	
NUHBER OF DISTINCT VALUES .
NUMBER OF VALIIFS CDUNTFD. .
NUMBER W VALUES NOT COUNTED
  4
157
748
  1
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.TEV.
(Q.5-QD/2
 S37.0000000
  49.0000000
 468.0000000
9053.3188672
  95.1490326
  75.5000000
LQCATIOH ESTIMATES
                   MEAN
                   MEDIAN
                   HODE
  239.4233856
  ? .(A. 1)000000
  145.0000000
     ST.FRROR
      6.0419490
      9.8149595
   HH
   HH
   HH HUH
  HHHHHHHHHH
  HHHHHHHHHH
  HHHHHHHHHHH
  HHHHHHHHHHH  HH
H HHHHHHHHHHHHHHHH H
 EACH -H-
REPRFSFNT5
     4
 COUNT
                                                                                   -U
                                                                          SKEMNESS
                                                                          KURTOSIS
                                                                                              EACH  '-'  ABOVE  =
                                                                                                           L=
                                                                                                           U=
                                                           VALUE    UALUF/S.F.
                                                           0.64         4.74
                                                           -0.04        -0.14
                                                                                              EACH
                                                                                                      BELOW
                                                                      25.0000
                                                                      25.0000
                                                                     600.0000

                                                                     01°   155.0000000
                                                                     03'   .406.0000000
                                                                     S- =   144.7743530
                                                                     St»   134.3724182

                                                                      5.0000


H
N
VAI HE COUNT
69.
73.
74.
109.
112.
113.
114.
US.
116.
117.
118.
119.
121.
122.
123.
130.
132.
133.
134.
135.
136.
138.
139.
1
1
1
7
1
3
1
1
1
2
1
1
1
7
2
1
1
7
1
7
2
1
1

S Q
N 1
D
E
PERCENTS
CPU
0.4
0.4
0.4
0.8
0.4
1.2
0.4
0.4
0.4
0.8
0.4
0.4
0.4
0.8
0.8
0.4
0.4
0.8
0.4
0.8
0.8
0.4
0.4
CUM
0.4
0.8
1.2
2.0
7.4
3.6
4.0
4.4
4.8
5.6
6.0
6.5
6.9
7.7
8.3
8.9
9.3
10.1
10.5
11.3
12.1
12.5
17.9
MM
pp
0
1
S
+
h
DA
IN
PERCENTS
VAI HE COUNT CE1 1
171. 3 1.7
173. S 7.0
180. 1 0.4
181. 7 0.8
182.
185.
186.
187.
190.
192.
193.
194.
196.
198.
200.
0.4
0.
0.
0.
I.
0.
0.
0.
0.
0.
1.7
.202. 7 0.8
205. 2 0.8
707. I 1.2
208. 2 O.B
210. 7 0.8
211. 2 0.8
213. 1 0'.4
214. 2 0.8
CUM
31.0
.U.I
33.5
34.3
34.7
35. 1
35.5
.15.9
37.1
.17.5
37.9
38.3
38.7
31. 1
40.3
41.1
41.9
41.1
44.0
44.8
4:1.6
46.0
4A.8
VAI HE COUNT
246.
247.
250.
2hl.
252.
253.
254.
256.
258.
259.
260.
Ml.
262.
265.
767.
270.
273.
W5.
276.
290.
781.
283.
285.
1
1
3
1
1
1
1
1
1
1
2
y
i
7
i
7
1
4
1
3
1
1
2
PERCENTS
C.F.I I
0.
0.
1.
0.
0.
0.
0.
0.4
0.4
0.4
0.8
0,8
0.4
0.8
0.4
0.8
0.4
1.6
0.4
1.2
0.4
0.4
0.8
CUM
5A.9
57.3
58.5
•jR.9
59.3
•59.7
AP.I
60.5
60.9
41.3
67.1
62.9
63.1
64.1
64. S
45.3
65.7
67.3
67.7
69.0
69.4
69.8
70.6
X
VALUE COUNT
322.
324.
325.
124.
327.
KB.
332.
.134.
337.
140.
341.
342.
345.
.147.
346.
.149.
350.
351.
358.
166.
368.
370.
372.
3
1
1
1
1
I
1
I
1
7
2
I
1
1
1
1
1
2
1
I
i
\
2
PERCENTS
CEIL
1.2
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.8
0.8
0.4
0.4
0.4
0.4
1.2
0.4
0.8
0.4
0.4
0.8
0.4
O.B
CUM
81.0
81.5
B1.9
82. 3
fl?.7
8.1.1
8.1.3
83.9
84.3
85.1
85.9
86. 3
HA. 7
87.1
87.5
88. 7
89.1
89.9
90.3
90.7
91.5
91.9
92.7
140.
142.
143.
144.
145.
146.
148.
152.
154.
155.
156.
160.
161.
162.
163.
164.
169.
4
3
2
2
6
3
1
3
3
4
2
4
1
1
1
1
1
1.6 14.5
1.2 15.7
0.8 16.5
0.8 17.3
7.4 19.8
1.2 21.0
0.4 71.4
1.2 22.6
1.7 73.8
1.6 25.4
0.8 76.2
1.6 27.8
0. 78.2
0. 28.6
0. 79.0
0. 29.4
0. 79.8
218.
220.
221.
222.
273.
228.
230.
236.
237.
238.
739.
240.
241.
242.
243.
244.
245.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
1.
1.
0.
0.
0.
? 0.
47.2
47.6
48.0
48.4
48.8
49.7
49.6
SO.O
50.4
50.8
51.2
52.8
S4.4
54.8
55.2
55.6
56.5
290.
292. 1
795.
• 798. ;
299.
300. :
105.
307. 1
309.
310.
,U2.
314.
315.
317.
318.
319.
370. <
t 0.8
0.4
I 0.4
0.8
' 0.8
0.8
0.4
0.4
0.4
0.4
0.8
0.4
0.4
0.4
0.4
0.4
0.8
71.4
71.8
72.2
73.0
73.8
74. A
75.0
75.4
75.8
76.2
/7.0
77.4
77.8
/R.2
7D.6
79.0
79.8
384.
407.
412.
417.
420.
434.
445.
448.
449.
460.
463.
479.
314.
537.



I
1
1
1
1
1
1
2
1
2
3
1
1
1



0.4 91.1
0.4 93.5
0.4 94.0
0.4 ?4.4
0.4 94.8
0.4 95.2
0.4 9-3.4
O.R 9A.4
0.4 96.8
0.8 97.6
1.2 98.8
0.4 99.2
0.4 99.6
0.4 100.0




-------
HYDRAB6 CENTRAL BASIN ALL DATA
                                                                                                                 PAGE    223
  im***sm*
  S NH3      t
  itmitistt*

VARIABLE NUMBER 	
NUNBER OF DISTINCT VAIUES .
NUMBER DF VAIIIFS COUNFFD. .
NUMBER OF VALUES NOT COUNTED
  S
143
249
  0
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.DFV.
(Ol-UD/2
 57.7999992
  1.7000000
 56.0999985
136.9676617
 11.70.11030
  S.2000003
LOCATION ESTIMATES
                   MEAN
                   MF.DIAN
                   NODE
   13.2708843
    D.5000000
    B.0000000
     ST.ERROR
      0.741654?
      0.4041454
 H
NH
HH
HHH
HHH
HHH
HHH H
HHHHHH
HHHHHHH    H
HHHHHHHHHHHHHHHHH
 FACH 'H'
REPRFSFNTS
     6
 COUNT(S)
                                                                   H HH
                                                                   	U
                                                                         SKEUNESS
                                                                         KURTOSIS
                                                                                             EACH '-' ABOVE =
                                                                                                           L»
                                                                                                           U =
                                                          VALUF   UALUF./S.F.
                                                           1.79        11. 54
                                                           2.84         9.14
                                                                                             EACH
                                                                                                      BELOU
                                                                      3.5000
                                                                      2.5000
                                                                     60.0000

                                                                    01=    S.5999999
                                                                    03'   1 A.0000000
                                                                    S-»    1.5177794
                                                                    S+»   74.9739902

                                                                      0.5000
S
-H
N
0
1

MM
DD
El
M
A
N
0
3



PERCENTS
VALUE
1.700
2.100
2.500
2.800
3.000
3.100
3.700
3.300
3.400
3.500
3.400
3.800
4.000
4.100
4.400
4.500
4.AOO
4. BOO
4.900
5.000
5.100
5.200
5.300
COUNT
1
1
4
1
3
1
1
4
1
3
3
4
S
2
7
4
2
3
2
2
1
1
J
CELL
0.4
0.4
l.A
0.4
1.7
0.4
0.4
1.6
0.4
1.7
1.2
1.6
2.0
0.8
0.8
1.6
O.H
1.2
0.8
0.8
1.7
0.4
1.7
CUM
0.4
0.8
2.4
7.8
4.0
4.4
4.8
6.4
6.8
8.0
9.2
10.8
12.9
13.7
14.5
16.1
16.9
18.1
18.9
19.7
>0.9
21.3
72.5
VALUF
6.700
6.800
7.000
7.100
7.200
7.300
7.600
7.800
7.900
8.000
8.100
8.200
8.400
8.500
8.600
8.700
8.800
8.900
.000
.200
.300
.500
.600
COUNT
2
1
3
4
1
3
1
1
3
7
2
1
7
2
1
1
.1
2
3
2
1
2
1
S
»







PERCENTS
CELL
0.8
0.4
1.2
1.6
0.4
1.2
0.4
0.4
1.2
7.8
0.8
0.4
0.8
O.B
0.4
0.4
1.2
0.8
1.7
O.B
0.4
O.H
0.4
CUM
38.2
3H.6
39. B
41.4
41.8
43.0
43.4
43.8
4S.O
47.8
48.6
49.0
49.8
50.6
•il.O
SI. 4
32.6
53.4
1)4.4
SIi.4
55.8
56.6
•57.0
VALUF
13.100
13.400
13.500
13.700
13.ROO
13.900
14.000
14.200
14.100
14.700
14.800
15.000
15.700
15.400
IS. 600
15.700
15.800
16.000
1A.100
16.300
14.500
16.900
17.600
COUNT
1
1
1
1
1
1
4
1
I
2
1
1
/
2
1
1
1
3
1
1
1
1
1








PERCEN1S
CEll
0.4
0.4
0.4
0.4
0.4
0.4
l.A
0.4
0.8
0.8
0.8
0.
0.
0.
0.
0.
0.
1.
0.
0.
0.4
0.4
0.4
I:UM
65.1
AS. 5
A'1.9
AA.l
66.7
67.1
AB.7
69.1
A9.9
70.7
71.5
71.9
72.7
73.5
73.9
74.3
74.7
75.9
76.3
76.7
77.1
77.5
77.9
VALUF
73.000
23.700
73. BOO
24.400
75.800
26.SOO
78.600
30.500
30.600
30.900
.11.400
37.100
32.500
33.000
.14.700
34.800
34.100
36.200
16.800
37.700
18.900
39.100
39.500
COUNT
2
1
1
1
I
2
I
1
?
1
1
1
1
1
1
1
2
1
1
1
1
1
I
M
X


PERCENTS
f.tLl
0.8
0.4
0.4
0.4
0.4
0.8
0.4
0.4
0.8
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.8
0.4
0.4
0.4
0.4
0.4
0.4
CUM
85.1
B5.5
83.9
86.3
R6.7
87.6
8H.O
88.4
89.2
89. A
90.0
90.4
90.8
91.2
91.6
91.0
92.8
9^.2
93.6
94.0
94.4
94.8
93.2
5.400
S.SOO
5.600
5.700
5.600
S.900
.000
.100
.200
.300
.400
.500
.600
1
s
1
3
4
1
5
1
2
1
5
4
4
0.4 22.9
2.0 74.9
0.4 25.3
1.7 76.5
1.6 28.1
0.4 78.5
2.0 30.5
0.4 30.9
0.8 31.7
0.4 32.1
2.0 34.1
1.6 35.7
1.6 37.3
9.700
10.000
10.200
10.300
10.500
10.900
11.000
11.700
11.800
12.200
12.500
12.800
12.900
1
2
1
1
1
1
3
1
2
7
1
2
1
0.4 57.4 17.800 2 0.8 78.7 40.700 0.4 95.6
O.B :>8.2 18.100 1 0.4 79.1 40.500 0.4 96.0
0.4 58.6 18.400 2 0.8 79.9 41.000 0.4 96.4
0.4 59.0 19.000 1 0.4 80.3 42.800 0.4 96.8
0.4 59.4 19.200 2 0.8 Hl.l 44.000 0.4 97.2
0.4 S9.B 19.SOO 0.4 41.5 44.100 0.4 97.4
1.7 61.0 19.800 0.4 81.9 50.400 0.4 9B.O
0.4 A1.4 70.000 0.4 82.3 51.800 0.4 TR.4
0.8 62.2 20.400 0.4 87.7 52.000 0.4 98.8
0.8 63.1 72.000 0.4 83.1 57.300 0.4 99.2
0.4 63.5 22.300 0.4 B3.S 57.400 0.4 99.6
0.8 64.3 72.DOO 0.4 83.9 57.800 0.4 100.0
0.4 64.7 22.700 0.4 84.3

-------
HYDRA86 CENTRAL BASIN ALL  DATA
                                                                                                     PAGE   224
1 KJELCOHP 1
MltUUtll*

VAR1ABI F
NUNBFR OF
NUI1RFR IIF
NUMBER OF



NUHBCR .


DISTINCT VALUFS .
VALIItS
VALUES


nntiHHD. .
NOT COUNTED


LnriHIIlH ESTIMATES
MEAU


























H
N


HF.UIAN
NODE








SQ
-n
0
E
PCRCENTS
VALUE r.niiHf CFII CUH
0.
0.
0.
0.
0.
1400
1SOO
1600
1700
1800
2 9.1 3.1
7 S.I 10.3
1 2.6 17.8
S 17. H 71.6
1 2.6 28.2
hAXlHUK 0.4100000
2 HINIHUH 0.1400000
20 RANGE 0.7700000
39 VARIANCE 0.0057134
210 ST.nFV. 0.0727036
(o.i-oi)/: O.OAOOOOO

ST.FRROR
0.2384615 O.OIir.Alfl
0.^.100000 0.0144338
0.1700000





SKEUNESS
KURTOSIS

Q S
N H 3 *
D A
I N
PERCENTS
VAUIF COUNT I:FU run UAIIIF r.niiNi
0.1900 2 5.1 3:<.3 0.2500 4
0.7000 4 10. J 41.6 O.J700 1
0.2100 1 7.6 46.7 0.7ROO 1
0.7300 .1 7.7 SI. 8 0.1'»00 T
0.2400 1 7.6 56.4 0.3100 1




H
H H
H H H HH
H H H HH H H
H HHH HH H H
HHHHH HHHHHHH

EACH '-' ABOVE =
La
U=

VALUE VALUE/5. F..
O.ol 1. S3
-O.S7 -0.6/
EACH '.' BFIOU -




PERCENTS
r.Fi i run VAI HE
10.3 66.7 0.3700
7.6 69.2 0.1300
;:,6 71. ft 0.3500
7.7 79.S 0.4000
2.6 87.1 0.4100



PATH 'H
KLF&F^FNI b
i
COUNKS)
H
H HH

0.0150
0.1020
O.I'.OO
ni- o.'.7ooo.oo
03* 0.29000UO
S-= 0.1A625/9
St> 0.310«6Sl
0.0025

n
X

PERCENTS
ennui TFI i. run
1 ?.6 89.7
2 ri.l 94.9
1 3.4 97.4
1 2.6 100. 0

-------
HYDRAB6 CENTRAL BASIM ALl DATA
PAGE  225
  t  SRS

VARIABIF NUMBER




NUMBER "F DISTINCT VALUES .
NUHBER UK VAllltS
NUMBER C'F VALUES


auiHTt-D.
t
NOT COUNTED





2
204
.'48
1


LOCATION ESTIMATES



MEAN
MEDIAN
HODE



824.38445118
:>H3. 0000000
135.0000000
MAXIMUM 35o3
MINIMUM HI
RANGE 34R2
VARIANPF 47I«3
ST.PEV. 6BB
(03-1)1 >/2 189

ST. ERROR
43.70AR710
.H . 7')4VS01

.0000000
.0000000
.0000000
.0000000
.2964478
.'.lOOOOOO
















H
HH
HH
HHH
HHHH
HHHH







FACH 'Hf
KEFKFSEH1S


a
COUrir<5)
HHHHHH
HHHHHHHH HH
HHHHHHHHHHHHHHH H



EACH '
-• dMI'JE = 200.0000
1= 0.0000
U- 4600.0000
01- 342.viOOOuO




S 0
H M 1

N 0
E





N

D
I





M

A
N




0
3



PERCENTS
VALUE COUNT CELL
81.
108.
116.
124.
132.
135.
147.
149.
141.
162.
177.
IBS.
188.
189.
192.
200.
202.
210.
211.
213.
216.
217.
221.
1 0.
1 0.
7 0.
1 0.
1 0.
4 1.
1 0.4
1 0.4
.' O.H
3 1.7
1 0.4
1 0.4
1 0.4
2 0.8
7 O.R
1 0.4
1 0.4
1 0.4
1 0.4
1 0.4
7 O.R
1 0.4
1 0.4
CUH
0.4
0.8
1.6
2.0
2.4
4.0
4.4
4.8
•3.4
6.9
7.3
7.7
8.1
8.9
y.7
10.1
10.5
10.9
11.3
11.7
12.5
12.9
11.3
VALUE
358.
360.
363.
370.
174.
378.
379.
380.
384.
3B9.
410.
412.
413.
414.
415.
417.
470.
424.
415.
458.
440.
466.
470.




S
+



PERCFNTS
rOUNT CFLl CUH
1 0.4 ;/.4
1 0.' 27. B
1 0.4 7B.2
1 0.4 2H.A
1 0.4 ,'9.0
1 0.4 2V. 4
1 0.4 79.8
2 O.R 30.6
1 0.4 31.0
2 O.H 31.9
1 I..1 J1.1
1 0.4 3.1.':
1 0.4 3.1.9
1 0.4 34.3
1 0.4 14.7
1 0.4 3'.i.l
1 0.4 .13.5
•3 1.7 3A.7
? O.H .17.5
I 0.4 17.9
1 0.4 1H.3
1 0.4 3H.7
1 0.4 :i9.1

SKEUNESS
KURTOSIS
























VALUF
1.40
1.34
EACH '





PERCENT S
VALUE COUNT
A19.
622.
675.
635.
640.
645.
A46.
648.
ASO.
656.
A'i8.
669.
AH2.
684.
A86.
693.
A97.
710.
713.
714.
717.
744.
7A3.
1
2
1
1
1
I
1
1
1
1
1
1
<
1
1
1
1
1
1
1
1
1
1
CEIL
0.4
0,8
0.4
0.4
0.1
0.4
0.4
0.4
0.4
0.4
0.
0.
1.
0.
0.
0.
0.
0.
0.
0.
0.
0.4
0.4
CUM
SI. 6
54.4
:>4.B
•;:..2
V..6
5n.O
56.5
•>A.9
^7.3
5/.7
'iH.l
r.H.5
S9.7
AO.I
A0.5
A0.9
41.3
61.7
A,'.l
t.J.5
i>2.9
n3.3
A.I. 7
vM.uF/ o.f
1211.
1216.
12*7.
1.'95.
1316.
1374.
1356.
1414.
1411.
14»3.
1470.
H95.
1540.
r.)44.
1627.
1/40.
1747.
1749.
1800.
IH38.
(i.
0.
0.
0.
0.
0.
0.
0 .
0,
0 1
0.
0 »
0.
0 1
0 1
0 1
(1.
1 79,0
79,4
7V. 8
RO. 2
BO. a
Hl.O
81.5
81. 9
8J.3
SJ.7
83.1
R1.5
31.9
R4.3
84.7
B-i.l
81.5
81.9
0.4 rtn.3
0.4 Bo. 7
0.4 87 1
1853. 1 0.4 H7.5
lH6i. •> 0.8 as. 3
226.
327.
232.
234.
241.
242.
247.
2SO.
253.
263.
265.
269.
274.
275.
292.
295.
296.
297.
299.
300.
321.
325.
328.
333.
342.
345.
34B.
350.
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
I 0.
1 0.
1 0.
.' 0.
2 0.
1 0.
1 0.
I 0.
1 0.
1 0.
1 0.
1 0.
1 0.
1 1.
1 0.
1 0.
1 0.
1 0.
13.7
14.1
14.5
14.9
15.3
13.7
16.1
1A.5
16.9
17.7
IB. 5
19.0
19.4
19.8
20.2
,'0.6
21.0
71.4
21.8
.'1.0
23.4
73.8
24.2
,'4.6
3 1.2 25.8
1 0.4 7A.2
1 0.4 26.6
1 0.4 77.0
474.
476.
479.
4RO.
487.
492.
495.
r<00.
513.
•575.
530.
•>33.
535.
->38.
540.
•354.
557.
•H9.
562.
riA4.
571.
379.
583.
•)H9.
605.
A06.
609.
613.
2
1
3
1
1
1
1
1
1
1
1
7
1
1
1
1
1
1
1
1
1
1
2
/
1
1
1
/
0.8 3V. 9
0.4 40.3
1.2 41. S
0. 41.9
0. 42.3
0. 42.7
0. 41.1
0. 41.5
0. 44.0
0. 44.4
0. 44. R
0. 45.6
0. 4A.O
0. 4A.4
0. 46. B
0. 47.2
0. 4/.6
0. 4H.O
0. 4R.4
0. 48.8
0. 49.2
0.4 49.6
O.R 50.4
O.H !il. 2
0.4 51.6
0.4 *i7.0
0.4 52.4
0.8 •.!.:
775.
789.
800.
D71.
848.
HR5.
B94.
H97.
900.
VU.
921.
V74.
933.
¥17.
947.
V49.
979.
V95.
1031.
1044.
1053.
1110.
1132.
lKi6.
1174.
11199.
1195.
1196.
1 0.4 »4.1
.< 1.7 4r..3
1 0.4 6'.i.7
I 0.4 AA.l
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
2 0.
1 0.
1 0.
1 0.
2 0.
1 0.
1 0.
1 0.
1 0.
1 0.
3 1.
1 0.
1 0.
1 0.
AA.S
AA.9
*/.3
47.7
6H.)
A8.5
AV.4
A9.B
70.2
/0.6
71.4
/l.B
71.'.?
72.6
73.0
7.1.4
74. A
71.0
/!i.4
71.8
2 0.8 7A.A
1 0.4 77.0
2 0.8 77.8
1 0.4 7H.2
1870. 1 0,4
IV11.
1916.
1947.
1974.
1974.
:ooo,
7009.
2010.
''024.
2097.
21S4.
2162.
•MR9.
2200.
•'V4.
2357.
''400.
2432.
•<454.
2609.
2A40.
2648.
2732.
275u.
••874.
297(>.
0.4
0 -I
4.4
0.4
0.4
0.4
0.4
0.4
0.4
0.8
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0,4
0.4
0.4
0. 4
0,4
0.4
0.4
0.4
0.4
1-i43. 0.4
hH.7
39.1
89.5
S9 o
»0.3
90.7
»l.l
91.5
91.9
9'.'.3
91.1
91.5
94.0
94.4
94.8
9-i.2
9'i.A
9.S.O
96.4
9n.B
97.2
97.6
9R.O
9H.4
9H.B
»9.2
99.6
100. 0

-------
        CENTRAL BASIN ALL DATA
                                                                                                         PAGE  226
immism
1 SECCHI I
HitMlltlll
VARIAHIF HUNGER
NUMBER OF DISTINCT


VALUES .
NUNBFk OF VAIIIES COUNTED. .
NUMBER OF VALUES NOT COUNTED


LOCATION ESTIHATES












N

N


VAIUE COUNT
2.700 2
2.800 1
2.900 1
3.000 1
3.100 2
3.400 7
4.000 2



NEAN
HEOIAN









S
-



PERCENTS
CEI 1 CUM
4.9 4.9
2.4 7.3
2.4 9.8
J.4 12.2
4.9 17.1
4.« 72.0
4.9 2A.8
HAXIHIIN 10.1999998
9 N1NINUH 2.7000000
28 RANGE 7.3000000
41 VARIANCE 2.9137193
208 ST.DEV. 1.7133942
I01-QU/2 1.3499999

ST. ERROR
3.2682929 0.267SR72
5.0000000 0,ll7:i42B
4OAAAAA1
• TUVUVU1




SKEVNESS
KURTOSIS

0 Q S
1 NN H 3 t

DO A
El N
PERCENTS
VAIUE COUNT CEIL CUN VAIUE COUNT
4.200 2.4 29.3 3.200
4.400 2.4 31.7 -i.JOO
4.700 7.4 34.1 3.800
4.800 2.4 .16. i 3.900
4.900 9.B 44.3 A. 000
•5.000 7 4.9 11.2 A. 100
3.100 1 7.4 53.7 6.200











H
H
H
H H H
HH H H H
HH HHH HH
HHHHHHHHHHH



EAfH -H-
REFRESH IS
1
COUNIIS)


HHHHHHHHHHH H

EACH



VALUE
0.47
-O.OA
EACH





PERCFNTS
CF.I i run
2.4 3A.I
2. :.a.s
4. A3. 4
2. 63.9
2. AS. 3
2. 70.7
7. 73.2

•-' ABOVE =
L-
U =

V»LUF/S.F.
1.10
-O.OB
'.' &FLOU =

N

X


VALUE COUNT
0.700 2
A. 800 1
7.000 2
7.200 I
7.300 2
7. BOO 2
10.200 1

0.5000
0.3000
12.0000
01- 4.00000uO
02- A.699W-.U
'.-- 3.5543987
Sr- c.*BlaB7l
0.0750





PEkCENTS
CELL CUM
4.9 78.0
2.4 flo . S
4.9 85.4
2.4 87. B
4.9 92.7
4.9 97.6
2.4 100.0
HTDRAHA CENTRAL BASIN  AIL DATA
  1 I'JKilD
• •« •
»4>
VARIAJU F
NUNBE.t OF
NIIHbF-i HF
NUNBE* OF

• ••• •
MUHREft


DISTINCT VALUES .
VAIIIFS MUHTtD. .
VALUES NOT COUNTED

10
2A
748
1
NAXIHIIK
MINIMUM
RANGE
VARIANCE
ST.DFV.



I03-OD/2
LOCATION










ESTIHATES
HE AN
HF.DIAN





MODE




ST.
1.109A774 0.
0.9000000 0.
NOT UNIOUF









ERROR
04I910/
ODAA02A





3.0999999
0.1000000
2.8000000
0.43SA144
O.AA00109
0.4^00000
H
H
H
H
HH
HH
HHHH


H
H
H H
HHHHH HHH H
HHHHHHHHHHHHH H
HHHHHHHHHHHHHHH HHH





L-" 	
EACH '-




• flfiOVE =
LS
U =
01
VALUF VALUF/S.F. 03

















S
H
N




0
1


PERCENTS
VAIUE COUNT I:ELI cun
0.3000 11 4.4 4.4
0.4001) 70 ». 1 t:.3
0.3000 28 11.3 23. B
O.AOOO 27 H.9 32.7
0.7000 ?B 11.3 44.0


0>
9.
aooo
9000
Tl 2.0 44.0
14 3. A SI. A




N N
D A
1 N
VAI HE
.0000
.1000
.2000
. 1000
.4000
.1000
.6000










0
}


SKEVNESS
KURTOSIS

S
t


PERCENT S
COUNT CF.ll CUH VAIUE COUNT
8 3.2 54. B 1.7000 8
a 1.7 riB.i I.HOOO •>
17 4.8 42. 9 1.9000 7
9 l.A AA.b 7.0000 1
8 3.2 A9.B 2.1000 3
IB
A
7.1 77
2.4 79
. o 7 . 2000 r,
.4 2.3000 9
0.87
0.00
EACH • .




PEkCEHIS
CEII HUM
1.7 B->.7
2.0 R4.7
7.8 87.5
1.2 SB. 7
1.7 R9.9
7.0 91.9
l.A 90.4
5,:a s-
0.01 S«
' BELOU =




VALUE COUNT
2.4000 S
2.UOOU 1
2.VOOO 1
1.0000 n
3.1000 2






EACH -M-
KLPKFSErilU
\.
- i
= 0
1
0.02SO

n







. ooooaoo
. iOOOOuv
. -tA9cc,-i
./f.ViUB-1





PERCENIS
FELL Cun
2.0 97. A
0.4 9B.O
0.4 VU.4
0.8 9K.2
O.U 100.0





-------
HYBRA86 CENTRAL tASIN ALL DATA
                                                                                                                  PAGE   227
  ntismtisi
  S CHLACORR *
VARIABLE NUMBER ......
NUMBER OF DISTINCT VALUES .
NUMBER IIP VALIItS COUNTED. .
NUMBER OF VALUES NOT COUNTED
  2
1B6
74?
  0
LOCATION ESTIMATES
                   MEAN
                   MKD1AN
                   MODE
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.DEV.
(U3-01>/2
 0.0300000
11.3A99999
 S.73A1116
 2.39S0181
 1.0100000
    2.4096389
    !./»00000
    1.1200000
     ST.ERROR
      0.1517781
      0.0952629
   H
  HH
  HHH
  HHH
  HHHH
  HHHH
  HHHHHH
 HHHHHHH
 HHHHHHHH H H          H
 HHHHHHHHHHHHHHH H HHHHH
L	U
 EACH *H>
REPRFSENTS
     5
 COUNT(S)
                                                                                             EACH  '-' ABOVE =
                                                                                                           L=
                                                                                                           U=
                                                                                   o.sooo
                                                                                   0.0000
                                                                                  11.5000
                                                                          SKEVNESS
                                                                          KURTOSIS
                                                          VALUE
                                                           2.04
                                                           4.00

                                                            EACH
                                                      VALUE/S.F.
                                                           13.1?
                                                           12.8B

                                                     '.'  BELOU >
                                                     01-
                                                     03-
                                                     S- =
                                                     S*»
                            1.1200000
                            3.1400001
                            0.2146208
                            S.0046573
                                                                                                                    0.1000
5
K-
N


VAL HE
0.03000
0.15000
0.16000
0.27000
0.29000
0.34000
0.37000
0.44000
0.45000
0 . 4ROOO
0.49000
0.31000
O.S4000
0. 36000
0.62000
0.63000
0.64000
0.6AOOO
0.67000
0.6ROOO
0.69000
0.71000
0.73000
0
M
D
E

COUNT
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
3
1
1
2
1
1
1
1
0 S
It H 3 t
D A
I N
PERCENTS PERCENTS
CEl 1 CUM VAllie COUNT CF.l L CUH
0*
0*
o.
0«
Ot
0.
0*
0»*
0*
0*
Oi
Oi
Oi
0*
0.
1.
o.
0 1
0.
0 •
0 1
0 •
0 •
0.4 1.15000 1 0.4 28. S
0.8 1.17000 1 0.4 78.9
1.2
1.6
2.0
2.4
2.8
3.2
3.6
4.0
4.4
4.8
S.2
5.6
6.4
7.6
8.0
8.4
9.2
9.6
10.0
10.4
10.8
.18000 1 0.4 29.3
.71000 7 0.8 30.1
.23000 1 0.4 30.5
.77000 .1 I.; 31.7
.79000 1 0.4 17.1
.JOOOO 3 1.2 33.3
.33000 2 O.R 34.1
.37000 7 0.8 34.9
.38000
.39000
.41000
.42000
.44000
• V.iOOO
.46000
.47000
.48000
.4VOOO
.51000
.32000
.53000
0.4 35.3
0.4 .15. 7
0.8 36.5
0.4 16.9
0.4 37.3
O.S .18.2
0. 3B.6
0. 39.0
0. 39.4
0. 40.2
0. 40.6
0. 41.0
0. 41.4












PERCFNTS
VAl HE
2.03000
7.04000
2.05000
7.06000
2.07000
2.11000
2.17000
7.16000
2.18000
7.20000
2.71000
7.75000
2.31000
2.34000
2.35000
2.JVOOO
2.40000
7.44000
2.56000
7.5HOOO
2.67000
7.6.1000
2.64000
COUNT
2
7
1
1
7
2
3







1
7
2






CFM
0.8
0.8
0.4
0.4
0.8
0.8
1.2
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.8
0.8
0.4
0.4
0.4
0.4
0.4
0.4
run
56.6
S7.4
57. R
58.2
59. 0
S9.B
61.0
41.4
61 .H
62.2
67.7
63.1
63.5
63.9
64.3
65.1
65.9
46.3
6A.7
67.1
67.5
47. 9
4R.3
M
X

PERCENTS
VALUE COUNT CEIL CUM
3.60000 1 0.4 Rl.l
3.69000 1 0.4 81.5
3.72000 2 0.8 B2.3
1. 81)000 I 0.4 8P.7
3.86000 1 0.4 83.1
4.03000 1 0.4 81.5
4.10000 1 0.4 B3.9
.47000 1 0.4 84.3
.59000 1 0.4 84. 7
.69000 1 0.4 85.1
.70000 1 0.4 R5.5
.73000
.7HOOO
.85000
.83000
5.0AOOO
S.1ROOO
5.34000
5.54000
•i. 41000
5.62000
•5.77000
5.81000
0.4 B'1.9
0.4 06. 3
0.4 86.7
0.4 B7.1
0.4 87. 6
0.4 88.0
0.4 88.4
0.4 88.8
0.4 99.2
0.4 B9.0
0.4 90.0
0.4 90.4
0.74000 1
0.79000 1
O.BOOOO 1
0.81000 1
0.47000 1
O.B4000 1
0.85000 1
O.B8000 2
O.B9000 7
0.90000 3
0.92000 2
0.93000 1
0.94000 1
0.95000 3
0.97000 2
0.99000 2
.03000 3
.04000 1
. 05000 1
.08000 2
.09000 1
.10000 2
.12000 5
1.13000 3
.4 11.2
.4 11.6
.4 12.0
.4 12.4
.4 12.9
.4 13.3
.4 13.7
.8 14.5
.H 15.3
.2 16.5
.8 17.3
.4 17.7
.4 18.1
.7 19.3
.8 70.1
.8 20.9
.7. ft. I
.4 27.5
.4 72.9
.8 23.7
.4 74.1
.8 24.9
.0 76.9
.7 28.1 :
.55000 1 0.4 41.8 7.69000
.39000 1 0.4 47.2 2.72000
.61000 7 O.fl 43.0 7.73000
.62000 1 0.4 43.4 2.75000
.64000 1 0.4 43.8 7.R7000
.67000 1 0.4 44.2 2.83000
.AHOOO 1 0.4 44.6 2.95000
.70000 3 1.7 45.8 2.97000
./1000 3 1.2 47.0 7.9HOOO
.72000 1 0.4 47.4 3.01000
.7.1000 2 0.8 48.2 3.06000
.7AOOO 2 0.8 4V. 0 3.13000
.77000 1 0.4 49.4 3.14000
.78000 1 0.4 49.8 3.17000
.79000 2 0.8 50.6 3.71000
.82000 1 0.4 51.0 3.27000
.flROOO 7 O.fl Sl.B .{.24000
.89000 1 0.4 57.2 3.27000
.90000 1 0.4 52.6 3.,'HOOO
.92000 3 1.2 53.8 3.30000
.94000 1 0.4 54.2 3.37000
.96000 1 0.4 54.6 3.3HOOO
!. 00000 7 0.8 ^5. 4 3.44000
!. 01000 1 0.4 55.8 3.50000
? 0.
! O.i
0.
O.J
0.
i.:
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
O.i
0.4
0.'
0.£
0.'
0.4
1 69.1 5.86000 1 0.
69.9 6.07000 1 0.
1 70.3 6.29000 I 0.
70.7 A. 32000 2 0.
1 71.1 6.37000 1 0.
/2.3 6.59000 1 0.
72.7 6.80000 1 0.
73.1 6.88000 1 0.
73.5 7.44000 2 0.
7.t.9 8.42000 1 0.
74.3 9.40000 1 0.
74.7 9.52000 1 0.
75.1 9.6ROOO 1 0.
75.5 10.27000 1 0.
75.9 10.3.1000 1 0.
7A.7 10.51000 1 0.
77.1 11.0/000 1 0.
77.5 11.1HOOO 1 0.
1 78.3 11.27000 1 0.
;s.7 11.73000 i o.
79.1 11.39000 1 0.
79.9 11.40000 1 0.
80.3
R0.7
90.8
91.2
91.6
97.4
92.8
93.2
93.6
94.0
94.8
95.2
9-J.6
96.0
96.4
96.8
97.2
97.6
98.0
98.4
98.8
99.2
99.6
100.0



-------
HYDRA86 CENTRAL BASIN ALL DATA
                                                                                                                 PAGE    228
  mmmm
  I PHEO     t
  ttitiimm

VARIABLF NUMBER 	
NUHBER OF DISTINCT UAIUES .
NUMBER OF VALUES COUNTED. .
NUHBER IF VAUIFS Nllf COUNTED
  3
171
24V
  0
NAXIMUH
HININUN
RANGE
VARIANCE
ST.OEU.
(03-011/2
7.6399*99
0.0000000
7.6399999
1.9737499
1.4049021
0.6R99999
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
    1.4677110
    0.9700000
   NUT UNIQUE
     ST.ERROR
      0.0890321
      O.OS4B4R3
                                                                         SKEUNE5S
                                                                         KURTOSIS
  H
  H
  H
 HH
 HHH
 HHH
 HHH
 HHHH
 HHHHHH  H
 HHHHHHHHHHH H HH
I	-	

EACH '-'  ABOVE =•
                                                          VALUE   VALUE/S.E.
                                                           1.80        11.40
                                                           3.24        10.45
 EACH 'H-
REPRESENTS
                                                                                                                        COUNKSi
                                                                    —U

                                                                      O.SOOO
                                                                      0.0000
                                                                     ll.bOOO
                                                                    01"
                                                                    03"
                                                                    s-=
                                                                    51 =
                                                           o.ssooooo
                                                           1.9299999
                                                           0.0*28089
                                                           7.8726132
                                                                                             EACH
                                                                                                      BEI.OM
                                                                                                                    0.07-SO
s
H
1
•
N

0
1
N N
0
3
S
4
D A
I N
PERCENTS
VALUE COUNT
0.00000
0.0.1000
0.03000
0.10000
0.11000
0.1.1000
0.14000
0.13000
0.16000
0.1HOOO
0.19000
0.70000
0.21000
0.74000
0.75000
0.7AOOO
0.27000
0.7ROOO
0.29000
0.10000
0.31000
0.13000
0.33000
1
7
3
7
2
1
1
1
1
1
1
1
1
1
2
1
2
3
1
1
1
1
1
r.Eu
0.4
O.H
1.2
O.H
0.8
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.8
0.4
0.8
1.7
0.4
0.4
0.4
0.4
0.4
CUM
0.4
1.2
2.4
3.2
4.0
4.4
4.8
•3.2
3.6
6.0
6.4
6.8
7.2
7.6
8.4
8.8
9.6
10.8
11.2
11.6
17.0
12.4
12.9
VAI HE COUNT
0.60000
0.61000
0.63000
0.64000
0.65000
0.67000
0.68000
0.69000
0.70000
0.71000
0.77000
0.75000
0.79000
O.AOOOO
0.81000
0.83000
0.84000
0.85000
0.86000
0.87000
0.90000
0.91000
0.92000
4
7
1
2
1
1
3
1
2
3
1
2
2
3
2
2
2
1
2
1
3
7
2
PERCENT S
CEIL
1.6
0.8
0.4
0.8
0.4
0.4
1.2
0.4
O.B
1.2
0.4
0.0
O.B
1.?
O.B
0.8
O.R
0.4
0.8
0.4
1.2
0.8
O.H
CUH VAI HE COUNT
30.1
30.9
31.3
32.1
37.3
.12.9
34.1
J4.5
35.3
14. S
36.9
J7.B
3H.6
39.8
40.6
41.4
42.2
42.6
43.4
41. B
45.0
.21000
.72000
.23000
.75000
.76000
.78000
.29000
.31000
.37000
.J.1000
.34000
.J9000
.41000
.42000
.47000
.31000
.33000
.37000
.61000
.62000
.70000
45. 8 1.71000
46.6 1.75000
2
7
1
1
7
I
2
I
2
1
1
7
2
1
2
1
1
1
2
?
1
1
1
PERCFHTS
CEIL
O.B
0.8
0.4
0.4
0.8
0.4
0.8
0.4
0.8
0.4
0.4
0.8
0.8
0.4
0.8
0.4
0.4
0.4
O.B
0.8
0.4
0.4
0.4
CUH
60.2
61.0
61.4
61.8
67.7
63.1
63.9
64.3
63.1
63. 3
65.9
66.7
6/.S
67.9
6R.7
69.1
69.3
69.9
70.7
71.3
71.9
72.3
77.7
H
X
VALUE COUNT
2.43000
2.45000
2.4VOOO
2.5:000
2.58000
2.r>VOOO
7.67000
2.63000
2.88000
2.97000
2.94000
2.96000
2.97000
3.07000
3.09000
3.11000
3.14000
1.40000
3.46000
3.82000
3.99000
4.03000
4.04000
1
1
1
I
1
I
1
I
1
t
1
1
1
1
1
I
1
1
i
I
1
I
1


PERCENTS
CEIL
11.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.8
0.4
0.4
0.4
0.4
CUM
82.3
87.7
83.1
81. S
R3.9
84.3
84.7
85.1
83. S
85.9
86.3
86.7
87.1
87.6
88.0
88.4
88.8
89.2
90.0
90.4
90.8
91.2
91.6
0.36000 4 1.6 14.3 (
0.37000 3 1.2 13.7 (
0.38000 2 0.8 16.3 (
0.39000 1 0.4 16.9 (
0.40000 7 0.8 17.7 <
0.41000 3 1.2 18.9
0.43000 1 0.4 19.3
0.45000 1 0.4 19.7
0.46000 1 0.4 70.1
0.48000 1 0.4 20.3
0.49000 7 0.8 71.3
0.51000 1 0.4 21.7
0.57000 1 0.4 72.1
0.33000 3 1.2 23.3
0.54000 2 O.R 74.1
0.5SOOO 3 1.2 23.3
0.56000 4 1.6 76.9
O.S7000 1 0.4 27.3
0.58000 1 0.4 77.7
0.39000 2 0.8 28.3
). 93000 2 O.f
.94000 3 I./
>.95000 2 O.I
.97000 3 Li
).9HOOO 1 0.
.01000 2 O.E
.03000 7 O.I
.05000 2 O.E
.06000 2 O.I
.07000 2 O.E
.OROOO 1 0.
.09000 1 0.
.12000 1 0.
.13000 1 0.
.14000 1 0.
.15000 1 0.
.16000 1 0.
.17000 1 0.4
.19000 1 0.
.20000 2 O.E
I 47.4 1./6000
' 48.6 1.79000
1 49.4 .80000
SO. 6 .84000
1 51.0 .89000
51.8 .93000 ;
] 52.6 .96000
1 53.4 .98000
i 34.2 2.07000
1 35.0 2.08000
S3. 4 2.10000
53.8 2.11000
56.2 2.15000
56.6 2.16000
57.0 2.10000
57.4 2.21000
37.8 2.76000
SR.2 2.32000
1 58.6 2.37000
1 59.4 2.41000
0.
0.
I 0.
0.
L 0.
0.
> 0.
0.
1 0.
0.
0.
0.
0.
O.I
0.
0.'
0.
0.'
0.
0.'
71.1 4.01)000
73.3 4.09000
71.9 4.1AOOO
74.3 4.17000
74.7 4.34000
VS. 5 4.3AOOO
76.3 4.39000
76.7 4.43000
77.1 4.48000
77.5 4.53000
77.9 4.78000
78.3 3.71000
78.7 5.4JOOO
79.5 6.08000
1 79.9 6.10000
80.3 6.13000
1 80.7 6.14000
81.1 7.06000
1 81. S 7.64000
81.9
0.
0.
0.
1.
0.
0.
0.
0 •
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.

