Photosynthesis and Respiration Rates in the Monticello Experimental Streams: 1976/77 Diel Field Data and Computed Results


                                         EPA-600/3-82-065
                                         June 1982

          PHOTOSYNTHESIS AND RESPIRATION RATES         P382-242066
         IN THE MONTICELLO EXPERIMENTAL STREAMS:
      1976/77 Diel Field Data and Computed Results
                           by

Douglas J. Fullen, John S. Gulliver,  and Heinz G.  Stefan
                 University of Minnesota
         St. Anthony Falls Hydraulic Laboratory
              Minneapolis, Minnesota  55414
                  Order No.  J1337  NAEX
                     Project Officer
                 Kenneth E. F.  Hokanson
         Monticello Ecological  Research Station
                      P.O. Box  500
              Monticello,  Minnesota  55362
        ENVIRONMENTAL RESEARCH LABORATORY-DULUTH
           OFFICE OF RESEARCH AND  DEVELOPMENT
          U.S.  ENVIRONMENTAL PROTECTION AGENCY
                DULUTH,  MINNESOTA   55804

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TECHNICAL REPORT DATA
(Please read Instructions on the reverse before completing)
i. REPORT NO.
EPA-600/3-82-065
2.
ORD Report
3. RECIPIENT'S ACCESSION NO.
242066
4. TITLE AND SUBTITLE
Photosynthesis, and Respiration Rates in the
Monticello Experimental Streams: 1976/77 Diel
Field Data and Computed Results
5. REPORT DATE
June 1982
6. PERFORMING ORGANIZATION CODE
7. AUTHOR(S)

Fullen, D. J., J. S. Gulliver, and H. G. Stefan
8. PERFORMING ORGANIZATION REPORT NO.
9. PERFORMING ORGANIZATION NAME AND ADDRESS
University of Minnesota
St. Anthony Falls Hydraulic Laboratory
Minneapolis, Minnesota 55414
10. PROGRAM ELEMENT NO.
11. CONTRACT/GRANT NO.
12. SPONSORING AGENCY NAME AND ADDRESS
U.S. Environmental Protection Agency
Environmenmental Research Laboratory-Duluth
6201 Congdon Boulevard
Duluth, Minnesota 55804
13. TYPE Ot: REPORT AND PERIOD COVERED
14. SPONSORING AGENCY CODE
15. SUPPLEMENTARY NOTES
16. ABSTRACT

Two-station diel dissolved oxygen measurements collected during 1976 and 1977 at the
Monticello Ecological Research Station (Monticello, MN) have been analyzed by a
graphical-analytical method and by a computer model, Dissolved Oxygen Routing Model
(DORM), to determine daily community respiration and photosynthesis. A third set of
values was generated by using the DORM model to simulate the graphical method. The
complete DORM included surface oxygen exchange, longitudinal dispersion, a higher order
curve extrapolation between upstream dissolved oxygen measurements; and the dependence
of respiratory rate on water temperature and dissolved oxygen measurements and the
dependence of respiratory rate on water temperature and dissolved oxygen concentration,
but neither the graphical nor the simulated graphical models included these factors.
The complete DORM gave consistently higher rates of respiration and photosynthesis than
either the graphical-analytical method or the computer simulation.
17.
KEY WORDS AND DOCUMENT ANALYSIS
DESCRIPTORS
b.lDENTIFIERS/OPEN ENDED TERMS C. COSATI Field/Group
18. DISTRIBUTION STATEMENT
RELEASE TO PUBLIC
19. SECURITY CLASS /This Report}
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21. NO. OF PAGES

175
20. SECURITY CLASS (Thispage)
UNCLASSIFIED
22. PRICE
EPA Form 2220-1 (Rev. 4-77) PREVIOUS EDITION is OBSOLETE
I

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                     NOTICE

Mention of trade names or commercial products does not
consititute endorsement or recommendation for use.
                          tl