1 97.0
97.4
92.8
94.0
94.4
94.8
9-5.2
95.6
96.0
96.4
96.8
97.2
97.6
98.0
98.4
98.8
99.2
t 99.6
4 100.0


-------
HYDRAS* CENTRAI  BASIN AIL DATA
                                                                                 PAGE    229
  ummm*
  i TSS      t
  tiimtmu

VARIABLE NUMBER 	
NUMBER OF DISTINCT VALUES .
NUMBER (IF VAUIFS r.dUHTFD. .
NUMBER OF VALUES HOT COUNTED
 11
154
740
  9
NAXIKUH
HINIHUH
RANGF
VARIANCE
ST.DFU.
(Ol-DU/2
4.0400000
0.2900000
3.7500000
0.7370945
                                                              0.5750000
LQCATIDN ESTIMATES
                   MEAN
                   MEDIAN
                   NODE
    1.4884670
    1.7900000
   HOT UHIOUF
     ST.ERROR
      0.0557304
      0,1094966
  H
  H H
  HHH H
  HHH H
 HHHH H
 HHHH HHH
 HHHHHHHHHH
HHHHHHHHHHHHH    H
HHHNHHHHHHHHHHHHHHHH
 FACH 'H1
REPRESENTS
     4
 COUNT(S)
                                                                                               EACH  '-'  ABOVE  =
                                                                           SKEUNESS
                                                                           KURTOSIS
                                                           VALUF
                                                            0.98
                                                            0.31

                                                             EACH
                                                      VALUF/S.F.
                                                            6.18
                                                            0.99

                                                      1 .' BELOU =
                                                       O.?000
                                                       0.0000
                                                       4.6000

                                                     01=    0.8150000
                                                     03:    1.9650000
                                                     S--    0.6330418
                                                     S+=    ?.2442922

                                                       0.0300
s
H
I 	
N

VAl HE
0.2900
0.1200
0.3600
0..1BOO
0.4100
0.4200
0.4600
0.4700
O.SOOO
0.5100
0.5200
0.5500
0.5600
0.5700
0.3800
0.5900
0.6100
O.A200
0.6300
0.4500
0.6800
O.A900
0.7000



COUNT
1
1
1
3
I
7
1
1
1
7
1
I
3
7
2
1
1
f
3
4
2
4
2
0
1





PERCENTS
CFl 1 CUH
0.4 0.4
0.4 0.8
0.4 1.2
1.7 2.5
0.4 2.9
O.fl 3.7
0.4 4.2
0.4 4.6
0.4 S.O
0.8 5.8
0.4 6.2
0.4 6.7
1.7 7.9
O.fl 8.7
0.8 9.6
0.4 10.0
0.4 10.4
O.fl 11.3
1.2 12.5
I./ 14.2
0.8 15.0
1.7 1A.7
O.B 17.5
H N
D A
I N
VAI HE CflllNl
0.9000
O.V200
0.9400
0.9500
0.9600
0.9700
0.9800
1.0000
1.0100
1.0200
1.0300
1.0400
1.0600
1.0700
1.0800
1.1000
1.1100
1.1200
1.1300
1.1500
1.1600
1.1700
1.1900
0 S
3 *


PERCEN1S
CELL CUH VAI
0.4 31.2
0.4 31.7
0.4 32.1
0.8 12.9
0.4 33.3
1.7 35.0
0.4 35.4
0.4 33.8
2.1 37.9
1.7 39.2
0.4 39.6
0.4 40.0
0.4 40.4
1.7 41.7
0.4 42.1
1.7 41.7
O.B 44.6
0.4 45.0
1.7 46.3
0.4 46.7
0.4 47.1
0.4 47.5
2 O.B 48.3
HE
.5300
.5400
.5500
.•5400
.5800
.5900
.6000
.AIOO
.6200
.6100
.6400
.4500
.6600
.6900
.7400
.7800
.7900
.8100
.8400
.H500
.8600
.4000
.9100



COUNT
1
1
2
7
3
1
1
1
1
2
2
1
1
1
2
I
1
1
1
1
2
?
2



PERCENTS
CEIL CUN
0.4 59.6
0.4 60.0
O.S 60.8
0.8 61.7
1.2 67.9
0.4 63.3
0.4 63.7
0.4 44.2
0.4 64.6
0.8 AS. 4
O.B 66.3
0.4 66.7
0.4 67.1
0.8 67.9
O.B 48.7
0.4 69.2
0.4 69.6
0.4 70.0
0.4 70.4
1.2 71.7
0.8 72.5
0.8 73.3
0.8 74.2



VALUE COUNT
2.2600 1
2.2700 2
2.2800
2.3000
2.3'iCO
2.3700
2.4100
2. 4800
2.4900 2
2.S600 2
2.57GO 1
2.1800 1
2.6400 1
2.4700 I
2.6900
7.7500
2.7600
2.7900
2.9000
2.9100
2.9200
2.9400
3.1000
ft


PERCENT;
CELL CUH
0.4 92.5
0.8 81.3
0.4 83.8
0.4 84.2
0.8 85.0
0.4 8r>.4
0.4 fir.. 8
0.4 8*. 3
0.8 87.1
0.8 H7.9
0.4 8R.3
0.4 8.1.8
0.4 89.2
0.4 HI. a
0.4 90.0
0.4 90.4
0.4 90.8
0.4 91.3
0.4 91.7
0.4 9M
0.4 92.5
0.4 9!. 9
0.4 93.3
0.7100
0.7200
0.7300
0.7400
0.7500
0.7600
0.7800
0.7900
0.8000
O.B100
0.8200
0.8300
0.8400
O.BSOO
0.8700
0.8900
1
1
.1
1
7
1
1
3
3
2
4
1
2
3
T
1
0.4 17.9
0.4 18.3
1.7 19.6
0.4 20.0
0.8 70.8
0.4 21.3
0.4 71.7
1.2 27.9
l.f 74.2
0.8 25.0
I./ 76.7
0.4 27.1
0.8 77.9
1.2 29.2
1.2 .10 . 4
0.4 30.8
1.2000
1.2200
1.2800
1.2900
1.3300
1.3600
1.3800
1.4100
1.4200
1.4400
1.4500
1.4600
1.4900
1.5000
1.5100
1.5200
1
1
1
3
3
1
1
1
2
1
1
1
S
1
1
2
0., 48.a 1.9300 0.4 74.6 3.1400 0.4 91.7
0.4 49.2 1.9600 0.4 /5.0 3.2100 0.4 94.2
0.4 49.6 1.9700 0.4 75.4 3. .1600 0.4 91. o
1.2 50. B 1.9900 0.4 75.8 3.4200 0.4 9S.O
1.2 W.I 7.0100 0.8 76.7 3.4500 0.4 9->.1
0.4 52.5 2.0200 0.4 77.1 3.5000 0.4 95.8
0.4 52.9 7.0600 0.4 77.5 3.5100 0.4 9«.3
0.4 53.3 2.0700 0.4 77.9 3.6100 O.B 97.1
0.8 S4. 2 7.9800 0.8 78.8 1.6200 0.4 97. j
0.4 54.4 2.0900 0.4 79.7 3.4400 0.4 97.9
0.4 55.0 7.1700 0.4 79.6 3.7300 I 0.4 9H.3
0.4 55.4 2.1900 0.8 80.4 3.7900 2 0.8 99.2
2 i -J7.S 7.2100 0.4 80.8 1.S300 1 0.4 99.4
0.4 S7.9 2.2200 0.4 81.2 4.0400 I 0.4 100.0
0.4 18.3 2.7400 0.4 81.7
0.8 59.2 2.2500 0.4 82. 1

-------
HYDRA86 CENTRAL BASIN  AIL  DATA
                                                                                                                  PAGE   230
  mtimmi
  t RS       t
  umuuiit

VARIABLE NUMBER 	
NUHBER OF DISTINCT VALUES  .
NUMBER OF VAIIIFS COUNTFD.  .
NUHBER OF VALUES NOT COUNTED
 12
132
240
  9
MAXIMUM
HIHIMUM
RANGE
VARIANCE
ST.DEV.
(03-OU/2
3.0300000
0.0000000
3.0300000
0.4171765
0.646124?
0.41SOOOO
H
MH
HH
HH
HH
HH
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
    0.7287083
    O.MQOOOO
   NOT UNIQUE
     ST.ERROR
      0.0417071
      0.0779423
                                 HHH  HHH
                                 HHHHHHH  H  H
                                 HHHHHHHHH  H
                                 HHHHHHHHHHHHHHHHHH
 FACH 'H1
REPRFSENTS
     5
 COUNT(S)
                                                                         SKEUNESS
                                                                         KURTOSIS
L 	
EACH



UALUF
1.08
0.59
•-' ABOVE =
L=
U=

VALUF/S.F.
6.83
1.88
0.1100
0.0000
3.4riOO
01: 0.1950000
03: 1.0250000
S-a 0.0825841
Si« 1.3748326
                                                                                             EACH
                                                                                                      BFLOU
                                                                                                                    0.0250
S 0
H - 1
N


VAI UE
0.000000
0.010000
0.020000
0.030000
0.040000
0.050000
0.060000
0.070000
0.080000
0.090000
0.100000
0.110000
0.120000
0.110000
0.140000
0.130000
0.160000
0.170000
0.180000
0.190000
0.200000
0.710000
0.270000
H N
D A
I N
PERCENTS
COUNT CEl 1 CUM
1 0.4 0.4
1 0.4 0.8
2 0.8 1.7
3 1.' 2.9
1 0.4 3.3
6 2.5 3.8
3 .7 7.1
2 .H 7.9
3 .2 9.2
.1 .?. 10.4
2 .8 11.3
4 .J 12.9
8 .3 16.3
4 ./ 17.9
3 .2 19.2
7 .8 70.0
4 .7 21.7
4 .7 73.3
2 O.B 24.2
7 O.fl 75.0
8 3.3 28.3
4 1.7 .10.0
4 1.7 31.7
0
3



VAI HE
0.350000
0.360000
0.380000
O.J90000
0.400000
0.470000
0.430000
0.450000
0.460000
0.470000
0.480000
0.500000
0.530000
0.540000
0.570000
o.:»9oooo
0.600000
0.410000
0.630000
0.640000
0.670000
0.680000
0.690000
t h


PERCENTS PERCENTS PERCENTS
COUNT CFll CUM VAI HE COUNT CEIL CUH VAI HE COUNT TELL CUI1
2 O.B 40.4 0.810000 2 0.8 67.9 .350000 2 0.8 84.2
3 1.2 41.7 0.820000 1 0.4 43.3 .190000 0.4 84.6
2 0.8 42.5 '0.830000 2 0.8 64.7 .440000 0.4 85.0
0.4 42.9 0.830000 ) 0.8 43.0 .470000 0.4 85. 4
0.4 43.3 0.840000 2 0.8 45.8 .520000 1.2 86.7
0.4 41.7 0.870000 1 0.4 64.3 .530000 1.2 87.9
0.4 44.2 0.880000 1 0.4 66.7 .590000 0.4 8ft. 3
0.'4 44.6 O.H90000 3 1.7 47.9 .400000 0.4 BH.8
2 0.8 45.4 0.900000 2 0.8 48.7 .430000 1.7 90.0
? 0.8 46.3 0.910000 1 0.4 69.2 .640000 0.4 90.4
2 0.8 47.1 0.930000 1 0.4 69.6 .660000 0.4 90.8
1 0.4 47.5 0.940000 1 0.4 70.0 .490000 0.4 91.3
1 0.4 47.9 0.950000 2 0.8 70.8 .770000 0.4 91.7
) 0.8 48.8 0.960000 1 0.4 71.3 .750000 0.4 92.1
2 O.B 49.4 0.970000 2 O.B 77.1 .790000 0.4 97.5
7 0.8 SO. 4 1.000000 1 0.4 72.5 .810000 0.4 92.9
0.4 50.8 1.010000 3 1.2 73.8 .840000 0.4 93.3
0.1 51.2 1,070000 3 1.7 75.0 .RBOOOO 0.4 91.7
0.4 51.7 1.030000 I 0.4 VS. 4 .970000 0.4 94.2
0.8 S2.5 1.060000 1 0.4 7-5.8 2.030000 0.1 94.4
0.4 52.9 1.110000 1 0.4 74.1 7.040000 0.4 95.0
0.4 31.3 1.170000 1 0.4 74.7 2.170000 0.4 91.4
1.7 33.0 1.130000 7 O.B 77.5 2.170000 0.4 95.8
0.730000
0.250000
0.760000
0.270000
0.780000
0.290000
0.100000
0.310000
0 .130000
0.340000
1
2
4
2
7
1
1
3
1
2
0.4 .12.1 O./OOOOO 1 0.4 53.4 1.140000 0.4 77.9 2.320000 0.4 94.3
0.8 32.9 0.770000 2 0.8 54.2 1.170000 0.8 78.8 7.310000 0.4 96.7
1.7 .14.6 0.730000 1 0.4 54.7 1.710000 0.4 79.2 2.340000 0.4 97.1
O.B 35.4 0.740000 1 0.4 57.1 1.240000 0.4 /9.A 2.390000 0.4 »7.5
O.fl 36.3 0.750000 7 0.8 57.9 l.?AOOOO 0.1 80.0 2.410000 0.4 97.9
0.4 36.7 0.760000 2 O.B SB. 7 1.290000 0.4 BO. 4 ?. 440000 0.4 98.3
0.4 .17. 1 0.770000 3 1.7 60.0 I. .110000 O.fl 81. 2 2.490000 0.4 9S.7
1.2 38.3 0.780000 2 0.8 60.8 1.320000 0.4 81.7 3.500000 0.4 99.2
0.4 3B.8 0.790000 7 O.B 41.7 I. .130000 0.4 82.1 2.540000 0.4 9V. 6
0.8 39.6 0.800000 1 0.4 *7.1 1.340000 3 1.2 81.3 3.010000 0.4 100.0

-------
HVORAR6 CENTRAL BASIN AIL DATA
                                                                                                                 PAGE   231
  m«st«it*»*
  I VS       »
  mutitm*

VARIABIF NUMBER	
NUMBER OF DISTINCT VAIUFS .
NUHBFR IIF VAIIIFS COUNTFD. .
NUMBER OF VftlUFS NOT COUNTED
                13
               103
               740
                 9
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
MAXIMUM
MINIMUM
RANBF
VARIANCE
ST.nFV.
(03-011/2
ST.FRROR
0.7598337 0.0703687
0.7.100000 0.0707073
0.7400000
2.2600000
0.1900000
2.0699999
0.099SA74
0.3155430
0.1950000




                                                                         SKEUNESS
                                                                         KURTOSIS
HH
HH
HHH
H HHH
H HHH
HHMHHH
HHHHHHHH
HHHHHHHHHH
HHHHHHHHHHHH
HHHHHHHHHHHHHHH H
EACH •-' ABOVE =
L =
U=

VALUF VftLUF/S.F.
0.91 S.7S
1.76 5.56



EACH 'H'
REPRFSFNT*
4
COUNT(S)


H
0.1000
0.1000
2.4000
01: 0.5300000
03» 0.9200000
S- = 0.4442902
St« 1.0753762
                                                                                             EACH
                                                                                                      BFIOU
                                                                                                                   0.0200
H
N

S
0
1
PERCENTS
VAl (IF COUNT
0.1900
0.7100
0.2400
0.2500
0.7600
0.2700
0.2900
0.3000
0.3200
0.3300
0.3400
0.3500
0.3600
0.3700
0.3800
0.1900
0.4000
0.4100
0.4200
0.4400
0.4500
0.4700
0.4800
1
1
1
1
1
7
1
1
1
3
2
1
1
5
5
7
1
1
4
1
5
1
1
CFIl
0.4
0.4
0.4
0.4
0.4
O.R
0.4
0.4
0.4
1.7
0.8
0.4
0.4
7.1
2.1
7.9
0.4
0.4
1.7
0.4
2.1
0.4
0.4
CUM
0.4
0.8
1.2
1.7
2.1
2.9
3.3
1.7
4.2
V4
6.2
6.7
7.1
9.2
11.3
14.2
14.6
n.o
16.7
17.1
19.2
19.6
70.0
MM
DA
IN
0
3
S
t



PERCENTS
VAl IIF milNT
0.5200
0.5300
0.5400
0. 1)300
0.5600
o.nsoo
0.5900
0.6000
0.6100
0.6700
0.6300
0.6400
0.6500
0.6600
0.6700
0.6800
0.6900
0.7000
0.7100
0.7200
0.7300
0.7400
0.7500
1
4
3
7
1
•>
1
H
3
7
5
5
6
7
3
t
6
4
2
5
3
8
4
CEll
0.4
1.7
1.2
0.8
0.4
0.8
0.4
1.7
1.2
0.8
7.1
7.1
2.5
0.8
1.2
0.8
2.5
1.7
0.8
7.1
1.2
3.3
1.7
CUM
23.8
71.4
26.7
77.5
27.9
78.7
29.2
30.4
31.7
32.5
34.6
36.7
39.7
40.0
41.3
42.1
44.6
46.3
47.1
49.2
50.4
S3. 7
55.4
VAl IIF COUNT
0.7900
O.BOOO
0.8100
O.H700
0.8300
O.H400
0.8500
0.8AOO
0.8700
0.8800
0.8900
O.VOOO
0.9100
0.9300
0.9400
0.9500
0.9600
O.V900
1.0000
1.0100
1.0300
1.0400
1.0500
1
7
3
1
5






5
2
1
2
)
2








PERCFNTS
r.FU
0.4
0.8
1.2
0.4
2.1
0.4
1.7
O.fl
0.4
1.7
1.7
2.1
0.8
0.4
0.8
0.8
0.8
1.7
0.4
1.?
0.4
0.4
1.7
n

X
PERCENTS
CUM VALUF. COUNT CELL
60.8
61.7
67.9
A3. 3
Art. 4
A-3.8
67. 5
A8.3
A8.7
;o.4
77.1
74.2
7-5.0
71.4
76.3
77.1
77.9
79.6
80.0
81.2
81.7
82.1
R.1.8
.1100
.1300
.1400
.1500
.1600
.1700
.1800
.2000
.2300
.2400
.2500
..'600
.7800
.7900
.3100
.1200
.3300
.1500
.3600
.4400
.4500
.5600
.7600
1 0.4
7 0.8
1 0.
1 0.
1 0.
1 0.
1 0.
1 0.
2 0.8
1 0.4
1 1.7
1 0.4
: o.a
1 0.4
1 0.4
I 0.4
1 0.4
1 O.R
1 0.4
I 0.4
2 0.8
1 0.4
1 0.4
run
87.1
87.9
R8..1
H8.8
89.?
89.4
90.0
70.4
91 .3
91.7
92.9
93.3
94.2
94.6
Vi.O
9'). 4
95.8
9A.7
97.1
97.3
98. J
98.7
99.2
       0.4900
       0.5000
       0.5100
6   7.5  72.5
1   0.4  27.9
1   0.4  73.3
0.7600
0.7700
0.7800
4   1.7  17.1
3   1.2  58.3
5   7.1  60.4
1.0600
1.0700
1.0900
4   1.7  8-5.4
2   0.8  86.3
1   0.4  86.7
1.7700     1    0.4   ?9.o
2.2AOO     1    0.4  100.0

-------
HYDRA86 CENTRAL BASIN All  DATA
  ismmim
  t PERUS    I
  ItmmtUt

VARIABLF NUMBER	
NUHBER OF DISTINCT VAIUF.S .
NUHBFR OF VAUIFS COIINTFD. .
NUHBER OF VALUES NOT COUNTED
                                                                                                                  PAGE    232
234
740
  9
HAXIHUH
NINIHUH
RANGF
VARIANCE
ST.nEV.
(03-Ql>/2
100.0000000
 71.93*9991
 78.0400009
3HR.4278239
 19.7083774
 14.0400009
LOCATION FSTINATES
                   HEAN
                   MEDIAN
                   HOPE
   SB.3724747
   14.5649986
   NOT UNIOUF
     ST.FRROR
      1.777IR7B
      I.R099941
   H HH
   H HH
   H HH
  HHHHH   HHH
  HHHHHHH HHH
  HHHHHHHHHHH H
 HHHHHHHHHHHHHHH
 HHHHHHHHHHHHHHH
HHHHHHHHHNHHHHHH
 FACH 'H'
REFRFSFNTS
     3
 COUNT IS)
                                                                       -J
                                                                                              EACH •-'  ABOVE
                                                                                                                    1.0000
                                                                                                                    3.0000
                                                                                                                   120.01)00
                                                                          SKEHNESS
                                                                          KURTOSIS
                                                           VALUF
                                                            0.30
                                                           -0.9B

                                                             EACH
                                                      VALUF/S.F.
                                                            1.90
                                                           -3.11

                                                     '.'  BFIOV  »
                                                       01 =
                                                       03'
                                                       S- =
                                                       s*-
                       42.4700003
                       74.31000:1
                       V».6A39023
                       7A.0810471
                                                                                                                    0.7300
SO OS
H - 1 H H 3 + «
N DA X
I N
PERCENTS PERCENTS PERCFNTS PERCENTS
VALUE r.miHT CFU CUM VAMIF COUNT CEll CUH VAUIE COUNT CFl 1 CUH UAI UF. COUNT PFI 1. CUM
21.96 1 0.
25.00 1 0.
2S.OB 1 0.
23.71 1 0.
26.37 1 0.
27.32 1 0.
27.80 1 0.
29.14 1 0.
29.71 1 0.
30.11 1 0.
31.17 1 0.
31.20 1 0.
31.37 1 0.
31.59 1 0.
31.97 1 0.
37.00 1 0.
32.19 1 0.
32.38 1 0.
32. SI 2 0.
32.57 1 0.
32.90 1 0.
31.08 1 0.
33.40 1 0.
33.53 1 0.
34.40 1 0.
34.47 1 0.
35.15 1 0.
35.25 1 0.
3S.32 1 0.
35.39 1 0.
35.58 1 0.
35.59 1 0.
35. B9 1 0.
3A.21 1 0.
36.32 1 0.
36.33 1 0.
37.10 1 0.
37.36 1 0.
37.70 1 0.
37.74 1 0.
38.06 1 0.
38.14 2 0,
38.68 1 0.
38. 81 1 0.
39.02 1 0.
39.03 1 0.
39.34 1 0.
39.86 1 0.
39.88. 1 0.
39.90 1 0.
40.37 1 0.
40.30 1 0.
40.51 1 0.
40.36 1 0.
40.39 1 0.
40.86 1 0.
41.21 1 0.
0.4 43.49
0.8 43.64
1.2 43.90
1.7 43.98
2. 44.11
2. 44.18
7. 44.37
3. 44.38
3. 44.93
4. 45.11
4. 45.13
5. 45.27
5. 45.40
5. 45.50
6. 45. 85
6. 45.92
7. 46.01
7. 46.52
8.3 46.64
8.7 47.02
9.2 47.30
9.6 4/.3S
10.0 47.74
10.4 47.77
10.8 48.06
11.3 48.19
11.7 46.42
12.1 48.48
12.3 48.83
12.9 49.03
13.3 49.48
13.7 49.83
14.2 30.16
14.6 50.26
13.0 30.50
15.4 50.66
15.8 30.78
16.3 50.88
16.7 30.9*
17.1 51.34
17.5 51.41
18.3 51.44
18.7 51.61
19.2 52.30
19.6 52.34
70.0 52.35
20.4 32.47
70.8 52.49
21.3 32.74
71.7 31.00
27.1 33.14
72.3 S3. 66
22.9 53.88
73.3 34.20
23.8 34.22
74.2 54.44
24.6 34.51
41.77 1 0.4 75.0 54.62
43.09 1 0.4 25.4 34. 66
0.
0*
0.
0*
0.
0*
0.
Q,
0.
0.
0.
0.
0.
0.
0.
0«
0.
Oi
0.
0.
0.
25.8 55.51 1 0.4 r>1.7 75.35 1 0.4 76.7
76.2 55.83 1 0.4 51.7 75.86 1 0.4 77.1
7A.7 56.17 2 0.8 57.5 76.0!i 1 0.4 77.5
77.1 MA. 72 1 0.4 52.9 76.21 1 0.4 77.9
77.5 57.04 1 0.4 53.3 76.40 1 0.4 7R.3
77.9 57.08 1 0.4 51.7 76.61 1 0.4 78.8
28.3 57.47 1 0.4 54.7 76.62 1 0.4 79.2
7R.7 57.89 1 0.4 54.6 76.79
29.7 57.99 1 0.4 55.0 77.11
30.0 58.13 1 0.4 51.4 78.31
30.4 58.57 1 0.4 55.8 78.36
30.8 58.60 1 0.4 5A.2 79.00
31.2 59.24 1 0.4 56.7 79.07
31.7 60.00 1 0.4 57.1 79.59
37.1 60.29 1 0.4 '.7.5 80.00
.12.5 60.31 0.4 57.9 80.12
32.9 60.63 0.4 SB. 3 80.77
.13.3 60.97 0.4 38.7 Rt.74
33. B 61.72 0.4 39.7 82.43
34.2 61.76 0.4 59.6 82.47
34.6 62.50 1 0.4 AO.O 82.4V
0.8 35.4 67.60 1 0.4 A0.4 81.15
0.4 13,8 62. 9A 1 0.4 60.8 83. '4
0.4 79.6
0.4 80.0
0.4 80.4
0.4 BO. 8
0.4 81.2
0.4 81.7
0.4 R?.l
0.4 B7.S
0.4 H7.9
0.4 83.3
0.4 83.8
0.4 84.7
0.4 84. 6
0.4 83.0
0.4 81.4
0.4 Hr,.8
0.4 36.3 63.07 1 0.4 61.2 81.33 I 0.4 So. 3
0.4 36.7 64.0.1 1 0.4 61.7 83.77 1 0.4 B6.7
0.4 37.1 64.43
0.4 37.5 64.57
0.4 37.9 64.74
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0*
0.
0*
0.
0*
0.
0»
0.
0«
0.
0*
0.
0.
0.
0.
0.
0.
0.
Jfl.J 64.90
.18.8 65.14
39.7 65.77
39.6 66.67
40.0 67.08
40.4 67.24
40. R 67.54
41.3 67.58
41,7 68.78
42.1 68.97
47. S 69.16
42.9 69.47
43.3 70.40
43.7 70.47
44.7 70.73
44.6 70.81
45.0 71.14
45.4 71.50
43. R 71.77
46.3 71.87
46.7 77.14
47.1 72.28
47.5 72.35
17.9 72.86
48.3 72.95
48.8 73.77
49.7 73.8.1
49.6 74.43
50.0 74.57
50.4 75.18
50.8 75.30
0.4 62.1 84.07 I 0.4 87.1
0.4 67.5 84.11 1 0.4 87.5
0.4 62.9 84.18 I 0.4 87.9
0.4 63.3 84.74
0.4 63.7 84.33
0.4 64.7 84.40
0.4 64.6 86.34
0.4 63.0 86.81
0.4 65.4 8A.98
0.4 A5.8 87.4.1
0.4 66.3 R7.63
0.6 67. 1 89. 2/
0.4 A7.5 89.96
0.4 67.9 90.75
0.4 68.3 91.40
0.4 AR.7 91.70
0.4 A9.2 91.72
0.4 A9.A 92.31
0.4 70.0 92.98
0.4 70.4 93.33
0.4 70.8 93.75
0.4 71.3 93.90
0.4 71.7 94.29
0.4 77.1 94.41
0.4 72.5 93.02
0.4 77.9 93.09
0.4 71.3 9A.79
0.4 73. R 97.04
0.4 74.2 97.06
0.4 74.6 97.77
0.4 75.0 9ft. 73
0.4 75.4 100.00
0.4 DR. 3
0.4 88.8
0.4 89.7
0.4 R9.6
0.4 90.0
0.4 9A.4
ft. 4 90.8
0.4 91.3
0.4 91.7
0.4 9P.1
0.4 97.3
0.4 9?. 9
0.4 93.3
0.4 9.1.7
0.4 94.2
0.4 94.6
0.4 95.0
0.4 95.4
0.4 95.8
0.4 9A.3
0.4 96.7
0.4 97.1
0.4 97. S
0.4 97.9
0.4 98.3
0.4 98. 7
0.4 99.2
0.4 99.6
0.4 100.0
0.4 7S.8
0.4 76.3

-------
 HYDRAB4 CENTRAL BASIN All DATA
                                                                                                         PAGE    233
l«M*t*St(l*
1 CONDCORR »
IllJimim


ft
K AX I HUH
MINIMUM
298.0000000
? .(9. 0000000
NUMBER OF DISTINCT VALUES . 34 RANGE 59.0000000
NUHBFK (IF VAllirS COUNTED. . 24? VARIANCE 55.8911095
NUHbEK OF VALUES NOT COUNTED 0 ST.DCV. 7.47*013*
( 0.1-0 1)/2 5.0000000
LOCATION ESTIMATES ST. ERROR
NEAN 247.4704848 0.4717743
HFDIAN 7A8.QOOOOOO 0.577350A
HODE
X
.1


zaa.gooooBB
S


PERCENTS
VALUE COUNT
219. 1
244. 1
245. 1
247. 1
251. 4
252. 1
254. 3
236. 1
247. 3
CEL L
0.4
0.4
0.4
0.4
1.6
0.4
1.2
1.7
1.?
CUH
0.4
0.8
1.2
1.6
3.2
3.6
4.8
4.0
7.2
VA1 lit
258.
.'S9.
260.
2A1.
262.
2AJ.
264.
3A5.
266.
COUNT
3
:>
i?
4
10
1.1
11
IV
12
0
1

H HH
0 AO
E NI
SKFUNESS
KUKTIISIS
0 S
3 1


PERCENTS
CEIL
1.2
2.0
4.R
1.4
4.0
1.7
4.4
7. A
4.R
CUN
a.
10.
i:>.
16.
20.
?4.
30.5
.10.2
4.1.0
WAI (IF.
267.
2A8.
269.
270.
271.
J7?.
273.
274.
275.
r.nuNT
is
11
11
1A
16
10
10
rt
11

H
H
H

HHH
HHHH
HHHHH
HHHHHH
HHHHHHH
HHHHHHH
HHHHHHHHH
HHHHHHHHHHHHHH


EACH 'H-
REFRFSFHIS
1
CQUNKSl
H
EACH •-' ABOVE = 3.0000
L = 234.0000
U= 303.0000
Cll» ::o2.0COOuOO
VAlllt VxlllE/S.E. Qt- 271.0000000
-0.31 -1.99 S-- 760.l9-lc.411
1.57 5.04 St= 27i.ll&?23>u
EACH •.' BF.LUU - 0.5000
n



PERCEHTS
CEU
6.0
4.4
4.4
4.4
4.4
4.0
4.0
1.7
4.4
fUH
49.0
•53.4
57. i>
44.3
70.7
74.7
78.7
81.9
BA.1
VALUE
274.
277.
278.
,>79.
280.
281.
282.
•'BJ.
298.
COUrtT
9
•»
10
',
T
1
T
I
1

t
PERCENT:;
PELL
1.6
0.8
4.0
2.0
i..B
0.8
O.B
0.4
0.4
Cun
90.0
90.8
94.8
9a.e
97.6
VH.4
ȴ.2
»v.o
IHO.O
HYDRA86 CENTRAL BASIN ALL DATA
  1 CL

3
HA). I HUH
H1HIHUH
18.0000000
7.0000000
NUHBER 'JF DISTINCT VALUES . 34 RANGF 11.0000000
NUHBKf. 'IF VAllltS COIINTFD. . 747 VAKIANCE 0.8971967
NUHbER OF VALUES NOT COUNTED 2 ST.HF.V. 0.94477.14
(0.1-011/2 0.?SOOVOO
LOCATION ESTIHATES S'.FUKOR
HEAH 14.7412958 0.0601145
MEDIAN 14.4999998 0.0.'RH474
N
N
HODE



14.6999998


PERCENTS
VALUE
7.000
8. ADO
9.300
17.900
13.200
1.1.300
'.3.700
13.900
14.000
COUNT
1
1
1
1
2
1
2
A
I
TFU
0.4
0.4
0.4
0.4
0.8
0.4
0.8
2.4
0.4
CUH
0.4
O.B
1.2
I.A
2.4

3.6
6.1
6.5
VAIIIE
14.100
14.200
14.100
14.400
14.500
14.AOO
14.700
14. ROD
14.900
COUNT
9
7
7
14
17
24
79
VI
14


SKFVNESS
KURIOSIS
S


PERfFNTS
CEIL
3.4
2.8
7.8
3.7
4.9
10.5
11.7
8.9
S./
CUH
10.1
13.0
11.B
71.5
2H.3
,18.9
50.6
•i9.5
65.2
VAl UE
15.000
It). 100
15.200
15.. 100
15.400
1*3.500
15.4dO
13.700
15.800
IIDIIHI
?5
12
17
10
4
1
1
1
4
Q 0
i mi .1
DA
IN
H
H
H
H
H
H
HH
HHH
HHH
HHH
HH HHHHHHHHH