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                          TABLE OF CONTENTS
 Figures 	    lv
 Tables 	    iv
     1.  Introduction 	     1
     2.  Results and Conclusions 	     2
     3.  Recommendations 	     6
     4.  Application of a Graphical-Analytical Procedure for
           Stream Productivity Analysis 	     7
     5.  Application of the Numerical Dissolved Oxygen Routing
           Method (DORM) for Stream Productivity Analysis 	    18
     6.  Residence Time Sensitivity Analysis	    21
Bibliography 	    23
Appendices
     A.  Summary of Diel Dissolved Oxygen Data Provided by MERS ...    24
     B.  Tabular and Graphical Analysis of Two-Station Diel
           Dissolved Oxygen Data	    40
     C.  Hydraulic Mean Depths for 1976-77 Diel D.O. Curve
           Analysis	   117
     D.  Coefficient Derivation for Adjustment of Partial Daily
           Rates of Photosynthesis to Total Daily Rates of
           Photosynthesis 	   119
     E.  DORM Input Data and Simulation Printouts for 8 Runs 	   121
                                   111

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                              FIGURES

Number                                                                Paqe
  1       Residence  time  determination-from a temperature front on
            8-22-77  between stations 2 and 10 and stations
            10  and 18  in  channel 8 	  10

  2       Residence  time  determination from a temperature front on
            8-24-77  between stations 2 and 10 and stations 10 and
            18  in   channel 8 	  10

  3       Residence  time  determination from a temperature front on
            4-19-77  between stations 2 and 10 and stations 10 and
            18  in   channel 8 	  12

                              TABLES

 la       Best  estimates  of total daily  rates of  photosynthesis 	    3

 lb       Best  estimates  of total daily  rates of  respiration  	    4

  2       Channel  segments and residence times for 1976-77 diel
            D.O. curve analysis  	   8

  3       Hourly respiration rates from  graphical-analytical  procedure  14

  4       Partial  daily rates of community photosynthesis from
            graphical-analytical procedure 	  15

  5       Coefficients to adjust partial daily rates of photosynthesis
            to  total daily rates of photosynthesis 	  16-

  6       Total daily rates of community photosynthesis from graphi-
            cal-analytical procedure without reaeration adjustment ..  17a

  7       Total and  partial daily community respiration and photo-
            synthesis rates from complete DORM, graphical DORM, and
            the graphical-analytical method 	,	  19

  8       Total daily rates of photosynthesis from DORM 	  20

  9       Residence  time  sensitivity analysis 	  22
                                  IV

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                                  SECTION 2
                           RESULTS AND CONCLUSIONS

     Two methods of diel D.O. curve analysis were used to determine total
daily community respiration  (R) and photosynthesis  (P) rates in the MERS
field channels.  The first is a graphical-analytical method described by
Mattke and Stefan (1980).  The second uses a computer model DORM  (Dissolved
Oxygen Routing Model) which solves the unsteady advective, dispersive, D.O.
transport equation for P & R values as discussed by Gulliver, Mattke, and
Stefan (1980).  DORM may also be used to simulate the graphical method by
assuming zero surface oxygen exchange, zero dispersion, and no temperature
or D.O. dependence of respiration.
     Tables la and Ib give the best estimates of total daily, rates of photo-
synthesis and total daily rates of respiration obtained by either of the two
methods.   To arrive at the values in Table la, adjustments of partial daily
rates to total daily rates had to be made.  The procedure is described in
Section 4.
     For  three surveys (8-23-77, 4-25-77, and 4-26-77) respiration and
photosynthesis rates were calculated by three different nethods:  (a) the
graphical-analytical method,  (b) the numerical routing method DORM, and
(c) a numerical simulation of the graphical-analytical method with DORM.
The results are given in Table 7.
     The complete routing  (DORM) gave consistently  higher rates of R and
P  than the graphical method.  This is due to the omission of reaeration
(surface oxygen exchange) in the graphical method.  Based on Table 7 values,
the effect of reaeration, on P and R is channel position dependent, at
least in spring and late summer.  In the winter, reaeration effects may
be the same throughout the channel because of low respiration rates.
     Total daily rates of respiration and total daily rates of photosyn-
thesis obtained by the graphical method were consistently smaller  than

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      TABLE la. BEST ESTIMATES OF TOTAL DAILY RATES OF PHOTOSYNTHESIS