EACH H'
12
COUNT (Si
H
EACH '-' dOO'JE : 0.5000
L- 7.0000
U- 111.5000
01 I4.5u00000
VALUF UALUF/S.F. 03- IVOOOOGuC
-3.70 -23.74 S-= !3.79ii221
28.61 91.92 S»-= lc..6BoGtV5
EACH '•• BFIOU * 0.1000
S
» n



PERCENTS
I'Fll
10.1
4.9
4.9
4.0
1.4
1.2
0.4
0.4
1.6
run
7ri.3
HO. 2
B'i.0
89.1
90.7
91.9
9?.1
92.7
94.3
VAI.UF.
15.900
16.000
16.100
14 ICO
16.100
IA.400
17.000
17.800
18.000
COUKF
1
1
•»
I
1
1
1
1
1
X

PERCEHIS
TELI.
O.B
1.2
0.8
0.4
(1.8
0.4
0.4
0.4
0.4
cun
9'i.l
94.4
9/.T
97.4
9H.4
9H.b
9».:
99.4
100.0

-------
HTDRAB6 CENTRAL BASIN All  DATA
  mumsm
  t ALKTOT   t
  Utmmui

VARIABLF NUMBER 	
NUHBER OF DISTINCT VALUFS .
NUMBER tlF VALIIFS r.nilNTFD. .
NUHBER OF VALUES NOT COUNTED
                                                                                                                  PAGE   234

6
124
249
0

NAXIHUH
NIN1HUN
RANGF
VARIANCE
ST.OFV.
(03-UD/2
112.3000031
93.39*9985
18.7000046
15.30HB749
3.9381.109
3. 3000008
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
103.0140331
103.400001S
103.8000031
ST.ERROR
 0.24V5689
 0.37-52787
          HH
          HH  H
     HH HHHH  H
     HH HHHHHHH
     HH HHHHHHH
    HHHHHHHHHHHH
    HHHHHHHHHHHHH
 HHHHHHHHHHHHHHHH
HHHHHHHHHHHHHHHHHHHH
                                                                                     EACH 'H'
                                                                                    REPRFSENTS
                                                                                         3
                                                                                     COUNT(S)
                                                                 -U
                                                                          SKEWNESS
                                                                          KURTDSIS
                                                                                              EACH  •-' ABOVE =
                                                        VALUE   VALUF/5.F.
                                                        -0.17        -1.13
                                                        -0.70        -2.?6
                                                                                              EACH
                                                                                                      BfLOU
                                                                 I.0000
                                                                92.COOO
                                                               iin,oooo

                                                               01=   «9.4999969
                                                               03-  lOc.0999985
                                                               S- =   99.0759201
                                                               St»  I04.9r.2104o

                                                                 0.1500
H
N


S 0
1



PERCENTS
VALUE COUNT CFIL
93. iO
93.90
94.30
94. SO
94.90
95.10
95.40
9-3.90
96.00
9A.10
9A.30
96.40
96.80
97.00
97.30
0.4
0.4
0.4
O.fl
0.4
0.4
0.4
0.4
0.4
0.4
0.4
O.R
0.4
0.4
0.8
9/.40 7 O.R
97.50 1 0.4
97.60 7 O.fl
97.70 1 0.4
97.80 1 0.4
97.90 1 0.4
9H.OO 7 O.ri
98.10 4 1.6
CUM
0.4
0.8
1.2
2.0
2.4
2.8
3.2
3.6
4.0
4.4
4.8
5.6
6.0
6.4
7.2
8.0
8.4
9.2
9.6
10.0
10.4
11.2
17.9
VAIUE
99.20
99.40
99.30
99.60
99.70
99.80
99.90
100.00
100.10
100.20
100.30
100.40
100.50
100.60
100.70
100.90
101.10
101.20
101.40
101.50
101.60
101.70
101.80
COUNT
1
S
3
7
3
7
1
7








2
7
2
1
2
7
3


N
A
N
N H
D D
I E


PERCENTS
CEIL
0.4
2.0
1.2
0.8
1.7
0.8
0.4
0.8
0.4
0.4
1.2
0.4
0.4
0.4
0.4
0.4
0.8
0.8
0.8
0.4
0.8
0.8
1.7
CUN
20.1
72.1
23.3
74.1
7!i.3
76.1
76.5
77.3
77.7
;u.i
79.3
79.7
30.1
30.5
30.9
.11. 3
37.1
32.9
33.7
.14.1
34.9
.US. 7
3A.9
VAl HE
102.80
103.00
103.10
103.20
103.30
103.40
103.30
101.60
103.70
103.80
103.90
104.00
104.10
104.20
104.30
104.40
104.50
104.60
104.80
104.90
105.00
105.10
105.20
COUNT
1
7
2
3
2
«
1
7
1
7
4
7
1
7
5
:i
2
i
3
4
3
1
1
Q
3

S
+





PERCENTS
CEIL
0.4
o.a
0.8
1.2
0.8
1.2
a. 4
0.8
0.4
2.8
1.6
0.8
0.4
O.R
7.0
2.0
O.B
0.4
1.2
1.6
1.2
0.4
0.4
nun
45. R
46.6
47.4
48.6
49.4
50.6
51.0
51.8
52.7
53.0
5A.6
57.4
57. A
b8.4
60. A
62. 7
63. 5
A3. 9
65.1
66.7
67.9
Afl.3
68.7
VALIIF.
106.40
104.50
106.60
106.70
106.80
106.90
107.00
107.10
107.70
107.30
107.40
107.50
107.60
107.70
107.80
107.90
108.20
108.60
108.80
lOfl.90
109.00
109.10
109.40
COUNT
3
7.
1
1
3
T
3
5
2
!i
1
3
2
7.
1
I
4
I
i
I
2
i
1


n
X
PERCENTS
PEII.
1.2
0.8
0.4
0.4
1.2
0.8
l.J
2.0
0.8
2.0
0.4
1.2
0.8
0.8
0.4
0.4
1.6
0.4
O.R
0.4
0.8
0.8
0.4
CUM
V7.1
77.9
7B.3
78.7
79.9
80.7
81.9
81.9
84. 7
84.7
87.1
88.4
B9.2
90.0
90.4
90.8
97.4
9.'.B
93.4
94.0
94.8
9I.o
96.0
98.20
98.40
98.50
98.40
98.70
98.80
99.00
99.10
4
2
1
4
1
2
;
i
1.6 14.5
0.8 15.3
0.4 15.7
1.6 17.3
0.4 17.7
0.8 18.5
O.fl IV. 3
0.4 19.7
101.90
102.00
107.20
102.30
107.40
102.50
102.60
102.70
.1
2
1
1
.1
4
.<
2
1.7 .18.2
0.8 39.0
1.7 40.2
0.4 40.6
1.7 41.8
l.A 43.4
1.2 44.6
0.8 43.4
105.30
103.50
105.70
105.80
KV...90
106.10
106.20
106.30
S 2.0
0.4
1.2
1.7
1.2
0.4
0.4
0.4
70.7
/I. I
/2.3
•t.\. 5
74.7
7ri.l
y'i.5
7Ii.9
109.50
109.60
109.70
109.80
110.40
110.70
111.20
112.30
1 1.
1 0.
1 0.
1 A.
1 0.
1 (I.
1 0.
1 (I.
' 97.2
97.6
98.0
«8.4
98.8
99.2
99. A
100.0

-------
HVDRA84 CENTRAL BASIN AIL DATA
                                                                                                                 PAGE    235
  tutmism
  ( ALkF-H    «
  tttuxUdt

VAR1ABIF NUMBER 	
NUMBER OF DISTINCT VALUES .
NUMBER JF VAIIIFS COUNUD. .
NUMBER OF VALUES NOT COUNTED
  7
 49
249
  0
NAXIHUH
MINIMUM
RANGF
VARIANCE
ST.DEV.
(D3-OU/2
10.800000?
 0.0000000
10.800000?
 6.3351453
 2.5170112
 2.2000000
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
    2.75823JA
    2.5000000
    0.0000000
     ST.tRROR
      0.1SV5091
      0.7309402
H
H
H
H
H
H
H
H  H H
H HHHHHHHH HH
HHHHHHHHHHHHHHHHHHH
 EACH 'H'
REPRESENTS
     8
 COUNT(S)
                                                                      -J
                                                                                             ErtCH '-• ABOVE
                                                                         SKEUNESS
                                                                         KURTOSIS
                                                          VALUF
                                                           0.66
                                                          -0.30

                                                            EACH
                                                                                                           L =
                                                                                                           U=
                                                     VRLUF/S.F.
                                                           4.24
                                                          -0.94

                                                     ••' BfLOU =
                                                       O.SOOO
                                                       0.0000
                                                      11.5000

                                                     01-    O.OOOOUOO
                                                     03 =    4.40000U1
                                                     S-=    0.2412214
                                                     S+=    S.2752438

                                                       0.1000
0 S
M -
N







N M
B A
I N



PERCENTS
VAl HE
0.0000
0.7000
0.8000
I. 0000
I. 1000
1.2000
1.3000
1.4000
1.5000
1.6000
1.7000
1.8000
1.9000
2.0000
2.1000
2.2000
2.3000
2 . 4000
COUNT
73
.<
2
7
2
1
6
2
4
7
3
.1
4
3
5
3
2
7
CEIL
27.3
1.2
0.8
0.8
O.B
0.4
2.4
0.8
1.6
O.H
2.0
1.2
1.4
1.7
2.0
1.2
0.8
0.8
CUM VAl HE
2?. 3 2.SOOO
30.5 7.AOOO
31.3 2.7000
J2.1 7.DOOO
32.9
33.3
35.7
.16.5
38.2
.(9.0
41.0
42.2
43.8
45.0
47.0
48.2
49.0
49.8
.0000
.1000
.2000
. .1000
.4000
.5000
.4000
.7000
.8000
.9000
.0000
.1000
.2000
.3000
r.niiNT
2
9
3
2
5
7
4
4
S
1
1
S
2
4
3
1
5
2
0 S
3 *


PERCENTS




CEI1 CUM VAIIIF CnilNI
O.H 50.6 4.4000 3
3.6 S4.2 4.6000 7
1.2 55.4 4.7000 4
0.8 56.2 4.HOOO 3
7.0 58.2 4.9000 2
0.8 59.0 5.0000 1
1.6 60.6 5.2000 3
1.6 62.2 5.1000 1
2.0 64.3 S.SOOO 1
0.4 64.7
0.4 65.1
2.0 67.1
0.8 6/.9
1.6 69. S
1.7 70.7
0.4 71.1
7,0 73.1
0.8 73.9
.6000 3
.7000 4
.HOOO .1
.9000 2
.0000 1
.1000 4
. 7000 .1
.3000 1
.1000 1



PERCEN1S
CFI i run
1.7 7ri. 1
0.8 75.9
1.4 >7.5
1.2 78.7
0.8 79.5
0.4 79.9
1.7 81. 1
1.2 82.1
0.4 87.7
1.2 83.9
1.4 85.5
1.2 86.7
O.B 87.6
0.4 H8.0
1.6 89.6
1.2 90.8
0.4 91.2
0.4 91.6



n
X




PERCENTS
VALUE COUNT TELL
6.6000 1
6.9000
0.4
0.4
7.0000 3 1.2
7.1000 1 1.2
7.7000
0.4
7.4000 7 0.8
7.5000
7.AOOO
7.7000
8.3000
8.6000
8.7000
9.1000
10.7000
10.POOO



0.4
0.4
0.4
0.8
0.4
0.4
0.4
0.4
0.4



cun
92.0
9?. 4
V3.6
91. B
95.2
96.0
96.4
9A.8
97.2
9R.O
98.4
9M.8
99.2
99.a
100.0




-------
HYDRA86 CENTRAL BASIN ALL DATA
PAGE    236
smimmt
f PH
t




tttltmtltl





NUNBER OF DISTINCT VAI UES .
NUMBER tlF VAUIFS COUHrtO. .
NUMBER OF VALUES NOT COUNTED
LOCATION ESTIHATES























H
I
N

VAI UE COIIN1
7.2&0 :
7.280
7.300
7.320
7.330
7.340
7.350
7.360
7.370
7. 380
7.400
7.410
7.420
7.430
7.440
7. 450
7.460
7.490
7.500
7.510
7.540


7.550
7.560
MEAN
HF.DIAN
NODE












MAX I HUH
S NINIHUH
93 RANGF
749 VARIANCE
0 ST.DFV.
(OJ-QD/2
8.
7.
1.
0.
0.
0.


6800003
2600002
4200001
15AAHB7
3918397
.1299*99










ST.FRROR
8.0877113 0.0750853
8.7700003 0.0144338













PERCENTS
CFLl CUH
0.8 0.8
0.4 1.2
0.4 1.6
l.A 1.2
0.4 3.6
1.7 4.8
0.4 5.2
1.7 6.4
1.6 8.0
I.J 9.2
0. 9.6
0. 10.0
2. 17.0
0. 12.4
0. 12.9
0. 13.3
2 0.8 14.1
? 0.8 14.9
2 0.8 15.7
i o.s u.s
I 1.2 17.7
1 0.4
1 0.4
18.1
18. 5
8.2500000








SO
-1


VAI HE r.niiNi
7.SBO
7.590
7.610
7.620
7.640
7.660
7.670
7.680
7.700
7.710
7.720
7.740
7.750
7,910
7.960
7.980
7.990
8. 050
8.060
fl.100
8.120
8.130
B.140
PER
CFll
l.t
0.<
O.C
0.
0.
0.
0.
0.
0.
0.
0*
0.
0.
0.
0.
0.
0 .
0.
0.
1.
0.













CFNTS
CUN
20.5
70.9
71.7
72.1
72.5
73.7
21.1
74.5
24.9
73.7
26.1
76.5
76.9
77.3
77.7
78.1
78. S
78.9
79.3
(0.1
31.7
32.1
2.0 34.1






SKEUNESS
KURTOSIS


H N
A D
N I










H
D
E
VAI UE COUNT
8.160 1
8.170 H
8.1BO 3
8.190 7
8.200 6
8.7.10 7
8.220 7
8.730 H
8.240 2
8.7SO 10
8.260 3
8.770 H
8.280 6
8.790 4
8.300 1
8.310 7
B.320 4
8.130 .'
8.340 4
8. 360
8.370 5
8.380
8.390
•i
6

















H
H


HH
HH
HH
HH EACH -H-
HHHHH REPRESENTS
HHHHH 4
HHHHHH COUNT (S)
HHH HH HHHHHHH
HHHHHH HHHHHHHH
HHHHHHHH HHHHHHHHHHH

EACH '



VALUF
-0.79
-0.73
EACH '
0 S
3 *


PERCFNTS
CF.ll HUH
0.4 3'>.T
3.7 38.6
1.7 39.8
2.8 42.6
7.4 45.0
2.8 47.8
2.8 50. A
1.2 53.8
(1.8 54. A
4.0 58.4
1.7 59.8
1.2 Al.l
7.4 A3. 5
l.A A7.1
0.4 67.5
0.8 AS. 3
1.6 69.9
O.S 70.7
1.6 77.3
O.fl /3.1
2.0 7r>.I
2.0
2.4
77.1
79.5

-• ABOVE = 0.0750
L= 7.13f.O
U° 8.8-jOO
01: 7.7100000
VALUF/S.F. 03= 8.3a99"Y»
-5.11 S-» 7.0918721
-2.43 5t= B. 4835510
.' BELfly = 0.0150

n
X

PERCENTS
VALUF COUNT CEI L CUM
8.470 6 7.4 83.1
8.430 4 l.A 84.7
8.440 2 0.8 85.5
8.450 7 0.8 8A.3
8.460 4 1.6 FlR.O
8.470 2 0.8 RR.8
8.480 2 0.8 89. A
8.490 7 0.8 90.4
8.500 2 0.8 VI. 2
8.510 7 0.8 9'.'.0
8.570 3 1.2 V3.2
8.530 •< 0.8 94.0
8.540 1 0.4 94.4
8.550 1 1.2 9i.i
8.560 1 0.4 96.0
8.580 "" 0.8 9.S.8
8.590 1 0.4 97.2
8.600 P 0.8 9H.O
R.650 3 1.7 99.2
8.660 1 0.4 94.6
8.680 1 0.4 100. 0


        7.S70     1    0.4  18.9        8.150     7   0.8  34.9        8.400
                                                                                 1.2  80.7

-------
                                        PAGE   237
APPENDIX C

-------
EASTERN BASIN ALL DATA
PAGE   238
Illtlllllfll
I 7EHP 1
limimUl
NUMlsCR OF DISTINCT VALUES .
NUIMJTR UF VAl NFS CnilNTED. .
NUnbuK OF VALUES NOT COUNTED
LOCAMDH FSTIHAIES
NEAN
HEIUAN










MODE

N
N

2
hAXlhUM 18
MINIMUM 4
43 RANGF 14
69 VARIANCE 71
0 ST.DFV. 4
IQ.I-Oll/2 4
ST.FRROR
11.6028996 0.5B:>V4?H
1.1. !)OHOOOO 1.44J37&4
NOT UNIQUF




PERCENTS
VAIUE COUNT CEIL CUN
4.300 2 2.9 2.9
4. BOO 1. 4.3










5.300
5.400
5.500
5.600
S.700
5.800
6.400
6.500
6.600
*»II«II*M»*
tl.illllim

S.
2.
1.
1.
t .
1.
2.
1.
1.4



10.1
13.0
14.5
13.9
17.4
18.8
21.7
71.2
24.6




NUHbCr, OF DISTINCT VAl UES .
NUim'K (IF VAIIIFS CnilHTtO. .
NUHkL* OF VALUES NOT COUNTED-


SO
-1


VAl IIE
6.800
7.100
7.300
7.400
7. 500
B.400
9.000
9.600
10.200
10.800
11.900



3
37
69
0




COUNT
3
1
I
1
3
1
1
1
1
1
1


MAX I HUH
MINIMUM




PERCFNTS
I:EI L CUN
.3 29.0
.4 JO. 4
.4 31.9
.4 33.3
.i 37.7
.4 19.1
.4 40.6
.4 47.0
.4 43.5
.4 44.9
.4 46.4


12.
4.
RANGF 7.
VAN1ANCE 2.
ST.DEV. 1.
(03-UD/2 0.
LOCATION ESTIMATES
HE AN
MEDIAN
























U

1
N

NODE



























PERCENTS
VAIUE COUNT CEll CUM
.ana i 1.4 1.4






.100
.500
.600
.900
.000
7.700
7.800
8.200
8.. 100
.1 4.3
1 1.4
> '1.1
1 1.4
1 1.4
2 2.9
1 1.4
2 7.9
2 7.9
5.8
7.2
10.1
11.6
13.0
15.9
17.4
20.3
71.2
ST
9.2753620 0
9.:iooaooo o
9.6000004













VAl UE
8.400
8.500
8.600
K.700
8. BOO
.700
.400
.100
.600
.700









S




COUNT
3
.1
3
V
2
2
1
4
5
7
.ERROR
. 19H4747
.739H076









0
1



PERCFNTS
I:EI i CUN
4.3 27.5
4.3 it. 9
4.3 36.2
2.9 19.1
7.9 47.0
2.9 44.9
1.4 46.4
1.8 1)2.2
1.2 59.4
2.9 62.3
.5000000
. 3000002
.199999R
.6H9A954
867706)
.34V9999
SKEWNESS
KURTOS1S

H N
A D
N 1
VAIUE COUNT
12.400 1
13. 100 1
13.500 2
13.800 7
13.900 3
14.000 1
14.700 3
14.100 1
15.000 1
11.100 1
15.500 2


3000002
8000002
5000000
7180612
6486043
9300003




Earn 'H1
H H kFPlttSfNl^
HHH 2
HH H H COUNl(b)
HHH HHH H
HHHH HHHH H
HHHHHHHHHHHHHHH
EACH •-' AHflVE =
U-
VALUF VALUf/S.f.
-0.01 -0.1T.
-1.S3 -2.59
EACH '.' BFIOU =




0
3


PERCFHTh
CFI I HIM
1.4 47. B
1.4 4V. 3
7.9
2.9
4.3
.3
.3
.4
.4
.4
2.9






V.2
1)1.1
1)9.4
61.8
6B.1
A9.6
/l.O
75 .'4






S
i


1.0000
1.0000
21.0000
01° 4.8000002
0.1° li.tiOOOOOO
St= 16. 47010ol
0.1500

H
A
X

VAI uc COUNT r.Ei L cun
15.900 1.4 76. H
14.000 1.4 70. J
16.IOU
14.200
IB. 000
IB. 100
IB. 700
H9.100
18.400
IB. ^00





H
H HH
HHHHH
1.4 /»./
?.9 82.6
1.4 H4.I
1.4 Ti . i
1.4 B7.0
1.S 92.11
3 4.1 V7.1
2 ?.9 100. 0





EACH 'H-
REFKhSFNlS
COUNIIS)
HHHHH H
HH HHHHHH HHH
H HH HHHHHHHHHH






SKFVNESS
KURTOSIS


N N N

ADD
N 1 E
VAIUE COUNT
9. BOO 3
10.000 1
10.100 2
10.700 1
10.300 4
10.400 1
10.500 1
10.700 1
lO.flOO 1
11.100 1









0
3




EACH



VALUF
-0.33
-0.13
EACH
S
*



PERCENT?
CELI (.'in
4.3 66.7
1.4
7.9
1.4
5.8
1.4
1 .4
1.4
1.4
1.4
72.5
78. 3
79.7
RI.7
H/.6
8*.. 1
B5.5

•-• ABOVE =
LS
U=

VALUE/S.E.
-1.11
-0.76
'.' DELOU *






O.SOOO
4.5000
13.5000
01: B.399999a
03° 10.1000002
S-= 7.676/OBO
St= 10.974ulaO
0.0750

n
..A
n

PEkCENTS
VALUE COUNT CEl L CUM
11.700 1 1.4 H7.0
11.500
11.600
11.700
17.000
12.100
17.300



\ 1.4 BH.4
1 4.1 9?.B
I 1.4 94.2
1 1.4 9'.. 7
1 1.4 97.1
: 2.9 100.0




-------
HYDRA84 EASTERN BASIN ALL DATA
PAGE   239
**mt**ms
* PERDO t
tmumm
MAXIMUM
NUHBER OF DISTINCT VALUES .
NUMBER IIP VALIIFS C.miHTFD. .
NUMBER OF VALUES NOT COUNTED
LOCATinN ESTIHATES
MEAN
MEDIAN
MODE
It
N

VAL UE COUNT
42.74 t
30.80 1
51.04 1
51. IS
54.48
54. 51
55.15
59.65
62.72
63.78
64.61
6A.S4
66.65
68.39
69.60

PERCENTS
P.El I CUN
.4 1.4
2.9
4.3
5.B
7.2
a. 7
10.1
11.6
13.0
13.9
17.4
18.8
20.3
1. 71.7
1. 23.2
106.5100021
47.7400017
59 RANPF 63.7700005
69 VARIANCE 743.9A49A58
0 ST.DEV. 15.61937RI
(03-OD/2 H. 1899984
ST.FRKOR
84.4575500 1.8803523
H9. 9100037 0.655/919
89.0500031

S

SKEyNESS
KURTOSIS
0
1



PERCFNTS
VA1IIE COUNT
70.31.,
/H.1S
78.29
/8.97
85.5R
83,93
86.79
BA.98
87.45
8H.21
88.40
89.05 3
89.07 1
B9.37 1
89.78 2
CF.1 1
.4
.4
.4
.4
.4
.4
.4
.4
.4
.«
.4
.1
.4
.4
7.9
run
24.6
ft,. I
?;.s
79.0
30.4
31.9
33.3
.14.8
36.2
37.7
39.1
43.5
44.9
46.4
49.3
VA1 HE
89.91
90.48
90.55
90.73
90.95
91.37
91.3?
92.22
92.80
92.84
93.43
94.21
94.4!)
94. S3
94.70
COUNT
1
1
2
1
1
1
2
1
2
1
2
1
1
1
1
H
A
N
EACH
VALUE
-1.03
-0.11
EACH
H n
D D
E I
H
MH
HH
HH
HHH
KHH
H HHHH
H HH H HHHH
H HHHHHH HHHHH


EACH -H*
REPRESENTS
2
COUNT (S)
'-' ABOVE = 5.0000
L= 30.0000
U= 120.0000
01' 78.1500015
VALUF./S.F. 03" 94.5?999BB
-3.50 S-- AR. 8181729
-0.19 Si* 100.0769:72
'.' BFLOV - 0.5000
0 S
3 * «

PERCENT S
CF.1 1
1.4
1.4
7.9
1.4
1.4
1.4
2.9
1.4
7.9
1.4
2.9
t.4
1.4
1.4
1.4
CUM
50.7
1)2.2
53. 1
!iA.5
58.0
b».4
62.3
61.8
64.7
A8.1
71.0
73.5
73.9
75.4
76. B
VAI HE COUNT
95.76 1
95.64 1
96. 45 1
96.47 1
97.64 1
97.85 I
98.46 1
99.08 1
99.5? 1
100.02 2
100.54 3
101.01 I
103. 7/ 1
106.51 1


X
PERCENTS
CELL
1.4
1.4
1 .4
1.4
.4
.4
.4
.4
.4
2.9
2.9
1.4
1.4
1.4

CUM
78,3
79.7
81.2
82.6
84.1
85.5
87. 0
80.4
89.9
92.8
VS. 7
97.1
98.6
100.0


-------
MTURAdi EASTERN  BASIN ALL  DATA
                                                                                                      PAGE   240
  t CQR 30.8
3.1 5.1.8
1.3 33.4
1.3 56.9
6.2 A3.1


9.
1.
RANGE 8.
VAKIANCE 3.
ST.DCV. 1.
(OJ-UD/2 1.
MEAN
MEDIAN
HObE








S 0
- 1


ST
4.4079366 0
4.1999998 0
.ERKI1R
.2381761
.70J0727
3V99996
0000000
.IV9999A
•JK7M62
7400712
B499V99
0
3






EACH H
H H RttkFStNlS
H H :
H HH COUNHS)
HHHH
HHHHHHHH H
HHHHHHHHHHHHHHHH
ShEUNESS
KURIOSIS
S

VAI UE COUNT
12
U
13
13
14
14
14
14
14
11
IS
13


6000002
HOOOOOO
0000000
57?3:i60
89006;?
4000000

.800
.100
.500
.700
.000
.700
.400
.100
.900
.000
.200
.400 t









EACH
VALUE
0.71
-0.2S
EACH

PERCENT*
CEI I Dim
.5
.5
.3
.3
.5
.1
.5
.3
.5
I J
.5
.1







64.6
64.2
67.7
69.2
70.8
;I.B
73.4
M.9
78.3
RO.O
81 .5
84.6







4.0999999












PERCENTS
VAIIIE COUNT CEll CUM
1.800 I 1.6 1.6
2.000 1 4.H A. 3
2.100
2.200
2.300
2.400
2.500
2.AOO
2.700
2.900
1 1.6
7 .I.'.1
I 1.6
1 I.A
3 4.8
2 .1.7
2 3.2
7 1.7
7.9
11. 1
12.7
11.3
19.0
25.4
7H.6









MM
DD
El
VALUE
3.300
3.300
3.700
I.HOO
3.900
4.000
4.100
4.700
4.300
4.400









H
A
N
CUIIN1
1
2
2











0
3


PERCENTS
CELL CUM
1.6 30.2
3.2 11.3
3.2 16.3
3..' 39.7
1.6 41. .1
1.6 42.9
A. 3 4V. ?
3.2 'iJ.4
1.6 34.0
4.8 SH.7








S
*







SKEUNES5
MJRTOSIS





VAIUE COUNT
4.SOO 3
4.600 1
4
4
4
S
A
6
6
.700 2
.HOO 2
.900 2
.600 2
.100 1
.200 3
. 100 1












EAl'.H



VALUE
0.93
0.31
EACH




PERCEN1S
CEI L I'Un
4.8 P.I. ">
1.6 63.1
3.2
3.?
1.2
1.6
1.2
1.6
4.B
1.6
AH..1
;i.4
74. *
M.2
79.4
81.0
85. 7
87.3
'-• AHIlUE =
U=
VALUF/S.F.
2.34
-0.4?
'.' bFLOU =

0 . 7100
7.5000
71.0000
01- I0.699999d
CM: 14.3999990
S-= 9.9984417
Si' L5.47B4dSl
0.1000
H
X
PERCEH1S
VALUE COIliU CELi Cun
10.700
16.AOO
16.RPO
17.000
17.900
18.100
18.4(10
19.100
I9.4HO







H
H
H
H HH
HH HHH H
HHHHHHH H
HHHHHHHHHHHHHH

•-• ABOVE =
L=
U=

VALUF/S.F.
3.00
0.63
••• BELOU •




..• HA . 3
.5 B7.7
.5 89.2
.1 92.3
.5 9l.il
.5 9-i.4
.5 Vo.9
.5 98. i
.:. 100.0







EACH 'H
REPK^FNIS
COUNUSi
HH

0.5000
1.3000
lO.jOl/0
01- 2.7000000
03° V 5000000
S-- 2.3178190
5i= A.29d004-J
0.0750

n


PERCENIS
VMUK coiiiir I:H t cun
6.400 1 .6 Bd.9
*.«00 I . 90.5
7. HOO
II . ?0(1
9.100
9.300
9. BOO


I . T '. 1
i . 9i.;
1 . 9A.H
1 . V8.4
1 . 100.0



-------
                                                                                                          PAGE    241
HYDR«>16 EASTERN BASIN AIL DATA
uiimmit
1 SKP *
lOlllttlfll





NUnbE'- OF DISTINCT VALUES .
NIIMBF.K (IF UAIIIFS COUNTED. .
NUHbE.t OF VALUES NOT COUNTED
21
69
0
MAXIMUM
MINIHUIt


RANGE
VAKIANCE
ST.DFV.
(Q3-UD/2




LOCATION ESTIHATES











s















0
H N
N D
I

HEAN
HEDUN
NODE












PCRCEMTS
VALUE COUNT CELL CUH
0.00000 .13 4/.R 17.8
0.10000 4 5.8 33.6
0.20000 '> 2.V !>6-3



0.60000
1.10000
1.30000
1 1.4 SB.O
1 1.4 1)9.4
1 1.4 60.9
I. 5594702

ST
0
0.1000000 0
0.0000000









H
A
N

VALUE
1. '.lOOOO
1.90000
.1.00000
3.10000
3.70000
3.30000















.ERROR
.2358829
.3/1)2778













PERCENTS
6.
0.
6.
3.
1.
1.


















COUNT CELL CUH
1 1.4 67.3
2 7.9 6A.2
1 1.4 66.7
1
7
2
1.4 6B.
2.9 71.
2.9 73.
1
0
9
0000000
ODOOOOO
0000000
8.197117
9S93906
d HOODOO










SKEUNESS
KURTOSIS

SO
»3



VALUF COUNT
1.60000 1
3.60000 3
4.0UOOO .1
4.30000 I
4,'jOOOO 5
4.60000 • 2

H
H
H
H FACH -H'
H REPRtSLNlS
H 4
H COUNt IS;
H
H HHH
HHHH HHHHHHH

EAI:H '-' A&IIVE = o.sooo
L= 0.0000
U= 9.0000
01- 0.0000000
VALUE VALJF/S.F. 03= 1.19-WV9
0.68 2.JO S-' -0.3999704
-1.23 -2.13 5t= J.SlabllO
EfcCH •.' BFLOU - O.ObOO

n


PERCENTS PERCENTS
CEIL CUH VALUF COUNT CFLL CUn
1.4 75.4 4.80000 1 1.4 97.1
4.3 11.1 5.70000 1 1.4 98.*
4.1 H4.1 6.00000 \ 1.4 100.0
1.4 85.5
7.2 V2.B
7.9 93.7
HTDRA.U  EASTF.RN 8AS1N AIL  DATA
  1 LVlCSQP  1



NUMBER UF DISTINCT VAI UES .
NlinBhrf (IF VALIIFS ClUINftD. .
NUMIO OF VALUES NOT COUNTED
LOCATION ESTIMATES
HEAN
MEDIAN
MODE
S
M
N

0
1

7
MAXIMUM
HINIHUH
9.6000002
0.0000400
34 RANGF 9.8000002
63 VARIANCE 4.37*14167
6 ST.HFV. 2.0917549
(03-UD/2 1.5400000
ST. ERROR
2.7857144 0.263r.363
2,'JOOOOOO 0.1/J2032
0.0000000
H N
D A
I N

PERCENTS
VALUF COUNT
0.0000 B
0.7000 2
0.8000 I
0.9000 2
1.0000 1
1.1000 2
1.8000 4
1.9000 1
2 . 0000 3
CFIt
12.7
1.7
1.6
3.7
1.6
1.7
6.3
1.6
4.8
CUN
12.7
IS. 9
17.5
70.6
22.2
75.4
31.7
.1.1.3
38.1
VAI HE
2.1000
7.7000
2.3000
2.4000
2.5000
7.6000
2.7000
7.VOOO
3.2000
COUNT
1
7
2
1
2
3
4
1
1
0
1

S
+

SKEVNESS
KURTOSIS


PERCENTS
CEIl
1.6
J.?
3.7
1.6
3.?
4.4
6.3
1.6
1.6
CUN
39.7
42.9
46. 0
47.6
50. B
55.6
61.9
63.3
65.1
VAIUE
3.3000
J.4000
3.6000
J.HOOO
4.0000
4.1000
4.3000
4.4000
4.5000
CQIIN1
2





3
i
2

EACH
VALUE
1.07
1.61
EACH

H
HH
H HH H
H HH N
HHHHHH
HHHHHH H
HHHHHHH H HH
EnCH 'H'
kEPRFSfNT";
COUNT IS)
•-• AHIlVE - Q.7*iOO
L- 0.0000
U= 11.5000
01- 1.1000000
VALUF/S.F. U3= 4.099V9')*
3.45 S-- 0.09JV-JVJ
2.41 SI- 4.R774&4S
• . ' bCLOU - 0.1000
N
X
PEKCENTS
CEI1
3.7
1.6
.6
.«
.6
.6
.8
( *l
1.7
CUM
6R.J
69.8
71.4
AI.O
74.6
/A. 2
81.0
44.1
87.3
VAL'IE CQIJ.4T
4 . 7000
S.IOOO
6.1000
6. /GOO
6.4000
9. 1000
9.8000



PEKCENIS
rei L CUH
.6 88.9
.6 90. i
91.!
1. 95.2
VA.B
. 98.4
. 100.0



-------
HYDRA86 EASTERN BASIN ALL DATA
                                                                                PAGE   242
  mtmmtt
  i HAL:??   i
VARIABLE NUMBER ......
NUMBER OF DISTINCT VALUES .
NUHBKR (if VAlllfS CUUMftD. .
NUMBER OF VALUES NOT COUNTED
 5
47
60
 9
MAXIMUM
HINIMUH
RANGE
VARIANCE
ST.DEV.
(03-01>/2
13.800000?
 1.0000000
14.800000?
 9.J.t41103
 3.0551777
 1.7719994
LOCATION ESTIMATES
                   HEAN
                   MEDIAN
                   MODE
   B.1750002
   7.8400002
   7.8000002
     ST.ERROR
      0.3944217
      0.759H07B
        H
        H
        H
       HH
       HH
      HUM HH
     HHHHHHH  H
 HH HHHHHHHH HHHH
L	U
 FflCH 'H'
REPKFSENTS
                                                                                                                        COUNT (S)
                                                                                              EACH '-'  ARIIVE  =
                                                                                                                     1.0000
                                                                                                                     0.0000
                                                                                                                    18.0000
                                                                          SKEUNESS
                                                                          KURTOSIS
                                              VALUE
                                               0.43
                                               0.20

                                                EACH
                                       VALUF/S.F.
                                             1.35
                                             0.31

                                      '.'  BFLfly  =
                                                                                                                  01-
                                                                                                                  03-
                                                                                Si'
                                                                                       6.3300004
                                                                                       9.8999996
                                                                                       -1.1198225
                                                                                       11.2301779
                                                                                                                    0.1500
H
N




PERCENTS
VAIUE COUNT CF.U
1.000
1.800
3.400
4.100
4.600
5.600
3.700
5.900
6.000
6.100
1.7
I./
1.7
.J.3
1.7
1.7
1.7
S.I)
1.7
1.7
6.200 1 1.7
6.300 1 1.7
CUN
1.7
3.3
5.0
0.3
10.0
11.7
13.3
18.3
20.0
71.7
23.3
73.0
S 0
1


N N
D A
I N
PERCENTS
VftMIE COUNT CF.U
6.400 2 3.3
A. 300 ? 3.J
6.600
6.800
7.000
7.100
7.300
7.400
7.300
7.600
7.800
7.900
i.;
1.7
1.7
3.1
1.7
i.;
3.3
1.7
6.7
1.7
CUM
28.3
31.7
3.1.3
35.0
3A.7
40.0
41.7
41.3
46.7
48.3
53.0
•36.7
0 S
3 1








PERCFNTS
VAI IIF COUNT f.Fl 1
8.000 3 5.0
8.100 1 .7
8.200
8.400
8.300
9.600
9.700
9.800
9.900
10.000
10.400
.7
.;
.7
.7
.7
.7
.3
.7
.7
10.600 1 .7
CUN
61.7
63.3
6:i.O
6A.7
68.3
/O.O
71.7
;i.3
7A.7
7R.3
80.0
81.7
VALUE
10.700
10.800
10.900
12.400
13.100
11.700
13.900
14.000
14.200
14.100
1S.ROO

N
X

PERCENTS
COUNT CFLL CUM
1
»
1
\
1
I
1
I
1
1
1
.7 83.3
.7 an.o
.7 86.7
.7 8R.3
.7 90.0
.7 91.7
.7 9<.3
.7 9'j.O
.7 VA.7
.7 98.3
.7 100.0


-------
HHDRA86 EASTERN BASIN ALL DATA
                                                                                                    PAGE   243
msimmi
* PERPP »
fltilUUStt















MAXIMUM 86.


NUMBER OF DISTINCT VALUES .
NIJHBKR OF WAI NFS CnilNFFD. .
NUMBER OF VALUES NOT COUNTED
59 RANGE 76.
60 VARIANCE 245.
9 ST.PEV. 15.
(03-Q1I/2 8.

LOCATION ESTIMATES











n
N









5100021
6899996
8199997
31UH61
4424193
922'>023

























ST. ERROR
MEAN
MEDIAN
MODE












63.7443390 2.0720094
6.1.3150024 1.3394531


























56.9399991












PERCENTS
VAl UF nOUN
9,690
15.610
33.090
14.090
42,670
46.500
48.600
50.180
'l 3. 470
54.130
55.350
55.170
54.170
56.960
57.390
r CEU
.7
.7
.7
,1
.7
.7
.7
.7
.7
,7
.7
.7
.7
? .1 . .1
1 1.7
run
1.
I.
5.
6.
8.
10.
11.
13.
15.
16.
IB.