                    -2  ,  -1.
                 (g m   day   )
Date
Station Nos. 1
7-28-76
6 + 10 12.83
14 -»• 18 9.41
7-29-76
6 -> 10 20.23
14 -v 18 11.70
8-5-76
6 -»- 10 7.46
14 -> 18 11.64
10-27-76
2 -»• 10
10 ->• 18
10-28-76
2 -»• 10
10 •* 18
1-26-77
2+10
10 -»• 18
1-27-77
2 -»• 10
10 -»• 18
4-25-77
2 •*• 10
10 -»• 18
4-26-77
2 -»• 10
10 -»• 18
7-19-77
2 + 10 18.76
10 -»• 18 11.06
7-20-77
2 -»• 10 12. -45
10 -»• 18 7.39
8-23-77
2 ^ 10
10 -> 18
Channel Nos.
4 5
18.89 16.52
14.54 13.78
16.81 18.21
16.63 13.07
7.84 9.06
3.48 7.04
3. '20
3.86
3.11
4.21


5.77*
7.48*
5.97*
9.14*
19.81
15.07
• 13.10
12.22
10.96*
10.37*
8
10.12
10.81
10.09
13.19
17.01
13.43
4.81
6.36
4.55 '
6.35
8.46
6.48
8.26
7.23
11.88*
12.09*
12.79*
13.20*
11.79
17.94
6.25
11.41
9.73*
13.13*
   *P-values determined by numerical routing with DORM  (see Table 7).

All others are obtained by the graphical method and adjusted.

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     TABLE Ib.  BEST ESTIMATES OF TOTAL DAILY RATES OF RESPIRATION

                (g m   day  )

Date
Station Nos. 1 4
7-28-76
6 -»• 10 19.45 17.99
10 ->• 14 15.47 19.03
8-5-76
6 + 10 24.56 9.21
10 -»- 14 22.13 11.29
10-27-76
2 + 10
10 -»- 18
1-26-77
2 ->• 10
10 -* 18
4-25-77
2 f 10
10 -»• 18
4-26-77
2 -*• 10
10 + 18
7-19-77
2 -» 10 17.99
10 -»• 18 12.24
8-23-77
2 -»• 10
10 ->• 18
5

19.45
20.58

9.21
8.36

3.47
4.21

1.13
—

8.21*
9.98*

8.65*
10.81*

20.97
19.86

10.54*
10.08*
8

17.54
18.88

22.22
10.67

10.88
8.30

4.13
4.09

16.50*
12.75*

17.28*
13.75*

17.43
18.96

14.36*
14.35*
   *R-values determined by numerical routing with DORM.  All other obtained
by the graphical method.

NOTE:  Unstarred values were derived from Table 3 values as follows:
                            _o
       R(g
-2 ^-i-v- R(g m
hr
                                     *  (24 hrs/day) * h(m)
                                (reaeration adjustment)
where  R(g m   hr  )
            -3 ,  -1. •= respiration rate, obtained by graphical method
                       and given in Table 3
       h(m) = hydraulic mean depth given in Appendix C
        reaeration adjustment
  (accounts for omission of reaeration in
   graphical method)

 = 0.87 for upper channel reaches
 = 0.76 for lower channel reaches

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those obtained by the DORM.  The average fractions were 87 per cent and
89 per cent, respectively, for the upper channel reach  (Stations 2-10) and
76 per cent and 81 per cent, respectively, for the lower channel reach
(10-18).  The results of the graphical method  (Tables 3 and 6) were
divided by  these  fractions  to obtain  the value in Tables la and  Ib.

     A sensitivity analysis was conducted to determine hew rates of photo-
synthesis and respiration change in response to changes in residence  time.
This was of particular interest because information on channel cross
sections was very incomplete.  It was found that P and R rates go up  as
residence time goes up, and vice versa (Table  8).  The relationship is
nonlinear; for a +20 per cent change in residence time, R changed from +1.7
per cent to 11.0 per cent; for a -20 per cent  change in residence time,
R changed between -2.3 per cent to -9.6 per cent.  The associated rate
changes for photosynthesis (P.)are+2.9 per cent to +13.6 per cent and  -2.6
per cent to -12.7 per cent.  For an unknown reason, this result is different
from that found by Gulliver et al. (1980) .  Gulliver et al. (1980) found
consistently a change of 17 to 18 per cent in  total daily R and total
daily P when residence times were changed by 20 per cent.