21.

26.
7
3
0
7
3
0
7
3
0
7
3
0
7
0
7
VAl HE CI1IINT
57.480
:>H,170
58.240
1)8.310
59.200
60. ^60
61.390
61.440
61.880
41.960
62.6BO
62.830
62.930
63.350
63.380





H
HH
HH
HH H
HH HH H





EACH 'H'
REPKFSFNTS
2
COUNT(S)

HHHHHHHH
H H H HHHHHHHHHH













PERCFN1S
CEl I r.UN
.7 28.3
.7 30.0
.7 31.7
.7 .(.1.3
.7 3:i.O
.7 36.7
.7 38.3
.7 40.0
./ 41.7
.7 43.3
.7 45.0
.7 46.7
.7 4R.3
.7 SO.O
.; si.7








S
-







SKEUNESS
KURTOSIS

0
HI
D
E









M
A
N
EACH



VALUE
-1.09
2.06
EACH




•-' ABOVE = S
L= 5
U= 95
01-
VALUF/S.t. 03-
-3.4* S-=
3.76 S+=
-.' BFLDM - 0
0 S
3 t h
X

PERCFN1S
VAl HE r.miNT CEl I
63
6!
63
64
66
44
66
68
70
71
73
/I
74
/4
75
.520
.•540
.720
.100
.020
.780
.550
.160
.300
.S90
.360
.740
.MO
.930
.110
1.7
I./
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
run
53.3
55.0
56.7
b8.3
60.0
61.7
63.3
65.0
66.7
68.3
70.0
/1. 7
7.1.3
75.0
76.7
.0000
.0000
.0000
17.1749992
75.0200043
48. 0819206
79.4067612
.7500




PERCENTS
VAl UF. COUNT CELL CUM
7e.5»0 1
77.730 I
78.0.10
19. 880
79.590
/9.970
B0.'i90
82.600
83.5HO
H5.710
86.030
86.210
86.300
86.510

1.7 78.3
1.7 80.0
.7 81.7
.7 8S. 3
.7 sr..o
.7 86.7
.7 H8.3
.7 90.0
.7 91.7
.7 91.3
.7 Vri.O
.7 94.7
.7 98.3
.7 100.0


-------
HYDRA86 EASTERN BASIN ALL DATA
                                                                                PAGE    244
  ummm*
  I PERTFP   t
  mmmm

VARIABI.F NUH8ER	
NUMBER OF DISTINCT VAIUES .
NUHBER (IF VAIIIFS COUNTED. .
NUMBER OF VALUES NOT COUNTED
 4
39
60
 9
NAXimiH
MINIMUM
RANGE
VARIANCE
ST.DFV.
(Q3-UD/2
 90.3099976
 11.1899998
 76.8199997
749.JII1HI
 15.6674174
  8.9-.'?b006
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
  36.2SS664R
  .46.68rii)014
  43.0400009
     SC.FRROR
      2.0220094
      1.3394531
                                                                          SKEUNESS
                                                                          KURTOSIS







EAHH



VALUE
1.09
2.06
H
HH
HH
H HH
H HH HH
HHHHHHHH
HHHHHHHHHH H
'-• ABOVE =
L=
U=

VALUF/S.F.
3.46
3.26
FrtCH 'H-
REPkfiENTS
2
COUNT (S)


H H
1.0000
10.0000
100.0000
01- ?4. 9799995
03= 42. 8750008
S-= ?0. 5932484
S+» 51.9180832
                                                                                              EACH
                                                                                                       BELOW
                                                                                                                     0.7500
H
N

F
VAHJF COUNT HI
13.49 1 1
11.70 1
13.79 1
13.97 1
14.29 1
16.42 1
17.40 1
19.41 1
20.03 1
20.41 1
21.12 1
21.97 1
22.27 1
23.47 1
24.89 1
S 0
1 M
A
N
ERCENTS
XI CUM VAlllE COIIN1
.7 1.7 25.07
.7 3.3 23.47
.7 5.0 26.26
.7 6.7 26.44
.7 8.3 28.41
.7 10.0 79.70
.7 11.7 31.84
.7 13.3 33.45
.7 15.0 33.72
.7 16.7 3.1.98
.7 18.3 35.90
.7 70.0 36.28
.7 21.7 36.46
.7 73.3 3A.48
.7 25.0 36.62
0
3N
D
E
(
r i:















s
i


>ERCFNTS
ill CUN VAIUE COLIN
.7 26.7 36.73
.7 78.3 37.07
.7 30.0 37.17
.7 31.7 17.32
./ 33.3 38.04
.7 35.0 -(8.12
.7 36.7 38. 3A
.7 38.1 .(8.41
.7 40.0 39.44
.7 41.7 40.80
./ 4.4.3 41.69
.7 45.0 41.76
.7 46.7 41.84
.7 48.3 42.52
.7 fO.O 42.61



f
r c


















ERCFH1S
IlL CUM VALUE COUN1
.7 51.7 43.04 :
.7 b3.3 41.83
.7 7)5.0 44.6.4
.7 b6.7 44.65
.7 '.-iR.3 45.6-.I
.7 AO.O 44.13
.7 41.7 49. BV
.7 61.3 ')1.40
.7 63.0 S3. SO
.7 66.7 57.33
.7 68.3 65.91
.7 70.0 66.91
.7 71.7 84.3V
.7 73.3 90.31
.7 7'j.O
H
.A
X

F
a
l

















ERCENTS
LL CUH
.3 SS.3
.7 80.0
.7 81.7
.7 83.3
.7 8'..0
.7 8A.7
.7 88.3
.7 90.0
.7 91.7
.7 91.3
.7 9:i.O
.7 94.7
.7 98.3
.7 100.0


-------
HYDRA86 EASTERN BASIN AIL DATA
                                                                                PAGE   245
  lUISHWM
  I NITUIT   t
  tttmuuu

VARIABLE NUHBER 	
NUMBER OF DISTINCT VALUES .
NUMBER (IF VALIIFS COUHTFD. .
NUHBER OF VALUES NOT COUNTED
 4
51
49
 0
HAXIHUH
HININUN
RANGE
VARIANCE
ST.DEV.
(U.f-OD/2
 363.0000000
 130.0000000
 233.0000000
4694.1274414
  68.5137074
  !i 1.0000000
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   NODE
                 ST.FRKOR
 243.9273360      8.24ROR1?
 719.0000000     19.0575684
 ISO. 0000000
  H
  H
H H
HUH    H
HHHH   H
HHHH  HH
      EACH 'H-
H    REPRFSENTS
H         2
H     COUNT(S)
H
HH
                                                      H  HHHHHHHHH HHHH
                                                                                              EACH '-'  flBOUE  =       15.0000
                                                                                                           L=      120.0000
                                                                                                           U=      390.0000
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                          VALUE   VALUE/S.E.
                                                           0.50         1.71
                                                          -1.21        -2.03
                                                                                              EACH
                                                                                                       BELOU
                                                                     01°   194.0000000
                                                                     03°   294.0000000
                                                                     5-=   177.4138334
                                                                     St»   .U4.4412537

                                                                       2.0000
s a as
i i 3 	 : 	 s 	 :
H 	 DA • *
I N E
PERCENTS PERCENTS PERCENTS PERCENTS
VALUE COUNT CEll CUM VAlllE COUNT CEll CUM VAUJE COUNT CF.l 1 CUM «*"-»?__ COUNT CELL _CUh
130.
168.
169.
171.
172.
173.
174.
177.
178.
182.
184.
188.
192.
1.4 1.
1.4 2.
1.4 4.
2.9 7.
2.9 10.
1.4 11.
1.4 13.
1.4 14.
1.4 IS.
1,4 17.
2.9 20.
1.4 71.
1.4 23.
193. 1 1.
194. 1 1
193. 1 1.
196. 7 2
197. 1
198. 3
199. 2
702. 3
204. 1
203. 1
206. 1 .
212. 1
219. 1
24.6 220.
76.1 271.
27.5 222.
30.4 258.
31.9 244.
36.2 265.
39.1 268.
43.3 269.
44.9 272.
46.4 178.
4/. 8 279.










.4 IiJ.7 297-
.4 51.6 127.
.4 53.1 339.
.4 36.5 146.
.4 58.0 350.
.4 39.4 151.
.4 60.9 352.
.9 61.8 J33.
.3 68.1 338.
.4 69.6 361.
.4 71.0 363.
19.3 785. 7 2.9 71.9 US.











4 /A.H
4 78.3
4 79.7
4 81.2
8 87.0
3 91.3
4 92.8
4 94.2
4 93.7
4 97.1
4 98.6
4 100.0
50.7 296. 1 1.4 73. 4

-------
        EASIERH BASIN AIL DATA
                                                                                                                  PAGE    246
  tmmiim
  I NH3      I
  miltlUII*

VARIABLE NUMBER 	
NUnbFk OF DISTINCT VALUES  .
HUHBFit (IF VAIIIFS COUNTFO.  .
NUHBE1 OF VALUES NOT COUNTED
                S
               35
               68
                I
          HAXIHUH
          HINimm
          RANGE
          VARIANCE
          ST.OFV.
          (O.I-OU/2
37.7000008
 1.5000000
36.7000008
/9.94H5397
 8.9413948
 4.2249999
LOCATION ESTIHATES
                   HE AN
                   HF.OIAN
                   BODE
                                     10.3R38243
                                      7.199V998
                                      3.5000000
                                ST.FRROft
                                 1.0843034
                                 0.9814959
H
H
H
H H
HHH
HHH H
HHHHH
HHHHHH
HHHHHH
                                                                                                                          EACH -H-
                                                                                                                         REPkFSENIS
                                                                                                                              2
                                                                                                                          COUNT (S)
                                                                        HH
                                                                        HHHH H HHH
                                                                        	U
                                                                                               EACH '-' ABOVE =
                                                                                                                      2.0000
                                                                                                                      2.0000
                                                                                                                     18.0000





S 0
h n 1 H
N D D
E I
VALUE COUN
i.soo :
1.800
2.400
2.500
2.700
3.000
3.300
3.500
4.000
4.100
4.200
4.500
4.800
4.900









PERCENTS
r CEI i CUH
1 .4 4.4
.3 3.9
.5 7.4
.4 11. B
.3 13.2
.5 14.7
.3 16.2
.9 72.1
.9 25.0
.5 76.5
.5 27.9
.5 30.9
.•5
J2.4





Q
H 3
A
N
I
VAI HE COUNT Kl
5.200
3.300
5.400
5.700
5.800
.100
.200
.100
.iOO 2
.900 1
7.200 2
7.300 1
7.500 1
a. ooo i





S
i


•ERCENTS
:t i CUN
.3 33. B
.5 33.3
.3 3A.8
.5 38.2
.5 39.7
.5 41.2
.5 42.6
.3 44.1
.9 4/.1
.5 48.3
.9 51.5
.•i 52.9
.5 54.4
.3
33.9


5KEVNESS
HURT OS IS





VAI IIE COUN
8.100
8.100
9.200
9.600
10.000
10.100
10.800
11.100
11.300
11.900
12.000
11.000
1 4 . ObO
18.300










VALUE
1.44
1.24
EI.CH




PERCEN1S
r CF.I i CUM
1.5 T>/.4
/ 2.9 40.3
I.S 61. fl
t.r> 6i.:
.3 64.7
.•) AA.2
.9 69.1
.•) 70.6
.5 77.1
.1 73.5
.5 71.0
.5 76.5
2 7.9 79.4
1 1.3
80. 1
01- 4.0500002
VALUF/S.F. 01' 12. 5000000
4.B' S-- 1.442429'j
2.09 St = IY.32i2:Ol
1 . ' BELOU • 0.3000
ff



VAI HE COUN
19.500
19.600
20.100
•M.700
21. BOO
72.800
23. BOO
?5.000
29.700
13.100
13.800
14.400
37.700
PCf
CFLI
1.
1.
1 .
1.
CENTS
CUN
HI. 4
83. 8
Ri.i
B6.B
RB.2
H9.7
91.:
94.1
91.4
17.1
) 100.0

HTDRAU6 EASTERN BASIN ALL DATA
  lumtttist
  i KJELCOHF-  i
  IIIIIIIIIIX

VARIAHIF NUMBER	
NUhBEt OF DISTINCT VAI UES  .
NimbFK IIF VAllltS  i:nilNTFD.  .
NUrtUtk OF VALUES  NOT  COUNTED
                                    8
                                   61
                           nAXihim
                           HlNIftUK
                           RANGF
                           VARIANCE
                           ST.DFV.
                           (U:i-01)/2
                          0.3000000
                          0.0600000
                          0.7400000
                          0.004A9B2
                          0.0685415
                          0.0.100000
Lnr.nT'dH FBI i HATES
HEAN
NEDIAN
nODE
 0.1917500
 0.1950000
NUT UNIQUE
                                                    iT.FRROK
                                                     0.074233H
                                                     0.0207071
                                                                           SKEUNESS
                                                                           KUKTOSIS
                                                                       N H
                                                                                             VALUE
                                                                                             -0.41
                                                                                                            HnHHHH
                                                                                               EACH •-'
                                                                                                             L=
                                                                                                             U-
                                                                                                                          f.frt  H
                                                                                                                      O.OI'.O
                                                                                                                      O.Oi'^C
                                                                                                                      D.Hi'J
                                                                                                     VftLUF/S.F.
                                                                                                           -0.4fl
                                                                                                                    01-
                                                                                                                    OJ=
                                                                                                                           u. l^ttOUOO
                                                                                               EACH  ' .'  hFlOU -
                                                                                                         S
                                                                                                         «
                                                                                                                      O.OO.'IJ
                       PERCENTS
     VAIIIE     rniinr   rru    run
       0.06000      1   17. S   17.5
       0.16000      1   17. '.i   75.0
                                                       PERCENTS
                                      VAI IIF    i:nunr  rru    run
                                       0.17000     1  17. T  37.5
                                       0.19000     I  17.3  50.0
                                   A  D
                                   N  I

                                                   PERCENTS
                                  yfiiliF     cniwf   TFu    run
                                   0.70000      1   I'M   A7.1
                                   0.?.'000      1   17. r>   7T.O
                                                                                                    PEkCENl!,
                                                                                            cniiiiT  rru    fun
                                                                                    o.^iooo     i  u.i  n'.i
                                                                                    O.WOOO     1  I"*.'' 100.0

-------
HYDRA86 EASTERN BASIN ALL DATA
                                                                                PAGE   247
  mismssu
  t SRS      I
  Ulllmltft

UARIA8LF NUMBER 	
NUHBER OF DISTINCT VAIUES .
NUHBER OF VALUES COUNTED. .
NUHBER OF VALUES NOT COUNTED
 6
63
6?
 0
NAXINUM
NINIHUM
RANGE
VARIANCF
ST.DF.U.
(03-01)/2
  3024.0000000
   277.0000000
  2779.0000000
283182.9375000
   532.1493530
   283.0000000
LOCATION ESTIMATES
                   HEAN
                   MEDIAN
                   NODE
 93S.7078809
 771.0000000
  NOT UNIQUF
     ST.ERROR
     64.0432353
     33.7750092
H
H
H
HH
HHH
HHH
HHH H H
HHHHHHHHH H

EACH 'H'
REPRFSENTS
3
COUNT (S)


H
	 ii
                                                                                             EACH  '-' ABOVF -
                                                                                200.0000
                                                                                  0.0000
                                                                               3C.OO.OOOO
                                                                          SKEMNESS
                                                                          KURTOSIS
                                                         VALUV
                                                           1.34
                                                           2.34

                                                            EACH
                                                      VALUF./S.F.
                                                           5.27
                                                           3.97

                                                     •••  BELOU  •
                                                         01-  AM.0000000
                                                         03" 1180.0000000
                                                              473.0535278
                                                             14B7.3ri22949
                                                                                                                  5-
                                                                                                                   25.0000
SO Q S
N - 1 N N 3 1 H
N D A x
I N
PERCENTS PERCENTS PERCENTS PERCENTS
VALUE rmiHT r.Eu CUN WAI HE C.HIINT CELL CUM VAUIE COUNT CFU HUH VALUE COUNT TFLL CUN
297.
354.
455.
461.
463.
474.
4BO.
487.
503.
513.
514.
525.
537.
1
1
1
1
1
1
1
1
1
2
1
1
1
546. 1 1
570. 1 1
585. 1 1
1.4 614.
2.9 674.
4.3 649.
5.8 A54.
7.2 659.
8.7 683.
10.1 692.
11.6 697.
13.0 707.
15.9 712.
17.4 722.
18.8 778.
20.3 732.
71.7 741.
23.2 769.
74.6 770.
















.4 76.1 771. 2 2
.4 77.5 779.
.4 29.0 794.
.4 30.4 HOO.
.4 31.9 814.
.4 3.1.3 H76.
.4 34.8 829.
.9 .17.7 R46.
.4 39.1 B7B.
.4 40.6 900.
.4 47.0 914.
.4 43.5 975.
.4 44.9 966.
.4 46.4 1073.
.4 47.8 1122.
.4 49.3 1180.















r>7.7 1205. 2 2.
51.6 l?78.
r>S.l 1351.
•36.5 1415.
58.0 1463.
M.4 1590.
60.9 1770.
A2.3 1795.
A.I.R 1805.
A3. 2 IR54.
68.1 1868.
A9.6 1923.
71.0 1937.
72.5 2390.
73.9 3026.














.
.

.

.
.
.
•



.

7B.3
79.7
HI. 7
G2.6
R4.1
85. 5
R7.0
R8.4
91.3
92.8
94.2
9-1.7
97.1
98.6
100.0
75.4

-------
        CASTERN BASIN ALL DATA
                                                                                                                 PAGE   248
  immum
  1 SE'JCHl   »
VARIABLF NUMBER 	        9
NUMBER OF DISTINCT VALUES  .        4
NUNBF& I1F VALUES COUNTFO.  .        4
NUMBER OF VALUES NOT COUNTED      65
                                              MAXI HUH
                                              MINIMUM
                                              RANCF
                                              VARIANCE
                                              ST.DFV.
                                              (OJ-OU/2
                          4.5000000
                          2. "5000000
                          2.0000000
                          0.83A666&
                          0.9146948
                          0.5300000
LOCATinN ESTIMATES
                   HEAN
                   MEDIAN
                   HODE
 3.1500001
 2.800000?
NUT UNIQUE
                                                   ST.FRRDR
                                                    0.4373474
                                                    0.5773:>OA
                                                                                                      MM  M
                                                                                              EAHH '-• ftHOVF
                                                                                                                         FACH  -M-
                                                                                                                        REPdFSFNTS
                                                                                                                             I
                                                                                                                         COUNIlS)
                                                                                                                     -U
                                                                                                                     O.l'iOO
                                                                                                                     >. 7-iOO
                                                                                                                     4.9100





0
N 1 H
H D
I






H
A
N


SKEUNESS
MJKTOSIS

0
3


01= 2
VALUF VALUF/S.F. 03 = 3
0.91 0.74 5-= 2
-1.31 -0.54 S» = 4
EACH '.' bELOU = 0.0200
S
* n
X

                 PERCENTS
VALUE    COUNT  mi   CUH      VAMIE
   2.SOO     1  75.0  73.0         2.700
                                                      PERCENTS
                                              COUNT  1*11   f.UH
                                                  1  75.0  50.0
                                                                      VAIIIE
                                                                        2.700
        PERCCNTS
COUNT  CEIi    nun
    1  Z'i.0   Ti.O
                                                                                                                          2.6000001
                                                                                                                          3.7000000
                                                                                                                          2.2353033
                                                                                                                          4.0A4694V
                                                                                                      VAiiiF.
                                                                                                         4.500
                                                                                  PCRCENJS
                                                                          coimr  CELL   cun
                                                                              i  ?s.o 100.0
HYDRA06 F.ASTFRN BASIN AIL DATA
  itmtimu
  I 1'JHBIO   »
  Itumimt

VARIABLF NUMBER  	
NUNBEk OF DISTINCT VAIUES  .
XUnbUi IIF VmllFS COUNTFD.  .
NUMbLk OF VALUES NOT COUNTED
                                   10
                                   38
                                   69
                                   0
          MAXIMUM
          MINIMUM
          RANGE
          VARIANCE
          ST.HEV.
          (03-01)/2
                                                         8.8000002
                                                         0.4000000
                                                         8.400000A
                                                         4.AA7/408
                                                         2.1604V55
                                                         1.7500000
LOCATION ESTIMATES
                   HEAN
                   MEDIAN
                   HODE
                                     2.5405800
                                     l.itOOOOOA
                                     0.9000000
                                                   ST. ERROR
                                                    0.2600931
                                                    0.461R804
                      M
                      H
                      H
                      H
                      H
                      H
                      HH
                      HH
                                                                                                                         EACH  'H'
                                                                                                                        RCPKF SEMIS
                                                                                                                             3
                                                                                                                         COUNKSI
                                                                                                          H
                                                                                                          HH
                                                                HHHHHHHH HHHHHHHH
                                                               L	U
                                                                                              EACH  '-' ABOVE  =
                                                                                                            U*
                                                                                                                      O.SOOO
                                                                                                                      0.5000
                                                                                                                      9.5000
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                             VALUF
                                                                                              1.23
                                                                                              0.6S
                                                                                                     VALUF./S.F..
                                                                                                           4.18
                                                                                                           1.1 >
                                                                               01-
                                                                               03'
                                                                               5-=
                                                                               5t=
                                                                                                                     0.9000000
                                                                                                                     3.4000001
                                                                                                                     0.3AOOSO
                                                                                                                     «. 701071,6
                                                                                              EACH  •.• bFlOU -
                                                                                                                     0.0750
S
-M
N
a
H
0
E
H
D
I
H
A
N
Q
3

S
t

n

                      PERCENTS
                                                      PERCENTS
                                                                                      PCRfFNTS
                                                                                                                      PERCENIS
VALU
0.
0.
0.
Q.
4.
4.
1.
1,
I.
1.
E
4000
SOOO
AOOO
7000
AOOO
9000
0000
1000
/ooo
3000
COUNT
1
1
4
5
4
8
4
1
7
2
CEI
1
1
5
7
•i
11
'.i
1
?
2
LL
.4
.4
.H
.2
.H
.6
.H
.4
,y
.9
Cl
1
2
8
15
71
33
.«»
40
43
46
UN
.4
.9
.7
.9
.7
.3
.1
.6
.5
.4
VALUF
1.4000
1 .5000
l.ROOO
2.0000
7.7000
2.3000
7.7000
2.9000
1.0000
3.1000
COUN1
1
2
1
2
t
1
1
1
1
2
CF.LL
1.4
7.9
1.4
7.9
2.9
1.4
1.4
1.4
1.4
7.9
CUH
47.8
50.7
52.2
55.1
t)8.0
59.4
60.9
67.3
63.8
6A.7
VALUF
3.7000
3 . 3000
.1.4000
3.6000
J.HOOO
3.9000
4.1000
4.3000
b.?000
5.6000
COUNT
7
1
.<
1
•f
1
1
1
1
1
r.F.i i
2.
1 .
4.
I.
2.
1.
2.
1 .
1.
1 .
CUH
69.6
71.0
71.4
JA.B
79.7
81.2
H4.1
Br..r.
87.0
RR.4
                                                                                                      VALUF     rtlUHT
                                                                                                        6.0000
                                                                                                        6.30AO
                                                                                                        4.AOOO
                                                                                                        6.7000
                                                                                                        7.1000
                                                                                                        8.0000
                                                                                                        A.1000
                                                                                                        8.8000
                                                                                                                     (F.L1
                                                                                                                            CUn
                                                                                                                           B9.9
                                                                                                                           91.3
                                                                                                                           94,
                                                                                                                           91,
                                                                                                                           97,
                                                                                                                        .4   9R.6
                                                                                                                        .4  100.0

-------
HYDRAB6 EASTERN BASIN ALL DATA
                                                                                                                  PAGE   249
  itsttmsm
  I CHLACORR t
  mutusm

VARIABLE NUHBER	
NUMBER QF DISTINCT VALUES .
NUHBER OF VALIIFS C.OIIHTFD. .
NUHBER OF VALUES NOT COUNTED
 2
61
69
 0
HAXIHUH
HINIHUH
RANGE
VARIANCE
ST.DEW.
(Q3-QU/2
7.1599998
0.1900000
6.9699998
3.2189572
1.7941452
O.RR00001
LOCATION ESTIMATES
                   HEAN
                   NF.OIAN
                   HODE
   1.8730435
   1.1600000
  NOT UNIQUF
     ST.ERROR
      0.2159897
      0.1741104
 H
 H
 HH
 HH
HHH
HHH HH
HHHHHHHH H HHHH
 FACH 'H'
REPRESENTS
     3
 CQUHT(S)
                                                                                             EACH  '-' ABOVE •
                                                                          SKF.UNES5
                                                                          KURTOSIS
                                                          VALUF
                                                           1.66
                                                           1.86

                                                            EACH
                                                      VALUE/S.E.
                                                            3.64
                                                            3.16

                                                     '.'  BELOU  =
                                                      0.5000
                                                      0.0000
                                                      9.0000

                                                     01°    0.7000000
                                                     03=-    2.4600000
                                                     5-=    0.0788983
                                                     5+=    3.6671889

                                                      0.0750
S 0
• N 1 N
N 0
I
PERCENTS
0 S
N 3 « "
A *
N
PERCENTS PERCENTS PERCENTS
VAIUF COUNT CFU CUH VAIUF CHlINf CEll CUH VAl ME COUNT CFl I CIIH VALUE COUNT CELL CUM
0.1900
0.7400
0.2800
0.3100
C.3SOO
) . 4000
u.4300
0.4600
0.6000
0.6100
0.6200
0.6300












0.6700 3
0.6900 1
0.7000 2 2
0.7200 2 2
4 1.4 0.7300
7.9 0.7400
4.3 0.7700
•3.8 0.7900
7.2 0.8300
8.7 Q.V100
10.1 0.9500
11.6 0.9900
13.0
14.5
19.9
17.4
21.7
23.2
26.1
79.0
.0100
.0300
.0500
.1000
.1100
.1600
.2200
.2700
















.4 30.4 1.3500 3 4.3 58.0 2.9600
.4 31.9 1.J600 1 1.4 39.4 3.2300
.9 34.8 .3ROO 2 2.9 67.3 3.2700
.4 36.2 .3900
.4 37.7 .5700
,
.
.
.
,
,
,
,
.
.
•
39.1 .5900
40.6 .9000
42.0 7.0700
43.5 2.0900
44.9 2.1500
46.4 2.3600
47.8 7.4600
49.3 2.3100
Ml. 7 2.6700
52.2 2.8400
1.4 63.8 1.1400
1.4 65.2 3.5.400
1.4 66.7 4.A500
1.4 AR.l 4.9700
1.4 69.6 5. MOO
1.4 71.0 4.4400
1.4 72.5 6.4600
1.4 7.<.9 6.8400
1.4 75.4 7.0200
1 .











1.4 76.8 7.1*00 1




.

•

•

.

82.6
R4.1
en. 5
87.0
88.4
89.9
91.3
92.8
94.:
95.7
97.1
98.6
100.0
1.4 78.3
1.4 79.7
A3. 6 7.VOOO 1.4 81.2

-------
HYDRAB6 EASTERN BASIN ALL DATA
                                                                                                                   PAGE   250
  immmst
  ( PHEO     «
  sttttmim

VARIABLE NUMBER 	
NUMBER OF DISTINCT UAIUES .
NUMBER OF VAIIIFS C.OUNTFD. .
NUMBER OF VALUES NOT COUNTED
 3
38
49
 0
MAXIMUM
HINIHUM
RANGE
VARIANCE
ST.DEV.
(OVOD/2
8.9300003
0.2000000
8.7300005
1.4*97511
1.8A277AB
0.8550000
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
   1.8469567
   1.1400000
  NOT UNIQUE
     ST.ERROR
      0.2742440
      0.181HA34
 H
 H
 H
 H
 HH
HHH
HHHHHH  H
HHHHHH HH  HH H
 EACH 'H'
REPRESENTS
     3
 COUNT(S)
                                                                          SKEUNE5S
                                                                          KURTOSIS
                                                                                              EACH '-'  ABOVE  =
                                                                                                           L=-
                                                          VALUE   VALUE/S.F.
                                                           1.89         A.39
                                                           3.23         5.48
                                                                                              EACH
                                                                                                       BEI.OU  =
                                                                       O.SOOO
                                                                       0.0000
                                                                       9.0000

                                                                     Ql-     0.6200000
                                                                     D3»     ?.3299999
                                                                     S-«    -O.OIS7701
                                                                     St =     3.7094837

                                                                       0.0750
SO 0
-Ml N M 3
S
•f
N DA
1

VALUE COUNT
0.2000 1
0.2400 1
0.3000 1
0.3100
0.3800
0.4100
0.4900
O.SIOO
0.5200
O.S300
O.S700 2
0.5800 ?
0.4000 1
O.A200 1
0.6500 1
N
PERCENTS

PERCENTS
H
X

PERCENTS PERCENTS
CEIL OJh VAUIE COUNT CEI.I CUH VAUIE COUNT CEU GUM VALUE COUNT CFI.L CUM
1.4 1.4 0.6800 2 2.
1.4 2.9 0.7100
.4 4.3 0.7200
.4 5.S 0.7300
.4 7.2 0.7600
.3 11.6 0.0300
.4 13.0 O.B800
.4 14. S 1.0200
.4 IS. 9
.4 17.4
2.9 20.3
2.9 73.2
1.4 24.6
1.4 76.1
1.4 27. S
.0300
.0800
.1400
.1900
2.
1.
4.
1

(

,
f

t
.2300 2 2.
30.4
33.3
34.0
.19.1
40.6
42.0
44.9
.3900
.5100
.5700
.7900
.8300
.9600
.9900
46.4 7.0300
4/.B 2.2000
49.3 7.2900
50.7 2.3300
52.2 7.4600
S:>.1 2.3900
.4200 1 1.4 36. 5 7.7000
1.
1 .












.
.


,

,

.

.

60.9 2.7700
62.3 7.7900
63.8 3.6900
41.2 .0100
6A.7 .0900
68.1 .2400
69.6 .3700
71.0 .4300
72.5 5.9400
73.9 6.3300
/•.-,.4 7.1200











74.8 7.2600 1
78.3 8.9300 1
.4 87. A
.4 84.1
.4 85.3
87.0
RB.4
H9.9
91.3
. 97.8
. 94.2
9'i.7
.4 97.1
.4 98.6
.4 100.0
79.7
.3600 2 7.9 39.4 2.7300 1 .81.7

-------
HVDRA86 EASTERN BASIN ALL DATA
                                                                                                                  PAGE   251
  mimiit**
  I TSS      t
  iwimmt

VARIABLE NUMBER 	
NUMBER OF DISTINCT VAIUFS .
NUMBER :)F VALIIFS COUNTFD. .
NUMBER OF VALUES NOT COUNTED
11
66
69
 0
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.DEW.
(03-011/2
9.5299997
0.7400000
8.7900000
4.127R313
2.0304756
1.0450000
LOCATION ESTIMATES
                   MEAN
                   HFDIAN
                   MODE
   2.7547B24
   I.H900000
  NOT UNIOUF
     ST.ERROR
      0.2444406
      0.23.18270
 H
 H
 H
 HH
 HH
 HHH
HHHMHH
HHHHMH      H
HHHHHHHHHH HHHH
 FACH -H-
REPKFSENTS
     2
 COUNT(S)
                                                                                              EACH '-'  ABOVE
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                                           L =
                                                                                                           U=
                                                          VALUE    VALUF/S.F.
                                                           1.42          4.80
                                                           l.U          1.97
                                                                      --U

                                                                       0.5000
                                                                       0.5000
                                                                       9.5000
                                                                                                                  01 =
                                                                                                                  03=
                                                                            1.3300000
                                                                            3.4200001
                                                                            0.7?430t>8
                                                                            4.7R52583
                                                                                              EACH
                                                                                                       BELCH
                                                                                                                    0.07SO
SO OS
M 1 M H 3 + "
N I i A *
I N
PERCENTS PERCEHTS PERCENT S PERCENTS
VALUE COUNT CEIL CUM VAl llf COUNT CF.ll CUM VftMIE COUNT CEIl CUM VALUE CnilMT CEIL CUh
0.7400 1 1.
0.7800 1 1.
0.9100 1 1.
O.V400 1 1.
0.9700 1 1.
0.9900 1 1.
1.0100 1 1.
1.0700 1 1.
1.0800 1 1.
.1200 1 1.
.1100 1 1.
.1400 1 1.
.1300 1 1.
.2100 1 1.
.7400 1 1.
.2600 1 1.
1.4
2.9
4.3
•3.8
7.2
8.7
10.1
11.6
13.0
14. 5
IS. 9
17.4
18. B
70.3
21.7
73.2
.2700 1 1.4 24.6
.3300 1 1.
.3700 1 1.
.3800 1 1.
.4100 ? 2.
.4400 1 1.
.3200 1 1.
. 5500 1 1 .
.•j700 1 1.
.3800 1 1.
.5900 1 1.
.A500 1 1.
,;ooo ? 2.
.8200 1 1.
.8100 1 1.
.BSOO 1 1.
.8900 1 1.
.0300 1 1.
76.1 2.1700
77.5 7.1500
79.0 2.2000
11.9 7.HOO
33.3 2.2800
.14.8 7.4000
36.2 2.7100
37.7 7.8200
39.1 2.8300
40.6 7.V200
47.0 3.0200
44.9 .1.0600
46.4 3.0700
47.8 .1./400
49.3 3.4700
50.7 1.4800
52.2 3.1BOO
1.4 S3. A 3.8100 1
1.4 w.i















.4 IiA.f.
.4 SB.O
.
.
.
.
,
.
.
.
.
.
,
.
1
:>9.4
60.9
«3.R
40. 2
66.7
68.1
69.6
71.0
.0100 1
.:soo i
.7700 I
. 8500 1
.1800 1
.1900 1
.,'600 I
.7300 1
.8200 1
.8400 1
.0900 1
7J.-: 7.7800 I
.4 79.7
.4 81.:
.4 8?. 6
.4 84.1
.4 HS.S
.4 87.0
.4 RB.4
.4 89.9
.4 91.3
.4 97.8
.4 94.2
.4 ?3.7
.4 97.1
73.9 7.A300 I 1.4 98.6
75.4 9.5300 1 1.4 100.0
76.8
78.3

-------
HYDRAR6 EASTERN BASIN AIL DATA
                                                                                                                  PAGE    252
  itmumi*
  » RS       (
  StUUMtt**

VARIABLF NUMBER 	
HUHBER OF DISTINCT VALUES .
NUNBKR I)F VAtUFS COUNTED. .
NUKBER OF VALUES NOT COUNTED
12
42
49
 0
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.DEU.
(U3-QD/2
8.2100000
0.2700000
7.9400001
                            1.8928441
                            1.1030000
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   NODE
   1.997174J
   1.0800000
   0.4000000
     ST.F.RROR
      0.227R7I7
      0.2107329
                                      HH
                                      HH
                                      HH
                                      KH
                                      HHH
                                      HHHHH
                                      HHHHHH     H
                                      HHHHHHHHHHHHHH
 Ertf.H -H-
SEPRFSFH1S
     n
 CQUNKS)
                                                                       U
                                                                                             EACH  '-' ABOVE =
                                                                          SKEUNES3
                                                                          KURTOS1S
                                                         VALUE
                                                           1.33
                                                           0.90

                                                           EACH
                                                      VALUF/S.F.
                                                            4.S2
                                                            1.03

                                                     '.'  BELOU  =
                                                      O.SOOO
                                                      0.0000
                                                      9.0000

                                                    01-    0.5200000
                                                    03*    2.7300000
                                                    S-=    0.0993302
                                                    SI*    3.88S01B3

                                                      0.0750
S 0
- MM 1 H N
ND D A
E I N
PERCENTS
0 S
3 * «
X

PERCENTS PERCENTS PERCENTS
VALUE COUNT CELL CUM VALUE COUNT CELL CUM VALUF COUNT C.FLL CIIK VALLIF. COUNT TELL CUM
0.2700 1
0.2800 1
0.3100 1
0.3100 2
0.4000 3
0.4100 1
0.4700 1
0.4300 1
0.4400 1
0.4500 1
0.4700 1
0.3000 2
0.3200 7
0.3700 1
).A400 1
0.6700 I
1.4 0.6800
2.9 0.1900
4.3 0.7100
7.2 0.7SOO
11.4 0.8100
13.0 0.8300
14.3 0.9100
13.9 0.9BOO
17.4 0.9900
IB. 8
70.3
23.2
74.1
27.3
79.0
30.4
.0100
.0300
.0600
.0800
.3700
..1800
.4000
















41.9 1.4600
33.3 1.5300
.14.8 1.A400
36.2 1.9500
37.7 1.V900
.19.1 2.1300
40.6 7.2200
43.3 2.7300
44.9 7.3000
46.4 2.3500
47.8 7.4100
49.3 2.7200
30.7 7.7300
37.2 2.8300
J>3.4 7.9400
5!).l 3.0300
















16.5 3.1000 1
:>H.O 3.6000 1
40.9 3.9700 1
62.3 4.1400 1
6.1.8 4.3900 I
6fi.? 4.8700 I
46.7 3.2000 I
68.1 5.3600 1.
69.6 3.7600 1
71.0 S.7BOO 1
/2.S 3.9400 1
/3.9 6.0300 1
73.4 4. 5500 I
76. B B.?100 1
4 81.2
87. 6
84.1
83.5
87.0
88.4
89.9
91.3
4 92.8
4 94.2
4 9S.7
4 97.1
4 9H.6
.4 100. 0
4 78.3
4 79.7

-------
HYDRA86 EASTERN BASIN ALL DATA
PAGE   253
immmu
» vs *
mtttmm
NUMBER OF DISTINCT VALUES .
NUMBER I)F VAIUFS COUNTED. .
NUHBER OF VALUES NOT COUNTED
LOCATION ESTIMATES
NEAN
MEDIAN
H
N
NODE
S


0
1

13
MAXIMUM
MINIMUM
1.7200000
0.1300000
44 RANGE I.IB99999
4? VARIANCE 0.065.H33
0 ST.DFV. 0.255*037
(O.l-OD/2 O.lflOOOOO
ST. ERROR
0.7630433 0.0307711
0.7700000 0.0/07073
0.6900000
H M H
D D
E I
A
N
PERCENTS
VAIUE
0.3300
0.4100
0.4200
0.4300
0.4SOO
0.4700
0.4800
0.4900
O.S100
0.3300
0.5400
COUNT
1
1
1
1
2
7
2
2
2
1
2
CHI
1.
1.
1.
1.
2.
2.
2.
7.
2.
1.
2.
CUH
1.4
2.9
4.3
S.8
8.7
11.6
14. S
17.4
20.3
71.7
24. &
UA1 HE
.5300
.6000
.6100
.6200
.6400
.6300
.6900
.7100
.7200
.7400
.7300
COUNT





.<
5
1
4
7
2

0
3

SKEUNESR
KURTOSIS
S
+


PERCFNTS
AELt
.4
.4
.4
.4
.4
.3
7.2
1.4
5.8
2.9
2.9
CUN
26.1
27.5
29.0
.10.4
31. »
J6.2
4.1.3
44.9
SO. 7
31.6
56.3
Vftl HE
0.7AOO
0.7800
0.7900
O.AOOO
0.8200
O.H300
O.R300
0.9000
0.9100
0.9400
0.9300
COUNT
3
1
2
1
2
1
1
1
1
1
2

EACH
VALUE
0.77
0.20
EACH

H
H
HH
H HH
HHHHHH H
HHHHHHHH H H
HHHHHHHHHHH HH
EACH 'H'
REPRFSENTS
2
COUNT(S)
H
'-' ABOVE = 0.07SO
L=> 0.22SO
U= 1.5730
01- O.SSOOOOO
VALUF/S.F. 03* 0.9100000
2.61 S-a 0.5074397
0.34 St» 1.0186472
'.' BFLOU - 0.0100
N
	 A

PERCFN1S
CPU
4.3
1.4
7.9
1.4
2.9
.4
.4
.4
.4
.4
2.9
CUN
60. 1
42.3
6'j.2
66.7
69.6
71.0
72. r,
73. »
75.4
J6.B
79.7
VAIUE COUNT
O.?7«0 :
.0100
.0200
.0600
• OROO
.1200
.?r.oo
.2600
.2900
.3200 2
.3200 1

X
PERCENTS
TELL
2.9
1.4
1.4
2.9
1.4
1.4
1.4
1.4
1.4
2.9
1.4
CUM
82.6
84.1
85. 1
88.4
H9.9
91.3
92.8
94.2
9S.7
90.6
100.0

-------
HYDRAR6 EASTERN BASIN All. DATA
  immum
  t PERVS    »
                                                                                                                   PAGE   254
VARIABLF NUMBER ......
NUMBER OF DISTINCT VALUES .
NUMBER IIP VALIIFS COUNTFO. .
NUMBER OF VALUES NOT COUNTED
14
69
69
 0
HAXIHUH
MINIMUM
RANGF
VARIANCE
ST.DEV.
<03-fll>/2
 71.3000000
 13.r.)99998
 SB.3400002
S74.7427791
 19.3582611
 18.0949993
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
  38.0204153
  .15.4599991
  NOT UNIQUE
     ST.FRROR
      2.3304608
      S.07S8360
 H
 H
 H
 HH H   H
HHH H   HHHH
HUH HHHHHHHH
HHH HHHHHHHHH
 EACH 'H'
REPRFSfNIS
     1

 COUNT(S)
                                                                          SKEUNESS
                                                                          KURIOSIS
                                                                                              EACH '-' ASIIVE =
                                                                                                            L»
                                                          VALUE   VALUE/S.F.
                                                           0.19         0.63
                                                          -1.49        -2.5.1
                                                                                   S.OOOO
                                                                                   0.0000
                                                                                  90.0000
                                                                                                                   01-
                                                                                                                   03°
                                                                                                                         17.7*0000:
                                                                           18.6621742
                                                                           57.3786964
                                                                                              EACH
                                                                                                       BELOU
                                                                                                                     0.5000
a s
M 1 -
N

N
D

H
A
0 S
3 *


N
X
PERCENTS PERCENTS PERCENTS PERfENTS
Vfll.UE CnilHT CEll CUM VAUIE COUNT CELl CUM VAl HE COUNT CEll CUM VALUE COUNT CELI CUM
13.16
13.85
14.15
14.23
14.37
14.95
15.13
13.25
13.29
15.54
16.33
16.64
16.77
14.93
17.3?
17.57
















17.71 1 1
17.76 1 1
1.4 18.48
2.9 JO. IB
4.3 20.28
S.B 70.45
7.2 20. BH
8.7 71.28
10. I 21.32
11.6 72.46
13.0 22.65
14.5 .10.51
15.9 31.52
17.4 31.77
IB. 8 32.59
70.3 J3.9S
21.7 34.71
73.2 J4.80
24.6 33. 4 A
76.1 .16.32















1
1
1
77.3 37.87
79.0 .18.97
30.4 40.13
.11.9 40.98
33.3 42. 3:>
.14.8 47.92
HIS. 2 48.76
.17.7 49.19
39. 51.67
40. 51.82
47. 52.12
41. !)?. 90
44. 53.11
46. 13.85
47. 33.94
49.3 53.95
50.7 36. Oil
32. 2 76. SB
]
1
















53. A 7.7.14
VJ.l '59. 41
;>A.5 59.7'i
5R.O 61.34
59.4 61.90
60.9 64.37
62.3 64.76
63.8 A4.77
65.7 63.80
66.7 66.12
68.1 66. ay
69.6 67.43
71.0 67. 87
72.5 49.34
7J.9 71.50
















•

•
.
•

•
.
•
•
•
•
79.7
81. 2
87.6
84.1
B5.5
87.0
B8.4
89.9
91.1
97.8
94.2
95.7
97.1
.4 98.6
M 100.0
73.4
76. B
78.3

-------
 H1DRRJ6 EASTERN BASIN ALL DATA
                                                                                                                 PAGE   255
   iiumm**
   I fJNlrCORR I
   ItJ.IIMIIfl

 VARIABIF NUHBER 	
 NUHBl.'.  OF DISTINCT  VAIUES .
 NUH«C,\  IIF VALIIFS r.OUHTtO. .
 NUHBL.  OF VALUES NOT  COUNTED
21
49
 0
MAX IHUH
HINIHUN
RANGE
VAKIANCE
ST.IIF.V.
(U.I-llD/2
288.0000000
2A3.0000000
 21.00000HO
 .17.2195354
  6.1024722
  4.5000000
 LOCATION ESTINATES
                    HE AN
                    MEDIAN
                    nODE
 273.7318724
 7/4.0000000
 272.0000000
     ST.FRKOR
      0.7346454
      1.1347011
      H
      H
    H H H
    HUH H HHH
  HHHHHHH HHH  HH
H HHHHHHHHHHHH HH
 EACH -H'
KLFkfSENlS
     1

 COUNT(S)
                                                                       -U
                                                                           SKEVNESS
                                                                           KUKIOSIS
                                                                                               EACH •-• ABOVE =
                                                                                                             L'
                                                                                                             u=
                                                          VALUF   VALUF/S.F.
                                                           0.33         1.13
                                                          -0.74        -I."1*
                                                                       1.5000
                                                                     262.5000
                                                                     ••89.5000

                                                                     01-   771.000UOOO
                                                                     113 =   280.0000000
                                                                     5--   76V.1294M&
                                                                     St =   ''Bl . 314'JbYo
N
N
S 0
1

H
D
E
H
D
1
H
A
N
0
3

EACH '. ' BELQU =
S
*

0.2000
n
X
                       PERCENTS
                                                       PERCENTS
                                                                                       PERCENTS
                                                                                                                       FEkCLKIS
VALUF COUNT
263.
244.
267.
268.
269.
270.
1
1
3
4
3
4
r.Fi L
1.4
1.4
4.3
S.R
4.3
t.H
CUH
1.4
7.9
7.2
13.0
17.4
73.2
VAI HE COUNT CEl 1
271.
272.
273.
274.
275.
276.
S 7.2
7 10.1
4 5.8
3 4..1
4 8.7
2 2.9
CUH
30.4
40.4
44.4
50.7
39.4
42.3
VAI IIF COUNT
277.
2/8.
279.
JRO.
782.
JH3.
1
4
2
S
5
2
cn i run
1.4 IS1.H
ri.R A9.4
2.9 77.5
7.7 79.7
7.? R/.O
2.9 89.9
VALUE COUNT TElL Cun
284.
287.
:na.



4 5.8 V'i.7
J 2.V 98.0
1 1,4 100.0



HTDRA34 EASTERN BASIN ALL DATA
  Mimmm
  I CL       I

NUHBE't OF DISTINCT VALUES . .
NUHBir. IIF VAI IIFS COIIHTFD. .
NUHbt:i OF VALUES NOT COUNTED
LOCATION ESTIHATES
HE AN
MEDIAN
NODE
N
N
HAXIHUH 16.799999?
7 HINIHUH 14.3000002
14 RANOE 1.9999990
69 VARIANCE 0.0917894
0 ST.DFV. 0.304250A
(O.I-QD/2 O.l'iOOOOl
ST.FRROR
15.0273164 0.0368687
15.1000004 0.0781)676
15.1999998
5KEUNESS
KURTOSIS
SO OS
1 HHH i
ADM
N I E

H
H
H
HH
H HH
HHHH
HHHHH
HHHHHHHHHH
EACH '-• ABOVE =
VALUE VALUF/S.F.
0.71 3.40
3.17 5.38
EACH ••• BFLOU -


FAI
RCPI
COI
H
0.1 'iOO
13.9500
14.4'tOO
01- 14
03° I'J
S-« 14
b» = 15
0.0200
n
.H
X
                                                                                                                         14.7712U5B
                                                                                                                         15.3137B/0
                      PERCENTS
                                                      PERCENTS
                                                                                      PERCENTS
                                                                                                                      PEF.CEHTS
VAI UC COUNT CFI I
14.30
14.40
14.50
14.60
1 1.4
1 1.4
1 1.4
J 4..I
CUH
1.4
2.9
4.3
8.7
VAt UE COUNT CEI 1
14.70
14.90
15.00
15.10
10 14.5
8 11. A
9 13.0
1.1 18.8
CUH
73.7
34. B
47.8
46. 7
VA11IE COUNT CFIt
15.20
15.30
15.40
15.50
14 70.3
1 4..1
3 4.3
1 1.4
run
B7.0
91.3
v:,.7
97.1
Vnl UC COUNT PEl L
15.70
16.30


1 1 .4
1 1.4


CUn
98.6
100.0



-------
HTDRA06 EASTERN BASIN ALL DATA
                                                                                                                  PAGE    256
  xtuutmi
  « ALKTOT   «
  Ilimilim

VARIABLE NUMBER 	
NUMBER OF DISTINCT VALUES .
NUNbtR 'IF VALIIFS COUNTFD. .
NUMBER OF VALUES NOT COUNTFD
 6
53
69
 0
 NAXIHUM
 MINIMUM
 RANGE
 VARIANCE
 ST.DFV.
 (03-011/2
        114.4000015
        100.8000031
         13.5999985
          9.10R6I09
          3.0510015
          1.4500008
LORATION ESTIMATES
                   HEAN
                   HEDIAN
                   MODE
 106.8188400
 107.0000000
 106.4000013
      ST.ERROR
       0.36/2974
       0.3464094
                                                 H             EACH  'H1

                                                 HH               2
                                            H    HHHH            COUMUSl
                                            H    HHHHHH
                                            HH  HHHHHH
                                           HHH HHHHHHHHH  H
                                         L	U
                                                         H N H
                                                        .Q.E.F..
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                              EACH '-' AHOVE =
                                                          VALUF   VALUE/S.F.
                                                          -0.18        -0.61
                                                          -0.34        -0.58
                                                                                              EACH
                                                                                                       bELOU -
                                                                                                                     1.0000
                                                                                                                    99.0000
                                                                                                                   117.0000

                                                                                                                   01'   105.5000000
                                                                                                                   03»   108.4000015
                                                                                                                   S-=   103.7*7B37i
                                                                                                                     0.1100
                                                         DAD
                                                         E N I
PERCENTS
VALUF COUNT CFl 1














100.8 1
101.2
101.3
101.5
101.7
101.8
101.9
102.0
102.2
102.4
102.5
102.7
104.7
105.4












.4
.4
.4
.4
.4
.4
.4
.9
.4
.4
.4
.4
.4
7.9
CUN
1.4
2.9
4.3
5.8
7.2
8.7
10.1
11.0
14.5
15.9
17.4
18.8
20.3
73.2
PERCENTS
VAIUE COUNT CEIl CUM
103.3 2 7.9 26.1
105.6 1 .4 77.5
103.7 1 .4 29.0
104.0 1 .4 .10.4
106.1 2 .9 33.3
106.2 1 .4 34.8
106.3 1 .4 36.2
106.4 4 S.H 42.0
106.5 2 7.9 44.9
106.8 2 2.9 47.8
106.9 1 1.4 49.3
107.0 1 1.4 50.7
107.1 2 2.9 53.6
107.2 1 1.4 S3.1
PERCENIS
VAI HE
107
107
107
107
107
I OH
108
I OS
108
ion
108
109
109
109
COUNT C.El 1
.3 2 2.9
.4
.6
.7
.8
.0
.1 •
.2
.3
.4
.9
.3
1.4
1.4
1.4
.4
.4
.4
.1
.9
.4
.4
.4
.4 2 -J.1
.6
1.4
CUN
:.H.P
59.4
60.9
62.3
63.8
65.2
6A.7
71.0
73.9
75.4
76. h
78.3
DI.2
B2.6
VALUF COUNT
109.7
109.8
110.1
110.4
110.7
110.9
111.1
111.}
113. /
112.4 1
114.4 I



PERCENIS
CFIL CUn
.4 B4.1
.4 81. S
.9 HU.4
.4 »9.9
.4 91. .1
.4 9?.b
.4 94.2
.4 9j.7
.4 97.1
1.4 94.0
1.4 100.0



Itttttttlttt
• M.r.1 H (
tIKMIIIMt

VARIABLE
NUMBER ~J

NUMBER 	
r DISTINCT VAIUES

,
.
NUMBER '.IF VAIIIFS CDUNTFD. .
NUMBER OF VALUES NOT COUNTED


LQCATinil







ESTIMATES
MEAN
IICDIAN











MAXIMUM 8.
7 HINIHUN 0.
29 RANGE 8.
69 VARIANCE 4.
0 ST.PFV. 2.
(03-UD/2 1.

ST. ERROR
1.8470290 0.2648361
1.7000000 O.A439S3I
0.0000000


8999996
0000000
8999996
8395.114
1998935
3000000











































EACH




H
H
H
H
H
H
H HH H
HHHHHHHHHH H H
• . * AHllVE s
u=
u-



EACH 'H'
KEPKKSEN1S
4
COUNT(S)


HH
0.5000
0.0000
9.0DOO
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                         VALUF
                                                          1.16
                                                          0.90

                                                           EACH
                                                      VALUF/S.F.
                                                            1.94
                                                            1.53

                                                     •••  feELOW  '
                                                                                                                  01-
                                                                                                                  03°
                                                                     0.0000000
                                                                     3.0000000
                                                                    -0.357864:)
                                                                     4.0419226
                                                                                                                    0.07iO
S

0
rt
H
M
D
1
N
A
N
Q S
3 +

n
X
                     PERCENTS
                                                     PERCENTS
                                                                                     PERCENTS
VAI
(







JE
1.000
.000
.200
.500
.700
.900
'.000
(.100
COUNT
32
7
1
7
1
1
1
1
I:EI
46.
•/.
| ,
7.
1 ,
1.
1 ,
1.'
CUM
1 46.4
> 49.3
50.7
!il.6
55.1
1.4.5
58.0
ti9.4
  VAI IIF
     2.300
     2.400
     2.500
     7.600
     2.700
     2.800
     3.000
     3.400
COUNT
    I
    7
    2
    7
    1
    1
    2
    1
REII
 1.4
 2.9
 2.9
 2.9
 1.4
 1.4
 7.9
 1.4
 CUN
60.9
A3.8
AA.7
A9.6
71.0
72.5
73.4
/6.B
VAI IIF CHUN
3.500
3.600
3.800
1.900
4.100
4.200
4.600
4.800 :
r c







;
El
.
.
.
.
.
.
.
t
CUH
7(1.3
79.7
81.7
a-i.5
R/.B
88.4
89.9
92.8
                                                                                                    VAI UE    COUNT
                                                                                                       S.600     1
                                                                                                       4.000     I
                                                                                                   ,    7.IOA     1
                                                                                                       8.300     I
                                                                                                       8.900     I
 PEfiCCNTS
TFLL   CUH
      94.?
      91.7
      97.1
      9U.6
1.4
1.4
1.4
1.4
                                                                                                                     1.4 100.0

-------
HYDRAR6 EASTERN BASIN AIL DATA
                                                                                                   PAGE  257
Mttmtmt
I PH »
tmtxmt**
VARIABLF NUHBER
HAXIHUH
	 S NINIHUH
8.4200001
7.4ROOOOO
NUHBER OF DISTINCT VAI UES . 40 RANGE 0.9100001
NUMBER IIF VAIUFS COUNTED. . 69 VARIANCE 0.0821852
NUHBER OF VALUES HOT COUNTED 0 ST.PEV. 0.7B707B3
(Q3-OD/2 0.75S0001
LOCATION FSTIHATES ST.F.RROR
NEAN 8.0734225 0.0345541
NFDIAN A. 1800003 0. 0894893
h
N
NODE
Mill UNlUUt
S Q
- 1
PERCENTS
VAIUF COUNT
7.480
7.570
7.580
7. WO
7.610
7.430
7.640
7.450
7.670
7.740
1
3
1
•I
2
1
2
1
2
2
CEU
1.4
4.3
1.4
7.9
2.9
1.4
2.9
1.4
2.9
2.y
CUN
1.4
S.8
7.2
10.1
13.0
14.5
17.4
18.8
21.7
74.6
SKEUNESS
KURTOS1S
H
PERCFNTS
VAI HE KOIINT KEl I
7.750
7.760
7.810
7.850
7.860
7.870
7.910
7.930
7.960
8.010
.4
.4
,4
.3
.4
.3
.4
.4
.4
.4
CUIt
24.1
77.5
79.0
33.3
34.8
39.1
40.6
42.0
4.4.5
44.9
A
N
H
HH
HH
H HH
H H HH
H H HH
HH HH HHHH
HHHHHHHHHHHHHH
EACH '-' ABOVE =
L»
U=
VALUE VALUF/S.F.
-0.3R -1.78
-1.41 -2.40
EACH •.' BFLOU =•
Q
N 3
EACH 'H1
REPRtSF.HTS
2
COUNT(S)
0.0750
7.2750
8.6250
01= 7.7500000
03° 8.2600002
S— 7.7365947
St» 8.3106508
0.0075
S
« n
D
I
PERCENT S
VAI HE COUNT
B.060
8.090
B.160
8.180
8.200
8.710
8.220
8.230
8.240
8.250
1
1
1
1
2
3
2
3
2
3
CEIL
1.4
1.4
1.4
1.4
2.9
4.3
7.9
4.1
7.9
4.3
CUM
46.4
47.8
49.3
ID. 7
33.6
•j8.0
60.9
A3. 2
AR.l
72.5
VAI.UF COUNT
B.260
8.270
B.2BO
8.300
B.310
8.320
B.340
fl. 370
B.410
8.420
2
3
3
1
2
I
3
1
I
2
X
PERCENTS
CEIL
2.9
4.3
4.3
1.4
7.9
1.4
4.3
1.4
1 .4
2.9
cun
75.4
79.7
04. 1
83.5
88. 4
89.9
94.2
95.7
97.1
100.0

-------
                                        PAGE  258
APPENDIX D

-------
T-TEST HYDRA8&  BASIN COMPARISON EPI

DIFFERENCES AMONG  GROUP MEANS USING ALL VARIABLES
FOR THE FOLLOWING  GROUPS
ttlllllitllS
« UESTErN   I
I CENTRAL   *
ltl*»»ltSII
                                                                                                                PAGE   259
»t«ItfM4II
t TENP I VARIABLE NUhBCR 2
imttiiMit
STATISTICS P VAIUF P. F.

T (SEPARATE) -4.0? 0.000 208.4
T < POOIED) -4.2; 0.000 322

F(FOR VARIANCES) 3,4.1 0.000 143i 179

ttllltttlSSt
(DO ( VARIABLE NUNBER 3
tlltttlSlllt
STATISTICS P VAIUE P. F.

T (SEPARATE) 3. IB 0.00? 214.9
T (POOLiD) 3.37 0.001 320

F(FOR VARIANCES) 2.93 0.000 141i 179

tlttttttlllt
* PERDO ( VARIABLE NUHBER 4
ttttttlttttl
STATISTICS P VAIUF D. F.

T (SEPARATE) -0.24 O.B11 287. 7
T (POOLrD) -0.74 O.A09 320

F(FOR VARIANCES) 1.7? 0.711 141i 179

tllttttlllll
I CORRTP t VARIABLE NUHBER 2
isiimmit
STATISTICS P VALUF D. F.

T (SEPARATE) 8.08 -0.000 173. 0
T (POOIED) 8.73 -0.000 311

F(FOR VARIANCES) A.A1 0.000 I39i 172

Illtlltllttt
t CORRTFP t VARIABLE NUNBER 3
MlSMIHBtt
STATISTICS P VAIUF B. F.

T (SEPARATE) 0.14 0.885 187.2
T (POIUiD) 0.15 0.879 301

FIFOR VARIAHCFS) 4.51 0.000 ll/t 164

tllttttlttlt
1 SRP t VARIABIE NUHBER R
imiutttii
STATISTICS P VALUE D. F.

T (SEPARATE) O.SB 0.564 241.6
T (POOIED) O.AO O.Slil 308
F(FOR VARIANCES) 1.52 0.010 I29t 179

< CALCSQP t VARIABLE NUHBER 7
WI!SI9«lttl
STATISTICS P VALUF D. F.

T (SEPARATE) 0.87 0.387 17*. 7
T (POI)teD> 0.94 0.3!>0 290
F(FI)R VARIANCES) 3.80 0.000 12Ai 164

GROUP 1 WSTFRN
NFAN 1A.1RB2
STD DEV 6.1769
S.E.N. 0.1M7
SAHPLE SIZF 144
MAXIMUM 73.AOOO
MINIMUM 4.7000



GROUP 1 UFSTFNN
MEAN 9.»")42
STD DFV 1.A111
S.E.N. 0.1352
SAHPLE SI7F 142
HAXIHUH 13.1000
HINIHUH 6.4000



6ROUP 1 UESTERN
MEAN 93.1811
STD DFV B.21H'i
S.E.N. O.A897
SAHPLF SI7E 142
HAXIHUH 170.R700
MINIMUM 71.0600



GROUP 1 UFSTFRN
MEAN 71 . 4164
STD DEV 11.3589
S.F.N. 0.9769
SAMPLE SI7E 140
MAX I HUN :>B.70i)0
HINIHUH 0.5000



GROUP 1 UhSTfRN
NEAN 5.4351
STD DEV 4.9RI2
S.F.H. 0.>40
SAHPLE SJ?F 138
NAXIHUH 7A.4000
HININUH 0.0000



GROUP 1 UFSTFRN
NEAN 0.4983
STD DFV 1.71/R
S.E.H. 0.1507
SAMPLE SIZF. 130
NAXIHUH 9.0000
MINIMUM 0.0000

GROUP 1 UFSTFRN
HEAN 4.K062
STD PFV 4.7499
S.E.M. O.<771
SAHPLF SI7F 127
HA < I HUN 74.1000
HINIHUN 0.0000

2 CFNTRfiL
I8.4H33
3.3.<4B
0.7486
180
74./000
10.6000



7 CFNTRAI
9.1A94
0.9413
0.0702
180
11.4000
7.7000



? CEN1RAI
9'.. 39*8
7.4442
0.5*349
180
115.1700
B1.4HOO



2 CFNTRAL
11.0977
4.4955
O..I418
173
.13.7000
3.1000



7 CFNTRAI
S.IUUS
2.34A7
0.1826
165
1 2. TOOO
0.0000



2 CFNTRAI
0.8928
1.3949
0.1040
1BO
4.6000
0.0000

? CENTRA!
4.4479
2.1801
0.1497
165
IZ.-'OOO
0.0000

1 UESTERN (N 144)


H
H
HHH H H HHH H HHH
HHH HHHHHHHHHHHHHHH

AN H e CASFS

1 UESTFRN (H> 142)
H
H
H HHHH H H
HHHHHH HH HH
HHHHHHHHhHHHHHH
HHHHHHHHHHNHHHHHHHHH

AN H - 3 CfcSF.S

1 NFSTFRN (N- 14?)
H
H
HHH
HHHHHH
HHHHHHHHH
HHHHHHHHHHHHHHHHHH H

AN N 3 CASFS

1 UFSTFRN (N- 140)
H
HH H
HHHH
HHHHHH
HHHHHHHHHH H
HHHHHHHHHHHHHHHH HH

AN H = 4 CASES

1 UFS1FRN (N- 118)


H
HHH
HHHHHH
HHHHHHHHHHHHHH HH H

AN H - 9 CftSFS

1 UFSTFRN (N 130)

H
H
H H
HHHHHHHHHH H H H HH
AN H - 18 CASFS
1 VESTERN (M 127)

H
H H
HH H
HHHHHH
HHHHHHHHHHH H H
AN H - 7 CASFS
2 CLNTRAl (N> IHOi
X
X >
X X
xx r; >*
xxxxmxxxx
x xmxxiixxxkxx

UN ) • A CASFS

2 CFNTRAI (H = IriO)
X
X
X <
XX > >'
ifXXXXX X
XXXX)AXX*XXX

AN ). - H Cr.SES

2 CKNTRAI (N- 1RO)
X
X X
XX XXX
xxxxmx
XXXXXXXXtXX
xxxxxxmxxm

AN ) ', CASFS

2 CFNTRAI IN' 173)
X
X
xxxx
xxxx
xxxyx
XXXXXXXXX X

AN X >• 9 CASFS

2 CFNTRAI (H* IAD
X
X
XX
XXX
xxxxxxx
XXX)') XXV x

AN X ' 9 CASES

2 TFNTRAI (h- IhO)
X

»
X
XXXXXXX) XXX
AN ). 18 CASES
2 CFNTRiil (H* lASi
X
XXX
xxxx
xxxx»
xxxx>x
XXXXXXU X
AN X - 7 CASES

-------
T-TEST HYDRAS* BASIN  COMPARISON FPI

DIFFERENCES AIDING GROUP  MEANS USING ALL VARIABI ES
FOR THE FOLLOWING GROUPS
tttStlllttt*
I VESTErH  *
* CENTRAL  «
»ltl»»lt«tt
PAGE   260
*i*i«m»sii
* CALCP0 » VARIABLE NUMBER 5
tJIISIStSttt
STATISTICS P VALUF t>. F.

T (SEPARATE) 11.75 0.000 177.2
T (POOLED) 11.97 0.000 293

FIFHR VARIANCES) 5.18 0.000 134, 159

I PERPP « VARIABI F NUMBER 6
tttMllttlt
STATISTICS P VALUE D. F.

T (SEPARATE) 10.3* 0.000 291.7
T (POOLED) 10.49 0.000 293

F(FOR VARIANCES) 1.2J 0.211 159, 134
itmmtm
t PERTFP t VARIABLE NUMBER 4
iiimmm
STATISTICS P VALUF D. F.

T (SEPARATE) -10.38 0.000 291.7
T (POOLED) -10.4V 0.000 293

FfFOR VARIANCES) 1.2.1 0.711 139, 134
UUUMHM
1 NITNIT 1 VARIABLE NUMBER 2
tmmsisit
STATISTICS P VALUE D. F.

T (SEPARATE) 8.16 -0.000 207.1
T (PODltD) R.6H -0.000 319
F(FQR VARIANCES) 3..I? 0.000 HI, 178
I NH3 1 VARIABLE NUMBER 3
utumiiti
STATISTICS P VALUF D. F.

T (SEPARATE) 4.90 0.000 173.8
T (POOLED) !>..U -0.000 319
F(FOR VARIANCES) 6.30 0.000 HO, 179
i KjELCOrtP 1 VARIABLE NUMBER 7
l*l»i* >*•*!
STATISTICS P VALUF D. F.

T (SEPARATE) 1.90 0.06C 95.6
T (POl)lrD) l./H 0.0/8 97

F(FOR VARIANCES) 1.H7 0,011 :>V> 3B

tlKKltttlt
1 SRS « VARIABLE NUMBER 4
t*i*<»imi«
STATISTICS P VALUE D. F.

T (SEPARATE) 9.64 0.000 249.7
T (POOIED) 9.99 -0.000 319
F(FOR VARIANCES) 1.8R 0.000 HI, 178
GROUP 1 HESTFRH
MEAN 14. .(970
STD DEV B.lViO
S.E.H. 0./002
SAMPLE SIZF 135
MAX I HUM 41.4000
MINIMUM 0.5000


GROUP 1 WESTERN
MEAN 78.3217
STD DEV 14.6367
S.E.N. 1.2613
SAMPLE SIZF 135
MAXIMUM 100.0000
MINIMUM 33.9700


GROUP 1 UFSTFRN
MEAN 71.6783
STP DEV 14.6567
S.E.H. 1.7615
SAMPLE SIZF 135
MAXIMUM 66.0300
MINIMUM 0.0000

GROUP 1 UFSTFRN
MEAN 3:,0..1?39
STD DEV 171.1404
S.F.M. 14.3618
SAMPLE S1JF 142
MAXIMUM 908.0000
MINIMUM 0.0000

GROUP 1 UESTFRN
MEAN 15.3390
STD DEV 14.3022
S.E.H. 1.7045
SAMPLE SIZF 141
MAX I HUN 90.1000
HIMIMUH 1.0000

GROUP 1 UfSTFRI.
ncAN 0.7712
STh DFU 0.09HB
S.F..M. 0.01:3
SAMPLF SIZF. 60
MAXIMUM O.-JAOO
MINIMUM 0.1200


GROUP 1 UESTFRN
MEAN 1101.0493
STtl DEV 587.4701
S.E.N. 48.8798
SAMPLE SIZF 142
MAXIMUM 27/2.0000
MINIMUM 86.0000

2 CENTRAL
7.9025
3.5/44
0.7826
160
77.7000
0.9000


2 CENTRAL
39.2600
1A.7/37
1.2865
160
100.0000
11.5600


2 CENTRAL
40.7400
16.2737
1.7R6S
160
88.4400
0.0000

2 CENTRAL
219.9717
93.9669
7.0234
179
463.0000
69.0000

? T.tNTRAI
9.09SO
5.6104
0.4182
180
34./000
1.7000

7 CmTfiAl
0. n U*^
0.07V?
D.01U
39
0.4100
0.1400


2 CENTRAL
5J9.0224
424.47A9
31./269
179
1563.0000
81.0000

1 WFS1ERN (H- 13')



H
HHHHHH
HHHHHHHHHHHHHHHHH HH
HIM 	 H.1X
AN H ' 8 CftSFS
1 UFSTFRN (N« 135)
H
H
H H
HHHH h
H HHHHHHnHH
H HHHHHHHHHHHHH
AN H -• 5 CASES

1 MESTfRN (N* U'.l
H
H
H H
H HHHH
HHHHHHHHH H
HHHHHHHHHHHHH H
AN H = 5 CASE?
1 WESTERN (N= 142)


H
HH
HHH
HHHHHHHHHHHHHHHHHHHH
AN H - 9 CASF.S
1 UFSTFRN (N HI)


H
HH
HHHHH
HHHHHHHHHH H H H
AN H - 11 CASES
1 UF'lFfN (rf -P


H Hh il
H HHHH H
HHH HHritHh H
HrfHHHHhHHHH nnr hrtj

AN H = 2 CISF =
1 UESTFRN (H 142)


.
H H
HH HHHHHHH
HMHHHHHHHHHHHH H
AN H - B CASES
2 CFNTRAL (N: 1AO)
XX
XX
XXX
XXX
xxxxx
UXXXXXXXK x
HIM 	 HAX
AN X t CASES
2 CENTRAL (No 1AO)

X X
XXX
xxox
xxxxxxxxxx
XXXX)>X).».XXXXXXXX X
AN 1 • :, TASFS

2 rFNTRAl (N- 160)

X X
XXX
xxxxx
xxxxxxxxxx
X XI.XXXXXXXXXXXXXXXX
AN X r> CASES
3 CFNTRAL (N« 179)
X
X
X X
xxxx
xxxxxx
xxxxxxxxxx
AN X « 9 CASES
2 TFNTkAL (N> 180)
XX
XX
XX
XXX
xxxx
XXXXX X
AN X • 11 CASES
; CF^TfM. !«- o,



XI X
in f i (


"" ' ' C"3E"
2 CENTRAL (N« 179)
XX
XXX
XXX
xxxx
xxxxx
xxxxxm r ic x
AN X 8 CASES

-------
  T-TEST HTDRAB6 BASIN COHPARISON FPI

  DIFFERENCES AHDNG fiROIIP HEANS USING ALL VARIABLES
  FOR THE FOLLOWING GROUPS
  * HESTEI-N  »
  I CENTAL  I
  IIIMSIiIIU
                                                                                                                     PAGE   261
  Miimttm
  t  SfCCM!  I  VMUILC NUHKR  J
  IIIIMItllll
          STATISTICS    P VM.UE  I. F.
T (SEP4RAIC)
T IPOOIED)
                -12.83
                -IS.80
     0.000
     0.000
     47.0
     tit
 FIFO* VARIANCES)  4.63  0.000   40i  71
  uismtiiit
  S  TURBIH   I  VARIABLE NUHbER   7
  tSIIIIMMM
           STATISTICS    P UALUF  D. F.
8ROUP

STI) KV
S.E.N.
SAMPLE SIZE
NAX1NUN
HINIRUN
1  HESTFRN
   t.6»fll
   0.4646
   0.0781
      72
   I. WO
   0.6000
                              CF4TRM.
                               i.:*s3
                               I.7H4
                               0./476
                                   41
                              IC.JOOO
                               2.7000
  T  (SEPARATE)
  T  (POOLED)
 15.95  0.000  148.3
 17.70  0.000  321
 F(FOR  VARIANCES)  4.1.08  0.000  143.  178
                   GROUP
                   HEAN
                   STD DEV
                   S.E.M.
                   SAHPIF SIZE
                   HAX1HUH
                   MINIMUM
                       1 UtSTERN
                          6.6278
                          4.2131
                          0.3511
                             144
                         78.0000
                          1.7000
L 1 KESTI
3 H
4 HH
6 NH
1 HH
0 HHHH

AN H •
? CFNTRAL
0.9740
0.6419
0.0480
179
3.1000
0.3000
u
rRH (»» 7?)






S CASFS
1 UESTFRN (N*
H
HH
HHH
HHHHHH
HHHHHH
NHHHHHHHHHHHH
2 CEI

I
II
II
II
II
M I
144)





HH H
»T«AL (»• 41)
I
H X
III I I
in in
HIIXXII
mxxiix i
1 CuSES
2 CFNTRAL (H= 179)
X
X
)
X
XX
XKX
                                                                                    AN H
                                                                                               4 CASES
                                                                                                                 AN  V  »    2".  CASES
 atsutttssii
 « PHEO     *  VARIABLE NUHBER   8
 »»»I»M«*SI*
          STATISTICS    P VALUF  D. F.
 T (SEPARATE)
 T (POOLED)
 8.30 -0.000   167.1
 9.09  0.000   322
 ttU*l!*SI»
 » TSS      I  VARIABLE NUHBER
          STATISTICS
                        P VALUE  D. F.
 T  (SEPARATE)
 T  (POOIED)
17.77  0.000  1S4.1
IB.7.1  0.000  312
 FIFOR VARIANCES) 19.74  0.000  142>  170
 t«tl>*ttlt*t
 *  RS        «  VARIABLE NUHBER   4
 Itltttltllll
          STATISTICS    P VALUF  D.  F.
T  (SEPARATE)
T  (POOLED)
16.19
17.60
0.000
0.000
l'»0.6
312
                   GROUP
                   HEAN
                   STD DEV
                   S.E.N.
                   SAMPLE  SI7F
                   MAXIMUM
                   MINIMUM
 F(FOR VARIANCES)  9.54  0.000   I43i   179
                       1  WESTERN
                          4.8945
                          4.6748
                          0.1896
                             144
                         .{7.7100
                          0.0000
                  GROUP
                  HEAN
                  STD  DFV
                  S.E.N.
                  SAMPLE S17F
                  MAXIMUM
                  MINIMUM
                                                      1 MF-STERN
                                                          7.5022
                         0.1453
                             143
                        79.4000
                         2.3900
FIFOR VARIANCES) 77.71  0.000   142.   170
                                         GROUP
                                         MEAN
                                         STD DFV
                                         S.E.N.
                                         SAMPLE SI7F
                                         MAXIMUM

                                         MINIMUM
               1 UfSTERH
                  5.5609
                  3.5839
                  0.2997
                     143
                 74.4800
                  1.1400
2







7








7







7







CFNTRAL
3.0861
2.6.U7
0.1962
180
11.4000
0.7900

CFNTRAL
1.5243
1.5UB
0.1128
180
7.6400
0.0000


CENTRAL
1.4135
0.9793
0.0711
171
4.0400
0.7900

CFNTRAL
0.6353
0.6H08
0.0321
171
3.0100
0.0000

1 UFS1ERN (N 144)

H H
HHHHH
HHHHH H
HHHHHHHHH
HHHHHHHHHHH M HH
AN H - 5 CASF.S
1 WESTERN (N- 144)
H
H
HHHH
HHHH
HHHHH
HHHHHHHHH H HH H
HIN 	 MAX
AN H - 7 CfSES
1 UFSTtRN (N 143)
H
H
HHHH
HHHHH
HHHHHHh
HHHHHHHHHHH HH H
AN H - 6 CASFS
1 UESTFRN (N* 141)
H
H
HHH
HHHHHH
HHHHHH
HHHHHHHHHHHHH HH H
AN H • 6 CASES
2 ChNTRAt (N» 180)
X
XX
XX
XX
xxxx
XlXXXXXX
AN X 11 CASFS
2 CENTRAL xx
AN X - ?l CASFS
3 CFNTRAL (N- 171)
X
X
X
X
XX
XXX
*N X 24 TASFS
tuiuitmi
* VS ( VARIABLE
*t**«stt»m
STATISTICS

T (SEPARATE)
T (POOLED)

FIFOR VARIANCES)

14.
15.

7.