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                               SECTION 3
                            RECOMMENDATIONS

     It is recommended that in future studies using diel dissolved oxygen
routing, particular care be taken to measure channel cross sections and
flow rates or hydraulic residence time directly by tracer routing.
     Application of a constant correction coefficient to the results of
the graphical method implies that reaeration effects are of the same
magnitude in spring, summer and fall.  It is believed thai: this is not
an unreasonable assumption, which has been verified at least for spring
and late summer data.  Application of the numerical method DORM would
eliminate the assumption.

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                               SECTION 4

             APPLICATION OF A GRAPHICAL-ANALYTICAL PROCEDURE

                   FOR STREAM PRODUCTIVITY ANALYSIS
GENERAL PROCEDURE

     During 1976 and 1977 two-station diel D.O. measurements were taken
by D. Rastetter of the Monticello Ecological Research Station staff.  The
data were made available to the authors for analysis.  The data are repro-

duced in Appendix A.

     To estimate the rates of community photosynthesis P  [g m~  day" ) and
the rates of community respiration R from the D.O. measurements a graphical-
analytical routing method which is described by Mattke and Stefan (1980)

was used.  The method includes the following steps:

          After calculating the hydraulic residence time  In  a channel
     reach, the upstream station diel oxygen curve with the residence
     time added to the D.O. measurement time is plotted or. the same
     graph with the downstream station diel oxygen curve.  The differ-
     ence in D.O. during night hours divided by the residence time
     yields an hourly nighttime respiration rate.  All nighttime respira-
     tion rates are averaged and used as an estimate of the respiration
     rate that occurred during daylight hours.  The photosynthetic rate
     is graphically determined by measuring the D.O. difference each
     hour during daylight.  Each value is divided by the  residence time
     to give an hourly rate; adding the average respiration rates gives
     an hourly photosynthetic rate (g m~3 hr~l).  The photosynthetic
     rates in g m~^ hr~l were multiplied by the hydraulic mean depth
     to produce photosynthetic rates per unit surface area in g m~2 hr~l.
     Addition of all hourly photosynthetic rates  (g m~2 hr"1) yielded
     an accumulated rate for the period of record.

Tables and graphs used in the actual computations are reproduced in
                                                                 %.
Appendix B.


Residence Times

     Residence times computed from 1976 and 1977 morphological channel
data and temperature front data are summarized in Table 2.  Residence

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         TABLE 2.  CHANNEL SEGMENTS AWD RESIDENCE TIMES FOR  1976-77 DIEL
                  D.O. CURVE ANALYSIS
Survey Period
Hours & Date 1 3
0515 7/28/76 6*10 r *
to 2115 7/29/76 2.222
14*18
2.22
1300 8/5/76 6*10 *
to 0920 8/6/76 1.37
14*18
1.37
0640 10/27/76 * *
to 1800 10/28/76

0600 1/26/77 * *
to 1730 1/27/77
,
0400 4/25/77 * *
to 1620 4/26/77

0500 7/19/77 2*10 **
to 1700 7/20/77 2.04
10*18
1.78
0500 8/23/77 * **
to 0500 8/24/77

Channel Nos.
4 56
6*10 J 6*10' *
2.162 2.162
14*18 14*18
2.16 2.16
6*10 6*10 *
1.37 1.32
14*18 14*18
1.37 1.32
* 2*10 *
2.06
10*18
2.00
* 2*10 *
2.06
10*18
2.00
* 2*10 *
. 2.06
10*18
2.00
* 2*10 *
2.06
10*18
2.00
* 2*10 *,
2.06
10*18
2.00
7 8
* 6*10*
2.162
14*18
2.16
* 6*10
1.37
14*18
1.37
* 2*10
2.03
10*18
2.03
* 2*10
2.03
10*18
2.03
* 2*10
2.03
10*18
2.03
"* 2*10
2.03
10*18
2.03
"* 2*10
2.003
10*18
2.003
 * No D.O. data taken.
** D.O. data taken, but channel segment residence time was too liirge for diel
     D.O. curve analysis.
 1 Channel Reach, Station numbers.
 2 Hydraulic Residence Time (hrs).
 3 Hydraulic Residence Times determined by temperature fronts.