35
3*i

11
NUMBER
P VALUE

0.000
0.000

a. noo
S
n. F.

175.3
312

147. 17
GROUP 1
MEAN
STD DKg
S.E.M.
SAHPLE SI7E
MAXIMUM
MINIMUM
n
UKSTERN
1.9413
o.9i;o
0.

S.
0.

0767
143
AOOO
1400

2 CEHTRA1
0.7782
0.3418
0

2
0

.0263
171
.7600
.2100

1 UFSTFRN
H
HH
HHHHH
HHHHHHHHHHHH

(H 141)



HH HHHH

                                                                                                               : D.NTRAL (N> 171)
                                                                                                              XX
                                                                                                              XX
                                                                                                              XXX
                                                                                                             XXXk
                                                                                                             xxux
                                                                                                             XXXXXX X
                                                                                                      riA< HIN-
                                                                                  AN  H  -      9  CASES
                                                                                                               AN X  -
                                                                                                                         9 CASFS

-------
 T-1EST HYDRAB6 BASIN COMPARISON EPI

 DIFFERENCES AHOHG fiROIIP WANS USING ALL VARIABLES
 FOR THE FOLLOWING GROUPS
 MtlillJIISS
 I MESTEiiN  I
 I CENTkiL  *
 Mtllllillll
                                                                                                   PAGE   262
 itimtusit
 t PERVS    I  VARIABLE NUMBER   A
          STATISTICS    P VALUF  D. F.
 T (SEPARATE)
 T (POOLED)
 -20.29  0.000   274.5
 -19.3A  0.000   112
 F(FOR VARIANCES)  3.27  0.000  170i   142
 tttuttum
 I CONDCORR I  VARIABLE NUHBER   8
 timiiimi
          STATISTICS    P VA1UF  D.  F.
 T (SEPARATE)
 T (POOLED)
-16.64  0.000  172.1
-18. Ill  0.000  322
 FtFOR VARIANCES)   7.8A   0.000   llir   179
 tlltStltttll
 I  CL       t  VARIABLE NUHBER   9
 tiiimuiii
         STATISTICS    P VALUE  D. F.
 T  (SEPARATE)
 T  (POOLED)
-11.74  0.000  171.2
-17.79  0.000  321
F(FOR VARIANCES)  8.1A  0.000  14.1.  178
 tltllllTUU
 *  ALKTO-   I  VARIABLE NUMBER   A
 • tSMIttltll
         STATISTICS    P VALUF  D. F.
T  (SEPARATE)
T  (P001 ID)
-17.56  0.000  234.4
-18.3;  0.000  122
F(FOR VARIANCES)  2.37  0.000
(MIIIIIIOI
( ALKPH    1  VARIABLE NUMBER   7
                                     179
         STATISTICS
                       P VALUE  D. F.
T (SEPARATE)
T (POIlli!))
 -4.80  0.000   783.3
 -4.HH  0.000   333
F(FOR VARIANCES)  l.Vi  0.0
(IKIIIMII*
I PH       t  VARIABLE NUHBER
                               141.  179
         STATISTICS
                       P VALUF  D.  F.
T (SEPARATE)
T (POOLED)
 -4.83   0.000   244.5
 -•5.07   0.000   122
F(FOR VARIANCES)  2.10  0.004  14.1.   179
GROUP 1 VESTERN
MEAN 78.3969
STD DFV 10.7473
S.E.H. O.R987
SAMPLE SI7.F 143
MAXIMUM 60.1400
MINIMUM 1.7200

GROUP 1 HFSTFkN
MEAN 238.7917
STD DEV IB. 1870
S.E.N. 1.-11S4
SAMPLE SI7F 144
MAXIMUM 308.0000
MINIMUM 206.0000

GROUP 1 UF.STFRN
MEAN 11.6604
STD PFV 7.9735
S.F.N. 0.2436
SAMPLE SI7E 144
MAXIMUM 76.0000
MINIMUM 6.9000

GROUP 1 UtSTFRN
MEAN 93. .1119
SID DEV 3.0242
S.C.H. 0.1187
SAHPLE SI7F 144
MAXIMUM 107.1000
MINIMUM 84.0000

GROUP 1 HF.RTFKN
HEAN 2.1174
SID DEV 2.S4JO
S.F.N. 0.7119
SAMPLE SI7K 144
MAUHUH 10.1000
MINIMUM 0.0000

GROUP 1 UFhTfRN
MEAN 8.7128
STD DEV 0.2178
S.E.M. 0.0177
SAHPLE SI7F 144
HA'dHUN H.7SOO
MINIMUM 7.5900
? CENTRAL
63.6238
19.2773
1.1738
171
100.0000
23.0600

2 CFNTRAL
264.7609
6.47RS
0.4829
180
798.0000
239.0000

2 CENTRA!
14.6r>92
1.0233
0.0763
179
17.0000
7.0000

2 CENTRAL
101.8111
3.7*08
0.7430
180
109.6000
93.6000

1 CF.NTRAL
3.8011
2.)H«4
0.1612
180
10.B.IOO
0.0000

2 CFNTRAI
H.l\33
O.HA9
0.0110
180
R.6800
7.9100
1 VESTFRN (N 143)
H
HHH
HHH
HHH
HHHHHHH
N HHHHHHHHHH
AN H - 6 CASFS
1 HFSTERN IN"- 144)
H
H
HHH
HHHHH H
HHHHHHHHH
HHHHHHHHHHHHHHHHH HH
AN H 5 CASES
1 HESTERN  171)



X XX XXX
XXXJXXXXXXXXX
xxxxmxxxxxxxxx
AN x - 6 CASFS
2 CFNTRM. (H* IhO)
X
XX
XX
xxx
XXX
XXXX1XXXX X
AN X • P CASFS
2 CFNTkAL (N- 179)
X
X
X
XX
XX
XXX 1XXXX
AN X > IB CASES
: CENTRAL (N- IBO)
X
X
XX
xxxxxx
XXX'/XXX
xxxmmxxm
AN X 7 CASES
: CFNIRAI (N: IBOI

xxx \
XXXAXX X
XXXXXf XXXX
XiXX(X«XXXt>XX

AN X - '. CASFS
2 TFN1RAL IN' IRvi
X
XX
XX
XXXXX
XX(*XXXX
xxxxxxxxxxxxxx
                                                                                 AN H
                                                                                            3 CASFS
                                                                                                             AN X
                                                                                                                       7 CASFS

-------
T-TEST HYDRAB6 BASIN COMPARISON FP1

DIFFERENCES AMONG GROUP KEAHS USING  Al.l  VARIABLES
FOR THE FOLLOWING GROUPS
I CENTHnL  I
t EASTERN  I
ISIlSltilflt
PAGE   263
mutism*
« TENP 1 VARIABLE
»mt»im
STATISTICS

T (SEPARATE) 6.48
T (POdlED) 4.67

F(FOR VARIANCES) 2.80

1 DO * VARIABLE
immum
STATISTICS

T (SEPARATE) -2.01
T (POOLED I -1.7O

F(FOR VARIANCES) 1.64

mmmm
* PERDO t VARIABLE
miuimti
STATISTICS

T (SEPARATE) 2.50
T (POOIED) 2.01

FIFOR VARIANCES) 1.95

mmmm
1 CORRTP t VARIABLE
*4ttmi*m
STATISTICS

T (SEPARATE) 1.41
T (POniCD) 0.90

FIFOR VARIANCES) 4.40

1 CORRTFP t VARIABLE
illinium
STATISTICS

T (SEPARATE) 2.37
T (POOIFD) 2.0/

FIFOR VARIANCES) 1.61
mmmm
* SRP 1 VARIABLE
timmtm
STATISTICS

T (SEPARATE) -1.38
T (POOIED) -1.70

FIFOR VARIANCES) 1.92
mumsm
t CALCSOP 1 VARIABLE
«mmtm«
STATISTICS

T (SEPARATE) 3. OS
T (POOLFD) 3.17

F(F(1R VARIANCES) 1.1.1
NUHBER

P VALUE

-0.000
0.000

0.001

NUMBER

P VALUF

0.049
0.0 VO

0.084


NUMBER

P VALUE

0.015
0.046

A A99

NUMBER

P VALUE

0.160
0.370

0.000

NUHBER

P VALUE

0.021
0.04-i

0.114

NUHBER

P VALUF

0.176
0.0*0

0.006

NUHBER

P VALUF

0.004
0.00.'

0.611
7

D. F.

80.2
214

l7Vi 35

3

D. F.

60.5
214

17V> 35


4

D. F.

65.6
214

l7Vi 35

2

n. F.

100.4
205

17/i 33

3

P. F.

54. B
196

I64i 32

B

D. F.

42.6
214

jr>i 179

7

D. F.

44.1
196

3?i 164
GROUP 2
MEAN
STP PEV
S.E.H.
SAMPLE SI7F
MAXIMUM
MINIMUM


GROUP 2
MEAN
STD DFV
S.E.N.
SANPIF S17E
MAO HUN
MINIMUM



GROUP 2
MEAN
STD DEV
S.E.M.
SAMPLE SI7F
MAXIMUM 1
MINIMUM


GROUP 7
MEAN
STD DFV
S.E.N.
SAMPLE SI7F.
HA (I HUH
MINIMUM


GROUP 2
MEAN
STD DEV
S.E.N.
SAHPLF SI7F
MAXIMUM
MINIMUM


GROUP 2
MEAN
STTI DEV
S.E.H.
SAMPLE S17E
MAXIMUM
MINIMUM


GROUP 2
MEAN
STD DF.V
S.F.N.
SAMPIF SIZF
MAXIMUM
MINIMUM

CFNTRAL
18.4833
3.334ft
O.J486
180
74.7000
10.6000


O HTRAL
9.1694
0.9413
0.0702
1BO
M.AOOO
7.7000



CENTBAl
95.3928
7.4442
O.SS49
180
1S.VOO
81. 4800


CENTRAL
13.0977
4.49M
0.3418
173
J3.7000
S.1000


CFHTRAl
•5.3885
2.3462
0.1826
163
17.JOOO
0.0000


CENTRAL
0.892B
1.3949
0.1040
180
4.6000
0.0000


CFNTRAI
4.4479
2.1803
0.1697
165
17.7000
0.0000

3 EASTFRN
IS. 7944
1.9V36
0.3323
36
iB.riooo
12.4000


3 FASTFRN
9.4528
0.7346
0.1224
36
10.8000
8.3000



3 FASTFRN
92.7716
S.33S2
0.8892
36
104. MOO
85. SHOO


3 EASTFRN
12.3882
2.1422
0.3674
34
17.9000
8.3000


3 FAS1FRN
4.S1?!
1.8495
0.3219
33
9.8000
2.0000


3 FASTFRN
1.1383
1.9(74
0.1221
36
6.0000
0.0000


3 FASfFRN
.1.1152
2.31*5
0.4033
33
9.AOOO
0.0000

2 CENTRAL (N- 1RO)
H
H H
HH HH H
HHH HH H
HHHHHriHHHH HH HH
H HHHHHHHHHHHHHHHHHH

AN H * 5 CASES
2 CENTRAL (H= 180)
HH
H HH
H H HH H
HHHH HHHHH
HNHHHHHHHHH H HH
HHHHHHHHHHHHHHHHHHHh

AN H - 4 CAhFS

2 CENUAL (H 180)

H H
HH HHHH
HHHHHHHHHHH
HHHHHHHHHHHHHHHH
HHHHHHHHHHHHHHHHHH H

AN H • 4 CASFS
2 CFNTKAL (H 173)
H
H
H HH
HHHHHHH
HHHHHHHHH H
HHHHHHHHHHH HH H N

AN H - 6 CASFS
2 CENTRAL (»• lA'i)

HH
HHH H
HHH H
H HHH HHHHHHH
HHHHHHHHHHHHHHHHHH H
HIM 	 HAX
AN H - 5 CASFS

2 CFNTRAL (N- 1BO)
H
H
H
H
H
HHHHHHH HHHHHHHH
AN H - IB CASES

: CFNTRAL (N» 14I>>
H
H
HH
HHH HHHH
HHHHHHHHHHH
HHHHHHHHHHHHHHHH H
AH H • 3 CASES
3 EASTERN (N: 3*1

X
X X
X XX
»xn xx
XSXXX) )X

AM X = 2 CASFS
3 FASTFRN IN" 16)
( X
XXX
X XX X
XXX » XX
XXX X XX XX
xxx rxrxxxxx
Ml U
AN X 1 CASFS

3 FASTtRN (H: 36)




XX
XXXXX>X XX XX

AN X - ' CftSFS
3 FASTFRN (N. 14)



X
XX
xxxxxxx

AN X > fi CASFS
3 EASTERN (H> 13)


XX
XX
XX XX X
XXXXXXXX ). XX
AN X • 7 CASFS

3 FASTFRN (N* 1M
X
X
X
X
X
XX XXXXXX X X
AN X = 4 CfSES

3 Ff.STFRN (N> 13)
X
X X
X XX X
XXXX» X
xxxx«xx
XXXXXXXX XX XX
AN X > 1 CASES








MM)








flAX









IAX






nAX

















'HAX








Hy
HA

-------
T-TEST HTDRAB6 BASIN COMPARISON EPI

DIFFERFHCES  AMONG GROUP MEANS USING  ALL  VARIABLES
FOR THE FOLLOWING GROUPS
MtlUlltUt
» GENUAL  I
• EASTERN  «
tlMUMItl*
PAGE   264
1 CALCPP t VARIABLE NUMBER S
tllltlimil
STATISTICS P VALUE D. F.

T (SEPARATE) 0.10 0.921 35.0
T (POOLED) 0.08 0.934 190
CICflD UAD f AIIPFti I 1 7A A UTS 1 HI) • Tl
t irUK vnniHNLtnJ 1./4  17

XX
XX
XX
xxxx
x x>.m xxx
AN X - 2 CASES

3 EASTFRN .XXXXX X 1

AN X » 7 CASES

3 EA5TFRN (N- 16)


X
XX
XX
X XXX
AN X •• -i CASFS

3 EASTFRN (N> 35)


XXX
xxx
xxxxx
XXXXX)XX
AN X 2 CASFS
2 F^.lFrn In' n




t
< 1X/XX )
M * - i CASE:

3 EASTtRN (N* IA)
X
X
XX
XX
XX
XXXX X X
H1U — ................ —
I








1














1









MAV
flH A







hAX
















NAY

-------
T-TEST HYDRA86 BASIN COMPARISON EPI

DIFFERENCES AHQNG GROUP MEANS USING  ALL  VARIABLES
FOR THE FOLLOUING GROUPS
UtIISIIIIII
» CENTRAL   I
« EASTERN   I
PAGE   265
**1««**I«»M
1 TURBID 1 VARIABLE
ISimiilltt
STATISTICS

T (SEPARATE) -1.01
T (POOLED) -1.10
F (FDR UAQTAHrPQl 1 90
T 1 r Ufl Vflfli nnUC!) ) 1 »«T
«**t**I1SIII
* CHLACORR > VARIABLE
KMIIUUII
STATISTICS

T (SEPARATE) 0.9S
T (P001EO) O.SO

F(FOR VARIANCES) 1.68
*IStSSIS(l*S
> PHEO 1 VARIABLE
usmutm
STATISTICS

T (SEPARATE) -1.15
T (POUIEO) -1.49

FIFOR VARIANCE!!) 2.76

MtMSimSt
* TSS 1 VARIABLE
MMltHIIM
STATISTICS

T (SEPARATE) -0.63
T (POOLED) -0.48

F(FdR VARIANCES) 2.35

itmsmiM
( RS ( VARIABLE
««*«(«I1MIS
STATISTICS

T (SEPARATE) -0.97
T (POOLED) -0.7A

FIFOR VARIANCES) 2.10
Miiiilttttt
1 VS » VARIABLE
stMtsumt
STATISTICS

T (SEPARATE) 0.26
T (POOltD) 0.19
F(FOR VARIANCES) 2.52
««ISI*M*I«*
1 PERVS » VARIABLE
tllllJIilKI
STATISTICS

T (SEPARATE) 4.01
T (POOIED) 2.87
NUMBER

P VALUE

0.317
0.271
O^flA
» /no

NUHBER

P VALUE

0.345
0.474

0.049

NUHBER

P VALUF

0.258
0.134

0.001


NUHBER

P VALUF

O.S30
0.6JI

0.004


NUMBER

P VALUE

0.337
0.447

0.011
NUHBER

P VALUF

0.796
0.846
0.00?
NUHBER

P VALUE

0.000
0.004
7

D. F.

46. 5
213
"l*i • 170
J>) f 1 /B

7

P. F.

41.2
214

17»> 35

B

D. F.

41.4
214

3!ii 179


3

D. F.

74.4
205

170i 35


4

D. F.

70.0
205

170t 35
5

D. F.

77.5
205
170, 35
A

n. F.

84. 8
205
GROUP 2
MEAN
sin DEV
S.F.H.
SAMPLE S17F
HAXIHUH
N1NIHUH


GROUP 2
XEAN
STP PEV
S.E.H.
SAflPLE SI7.F
MM I HUH
HINIHUN


GROUP 2
NEAN
STD DFV
S.E.H.
SAHPLE SIZE
MAX I HUN
HINIHUN



GROUP 2
HEAN
STD DFV
S.E.H.
SAHPLE SI7E
HAXIHUN
HINIHUN



GROUP 2
HEAN
STP PEV
S.F..H.
SAHPLE SI7E
HA (I HUH
HI HI NUN

GROUP 2
HFAN
STD PEV
S.E.N.
SAHPLE SI7F
HAXIHUH
NINIHUH

GROUP 2
HEAN
STP DFV
S.F.N.
SANPLE SI7E
CFHTRAI
0.9760
0.6419
0.0480
179
3.1000
0.3000


CLNTRAI
1.0881
2.6317
0.1962
1BO
11.4000
0.2900


CENTRAL
1.5263
1.5138
0.1128
180
7.6400
0.0000



CENTRAL
1.4135
0.9293
0.0711
171
4.0400
0.2900



CENTRAL
O.A3S3
0.680R
0.0521
171
3.0300
0.0000

CFNTRA1
0.77B2
0.3418
0.0263
171
,'.2 600
0.7100

CENTRAL
43.6258
19.7723
1.4738
171
HAJIHUH 100.0000
H1NIHUH 25.0BOO
3 FASTFRN
1.10R3
0.7399
0.1717
36
3.3000
0.4000


3 EASTEKN
2.7164
2.0776
0.3379
36
7.1600
0.6100


3 FftSTERH
1.9800
2.7/59
0.3793
36
8.9300
0.2000



3 EASTERN
1.4914
0.60AS
0.1011
36
3.0700
0.7400



3 FASTFRN
0.7761
0.4693
0.0782
36
2.1300
0.2700

3 FftSTFRN
0.7667
0.71A6
0.0361
36
1.7900
0.4700

3 FASTFKN
54. 0586
I1.2A1A
1.8769
36
71.5000
30.5)00
2 CENTRAL (N- 179)
H
H
MH
HHH
HMH HHH
HHHHHHHHHHHHHH HH
AN H -- 9 CASFS

2 CENTkAl (N 1BO)
H
N
HHH
HHHHHH
HHHHHH
HHHHHHHHHHHHH H HHHH
AN H = 7 CASFS

2 CENTRAL (N« ISO)
HHH
HHH
HHH
HHH
HHHHHH H
HHHHHHHHHHHHHH H H

AN H - 7 CASFS

2 CENTRAL (N- 171)
H
H
HHH
HHHH
HHHHHH HH
HHHHHHHHHHHHHHHHHHHH

AN H - 6 CASES

2 CENTRAL (N= 171)
H
HH
HH
HH
HHH HHH
HHHHHHHHHHHHHHHHH H
AN H - 8 CASES
2 CENTRAL (N* 171)

H
HHHHHH
HHHHHHHH H
HHHHHHHHHHH
HHHHHHHHHHHHHH H H
AN H -- 5 CASES
2 CENTRAL (N- 171)

HH H
H HHHH H HH H
H HHHH HHHHHH HH
HHHHHHHHHHHHHHHHHHH
HHHHHHHHHHHHHHHHHHHH
UIU 	 MAX
3 EASTFKN
X
1
X
XXX
xxxx
xxxxxrxx
AH X

3 FftSTFRN

X
X
X
X X
(N: 1*)




X
X X
: CASES

(N' 3ni





xxx> x>. xrx xx
AN X -'

3 FftSTFRN

X
X
X
XX
XXXXX X XX

AN X «

3 F.ASTFRN


X
XXX
XXXXX X
xxm>x >:

AN X -

3 FASTERN
X
X
X
XXX X
XXX X
xxxxxx r
AN X -
3 Ff.STFRN


XX
X X) X
JKXXXX
XXXXXXX X
AN X -
3 EASTERN



X
1 CASFS

(N= 16)





X XX X

1 CASES

IN' 16)




X
>.

r CASFS


-------
T-TEST HYDRAS*  BASIN COMPARISON FPI

DIFFERENCES  AMONG GROUP MEANS USING  ALL  VARIABLES
FOR THE FOLLOWING GROUPS
•tumult*
I CENTR..L  I
t EASTERN  t
itittitiiitt
PAGE   266
•*•••*»»»»••
* CONDCORR 1 VARIABLE

STATISTICS

T (SEPARATE) -8.46
T (POOLED) -5. IS

FIFDR VARIANCES) 4.59
ttJItlttSItt
t CL t VARIABLE
Hltltlttltl
STATISTICS

T (SEPARATE) -2.96
T (POQI.FD) -1.'J6

F(FOR VARIANCES) 17.73
ttmttttttl
« ALKTCT t VARIABLE
tlllUXtttl
STATISTICS

T (SEPARATE) -6.50
T (POOI-D) -5.X8

F(FOR VARIANCES) 1.47

mitsitsiit
S ALKPH 1 VARIABLE
mutltllll
STATISTICS

T (SEPARATE) 1.15
T (POOl iD) 1.07

FIFOR VARIANCES) l.?3

tiiatnuitt
t PH 1 VARIABLE
IMIIttliltl
STATISTICS

T (SEPARATE) 2.70
T (POUt-9) I.A7

NUMBER

P VALUE

0.000
-0.000

0.000
NUMBER

P VALUE

0.003
0.120

0.000
NUHBER

P VALUE

-0.000
-0.000

0.719


NUMBER

P VALUF

0.254
0 . '/HA

0.441


NUMBER

P VALUF

o.ooe
o.ov/
A AAA.
8

U. F.

110.5
214

I79i 35
9

D. F.

191.4
213

l7Hi 35
6

D. F.

56.8
214

179) 35


7

D. F.

54.0
214

179. 3S


1

D. F.

117.8
314
• lu . ie
GROUP 2
MEAN
STD DFV
S.E.N.
SAMPLE S1ZF
HA U HUM
MINIMUM

GROUP 2
MEAN
STD DEV
S.E.N.
SAMPLE SIZE
MAXIMUM
MINIMUM

GROUP 2
MEAN
STD DEV
S.E.N.
SAMPLE SI7E
MAXIMUM
MINIMUM



GROUP 2
MEAN
STP DFV
S.F.h.
SAMPIE SIZF
MAXIMUM
MINIMUM



GROUP 2
riEAN
5TP DFV
S.F.M.
SAnPLF SIZF
rtnxiHUn
MINIMUM
CENTRAL
764.7609
6.47H5
0.4829
180
298.0000
239.0000

CFHTRA1
14.4592
1.0233
0.0765
179
17.0000
7.0000

CENTRAI
101.8133
3.260R
0.7430
180 •
104.6000
93.6000



CENTRAI
3.8011
2.1874
0.1632
180
10.8000
0.0000



CENTRAL
8.3133
0.14A9
0.0110
180
fl.4800
7.9100
3 EASTFRN
770.6667
3.0237
O.S040
36
2/3.0000
263.0000

3 EASTFRN
14.9278
0.2974
0.04B7
36
15.SOOO
14.3000

3 EASTFRN
103.U94
2.7J17
0. 4*i^9
36
111.1000
100.8000



3 FASTFRN
.1.3806
1.9191
0.426S
36
8.9000
0.0000



3 EASTFRN
H.?7I7
0.0*14
0.0109
3o
8.1. '00
8.1600
2 CFNTRAL (H- 1RO)
H
HHH
HHHH
HHHH
HHHHHH
MHH HHHHHHHHH H H
AN H - 8 CASFS
2 CENTRAI SFS
2 CFNTRAL (H- 1RO)
HH
H HHH
HH HHHHH
HHH HHHHH
HHHHHHHHHHHH
MHHHHHHHHHHMHHHH H
HIH 	 *HftX
AN H • 4 CftSFS

2 CFNTRAL (N« 1BO)

HHH H
HHHHHH H
HHHHHHHHHH
HHHHHHHHHHHHHH
HHHHHHHHHHHHHHHHH H

AN H - 4 CASF.S

2 CENTRAL (H» 180)
H
MHH
HHH
HHH HHH
HHHHHHHriHHHH
HH HHHHHHHHHHHHHHH N
3 EASTFRN 
XXXXXiV.l X) > )X

AN X 4 rAfF:

3 F&STFRN (H» 1r )

X
XX
IXX
XXlX-

                                                                                                         AM I =

-------
T-TCST HYDRAB6 BASIN COMPARISON HYPO

DIFFERENCES AMONG fiRQUP MFANS USING ALL VARIABLES
FDR THE FOLLOWING GROUPS
simsiiiita
* CENTRAL  I
* EASTERN  I
**aaa*l««*a*
              PAGE    267
 titmnmi
1 TEMP a VARIABLE
aaatisstuas
STATISTICS

T (SEPARATE) 11.36
T (POOLED) 9.78

F(FOR VARIANCES) 2.76

a DO t VARIABLE
mmmm
STATISTICS

T (SEPARATE) -6.72
T (POUI.EO) -6.10

FIFOR UADiAMrrui i •;*
rlrllll VIIK IHniilLn 1 l.JT
smitmm
a PERDO a VARIABLE
a4»i(*taasi
STATISTICS

f (SEPARATE) -6.34
T (POOLED) -S.!i6
flftlQ UAfi T AUrPC 1 1 CIA
r \r UK vi K iHNLcn I 1 • fly
aansmam
a CORRTP a VARIABLE
aaizssttatas
STATISTICS

T (SEPARATE) 0.90
T (P001FD) O.RS

FIFOR VARIANCES) 1.19

aaaataataaaa
a CORRTFP a VARIABLE
aaaaiansaaa
STATISTICS

T (SEPARATE) 2.30
T (PQOliD) 1.94

F(FOR VARIANCES) 2.71
NUHBER

P VALUE

0.000
-0.000

OAA'f
* VU»)
NUHBER

P VAIUF

-0.000
-0.000

01 70
. 1 /T

NUHBER

P VAIUF

-0.000
0.000

0 » QA9

NUMBER

P VALUF

0.371
0.3H7

O.A4H


NUHBER

P VALUE

0.023
O.Ofi

a. 010
7

D. F.

81.0
93

Afl. 97
on i £/
3

D. F.

62. B
93

AD . 97
AH 1 £1

4

D. F.

68.3
93

AS i 27

2

P. F.

49.4
91

6Ai 23


3

D. F.

67.8
90

V.. 3*
GROUP 2
MFAN
STD DEV
S.F.H.
SAMPLE SI2F
MAXIMUM
MINIMUM


GROUP 7
MEAN
STD DFV
S.E.H.
SAHPLE SI7E
MAXIHUN
H1HINUN



GROUP 7
riEAN
STD DFV
S.E.N.
SAHPLE SI7F
MAXIMUM
MINIMUM


GROUP 2
MEAN
STD ntv
S.E.N.
SAHPLE SI7E
MAX I HUH
HINIMUH



GROUP 2
MEAN
STD DEV
S.F.M.
SAHPLE S17F
MAX 1 HUN
MINIMUM

CFHTRIU
10.6143
2.2661
0.?728
69
17.3000
6.7000


CENTRAL
5.1464
2.9174
0.1312
69
10.4000
1.0000



CENTRAL
44.9213
74.1630
2.9089
69
HR.3000
9.0900


CKNTRAL
14.1104
3.7342
0.4386
67
34.7000
B.40AO



CFNTRAI
3.3712
2.95SA
0.3638
66
16.6000
0.0000

3 FASTFRN
A. 1100
1.3A45
0.-")79
28
10.8000
4.3000


3 EASTERN
8.9143
2.31)0
0.4167
28
12.3000
4.8000



3 FASTFRN
72.9414
17.T.9R7
3.3238
28
98.4600
42.7400


3 FAS1FRN
13. .1731
3.44S6
0.6737
26
19.4000
8.0000



J EASTFRN
4.3462
1.9RA2
0.3R9!
26
9.1000
1.8000

2 CFNTRAI (H» 69)

H H
H HH HH
HHHHHHH H
HHHHHHH H H
H HHHHHHHHHHH HH H

AN H >• 2 CASFS
2 CENTRAL (Hi 69)
H
H
HH H
HH HH H
HHHHHH HHH HH
HHHHHHH HHHHHHHHH

AN H • 2 CfSFS

2 CFN1RAL (N* 09)

H
HH
HHHH H H
HHHHHH HHH HH
HHHHHHHHHHHHHHHHHH
AN H » 2 CASES

2 CENTRAL (H A;)

H
HH H
HHHHHH
HHHHHH
HHHHHHHHHHH H

AN H - 3 CASES

2 CFN1RAI. (N- 66)
HH
HH
HHHH
HHHHH
H HHHHHHH
HHHHHHHHHHHH HH H

1 EASTFRN (N> 2P>


X X
X XX
XX »X
XXXXX X' X

AN V - i CASFS
3 FASTFRN x

AM X • 1 CASFS

3 FASTERN (N* ?»>



X X
XXXX X
XXAXX) XX

                                                                                                            AN X «
                                                                                                                      ? CftSFS
aaaatstiaaaa
a SRP a
aaittaiiaaaa
VARIABLE


STATISTICS

T (SEPARATE)
T (POOIED)


-3
-5

FIFllR VARIANCES) •)
aataimaaaa
a CALCSOP a
aaasumaaa


.89
.70

.00

VARIABLE


STATISTICS

T (SEPAPATE)
T (POOLED)


3
4

FIFOR VARIANCES) 2

.73
.8A

.15
NUMBER

P VALUE

0.000
0.000

0.000

NUHBER

P VALUE

0.000
0.000

0.037
g

D. F.

31.3
94

2/i 67

7

D. F.

67.1
89

64 • 23
GROUP 2
MEAN
STP DFV
S.E.N.
SAHPLE S17F
MAXIMUM
MINIMUM


GROUP 2
MEAN
STD DFV
S.F.N.
SAHPLE SI7E
MAXIMUM
HINIMUH

CENTRAL
0.4162
O.B984
0.10B9
68
6.7000
0.0000


CENTRAL
3.2123
2. 7463
0.3406
63
16.6000
0.0000

3 FASTFRN
1
i
0

4
0


.9516
.0079
.3794
28
.8000
.0000


3 FASTFkN
2
I
0

A
.1473
.8743
.1676
26
.4000
0.0000


i
H
H
H
H
H
CENTRAL





HHHHHHH
AN

2




H

CENTRAL

H
H H
H HH
H HHHHHH
HHHHHHHHHHH
AN
H -
.
    X
    X
XXXXXX

  2 CASFS
                                                                                                                             -MAX
                                                                                                            3 FASTFRN (N:  .'6)
                                                                                                            X
                                                                                                           X XX
                                                                                                           XXXXXHX
                                                                                                    MAX  lilN	
                                                                                                            AN X -
                         -NAX
                                                                                                                        CASFS

-------
 T-UST HYDRAB6 BASIN CDHPARISON HYPO

 DIFFERENCES ANONG fiROIIP MEANS USING ALL VARIABLES
 FOR THE FOLLOVING GROUPS
 imiimut
 * CENTRAL  »
 I EASTERN  I
                                       PAGE    268
(lltlltlllll
I CALCPP I VARIABLE NUMBER
IIIIUIUIM
STATISTICS P VAIUE

T {SEPARATE) -0.11 0.910
T (POOLED) -0.1? 0.904

F(FOR VARIANCES) 1.74 0.497
Illltlllttll
* PERPP 1 VARIABLE NUMBER
minium
STATISTICS P VAIUF

T (SEPARATE) -1.03 0.309
T (POOLED) -1.02 0.111

FIFOS VARIANCES) 1.04 0.9bS
minium
* PERTFP * VARIABLE NUMBER
(tlimmil
STATISTICS P VALUE
T (SEPARATE) 1.03 0.309
T (POOLED) 1.02 0.311

FIFflR VARIANCES) 1.04 O.Vb3
miltlttm
* NITN1T 1 VARIABLE NUMBER
minium
STATISTICS P VALUE

T (SEPARATE) -2.31 0.023
T (POOLED) -1.7R 0.079

F(F(1R VARIANCES) 4.03 0.000
smmttm
t NH3 t VARIABLE NUMBER
immum
STATISTICS P VALUE

T (SEPARATE) 4.06 0.000
T (POOlcD) J.41 0.001

F(FOR VARIANCES) 2.34 0.016
minium
* SRS 1 VARIABLE NUMBER
millium
STATISTICS P VALUE

T (SEPARATE) 2.48 0.01S
T (POOLED) 2. OH 0.043

5

0. F.

37.6
87

2.1 1 64

6

D. F.

41.8
87

64i 23

4

n. F.
41.8
87

64, 23

2

P. F.

91.0
95

6fli 27

3

D. F.

75.4
93

6H, 27

4

P. F.

78.9
95

6ROUP 2 CFNTRA1
HEAN 8.6031
STD PIV 3.3063
S.F.N. 0.4101
SAMPLE SI7F 63
MAXIMUM 17.6000
MINIMUM 1.2000


GROUP 2 CENTRAL
MEAN 60.4151
STD DEV 18.3174
S.F.N. 7.2714
SAMPLE SI7F 63
MAXIMUM 100.0000
MINIMUM 8.3100


GROUP 2 CENTRA!
MEAN .19.5849
STP DFV 18.3174
S.E.M. 2.2714
SAMPLE SIZE 63
MAXIMUM 91.A900
MINIMUM 0.0000


GROUP 2 CFNTRAI
HEAN 290.0144
STD PEV 78.5712
S.E.M. 9.4589
SAMPLE SI7F 69
MAXIMUM 537.0000
MINIMUM 144.0000


GROUP 2 CENTRAL
MEAN 73.9841
STP PEV 15.93R7
S.E.H. 1.9188
SAMPLE SIJF 69
MAXIMUM 37.8000
MINIMUM 3.0000


GROUP 2 CENTRAL
MEAN 114'5.3913
STD PEV 691.1313
S.E.H. 81.2024
SAMPLE SI7E 69
MAX I HUH 7976.0000
MINIMUM 192.0000
3 FflSTFRN
R.7000
3.6778
0.7307
24
15.0000
1.0000


3 FASTFRN
64. 8579
17.9633
3.6672
24
86.3000
9.6900


3 FASTFRN
35.1471
17.96SS
3.447:
24
90.1100
13.7000


3 FASTFRN
317.7500
39.I2A?
7. .1942
28
Wi.OOOO
263.0000


3 FASTFRN
12.8121
10.4151
1.9A83
28
33.8000
1.5000


3 FASTEKN
1777. 1786
429.9RAO
81.7397
28
1937.0000
728.0000
F(FOR VARIANCES)  7.SH  0.008   6Hi   27
                                                                                   2 CFNTKAL (N-  6!i)
                                                                                                              3 FAMFKN
                                                                                                                             74)
                                                                                           H
                                                                                       H   H
                                                                                       H   H
                                                                                      HHH HH H                         X
                                                                                    H HHHHHHHHH                  XX   XX   X
                                                                                 HH HHHHHHHHHHHHHH HH       X XX U>X X)   >' X
                                                                              NIN	flftX MIN	MAX
                                                                                  AN H •     2 CASES          AN * «    2 CASFS
                                                                                   2 CENTRAL (N«  65)
                                                                                                              3 FfiSTtRN (N=  I")
                                                                                          HH
                                                                                          HHHHHHH                     X
                                                                                      HHHHHHHHHHHHH                   XX   XX
                                                                                 H HH HHHHHHHHHHHHH H       XXX  (XXXXXXX
                                                                              HIN	HAX HIM	hAX
                                                                                  AN H «•     2 CftSFS          AN X »    2 CASES
                                                                                   2 CENTRAL (N<  *'i)
                                                                                                              3 EfSTFRN (N*  !•«)
                                                                                     HHHHHHH                         X
                                                                                   HHHHHHHHHHHHH               XX   XX
                                                                                H HHHHHHHHHHHHH HH H         XXXXXXX4  ). k    X
                                                                             NIN	rtAX HIN	MAX
                                                                                 AN H •     3 CASES          AN  X =    1 fiiSFS
                                                                                   2 CENTRAL (N-  69)
                                                                                           H
                                                                                   HHH HHH
                                                                                   H H HHHHHH
                                                                                 H HHHHHHHHHH        ,
                                                                                 HHHHHHHHHHHH     H H
                                                                              NIN	MAX M«	hAX
                                                                                  AN H *     2 CASF.F          AN X =    2 CASFS
                                3 EASTERN <
                                        x
                                    x   k.
                                    x   x
                                    x   x
                                    xx  xx
                                    xx xxx
                                                                                                                             :PI
                                                                                   2 CENTRAL (N-
                                                                                                              3 F.ASTERN (N-  ?B>
                                                                                  H
                                                                                  H                         X
                                                                                  H                         >
                                                                                  HHri   HH H HH             X      X
                                                                                 HHHHHHHHKHHHHHHH H H       X/>XXXX X
                                                                              HIN	hAX Hlrt-			nut
                                                                                  AN H -     } CASFS          MN X «    3 CASES
                                                                                   2 CENTRAL (N-  6V)
      H        H
      H   H H HHH
     HHHHHHHH HHHHH
   HHHHHHHHHHHHHHHHHHHH
NIN	HAX MIN-
    AN H -     2 CASES
                                                                                                              3 FASTFRN (N>  28)
                                                                                                                X      X
                                                                                                                (X X   XX
                                                                                                               XXXX>XXXXX
                                                                                                              AN X '
                                                                                                                        2 CftSFS

-------
T-TEST H1DKAB6 BASIN COMPARISON HYPO

DIFFERENCES AMONG  GROUP  NEANS US I MO ALL VARIABLES
FOR THE FOLLOWING  GROUPS
tsimmtii
* CENTRAL  *
> EASTERrf  «
                                                                                                                 PAGE    269
« TURBID S VARIABLE
ISIIIltUIII
STATISTICS

T (SEPARATE) -7.75
T (POOLED) -11. 3A

FIFOR VARIANCES) 12.31
*itn«st*s*i
1 CHLACORR 1 VARIABLE
uiimvmi
STATISTICS

T (SEPARATE) 2.83
T (POOLED) 2.91
FIFOR VARIANCES) 1.13
t*****S1tl*l
t PHEO 1 VARIABLE
minium
STATISTICS

T (SEPARATE) -1.43
T (POOLED) -1.59
FIFOR VARIANCES) 1.66
1*11111*1111
* TSS 1 VARIABLE

STATISTICS

T (SEPARATE) -6.91
T (POOLED) -10.13

FIFOR VARIANCES) 12.31
(1111*11111*
1 RS 1 VARIABLE

STATISTICS

T (SEPARATE) -7.79
T (POOLFD) -ll.:iJ

FIFOR VARIANCES) 14.64

KIIKIIIIII
* VS 1 VARIABLE

STATISTICS

T (SEPARATE) -0.97
T (POOL-0) -1.11
FIFOR VARIANCES) 1.93
iiiiitmiJt
1 PERVS 1 VARIABLE

STATISTICS

T (SEPARATE) 14.73
T (POOI-.D) 9.VR

NUMBER

P VALUE

-0.000
0.000

0.000
NUMBER

P VALUE

0.007
O.OOS
0.661
NUMBER

P VALUF

0.140
0.115
0.094
NUMBER

P VALUE

-0.000
0.000

0.000

NUMBER

P VALUE

-0.000
0.000

0.000


NUMBER

P VALUE

0.337
0.768
0.031
NUMBER

P VALUF

0.000
-0.000

2

D. F.

28.8
95

27 1 68
7

D. F.

47.4
95
?7i 68
8

D. F.

40.9
95
77 > 68
3

I. F.

28.8
95

27 > 68

4

0. F.

78.5
95

27, 68


5

D. F.

3B.9
95
27 1 68
6

D. F.

92.7
95

GROUP 2
NEAN
STD DEV
S.E.N.
SAMPLE SI7F.
NAXINUN
MINIMUM

GROUP 2
MEAN
STP niV
S.E.M.
SAMPLE SIZE
MAXIMUM
MINIMUM

GROUP 2
HFAN
SID DEV
S.E.H.
SArtPlF SIZE
HAXINUN
MINIMUM

GROUP 2
MEAN
STD DFV
S.E.N.
SAMPLE SI2F
MAXIMUM
MINIMUM


GROUP 2
NEAN
STD DFV
S.E.M.
SAMPLE SI7E
MAXIMUM
MINIMUM



GROUP 2
NEAN
STD DEV
S.E.H.
SAMPLE SI7F.
MAXIMUM
MINIMUM

GROUP 2
NEAN
STD DFV
S.E.H.
SAnPLE S17F.
MAXIMUM
MINIMUM
CENTRAL
1.4565
0.57H4
0.0696
69
3.0000
0.4000

CFNTRftl
1.3614
0.7084
0.08S3
69
3.3800
0.0300

CENTRAL
1.3148
1.064S
0.1282
69
6.1000
0.1100

CENTRAL
1.6751
0.6038
0.0727
69
3.1600
0.4700


CENTRA!
0.9603
0.4819
O.OS80
69
?.->000
0.0200



CENTRAL
0.7142
O.?270
0.0273
69
1.7600
0.1900

CFNTRAl
45.3533
13.9739
1.6823
69
97.0600
21.9600
3 EASTFRN
4.4786
2.0793
O..IR35
28
8.8000
1.8000

3 FASTFRN
0.8911
0.7544
0.1426
28
3.5300
0.1900

3 FASTFRN
1.7/82
1.3712
0.7'i91
28
6.3400
0.4400

3 EASTFRN
4.4R86
2.11B4
0.4003
28
9.1300
l.BSOO


3 EASTFRN
3.7107
1.8440
0.14R5
78
8.7100
1.3800



3 EASTERN
0.7779
0.3149
O.Or)9S
28
1.5200
0.3300

3 FASTFRN
10.3310
4.6.W4
0.8766
28
31.7700
13.1600
2 CFNTRAl (N* 6V)
HH
HH
HH
HH H
HHHHH
HHHHHHH
AN H - 4 CASFS
2 CENTRAL IN- fit

H
HHHH
HHH HHHH
H HHHHHHHHHH H
HHHHHHHHHHHH HHH HH
HIM---------- — --------MAX
AN H ' 2 CASES
2 CFNTRAL (N- 69)

H
HH
HH
HHHHH
HHHHHHHHHHHHH H
AN H * 4 CASES
2 CENTRAL (N* 69)
H
H
H
HHH
HHHHH
HHHHHHH
AN H - 5 CASFS

2 CENTRAL (H= 69)
H
HH
HH
HHH
HHHHH
HHHriH H

AN H s 4 CASFS

2 CFNTRAL (N» 49)
H
H
HH
H HHHH
H HHHHHH
HHHHHHHHHHHH H
itIN----— --- — 	 	 • — M*X
AN H - 3 CASFS
: CFNTRAL (N 49)

,
H H
HH HHH
HHHHHH H
HHHHHHHHHHH HHH H
3 FAS1FRH

X
XX
XXX
XXXXXX
XXXXXX
AN X
7 EASTFRN

X
X
X
XXX.( X
AN X
3 EASTFRN




X
xxxxxxxx
AN X
3 EASTFRN


X
xxxx
X/XXX X

AN X -

3 FASTFRN

X X
X X
X X
X (XXX X
x xx>.xxx;

AN X -

3 FASTFRN


X X
xxxxx
UXXX X
xxxxm x
AN X -
3 EASTFRN

X
X
XX
XX
XXX X
KIH- 	
(N: 28)



X
X X
>XXX X XX
1 CASFS
(N> 28)



X X
2 CASFS
(N. 28,




XX >
4 CflSFS
(N* IB)



X
X XX
XX*> X
1 CASFS

(N= 36)


X
x
X


1 CASFS

(N= ?S)



X
X X
X )) X
1 CASFS
(H = JB)




-HH>
FIFOR VARIANCES)  9.08  0.000
                                                                               AN H -

-------
T-TEST HTDRA86 BASIN COHPAR1SON HYPO

DIFFERENCES  AHOH5 GROUP HEANS USING Al.l  VARIABLES
FOR THE FOLLOWING GROUPS
ISKIUSttlt
• CENTKnL  *
i EASU*N  s
i«iit«»tit*
                                                                                                              PAGE  270
««••*•••••••
1 CONDCCRR * VARIABlE NUHBER
(1*1*114*1*1
STATISTICS P VALUE

T (SEPARATE) -7.40 -0.000
T (POOLED) -7.57 -0.000

F(FOR VARIANCES) 1.12 O.A97

*!UI!!t»*»l
( CL ( VARIABLE NUKBER
liiitimii*
STATISTICS P VALUE

T (SEPARATE) -1.94 0.056
T (POOLED) -1.46 0.147

F 27

GROUP 2 CKNTRAt
HEAN 275.2609
STD OEV 3.5341
S.F.N. 0.4255
SAMPLE S12F 69
NAXINUN 2HJ.OOOO
NIHIMUX 261.0000


GROUP 2 CENTRAL
NEAN 14.9574
STD DFV 0.45S7
S.E.N. 0.0795
SANPLE SI7F 68
NAXIHUN 18.0000
NININUN 14.1000

GROUP 2 CEHTRAI
NEAN 106.1464
STD DFV 3.8470
S.E.N. 0.4631
SAMPLE S1ZF 69
NAXIHUN 117.1000
NINIHUN 96.4000


GROUP 2 CEHTRAI.
HEAN 0.0377
STD DEV 0.3130
S.E.N. 0.0377
SANPLE SIZF 69
NAXIHUN 7.6000
NININUN 0.0000



GROUP 2 CFHTRAL
NEAN 7.4991
STD DEV 0.16R3
S.E.N. 0,0203
SAMPLE SIZE 69
HAdHUN R 1700
HININUN 7.2600


3 FftSTFRN
781.3371
3.7139
0.7056
28
?flfl.OOOO
275.0000


3 FftSTFRN
15.1464
0.3000
0.0r)47
28
1 A.. 1000
14.7000

3 F.ASTFRN
10B.7171
2.041R
0.3R59
26
114.4000
106.1000


3 EASTFRN
0.0000
0.0000
0.0000
28
0.0000
0.0000



3 FASTFRN
7.7112
0.130?
0.0:47
26
7.9100
7.4BOO


2 CFNTRAl (H 69)
H H
H HHH
HHHHH
HHHHHH
HHHHHHHHH
H HHHHHHHHHHH

AN H * : CfiSFS
2 CENTRAL IN' AH)
H
H
HHH
HHH H
HHHHHM
HHHHHHHHHH H MH
AN H - 3 CfSFS
. 2 CENTRAL (N A9)

HH
HNH
HHHh
H HHHHH
HHHHHHh HHHHHHHH

AN H - 3 CftSFS
2 CENTRAL (H- A»>
H
H
H
H
H
H H

AN H 12 fiSFS

2 TEiiTRAI (N A»>

HHH
HHH ri
HHH Hl"< H
HHHMHH--"HMH
HHHHnNHnrtHH N H

AN H - 2 CrtlES
3 FASTFRN (N- ?8>



XX
X XX XX
XXXXXXX XX

AN X 2 CAfFS
3 EXTERN 
-------
                                        PAGE  271
APPENDIX E

-------
                                                                          PAGE  272
     Appendix E contains the BMDP statistical computer outputs for  the  quality
control  data.   The  data  in  the  BMDP  outputs was generated through a CLEAR
computer program (CALDIF) containing the following options.

Option j^

     Option 1 calculates the absolute difference (ABS) between splits (Xll, X12,
X21, X22) using the following formula:

             ABS (Xll - X12) AND ABS (X21 - X22)

Option 1 was used on all parameters having split measurements.
Option £

     Option 2 calculates the absolute difference (ABS) between  replicates  (XI,
X2) using the following formula:

                       ABS (XI - X2)

Option 2 was used on all quality control parameters.

See the quality control section for the explanation  for  the  terms  split  and
replicate.

-------
                                                                                                          PAGE   273
 QCB4 OPTION 1 DIFFERENCE BTVN SPIITS
  >  TP

VARIABLE NUMBER


NUMBER OF DISTINCT VALUES .
NUHBEM UF VALIIFS
NUMBER OF VALUES


COUNTED. .
NOT COUNTED


LOCATinH ESTIMATES












M
j
N


MEAN
MEDIAN
MODE








S Q
1



PERCENTS
VALUE COIIHt CFU CUM
0.00000
•>. 10000
•J. 20000
0.30000
7.40000
4 12.2 17.2
4 12.7 ?4.5
4 8.2 32.7
4 A.I J8.8
4 12.2 51.0
MAXIMUM
2 MINIMUM
17 RANGF
49 VARIANCE
1 ST.DEV.
(Q3-Ql)/2

ST.FRROR
0.5673470 0.0779824
0.4000000 Q.O&77351
NOT UNIQUE








0
H H 3

D A
I N
PERCENTS
2.0000000
0.0000000
2.0000000
0.2409949
0. 5108/44
0.3300000










SKEUNESS
KURTOSIS

S
t




VAIIIE COUNT CFU CUM VAIIIF COUNT
0.50000 4 12.7 4.1.
0.40000 4 8.2 71.
0.80000 1 7.0 73.
0.90000 1 2.0 7-5.
1.00000 3 4.1 81.
3 .10000 2
4 ..10000 7
5 .40000 1
5 .'jOOOO I
4 .40000 1



frtCH 'H'
H REPktSENTS
H H 2
HH H COUNT (Si
HHHH
HHHH H
HHHH HHHNHHH H

EACH •-• ABOVE = o.iooo
L = 0.0000
U» 2.4400
01- 0.200001IU
VALUF VALUF/S.F. 03° 0.9000000
0.9B 2.80 S- = 0.0544704
0.09 0.12 St = l.078:'JJ6
EACH '.• BFLOU 4 0.0200

n

X

PERfFNTS PEkfEHTS
CEU CUM VAIUE COllill TEIL CUn
4.1 8!i.7 1.70000 1 3.0 V8.0
«.l 1)9.8 7.00000 1 2.0 100.0
2.0 VI .8
7.0 V3.V
2.0 VS. 9
OCBA OPTION 1 DIFFERENCE BTVN SPLITS
immt**«»
1 TFF *
Il«t:l**tm


NUMBER OF DISTINCT
NIIH1ER IIF VAl MS CO
NUMBER OF VALUES NO


LOCATION ESTIMATES











S




VALUE COUNT
0.00000 10
11.10000 ft
0.20000 3
O.JOOOO 4
0.40000 S




VALUES .
IIHFFD. .
T COUNTED



MEAN
MEDIAN
NODE








Q
N 1 H H
N DA
I N
PERCENTS
CFU CUM
20.8 20.8
10.4 31.2
4.7 37.5
8.3 45. 8
10.4 56. 2


MAXIMUM
3 MINIMUM
17 RANGE
48 VARIANCE
2 ST.DEV.
(03-011/2

ST. ERROR
0.7541447 0.1835174
0.4000000 0.1154701
0.0000000








0 S
3 «


PERCFNTS
VALUE COIIHT CEU CU
.30000 2 4.2 40.
.40000 1 7.1 42.
.70000 4 8.3 70.
.HOOOO 7 4.2 7'i.
.90000 1 2.1 77.


7.0000000
0.0000000
7,0000000
1.4145700
1.2714472
O.J7SOOOO










SKEUNESS
KURTOSIS






H VAl UE COUNT
4 1.00000 1
5 1.10000 1
8 1.30000 2
0 1.40000 1
1 1.40000 4


H
H
H
H
H
H
H
HH
HHHH
HHHH H

EACH '-' AHtlVE =
L =
U=

VALUE VALUE/S.F.
3.59 10. IT)
13.58 19.20
EACH •.' BELOy '




PERfENTS
CFU CUM VAIIIE COIU1
2.1 7V. 7 S.r.OOOO 1
7.1 RI.2 • 7.00000 1
4.2 B'i.4
7.1 87. 5
8.3 95. 8





EACH 'H'
REPRESENTS
3
COUNT (S)


H

0.5000
0 . 0000
H.OOOO
01= 0.1000000
03: O.B500000
S-' -0.5l72BOi
St° 7.0256136
0.0750

M
h
X

PERfENTS
CEIL. CUn
2.1 97.9
?.l 100.0




-------
 QCBA OPTION 1 DIFFERENCE BTVN SPIITS
                                                                                                                  PAGE    274
   timumx
   *  SRP       *
   l*»4f«m*t*

 VARIAILF  NUMBER  	
 NUHBER OF  DISTINCT VALUES  .
•NUHBEK IIF  VALIItS  COUNT*0.  .
 NUHBER OF  VALUES  NOT COUNTED
 4
 7
47
 3
HAXIHUH
HINimm
RAHGF
VARIANCE
ST.DEV.
(03-011/2
1.0000000
0.0000000
1.0000000
0.0.17724B
O.IV79373
o.onooooo
LOCATION ESTIMATES
                   HEAN
                   MEDIAN
                   hODE
   O.OB72341
   0.0000000
   0.0000000
                                                    Sf.FRROR
                                                     0.02B147H
                                                     0.0000000
H
H
H
H
H
H
H
H H
HHHH
                                                                                                                         FACH 'H'
                                                                                                                        KEPKFStNlS
                                                                                                                             4
                                                                                                                         COUNT (Si
                                                                                                               H   H
                                                                                                                     -II
                                                                                              EACH '-• AWIVE =
                                                                                                                     0.0750
                                                                                                                     0.0000
                                                                                                                     I. MOO
                                                                          SKEVNESS
                                                                          KURTOSIS
                                                                                             VALUE
                                                                                              3.10
                                                                                             10.34

                                                                                               EACH
                                                                  VALUF/S.F.
                                                                        B.69
                                                                       14.50

                                                                 '.'  BFLOV  '
                                                                     01 =
                                                                     03*
                                                                     S-=
                                                                     s«=
                                                            0.0000000
                                                            0.1000000
                                                           -0.1057032
                                                            0.2001713
                                                                                                                     0.0100
S

0
H
N
0
H3
A
N
S
t

N
X
                      PERCENTS
     VAIUE    COUNT  GFU   CUh
      0.00000    33  70.7  70.2
      0.10000     4   H.5  /8.7
                                                       PERCENTS
                                      VAIIIF     COUNT   P.FU    CUH
                                       0.70000      3   10. *  89.4
                                       0.30000      2    4.3  91.6
                                                    PERfENTS
                                   VAIUE    COUNT  KEl I    CUH
                                    0.40000      1   7.1   V..7
                                    0.70000      1   2.1   97.9
                                                       VALUF
                                                        1.00000
                                                        PEKCENIS
                                                COUNT   I'EI L    CUN
                                                    1    I.I  100.0
 QC86 OPTION 1  DIFFERENCE  BTUN SPLITS
  «  N11NIT
»•••* »•
VARIAB1F
NUHBER OF
NUHBEN UK
NUHBER OF
LOCATION













• ••••

DISTINCT VALUES .
VAIIU-S CnilNTFO. .
VALUES NOT COUNTED .
ESTIMATES
HEAN
HF.UIAN
HODE








S 0
H
N

PERCENTS
VALUE COUNT Ctll CUH
0. 20 40.0 40.0
1. 19 .IH.O 78.0
HAXIHUM 7.0000000 HH
S HINIHUN 0.0000000 HH
8 RANGE 7.0000000 HH
30 VARIANCE 2.35/6333 MH
0 ST.DFV. 1.S33B3A1 HH
(QI-UU/2 O.'JOOOUOO UN
HH
ST.FRROR MH H
1.1700000 0.2169177 "" "
1.0000000 0.7BB675I HH H H H
0.0000000 L" *
EACH '-' AbilwE =
L =
U=

VALIIf VAIIIE/S.E.
SKEMNESS 2.17 6.28
KURTOSIS 4.76 6.BB
EACH •.' BFLOU -
g S
H H *
D A
I N
PERCENTS PERCENT S
VAIIIE COUNT CF.IL CUH VAl U6 COUNT CEIL CUH VALUE
2. 6 17.0 90.0 4. 1 7.0 9«..0 6.
3. 1 2.0 92.0 5. 1 2.0 94. 0 7.

FACH 'H'
REPKISENTS
•»
COUNT (S)
H H H

O.SOOO
0.0000
0.0000
01 0.0000000
03° 1.0000000
S-- -0.4I3B361
S»= 2. 6238363
0.07SO
n



PEKCENIS
COUNT CEIL CUN
1 ?.0 9R.O
1 7.0 100.0

-------
                                                                                                        PAGE   275
QC86 OPTION 1 DIFFERENCE BTVN SPLITS


NUMBER OF DISTINCT


VALUES .
NUHBtR ilF VAIUFS COIIHIFU. .
NUMBER OF VALUES NOT COUNTED


LOCATION ESTIMATES










S 0
- HH I
' 1.9
E

VAl UF. COUNT
0.00000 3
0.10000 4
0.20000 1
0 . 10000 .'
0.40000 2
0.50DOO 1
0.70000 2
O.ROOOO i



MEAN
MEDIAN
MODE








N
D
I
PERCENTS
CFl 1 CUH
6.8 6.8
9.1 11.9
2.3 18.2
4.!i J2.7
4.S 27.3
J..« 79. S
4.5 34.1
4.5 .18.6
MAXIMUM 9
2 HINIHUH 0
30 RANGE 9
44 VARIANCE 7
6 ST.DEV. 2
(01-01 >/2 2

hT. ERROR
2.5613635 0.4045727
I..1000001 0.519AIS5
0.1000000








N
A
N
PERCENTS
VAIUE COUNT CEIL CUN
0.90000 2 4.5 42I.2
1.00000 2 4.:i 47.7
1.20000 1 2.3 5('.0
1.40000 1 2.J 52.3
1.50000 2 4.5 54.8
.•.'.iDOOO 1 2.J '.19.1
2.60000 3 6.8 6!i.9
2. V 0000 1 2.3 68.2
.1999998
.0000000
.1999998
.,'001004
.6833003
.0750000














H
H
H
HH
HH
HH H
HH H H



EACH 'n
KEFKFSt NIL
•i
COUNTISi


HH HHHHHHHH H





SKEVNESS
KURTOS1S

D S
3 *



VAIUE rOIIHf
3.50000
l.AOOOO
4.40000
4 . /OOOO
5.20000
•.1.40000
5.90000
6.00000

EACH


VALUE
0.93
-0.44
EACH




PERCEN1S
cFu rim
T..3 70.5
2.1 72.7
7.3 71.0
•>.! 77.3
7.3 /9.5
2.1 Rl.B
1.3 84.1
.'.I R6.4

'-• AhfWE =
|_S
U-
VALUF/S.F.
2.53
-O.M>
.• IFLOU =





VAl UE COHil t
o. 70000
7.00000
7. ''OOOO
7.90000
9.70000
9 . 70000



0.7300
0.0000
17.0000
01- l.iSOOiK
s-= -o.i-Mvje
st= -i.:44di2
0.0750

n
t

KRCENIS
PFl L CUM
.3 88.0
.1 90.9
.3 91.2
.3 91.3
.3 97.7
.3 100. 0


QC86 OPTION 1 DEFERENCE BTUN SPLITS
unmiuu
1 SRS
I9JIMV1
1
:>f M

•

NUMBER OF
NUMtFR IlF
NUMBER OF


DISTINCT
VAIUES .
VALUES COUNTED. .
VALUES NOT COUNTED




LOCATION ESTIMATES










S
N
N


VAIUE
















0
1 N
D
1

COUNT
0. 12
4. 2
S. 3
6. 7
8. 1
9. 1
MEAN
MEDIAN
MODE







Q
H3
A
N
PERCENTS
CFl 1 CUH
74.5 24.5
4.1 73.6
6.1 34.7
4.1 38.8
2.0 40.8
2.0 42.9

MAXIMUM
7 HINIHUH
22 RANGE
49 VARIANCE
1 ST.DEV.
( 03-01 >/2


240.0000000
0.0000000
240.0000000
1773.04I74RO
42.1075020
11.0000000

ST. ERROR
24.0000000 6.0153575
10.0000000 2.H867528
0.0000000







S
*







SKEUNESS
KURTOS1S





PERCENTS
VAIUE COUNT CELl
10. S 10.2
15. 4 8.2
16. 2 4.1
20. 1 2.0
22. 1 7.0
75. 7 4.1
CUN VAl HE COUNT
S3.1 26. J
61.2 77. 1
65.3 32. 2
67.3 40. 1
69.4 SO. 1
73.5 63. 1

H
H
H
H EACH 'H'
H REPRESENTS
H 3
HH COUNTIS)
HH
HH
HHHHH H H H
EACH •-• ABOVE - IS. OOOO
L: 0.0000
U- 140.0000
(11- 4.0000000
VALUE VALUE/S.E. 03° 76.0000000
3.47 9.92 S-' -IB. 1075020
11.28 18.97 St> 66.10750'jB
EACH '.' BELOU * 2.0000

n
X

PERPFNTS PCRCENTS
I'.EII DIM VALUE COUNT TELL CUN
6.1 /».* 71. 1 7.0 91.9
2.0 81.6 114. 1 ?.0 95*.9
4.1 85.7 143. 1 i.O 9R.O
2.0 87. B >)40. 1 7.0 100.0
>.0 89. R
7.0 91.8

-------
 OCBA OPTION 1 DIFFERENCE BTUN SPl ITS
                                                                                                                   PAGE   276
  >f«**»*IM*t
  I TUMID   *
  SIKtrlsm*

VARIABLE NUNBER  	        2
NUHBER uF DISTINCT VALUES .        4
NUHBER UF VAIIIFS CnUMffO. .        48
NUHBER OF VALUES NOT COUNTED       2
         MAXIMUM
         MINIMUM
         RANGE
         VARIANCE
         ST.DEV.
         (U3-ai>/2
 0.3000000
 0.0000000
 0.3000000
 0,0046631
 O.OAR2B71
 0.0300000
LOCATION ESTIMATES
                   HEAN
                   MEDIAN
                   HODE
0.05416*7
0.0000400
0.0000000
                                                   ST.EKKOR
                                                    O.OOVB544
                                                    0.0/8H67S
                                                                                              EACH  '-' AHOVE =
                                                                                                                         EACH 'H'
                                                                                                                        REPRESENTS
                                                                                                                             3
                                                                                                                         COUNT (S)
                                                                                                                     0.0:00
                                                                                                                     0.0000
                                                                                                                     0.1200
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                            VAiut
                                                                                             1.25
                                                                                             1.74

                                                                                              EACH
                                                               VAIIIE/S.E.
                                                                     3.54
                                                                     2.49

                                                              '.' BFLOU -
                      PERCENT S
     VALUE    COUNT  CELL   CUN
      0.00000    ?6  S4.7  S4.2
                                                      PERCENTS                        PERCENT?
                                     VALUE    COUNT  CLLl   LUH      VALUF    COUNT  CFLL   UIIH
                                      0.10000     IV  .19.6  93.7       0.20000     ?   4.7  97.9
                                                                                                                   01-
                                                                                                                   03-
                                                                                                                   S--
                                                             0.0000000
                                                             0.1000000
                                                            -0.0141204
                                                             0.1?24i37
                                                                                                                     0.0025
S

0
1
H
H
A
N
0
3

S
1

N
X
                                                                                 PERCENTS
                                                                UALUF    COUNT  CFLI    CUM
                                                                 0.30000     1   2.1  100.0
 OCB6 OPTION 1 DIFFERENCF BTVN SPLITS
  t COKCiCORR I
VARIABLE NUHBER 	
NUMBER JF DISTINCT VALUES .
NUHBER 'IF VALIIFS nnUNIFD. .
NUHBER IF VALUES HOT COUNTED
                                    3
                                   10
                                   49
                                    1
         HAXINUN
         HINIHUN
         RANGE
         VAKIANCE
         ST.DFV.
         < 0.1-Q l>/2
22.0000000
 0.0000000
22.0000000
12.33A7937
 1.S1S1S20
 1.0000000
LOCATION ESTIMATES
                   NEAN
                   HEOIAN
                   MODE
                                     2.6530617
                                     2.0000000
                                    NOT UNIQUE
              ST.FRDOR
               0.502164!)
               0.2886753
HH
HH
HH
HH
HH
HH
HH
HH
HHH
HHHHHHH
EACH •-' ADOVE •
1.3
U»



Cftl
REPI

COI


H
l.SOOO
0.0000
24.0000
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                             VA1IIF    VAIIIF./S.E.
                                                                                             3.69         10.54
                                                                                             16.76         23.91
                                                                                              EACH
                                                                                                        bFlilu
                                                                              01-
                                                                              OJ-
                                                                              S- =
                                                                              st=
                                                             1.0000000
                                                             i.ooooooo
                                                            -0.862090B
                                                             A.I6B2114
                                                                                                                     O.?000
S
N
N

VA'.UE
0.
1.
2.
0
I


COUNT
1
11
11
g
H H 3
0 »
I N
PERCENTS
CELL CUN
1H.4 18.4
22.4 40.8
22.4 Ai.3
S
t











PERCENTS
VALUE
3.
4.
5.
COUNT
H
4
2
CFLL
14.3
8.2
4.1
CUM
/9.6
ft/.B
91.8
VALUE
7.
8.
10.
COUNT
1
1
t




N
X
PERCENTS PERCE»
I.FIL
2.9
2.0
2.0
I.IIH
9T.9
9'.i.9
98.0
VALUt COUNT CELL
22. 1 '.O 1(


                                                                                                                            CUN
                                                                                                                          100.0

-------
                                                                                                                    PAGE   277
  OC86 OPTION t  DIFFERENCE  BTUN SPLITS
smmmit
t CL »
UMII.IIMI
VARIABLE NUMBER .




NUHBER OF DISTINCT VALUES .
NUMBER I1F VALUKS CnUHTFD. .
NUMBER OF VALUES NOT COUNTED




LOCATION ESTIMATES











Q S
N -
N


MEAN
MEDIAN
HODE









N N
D A
I N
PERCENTS
VALUE COUNT CEll CUM
0.00000
O.lQOOO
13 26.0 26.0
1H 36.0 62.0


MAXIMUM 0.6000000
8 MINIMUM 0.0000000 H
6 RANGE 0.6000000 H H
SO VARIANCE 0.01479S9 HH H
0 ST.DFV. " 0.1216385 HH H
(U3-QD/2 0.1000000 HH H
HH H
ST. ERROR HH H
0.1300000 0.0172023 HH H
0.1000000 0.078H67S HH H H
0.1000000 l 	
EACH •-• ABOVE =
L =
u=

VALUF VALUE/S.E.
SKEUNESS 1.S9 4.40
KURTOSIS 3.83 5.53
EACH '.' BELOU =
a s
3 *


PERCFN1S PERCFN1S
VAl HE COUNT CEll CUN VAl IIF COUNT CFl 1 dirt VALUF.
0.70000 15 30.0 97.0 0.30000 1 2.0 98.0
0.30000 7 4.0 96.0 0.40000 1 2.0 100.0




EACH 'H-
REFhKSFHIS
*
COUNT!?)


H H

0.0 300
0.0000
0.8000
01* 0.0000000
03° 0.2000000
S-- 0.00836)5
St* O.?5l63b5
0.0050

h
<

PERCENI5
COUNT TELL CUn


 OC86 OPTION 1 DIFFERENCE BTUN SPLITS
  Mimttmi
  * PH       I
  uutumti

VARIABLE NUMBER 	
NUMBER OF DISTINCT VALUES .
NUHBEK (IF VAUIFS COUNTFO. .
NUHBER OF VALUES NOT COUNTED
 4
 6
49
 1
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.DFV.
(01-01 >/2
0.7300000
0.0000000
0.2300000
0.0410826
0.0329024
0.0100400
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   NODE
   0.0161224
   0.0100000
  NOT UNIQUE
     ST.ERROR
      0.0047003
      0.002H86B
H
H
H
H
HH
HH
HH
HH
HH
HH H
 FACH 'H-
REPRhSFNTS
     3
 COUNT(S)
                                                                      -U
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                             EACH •-' ABOVE -
                                                                                                           L =
                                                                                                           U*
                                                         VAl lit   VALUE/S.E.
                                                          5.71        16.32
                                                         34.24        48.91
                                                                                  0.0150
                                                                                  0.0000
                                                                                  0.2400
                                                                                                                  01-
                                                                                                                  01-
                                                                           0.0000000
                                                                           0.0200000
                                                                          •0.0167800
                                                                           0.0490244
                                                                                             EACH
                                                                                                      BFLOU -
                                                                                                                    0.0020
S



0
H
N

VALUE
O.OCOOOO
0.010000
H H
0 A
I N
COUNT
IS
13
a
3





PERCENTS
CEI L CUN
30.6 30.6
.10.6 61.2
S
1





VALUE COUNT
0.070000 19
O.OJOOOO 2






PERCENfS
CEI 1 CUN
30.6 91.8
4.1 9S.9






PERCEN1S
VAl HE COUNT CEll CUM
0.050000 1 7.0 Vfl.O
0.710000 1 2.0 100.0
n


PERP.ENTS
VALUE COUNT CFl L CUM

-------
                                                                                                        PAGE   278
QC86 OPTION 2  DIFFERENCE BTUH REPLICATES
utmi
» TEl*
ttl**>l
VARIAB1.F
NUn-iER 'OF
NUH&EK ilF
NUMBER OF


LOCATION











S




VAIU
0.0
Slid
1
MAXIMUM 0.2000000

DISTINCT VALUES . 3 RANGE 0.7000000
VAllltS GUIMTtD. . 23 VARIANCE O.OO.Mlll
VALUES NOT COUNTED 2 ST.DEV. 0.0491076
(IM-U1I/2 O.OQOOOOO

F.STIHATES ST.tRROR
MEAN 0.0173913 0.0102386
MEDIAN O.QOQOOOO O.OOOQOOO
MODE 0.0000000





SKEVHESS
MIMOSIS

0 S
H H »
N A
N
PERCENTS PERCENTS
IE COUNT I:FLI run VAIUE COUNT CEIL CUM VAIUE COUNT
0000 20 87.0 87.0 0.10000 2 8.7 Vti.7 0.20000 1


H
H
H
H
H
H
H
H
H
H H

EACH •-• AiflvE =
L»
U=

VALUE VALUFA.F.
2.73 5.V.
6.44 6.30
EACH • . ' bELOU -




PERCENTS
TELL cun
4.3 100.0





FACM 'H
REFKI^EltlS
2
COUHUSi


H

0.0:00
0.0000
0.3AOO
01° 0.0000000
03° 0.0000000
S-- -0.0317UJ
St» O.OJ.6493Y
0.00'JO

n
X




OC-J6 OPTION 2 D1FFERENCF BTUN RFPLICATCS
HUSISttSlt
1 30 *
»»«»"»«*»»»

NUMiER OF DISTINCT VALUES .
NUftdtR RF VAIIIFS CnilNTFO. .
NUndER OF VALUES NOT COUNTED
LOCATION FSTIHATES
MEAN
MEDIAN
NODE







0 S

N

PERCENTS
VAUIE COUNT C.FII CUM
0.00000 8 34.8 34.8


MAXIMUM 0.3000000 "
J HIN1HUH .0000000 N
4 RANGE .3000000 H "
J3 VARIANCE .OOH61A6 H "
2 ST.DFV. .0928757 H M
IOJ-UD/2 .OSOOQOO H H
H H
ST. ERROR ^ ^
0.09!iiS72 0.0193S5S " "
Q.10QOQOO 0.078BA73 "
0.1000000
EACH •-' AhflVE =
L-
U=

VALUE VALUF/S.F.
SKEWNESS 0.77 l.SO
KURTOSIS -0.24 -O.?l
EACH '.' 6FUIU =
0 S
MN *
AD
NI
PERCFN1S PERCFN1S
VAIUE l-ntlNT I'.FU CUN VAIIIf COUNT CE1I CUM VALUE
0.10000 10 43.5 78.3 0.70000 3 13.0 91.3 0.3000U




EACH 'H'
REPKhSENTS
1
COUHKS)
H
H H
H H

0.02SO
0.0000
0.3750
Ul- 0.0000000
03' 0.1000000
51= 0.1BB477B
0.00:5
n



PEKCCNTS
cniiiii TEIL cun
2 R.7 100.0

-------
 QCB6 OFTION 2 DIFFERENCE BTUN REPLICATES
                                                                                                                   PAGE   279
  > TP
VARIABLF NUMBER ......
NUMBER OF DISTINCT VALUES .
NUHBFR UF VALIIFS COUHttD. .
NUMBER CF VALUES NOT COUNTED
LOCATION ESTIMATES
                   MEAN
                   HtDlAN
                   HODE
 2
17
24
 i
MAXIMUM
NINIHUH
RANGE
VARIANCE
ST.DEV.
(03-011/2
5.6999998
0.0000000
3.699999H
2.1110146
1.439799%
0.4000000
   1.4166619
   o.yoooooo
   0.9000000
     ST.ERROR
      0.2979803
      0.2070727
 H
 H
HH
HH
HHH
HHH
HHH   H
HHH HHH H
 EACH 'H1
REPRESENT
     1
 CGUNT(S)
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                              EACH '-'  ABOVE =
                                                          VALUE    VALUF/S.F.
                                                           1.47          2.94
                                                           1.3?          1.32

                                                            EACH  '.'  BELOU  •
                                                                       U

                                                                      0.5000
                                                                      0.0000
                                                                      A. 5000
                                                                     03=
                                                                     S- =
                                                                     S*=
                                                                                                                         0.5000000
                                                                                                                         1.6999999
                                                                                                                         -0.04313:7
                                                                                                                     O.OSOO
s
H

0
I


N
D
I
H
A
N
0
3


S
*


n


                      PERCENTS
                                                      PERCENTS
                                                                                      PERCEN1S
                                                                                                                      PERCENTS
VAl HE C(
0.00000
C.I 0000
0.70000
0.30000
0.40000
rtnk
IUHT CELL
1 4.2
•i fl.3
1 4.2
1 4.f
1 4.2
bill a
CUN
4.2
12. 5
16.7
70. B
25. 0
VALUE C(
0.60000
0.70000
0.80000
0.90000
1.70000
HINT
2
1
I
4
2
CEIL
B.3
4.2
4.2
16.7
R.3
CUN
33.3
17. S
41.7
S8.3
66.7
VA
1
7
3
.1
3
i HE r.i
. 30000
.10000
.00000
.24000
. 30000
HINT
2
1
1
1
1
CFLL
R.3
4.2
4.7
4.2
4.?
run VALUE COUNT TELL cun
75.0 4.30000 L 4.7 95. fl
yy. 2 "i. 70000 \ 4.: 100.0
H.I. 3
87. S
91.7
 OCB6 OPTION 2 DIFFERENCE BTUN REPLICATES
  istutuusi
  I TFP      I
  uimmm

VARIABLF NUHBER 	
NUMBER L'F DISTINCT VALUES .
HIIHHF.R JF VAllltS r.miMTFO. .
NUMBER OF VALUES NOT COUNTED
 3
17
23
 2
MAXIMUM
HIHINUH
RANGE
VAK1ANCE
ST.DEV.
(113-011/2
9.5000000
0.0000000
9.SOOOOOO
2.3490644
0.9000000
LOCATION ESTIMATES
                   MEAN
                   HF.DIAN
                   NODE
   1.4913045
   0.6000000
   0.0000000
     ST.ERROR
      0.4B9H1.1B
      0.1732032
H
H
H
H
H
HH
HHHHH
                                                                                              EACH '-• ABIl'/E =
                                                                                                            L»
                                                                                                                        COUHUS)
                                                    H   H
                                                                       -U
                                                                                  0.7:00
                                                                                  0.0000
                                                                                  9.7000





S
-


VALUE
0.00000
0.10000
0.70000
0.30000
0.40000









COUNT
3
2
1
2
1





0
N 1
N







N
B
I
PERCENTS
CFll CUN
13.0 13.0
R./ fl. 1
4.3 26.1
H.7 14. B
4.3 39.1





Q
N 3
A
N
VAl HE
0.30000
0.60000
0.70000
o.aoooo
0.90000









COUNT
2
1
1
1
2














S
t


PERCENTS
CF.1.1 CUN
8.7 47. R
4..I :i2.2
4.3 36.3
4.1 60.9
8.7 69.6


SKEVNESS
KURTOSIS





VAl IMF COUNT
1.20000
2.00000
2.70000
7.60000
3.30000










VALUE
2.33
4.39
EACH




PERCENTS
CFI L run
4.3 73.9
4.1 78.3
4.3 83.6
4.3 07.0
4..t 91.3
Ola 0.2000000
VALUF/S.F. 03° ?. 0000000
4.06 S-= -O.B57759B
4.TO Sl = 3.8403690
'.' BELOU - 0.1000
ff



PERCENTS
VALIIF. COUrt! TELL CUM
7.00000 1 4.3 95.7
9.10000 1 4.3 100. 0

-------
  OC86 OPTION  2  DIFFERENCE  BTUN  REPLICATES
                                                                                                                 PAGE    280
   tUttUIMM
   t SRP       *
   IIKtltlMM
VARIA8LF
NUMBER OF
NUMBED (IF
NUNBEk OF
LOCATION



DISTINCT VALUES .
VAIIIFS COUNTbD. .
VALUES NOT COUNTED
ESTIMATES
MEAN
MEDIAN
MODE
s a
N
N
MAXIMUM 1.9000000
4 MINIMUM 0.0000000
8 RANGE 1.9000000
23 VARIANCE O.ID41R97
2 ST.OFV. 0.4791733
I03-OD/2 0.7000000
ST.FRROR
0.2347826 0.0894888
0.0000000 0.0846026
0.0000000
SKEUNESS
KURIOSIS
0 S
M 3 *
A
N

H
H
H
H
H
H
H H
HHHHH
EACH •-' ABOVE =
L"
u=
VALUE VALUF/S.F.
2.67 3.??
7.46 7.30
EACH '.' BFLOM *


H
0
0
1
01-
03°
0
H
X

EACH 'H'
REF-RFSFNI s
COUNTlS)
. I'lOO
.0000
.9300
0.0000000
0.4000000
-0.1943907
0. 663915 Y
.0200

                      PERCENTS
     VALUE    COUNT  CEI1   CUN
      0.00000    13  56.5  S6.S
      0.10000     2   H.7  65.2
                    PERCENTS
   VAIUE    COUNT  CEIL   CUM
    0.30000     2   8.7  73.9
    0.40000     1   4.J  78.1
                                        PERCENTS                       PEKCENIS
                       VAIUE    CnilNT  CEI1    CUM      VALUE    TOUNI  TELL   CUh
                        O.SOOOO     2   B.7   87.0       0.70000      1   4.3  9S.7
                        0.60000     1   4.1   91.3       1.90000      I   4.3 100.0
 QCB6 OfTION 2 DIFFERENCE BTHN RFPLICATES
  * NITHIT
VARIAELF NUMBF.R ......
NUMBER >)F DISTINCT VALUES .
NUMBER I1F VAIWS CnUNTFD. .
NUMBER OF VALUES NOT COUNTED
 5
 9
25
 0
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.DFV.
iai-on/2
17.0000000
 0.0000000
17.0000000
19.47AAA44
 4.4358387
 2.0000000
LOCAT11N ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
   1.4800000
   1.0000000
   I.0000000
     ST.FRROR
      0.8H/U78
      0.3773506
                                                                          SKEUNESS
                                                                          KURTOSIS







EACH



VALUE
1.68
2.12
H
H
H
H
H
HH H
MH HHH
•-• AMVE =
L*
U=

VALUF/S.F.
3.43
2.17
FACH 'H
KEFF.LSEN1S
2
COUNT(S)


H H
1.5000
0.0000
19.5000
01- 1.0000000
03= S. 0000000
S-- -0.9558387
St- 7.9158387
                                                                                             EACH '.'  bELOU =
                                                                                                                    0.1500
s
H
N

VAl IIF
0.
1.
2.
0
H
D
I

COUNT
3
H
3


PERC
CEIL
20.0
37.0
12.0


ENTS
CUN
20.0
52.0
64.0
0
H 3
A
N

VAl HE
I.
S.
7.



COUNT
I
7
3


PERC
CELL
4.0
B.O
12.0
S
4

FNTS
CUH
6R.O
76.0
BH.O



VAIUE
a.
14.
17.



COUNT
1
1
1


PERCENrS
CEll CUN
4.0 92.0
4.0 96.0
4.0 100.0
n
X
PCKCENIS
VAl UE COUNT CELL CUn




-------
                                                                                                        PAGE   281
OCBo OPTION 2 DIFFERENCE  BTUH RhPLICATES
ummtsts
1 KH3 •
It tifttllltl
VARIABLE NUHBFR .




NUHBER OF DISTINCT VALUES .
NUHBFR IIF VAIIIfS COUNTED. .
NUMBER OF VALUES NOT COUNTED


LOCATION ESTIMATES










S
H
N



MEAN
HFDIAN
MODE








0
1


PERCENTS
VAIIIE I'.OUHf CFU CUN
0.10000
0.. 10000
0.50000
1.00000
1.70000
2 10.0 10.0
1 -i.O 1S.O
1 S.O 20.0
1 S.O 7-j.O
1 S.O 30.0


MAXIMUM 9.0000000
2 MINIMUM 0.1000000
19 RANGE 8.8mm
20 VARIANCE 6.6950274
S ST.DFV. 2.5R74751
(UJ-l)l>/2 1.7750001

ST .ERROR
3.2150002 O.S7H'j770
2,H:>00001 0.7505158
0.1000000





SKEUNESS
KUKTOSIS

0 S
H M 3 *
D A
I N
PERCENTS
VAIIIE COUNT I:EU CUH VAIIIF COUNT
1.40000 S.O 35.0 3.80000
1.60000 5.0 40.0 1.9OOOO
2.60000 S.O 4'j.O 4.00000
2.70000 5.0 50.0 4.50000
3.00000 S.O 15.0 4.BOOOO






H H
HH H H
HH H H
HHHH HHHH

EACH '-' AHOVE =
L=
U=

VALUE UALUF/S.F.
0.65 1.18
-O.S2 -0.47
EACH '.' HFLOU =




PERCENT S
TF.ll CUM VAIUF COUNT
1.0 60.0 5.50000 1
5.0 A -5.0 A. 40000 1
S.O /O.O 7.90000 1
5.0 75. 0 9.00000 1
5.0 RO.O




EACH 'H
KEPKtSF.NIS
1
COUHIl?)

HH

0.7100
0.0000
9. 7100
Ul- 1.1000000
Q3» 4.o500«0i
S-= 0.677i?51
SM S.B0247ia
0.0750

n


PEKrENTS
PFIL CUM
1.0 R5.0
ri.O 90.0
1.0 V5.0
1.0 100.0

QC86 OPTION 2 DIFFERENCE  BTUN REPLICATFS
1 b&S
1

v«u*tts»««

UARTftRl E
VHn 1 IIDL C
NUHBER OF
NUHBFR (IF
NUMBER OF
LOCATION













NUHBFR


DISTINCT VALUES . .
VAiuts cnuHrto. .
VALUES NOT COUNTED
ESTIHATES











n
HH 1

MEAN
MCI) I AH
NODE









H
ND D

E
I
PERCENTS
VALUE COUNT CELL CUH
13. 1 4.7 4.2
IS. 3 12. S 16.7
70. 1 4.7 70.8



26.
27.
29.
1 4.2 2S.O
1 4.7 79.2
1 4.2 33.3


MAXIMUM 311.0000000
3 MINIMUM 11.0000000
21 RANGE 298.0000000
24 VARIANCE 66V2.6669V22
1 ST.DFV. 81.8087234
(Q3-UD/2 .11.5000000
ST.FRROR
76.8333339 16.6991348
43.MOOUOOO 12.1743620
IS. 0000000





SXEUNESS
KURTOSIS

Q S
H 3 *
A
N
PERCENTS
VALUF COUNT CELL CUH VALUt COUNT
34. 1 4.; .17.5 70. I
35. 2 8.3 4!i.R 71.
19. 1 4.7 :>0.0 H4.
48. 1 4.2 54. 2 95.
49. 1 4.2 IiH.J 118.
S3. 1 4.2 62.5 167.



H
H
H
H
HH
HH
HHH
HHHH
HHHHH

EACH '-' ARIIVE =
L =
U=

VALUE VALUE/S.F.
1.68 3.35
1.70 1.70
EACH '.' BELOU '




PERCENTS
CFLL TUN VALUt
.2 44.7 205.
.J 70. R 770.
.7 7'.i.0 HI-
.7 79.2
.2 83.3
.2 R7.5




EACH 'M'
REPRtSENIS
1
COUNMS)


HHHH

3-i.OOOO
0.0000
1?1.0000
01- .•*. 5000000
03» 89.5000000
S-* -4.9753B7o
S»« l5fl.*420i»J
2.5000

n


PERCENIS
I.OUNT CELL CUR
\ 4.2 91.7
1 4.? 91.B
1 4.2 100.0




-------
 QC86 OPTION 2 DIFFERENCE BTUN RFPL1CATFS
                                                                                                              PAGE   282
  mtmmii
  » SECCHl   I
  lUimilttl

VARIABLE NUMBER 	
NUhbER OF DISTINCT VAI UES .
NUMBER IIF VALIIfS COUNTED. .
NUrtbER UF VALUES NOT COUNTED
 8
 9
11
14
HAXIHUH
HINIHUH
RANGE
VARIANCE
ST.DEV.
(03-1)11/2
0.5000000
0.0000000
0.5000000
0.0321018
0.1793979
0.1000000
LQrnTlflN ESTIMATES
                   MEAN
                   MEDIAH
                   NODE
   0.1272777
   0.0400000
   0.0000000
     ST.ERROR
      0.0540R90
      0.0177351
 H
 H
 H
 H
 H  H
 HH H
 EnCH 'H-
REFRFSFNIS
     1
 COUNT(S)
                                                  H H
                                                                       -U
                                                                          SKEUNESS
                                                                          MiRTOSIS
                                                                                              EACH '-•  AhDVE =
                                                                                                            L«
                                                                                                            U=
                                                          VALUF    VALUF./S.F.
                                                           l.OS          I.-I"!
                                                          -0.44        -0.30
                                                                                  O.Or.OO
                                                                                  0.0000
                                                                                  0. a'OO
                                                                    01-
                                                                    03 =
                                                                    S--
                                                                    Sf
                                                           o.oooocoo
                                                           0.2000uOO
                                                           -0.05:1:0:
                                                           0.3066a37
                                                                                              EACH
                                                                                                       6EIOU
                                                                                                                    0.0050
S 0
N

N

0 S
N 3 *

A
N

H

X

                      PERCENTS
     VALUE    COUNT  CFIL   CUM
      0.00000     4  54.5  54.5
      0.10000     1   V.I  41.4
                    PERCENTS
   VAI HE    COUNT  CELL   CUN
    0.20000     2  1R.2  Rl.B
    0.40000     I   9.1  90.9
                       VAIUE    COUNT
                        O.SOOOO      1
                        PERCENfS
                       CFI i    am
                        9.1  100.0
                                                       VALUF
                                                                COUNT
                                                                       PEKCEN1S
                                                                      CELL   CUN
 OCB4 OPTION 2 DIFFERENCE BTUN REPLIRATFS
   imtmmi
   . TURBID   »
VAKIABIF NUHBER ......
NUhbER OF DISTINCT VALUES .
NUr-BER IIF VMIIFS cnilNTfO. .
NU.ibER OF VALUES NOT COUNTED
            HAXIHUH
            MINIMUM
            RANGE
            VARIANCE
            ST.DFV.
                0.9000000
                0.0000000
                0.9000000
                O.OA14493
                0.?478H94
                0.1250000
LOCATION ESTIMATES
                   HE AN
                   NEUIAN
                   MODE
   0.2666667
   0.7000000
   0.1000000
     ST.FRRQR
      0.050*001
      0.0377191
  H
  H
  H
  H
  H H
 HHHH
 HHHH     H
 HHHH HHH H H
I		— -U
                                                           FACH  H'
                                                                                                                             1
                                                                                                                         COUHI(S)
                                                                                              EACH '-•  AbDVE =
                                                                                                            U'
                                                                                                                     0.0750
                                                                                                                     O.COOO
                                                                                                                     O.V7',0
                                                                          SKEUNESS
                                                                          KURTOS1S
                                                          VALUE
                                                           1.07
                                                           0.09

                                                            EACH
                                                      VALUF/^.F.
                                                            2.11
                                                            0.09

                                                     '.•  BFLOU  =
                                                                                                                   01-
                                                                                                                   03 =
                                                            0.100000G
                                                            fl.3500000
                                                            0.0187770
                                                            0.9145'.ie3
                                                                                                                     0.0075
s
H -
N
Q
H
D
E
N
D
I
N
A
N
0 S
3 *

n
X
                      PERCENTS
     VAIUE    OIUNT  f.f.ll    CUN
      0.00000     3  12.1  12.5
      0.10000     H  M.J  4r).8
      0.20000     3  12.}  SB.3
                    PERCENTS
   VAIUE    ftlllNr  CE1I    CUM
    0.30000     4  I*./   7S.O
    0.40000     1   4.2   79.2
    0.50000     1   4.2   63.3
                                        PERfENlS
                       VAIUE    COUNT  CEU    CUM
                        0.60000     1   4.2   H7.S
                        0.70000     ?   8.3   95.8
                        0.90000     1   4.2  100.0
                                       VALUE
                                                       PERCENIS
                                                COIMT   CFLL   CUn

-------
                                                                                                                  PAGE   283
 OC8& OPTION 2 DIFFERENCE BTUN REPLICATFS
  tsuimuu
  I ChLACORR I
 6
23
23
 0
VARIABLE NUMBER 	
NUMBER OF DISTINCT VALUES .
NUMBER (IF VAIIIFS CIUJHTFD. .
NUMBER OF VALUES NOT COUNTED
MAXIHUM
MINIMUM
RANGE
VARIANCE
ST.DEV.
6.0599999
0.0700000
5.9H99998
2.7141001
1.6474576
0.8JOOOOO
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
   1.3019999
   0.&800000
  NOT UNIQUE
     ST.ERROR
      0.3294903
      0.3088825
H
H
H
H
HHH  H
HHHHHH
 FACH 'H'
REfRFRFNTS

 COUNT(S)
                                                     H  H
                                                                                              EACH '-'  AMOVE  =
                                                                                   O.SOOO
                                                                                   0.0000
                                                                                   A.5000
                                                                          SKEMNESS
                                                                          KURTOS1S
                                                          VALUE
                                                           1.64
                                                           1.B4

                                                            EACH
                                                      VALUE/S.F.
                                                            3.32
                                                            1.88

                                                     •••  BELOU -
                                                                                                                   01 =
                                                     S-»
                                                     st-
                 0.1400000
                 I.7BOOOOO
                -0.3454527
                 ?.9494324
                                                                                                                     0.0500
s a
Ml
N

VALUE
0.07000
0.08000
0.12000
0.13000
0. 14000
0.17000
M
D A
I N
PERCENTS
COUNT CELL CUM
1 4.0 4.0
2 8.0 12.0
2 8.0 /O.O
1 4.0 24.0
1 4.« ?8.0
1 4.0 32.0
Q
3


PERCENTS
VALUE COUNT CELL CUM
0.70000 4.0 34. 0
0.31000 4.0 40.0
0.37000 4.0 44.0
0.44000 4.0 4B.O
0. tirtOOO 4.0 -i2.0
0.74000 4.0 56.0
S
t


VALUF
0.82000
1 . 15000
1.J7000
1.36000
1.7HOOO
2.36000



PERfENlS
COUNT TELL HUH
1 .0 40.0
1 .0 64.0
1 .0 68.0
1 .0 77.0
1 .0 76.0
1 .0 flQ.O



VALUE. COUNT
2.84000 I
2.B6000 1
2.99000 1
3.47000 1
6.06000 I

n


PERCENTS
C.FL1 CUH
4.0 84.0
4.0 R8.0
4.0 9?.0
4.0 96. 0
4.0 100.0

 OC86 OPTION 2 DIFFERENCE BTUN RFPLICATES
  «SI?I*«***M
  I PIEQ     «
VARIA8l.fi NUMBER ......
NUMBER OF DISTINCT VALUES .
NUMBER af VAIIIFS COUHTFD. .
NUMBER OF VALUES NOT COUNTED
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
 7
24
25
 0
MAXIMUM
MINIMUM
RANGE
VARIANCE
ST.DFV.
(OJ-QD/2
9.1099997
0.0000000
7.1099997
9.9307664
2.433213ft
1.6500000
   2.0S92000
   1.0900000
   0.0300000
     ST.FRKOR
      0.48/042H
      0.3167288
                                                                          SKEMNESS
                                                                          KURTOSIS
H
H
H
H
H
HH
HH
HH H
HHH H H
HHH HHH
-' AMIVE =
L =
U-

VALUE/S.F.
2.04
0.91



EACH 'H'
REPKI-SFN1S
1
CDUHT(S)


H H
0.7'jOO
0.0000
9.7100
01- 0.1700000
03= .1.4700000
S-° -0.3760138
S»= 4.494413V
                                                                                              EACH •-
                                                          VALUE
                                                           1.30
                                                           0.89
                                                                                              EACH •.'  BFLOU -
                                                                                                                     0.0750
s

Q
KM 1
ND
e
N
D
1
H
A
N
0
3

S
t

n

                                                      PERCENTS
                                                                                      PERrENfS
                                                                                                                      PERCENTS
VALUE
0.00000
0.02000
O.OJOOO
0.03000
0.07000
0.17000
COUNT
1
1
1
2
1
1
CELL
4.0
4.0
4.0
B.O
4.0
4.0
cut
4.
8.
12.
20.
74.
28.
1 VALUF COUNT Cl
0.30000 1
0.33000 1
0.6.<000 1
0.78000 1
O.H6000 1
1.09000 1 '
:IL
.0
.0
.0
.0
.0
1.0
CUM
32.0
36.0
40.0
44.0
48.0
S2.0
VALUF COUN1
1.13000
1.49000
l.-iHOOO
2.12000
3.17000
3.47000
CELI
1 4.0
4.0
4.0
4.0
4.0
4.0
run
16.0
60.0
64.0
6R.O
72.0
76.0
VALUt CDUH
4.16000
4.64000
4.47000
4.83000
6.7/000
9.11000
r CF.LI CUM
4.0 80.0
4.0 B4.0
4.0 8R.O
4.0 92.0
4.0 96.0
4.0 100.0

-------
                                                                                                         PAGE   284
OCS6 OPTION  2 DIFFERENCE BTVN  REPLICATES
mstmmt
» TSS «
ii'mumi

NUN1CR OF DISTINCT
NUH9FK i)F VflllltS Cfl
NUMBER OF VALUES NO


LOCATION ESTIMATES











S
N
N


VALUE COUNT
0.02000 1
0.03000 2
0.04000 1
0.06000 3
0.07000 J




VALUES .
IUHTFD. .
T COUNTED



MEAN
HFOIAN
MODE








0 0
1 H N
D A
I N
PERCENTS
CELL CUM
4.0 4.0
8.0 12.0
4.0 16.0
12.0 28.0
! 8.0 .14.0


NAXINUK
3 MINIMUM
IB RANGE
25 VARIANCE
0 ST.DFV.
(QJ-QU/2

ST.FRROR
0.3112000 0. OB/9722
0.1HOOOOO 0.0635086
NOT UNIQUE








S
1


PERCENT!
VALUE COUNT CFLI CI
O.OHOOO 1 4.0 40
0.09000 2 B.O 48
O.lriOOO 1 4.0 :>2
0.73000 1 4.0 56
0.76000 1 4.0 60


2.0799999
0.0200000
2.0599999
0.19.14776
0.4398609
O.l2r)0000










SKEUNESS
KURTOS1S





S
JH VALUE COUNT
.0 0.7VOOO .1
.0 0.31000 1
.0 0.4MOO 1
.0 0.51000 1
.0 0.1)8000 1





H
H
H
H
HH
HHH
HHHH H

EACH '-' AHOVE =
LS
U=

VALUE VALUF/S.F.
2.81 5.71
B.24 B. 41
EACH '.• BFLOU -




PERCENTS
CEU urn VALUF COUNT
12.0 72.0 0.43000 1
4.0 /A.O 1.01000 1
4.0 80.0 2.08000 I
4.0 B4.0
4.0 H8.0





EACH 'H'
kEPRfSf HI*
2
COUNTIS)


H

o.:ooo
0.0000
2.4000
01 0.0400000
03° 0.3100000
S-» -0.1784004
S*' O.?jl06!0
0.0200

n
X

FCKCENTS
CFLL Cun
4.0 92.0
4.0 96.0
4.0 100.0


QC84 OPTION 2 DIFFERENCE  BTUN RFPLICATES
 * RS


NUMBER OF DISTINCT WAIVES . .
NUHBFK IIF VAimS C.nilNTFD. .
NUMBED OF VALUES NOT COUNTED

LOCATION ESTIMATES
MEAN
MEDIAN
MODE








S 0
Ml N H
H D D
1 E
PERCENTS
VALUE COUNT CEU CUH
0.010000 1 4.0
0.070000 1 8.0
0.030000 1 12.0
0.040000 1 14.0
O.OSOOOO 1 20.0
O.OAOOOO 7 8 0 7H.O

4
22
25
0


0.
0.
0.








0
H 3
«
N
Vfl
0.
0.
0.
0.
0.
0.
MAXIMUM 1.7700000
NINIHUH 0.0100000
RANGE 1.7600000
VARIANCE 0.2009833
ST.DFV. 0.4483117
(QJ-UD/2 O.lritlOOOO
ST. ERROR
3560000 O.OBV6673
1900000 0.0.146410
2400000





SKEUNESS
KURTOSIS

S
»


PERCENTS
HIE COUNT CEU CUH VW lit COUNT
080000 .0 32.0 0.200000
I7QOOO .0 J6.0 0.740000
140000 >0 40.0 0.280000
160000 .0 44.0 0.430000
180000 .0 4H.O 0.450000
1*0000 .0 52.0 0.610000
H
H
HH
HH
HH
HH
HH
HH
HHH
HHH H

EACH '-' AMOVE •
L =
U=

VALUE VALUF/S.F.
1.78 3.64
2.27 2.32
EACH ' . ' BEl OU >




PERCENTS
C.F.1 1. CUM VALUF
4.0 36. 0 0.960000
12.0 6R.O 1.140000
4.0 77.0 1.200000
4.0 /6.0 1.770000
4.0 80.0
4.D 44.0


EACH •H'
KEPRtSFNII
1
count is i

H
HH H

0.1 jOO
0.0000
l.9',00
01' 0.0600000
03» 0.4300000
S- = -0.0973116
S» = 0.8043117
0.0150




PEKCENTS
COUNT CELL cun
1 4.0 BB.O
I 4.0 91.0
1 4.0 96.0
1 4.0 100.0



-------
 OC86 OPTION 2 DIFFERENCE BTUN RFPLICATES
                                                                                                                 PAGE    285
  I VS
VARIA1LF NIIHBER ......
NUNBEI- OF DISTINCT VALUES .
NUNBFK (IF VALUES COUNTtD. .
NUNBEK OF VALUES NOT COUNTED
 3
20
33
 0
LOCATION ESTIMATES
                   NEAN
                   HF.DIAN
                   MODE
                 N  1
                               0
                               3H
HAXIHUH
NININUN
RANGE
VARIANCE
ST.DFV.
(QJ-UD/2
2.0799999
0.0000000
2.0799V99
0.2111.107
0.4842637
0.1100000
   0.1014000
   0.1500000
  NOT UNIQUE
     ST.ERROR
      0.09*8367
      0.049074B
H
H
H
H
H
HH
HH
HHH H H
 EACH -H-
REFKSENtS
                                                                                                                        COUNT(S)
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                                                              EACH •-'  ABOVE  =
                                                                                                            U=
                                                          VALUE    VALUF/S.F.
                                                           2.54          5.19
                                                           5.77          5.89
                                                                                              EACH
                                                                                                       BFLOU
                                                                     —U

                                                                       0.2000
                                                                       0.0000
                                                                       2.6000
                                                                                                                  01 =
                                                                                                                  03=
                                                                           0.0500000
                                                                           o.:7ooooo
                                                                           -0.lB2a8.l6
                                                                           0.7R58B37
                                                                                                                    0.0700
PERCENTS
VALUE COUNT CELL CUH
}. 000000 1 4.0 4.0
v. 010000 1 4.0 8.0
•J. 070000 .1 12.0 20.0
0.030000 1 4.0 24.0
0.0'JOOOO .1 12.0 .14.0
PERCfNTS
VALUF COUNT mi. CUN
0.090000 4.0 40.0
0.110000 4.0 44.0
0.140000 4.0 48.0
0.110000 4.0 32.0
0.170000 4.0 '06.0
PERCFNIS
VALUF COUNT C.fLL HIH
0.1ROOOO 1 4.0 60.0
0.190000 1 4.0 64.0
o.;?oooo .' R.o 72.0
0.270000 1 4.0 7A.O
0.. 170000 i 4.0 ao.o
PERCENTS
VALUt rtlUHT IF.LI Cun
0.380000 I .0 84.0
0.4:iOOOO 1 .0 88.0
0.940000 I .0 97.0
1.360000 1 .0 96.0
3.080000 1 .0 100.0
 OCB6 OPTION 2 DIFFERENCE DTUN REPL1CATFS
  I COHDCORR «
VARIABLF
NUMBER OF
NUMBFK OF
NUMBER OF
LOCATION
9
VA1U

DISTINCT VALUES .
VAIUES CnilNTEO. .
VALUES NOT COUNTED
ESTIMATES
hEAN
MEDIAN
MODE
0
HI H H
N DA
I N
PERCENTS
IE cmmr CELI CUH
0. 3 12.3 12.3
1. f) 20.8 13.3
2. 2 8.3 41.7
MAXIMUM 27.0000000
7 MINIMUM 0.0000000
9 RANGE 27.0000000
24 VARIANCE 32.4927521
1 ST.DEV. 3.7007411
(Ol-OD/2 2.0000000
ST.EKROR
4.1666665 1.1615569
.1.0000000 0.11610259
NOT UNIOUF
SKENNESS
KURTOSIS
0 S
3 *
PERCFNTS
VAIUE CIIUHT CELl CUH VAI UK CHUN I
3. 3 20.8 12. S 7. 1
4. 7 B.J /0.8 14. 1
S. 4 16.7 87.3 27. 1

ErtfH 'H'
H REFkFtFNIS
HH 2
HH COUNTIS)
HH
HH
HHH H H
EACH •-' AtllVE = 7.5000
L= 0.0000
U= 37.5000
01= 1.0000000
VALUE VALUF/S.F. 01- ',.0000000
2.93 5. 8H S-= -1.5115751
8,14 8.64 S»= 9.B(>690dl
EACH '.' BFLOU ' 0.2500
n
PERCFNfS PERCENTS
CF.II CUM VALUE milHT CELl CUn
4.7 91.7
4.2 93.8
4.7 100.0

-------
                                                                                                                  PAGE    286
 OCB6 OPTION i DIFFERENCE BTNN IMPLICATES
  I CL
VARIABIF NUMBER ......
NUMBER OF DISTINCT VALUES .
NUHBFR llF VAltlFS COUNTED. .
NUMBER OF VALUES NOT COUNTED
 9
23
 0
NAXINUH
NINIHUN
RANGE
VARIANCE
ST.DFV.
(U3-UU/2
0.9000000
0.0000000
0.9000000
0.0316667
0.7273030
0.1000000
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
   0.3200001
   0..1000000
   0.2000000
     ST.ERROR
      0.04'.i4606
      0.0377351
   H
  HH
  HHH
  HHH H
  HHH HHH
 HHHH HHH  HH
L	U
 E«CH 'H'
REPRUFHIS
     1
 COUNT(S)
                                                                                              EACH  '-' ABOVE «
                                                                                                            L-
                                                                                   0.0750
                                                                                   0.0000
                                                                                   0.9750
                                                                          SKEUNESS
                                                                          KURTOSIS
                                                          VALUE
                                                           0.95
                                                           0.19

                                                            EACH
                                                      VALUE/S.F.
                                                            1.93
                                                            0.19

                                                     '.' BFLOU -
                                                                                                                   01-
                                                                                                                   03*
                                                                                                                   S--
                                                            0.2000000
                                                            0.4000000
                                                            0.0924970
                                                            0.5473031
                                                                                                                     0.0075
s
N
N

0
H
D
E
II H
D A
1 N
0
3


S
i


n


                      PERCENTS
     VALUE    COUNT  CELL   CUM
      0.00000     1   4.0   4.0
      0.10000     3  20.0  24.0
      C.70000     6  24.0  48.0
                    PERCENTS
   VALUF    COUNT  CELL   CUM
    O.JOOOO     4  14.0  64.0
    0.40000     3  12.0  76.0
    O.SOOOO     2   B.O  84.0
                       VALUF    COUNT
                        0.60000     ?
                        O.BOOOO     1
                        0.90000     1
                        PERCENTS
                       CF.I L   I.UN
                        8.0  92.0
                        4.0  96.0
                        4.0  100.0
                                                       VALUE
                                                                        PERCENTS
                                                                COUNT  C.HL   CUn
 OCB6 OPTION 2 DIFFERENCE STUN REPLICATES
  t ALKTOT
VARIA8I.F NUMBER  ......
NUMBER OF DISTINCT VAI UES  .
NUMBER '.IF VALIIFS  T.nUHUD.  .
NUMBER OF VALUES  NOT  COUNTED
  4
IS
23
  0
 HAXIHUH
 HINIHUN
 RANOE
 VARIANCE
 ST.DEV.
 (OJ-UD/2
 2.2000000
 0.0000000
 2.2000000
 0.3A70A67
 0.40X8603
 0.4000100
LOCATIIIN ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
   0.7040000
   O.AOOOOOO
   0.1000000
      ST.ERROR
       0.1211771
       0.1732032
  H
  «
  H
  HHH  H
  HHH  H
  HHH  H  H
  HHHHH  H  HHH
  EACH  'H'
 REF-KFSFNIS
      1
  COUNT It)
                                                                        -II
                                                                                               EACH •-'
                                                                                    0.2000
                                                                                    0.0000
                                                                                    2.6000
















VALUE
3.00000
0.10000
0.20000
V. 30000




S 0

D
E








PERCCNTS
COUNT CELL CUM
I 4.0 4.0
4 16.0 20.0
.' H.O Pfl.O
2 B.O 36.0





N M
D A
1 N
VALUF COUNT
0.40000 2
O.SOOOO 1
0.60000 3
O.BOOOO 1












0
3


PERCENTS
TELL CUM
8.0 44.0
4.0 4H.O
12.0 60. 0
4.0 64.0


SKEVNESS
KURTOSIS

S
*


VALUF COUNT
0.90000 >
1.00000 2
1.. 10000 1
1.40000 1









VALUE
0.93
-0.09
EACH




PERCFHIS
CFLL CUN
R.O 77.0
H.O 80. 0
4.0 1)4.0
4.0 8R.O

VALUF/S.F.
1.90
-0.10
••• BFLOU -




VALUt
1.70000
1.90000
2.20000
01- 0.2000000
03= 1.0000000
S-: 0.09613V7
St< I.30VHG03
0.0200
n



PEKCENTS
COUNT I.FLL CUn
1 4.0 92.0
1 '.0 96.0
1 4.0 100.0

-------
 QC86 OPTION 2  DIFFERENCE  BTUN  REPLICATFS
                                                                                                                    PAGE   287
  mimsim
  * AUFH    «
VARIABLF NUMBER  ......
NUMBER OF DISTINCT VALUES  .
NUMBER 1IF VfllllFS  CUIMTFO.  .
NUMBER /2
1.6000000
0.OOOODOO
1.4000000
0.147/447
0.377844H
0.1000000
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   HODE
   0.2120000
   0.1000000
   0.0000000
     ST.FRROR
      0.07!iSA?0
      0.0377151
                                                                           SKEVNESS
                                                                           KURTOSIS
H
H
HH
HH
HH
HH
HH
•-• ABOVE =
L =
U=

VALUF/S.F.
5. 58
6.71
EACH 'H'
REFRFSENTS
2
COUNHS)


H H
O.I '.00
0.0000
1.9300
01- 0.0000000
01* 0.2000000
S-- -0.165B-HB
St» 0.5B9B-HB
                                                                                               EACH '-
                                                          VALUE
                                                           2.73
                                                           A.SB
                                                                                               EACH -.' BELOU =
                                                                                                                      0.0150
S


0
H
N

H
D
I
0 S
3H »
A
N
H


                       PERCENTS
     VALUE    CnilHT   CEIL    CUM
      0.00000     10   40.0   40.0
      0.10000      4   1A.O   !>6.0
                    PERCENTS
   VAIUE    COUNT  CEIL   CUM
    0.70000     A  24.0  80.0
    0..10000     3  12.0  92.0
                        PERCENIS
       VAIIIF    COUNT  CEll   HUM
        1.70000     I   4.0  94.0
        1.40000     I   4.0  100.0
                                                       VALUE
                                                                        PEKCENrS
                                                                COUNT  TELL   CUN
 OCBA OPTION 2 DIFFERENCE BTUN REPLICATES
  I PH
VARIABLb NUMBER  ......
NUMBER OF BIST1NCT VALUES  .
NUMBER UF VAIIIFS CI1UNUO.  .
NUMBER Or VALUES NOT COUNTED
 4
 6
24
 1
MAXIMUM
HINIHUN
RANGf
VARIANCE
ST.DEV.
(Q.I-UD/2
0.7300000
0.0000000
0.7300000
0.0070433
0.04S202H
O.OQAOOOO
LOCATION ESTIMATES
                   MEAN
                   MEDIAN
                   MODE
   0.0254147
   0.0100000
   0.0100000
     ST.FRROR
      0.0097770
      0.002H848
H
H
H
H
H
H
HHH
                                                                                               EACH '-' ARllVE =
                                                                           SKEUNESS
                                                                           KURTOSIS
                                                          VALUE
                                                           4.02
                                                          15.27

                                                            EACH
                                                      VALUF/S.F.
                                                            8. Of.
                                                            15.?7

                                                      '.• BFLOU -
                      PERCENTS
     VAUJF    i:nuHT   i:m    CUM
     O.COOOOO      1   4.2    4.2
     0.010000     17   50.0   S4.2
                    PERCFNTS
   VAIUE    COUNT  CF.IL   CUH
   0.020000     8  33.3  87.5
   0.040000     1   4.2  91.7
                                        PERCENIS
                       VAIIIF    COUNT  I'FIL   CUH
                       0.060000     1   4.?  95.8
                       0.710000     1   4.2  140.0
 EACH 'H'
KEfKrSFNIj
     3
 COUNKSi
                                                                       -U
                                                                                   0.0200
                                                                                   0.0000
                                                                                   o.:&oo
                                                                                                                    Ql-
                                                     S-'
                                                     st-
                                                                                                                           O.OlOOOuO
                                                                                                                           0.0:00000
                                                                                                                          -O.OMI Bo2
                                                                                                                      0.0020
5

H
N
0
H
D
I
0
3

H
A
N
S
t

n

                                       VALUE
                                                        PCKCENTS
                                                COUNT  TFLL   CUN

-------
                                   TECHNICAL REPORT DATA
                            (Please read Instructions on the reverse before completing)
1. REPORT NO.
                                                           3. RECIPIENT'S ACCESSION NO.
4. TITLE AND SUBTITLE
    1986 Open  Lake  Water Quality Condition's  for Lake
    Erie's Western, Central and Eastern Basins.
                                                           S. REPORT DATE
                                                               August   1987
                         6. PERFORMING ORGANIZATION CODE
 '. AUTHOR(S)
                                                           8. PERFORMING ORGANIZATION REPORT NO.
    Laura A.  Fay,  Helen E. Kundtz and David  E.  Rathke
9. PERFORMING ORGANIZATION NAME AND ADDRESS
    Center  for  Lake Erie Area Research
    1314 Kinnear  Rd
    Columbus, Ohio  43212
                         10. PROGRAM ELEMENT NO.
                         11. CONTRACT/GRANT NO.
                             R005892-01
12. SPONSORING AGENCY NAME AND ADDRESS
    Great Lake National  Program Office
    United  States Environmental Protection Agency
    230 South Dearborn  Street
    Chicago,Illinois  60604
                         13. TYPE OF REPORT AND PERIOD COVERED
                            Final
                         14. SPONSORING AGENCY CODE
15 SUPPLEMENTARY NOTES
U.S. Environmental Protection Agency
LlbT-irv.  Roo-n 2AQ4  ™-211-A
101 M Street.  S.W.
  . AbarnACT
                                  Washington, uu
  The 1986 Lake Erie  open   lake  surveillance/monitoring   program  followed   the   plan
  recommended  and  sanctioned  by  the Water Quality  Board of the International  Joint
  Commission, Great Lakes  Regional Office.  This  study included twelve western  basin,
  six  central  and   three  eastern  basin surveys.  Several conventional physical  and
  chemical parameters were measured on all surveys.  The  western basin  data   set  has
  the  greatest   seasonal   coverage, spanning from April  through November.  Based upon
  total  phosphorus,  chlorophyll   and  secchi  transparency,   the  western   basin   is
  classified as eutrophic.  Total  phosphorus concentrations ranged from 10  to 50  ug/1,
  with a seasonal median concentration of 25 ug/1.   The central basin  epilimnion  was
  similar  in  nutrient concentration and trophic classification (mesotrophic) as  was
  reported for 1985.  Seasonal median total phosphorus and chlorophyll  concentrations
  were  13  ug/1  and  2   ug/1 respectivily.  In  contrast with 1985,  the central  basin
  hypolimnion was not found to have gone anoxic,  thus  anoxic sediment regeneration   of
  phosphorus,  ammonia  and  silica  was  not   found  to   occur.   However, the oxygen
  depletion rate was  4.7 mg/1/month, the highest  rate  calculated  in  recent years.
  Only  limited   seasonal   information  was collected  for the eastern basin during  the
  1986 field season.  Based upon the available  information, phosphorus and  chlorophyll
  concentrations were similar to those recorded in previous studies.
7.
                                KEY WORDS AND DOCUMENT ANALYSIS
                  DESCRIPTORS
                                              b.lDENTIFIERS/OPEN ENDED TERMS
                                       c. COSATI Field/Group
    Water Quality, Environmental  Surveys
    Eutrophication, Dissolved Oxygen,
    Phosphorus
             Lake Erie, Great Lakes
8. DISTRIBUTION STATEMENT
    Release Unlimited
                                              19. SECURITY CLASS (Ttus Report!
                                       21. NO. OF PAGES
                                          287
                                              20. SECURITY CLASS (This page)
                                                                         22. PRICE
EPA Form 2220-1 (R»v. 4-77)   PREVIOUS EDITION is OBSOLETE

-------