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times for 7-28 and 7-29-76, 8-5-76, and 10-27 and 10-28-7C were computed
between stations 6 and 10 and stations 14 and 18.  However, residence
times for 10-27 and 10-28-76, 1-26 and 1-27-77, 4-25 and 4-26-77, 7-19
and 7-20-77, and 8-23-77 were computed between stations 2 and 10 and sta-
tions 10 and 18 to obtain longer residence  times for the cliel curve analy-
sis.  On 7-19 and 7-20-77 and 8-23-77 a low flow rate  in channel 3 resulted
in unreasonably high residence times for the analysis.
     Determination of hydraulic mean residence times presented difficulty
because morphological channel data were incomplete.  Channel cross section
data were obtained on 8-4 and 8-5-77 in channels 5 and 8, on 4-6-77 in  chan-
nel 1, and on 10-4 and 10-18-76 for channel 1.  The average cross-sectional
areas and flow rates were used to compute the residence time for each
reach.  The 8-4 and 8-5-77 calculated residence times  were; 2.06 hours and
2.00 hours  in channel 5 and 1.65 hours and  1.64 hours  in channel 8 for  the
upper and lower reach, respectively.  These residence  times were initially
applied to  the 7-19 and 7-20-77 and 8-23-77 D.O. survey dates.
     No morphological data in channels 5 and 8 were taken in the spring
and winter  of 1977 and fall of 1976.  However, areal cross: sections and
surface widths were determined for channel  1 on 4-6-77.  These channel
characteristics were used for channels 5 and 8 on 4-25-77 and gave a better
estimate than the July or August channel data because  of the increased
water elevations due to macrophyte growth.
     The 10-4 and 10-18-76 channel 1 morphometric survey was used to compute
the residence times for the 7-28 and 7-29-76 and 8-5-76 D.O. measurements.
Channel riffles were measured on 10-4-76 and channel pool sections on
10-18-76 and compiled to obtain a complete  channel survey.  The channel 1
data were applied to channels 4, 5, and 8 for residence time computations
and are listed on Table 2.
     The residence times calculated from the 8-4 and 8-5-77 and 4-6-77
morphological channel data were compared with residence times obtained  by
routing temperature discontinuities.  Power  failures produced temperature
fronts in channel 8 before and after the 8-23-77 D.O.  survey (see Figs.  1
and 2).  Because channel 5 was not heated,  there were  no temperature fronts
which could be used to estimate residence times.  In this case the residence
times computed from the 8-4 and 8-5-77 cross section surveys were assumed

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   -0-8.00—
   '.. i •  '•
Sta.
                  is
sjta. ifcata
       !
 j — 040-0. ...!... 0300 —
                                                              :  Sta,
                                                        18
                                                        00
Sta. \Q    Sta. 2
          Of 00 -
Fig. 1.  Residence time determination  from a
         temperature front on  8-22-77  between
         Stations 2 and 10 and Stations  10
         and 18 in  Channel  8.
                                  Fig. 2.  Residence time determination  from a
                                          . temperature front on  8-24-77  between
                                           Stations 2 and 10 and Stations 10
                                           and 18 in  Channel  8.

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correct for channel 5 because they were  the  same  as  the  temperature  front
residence times in channel 8.
     The application of channel 1 cross  sections  to  channels  5 and 8 was
tested by comparing a 4-19-77 channel 8  temperature  front to  the  4-6-77
channel 1 cross sections.  The upper reach residence time determined by
the temperature front, shown in Fig. 3,  agreed with  that determined  from
channel 1 morphological data which was 2 hours.   The down&tream channel 8
temperature front does not give as precise residence time resolution but is
at least 2 hours.  The lower reach channel 1 data residence time  was 1.64
hours, which is at least 18 per cent lower than the  temperature front  resi-
dence time.  It was assumed that the lower reach  travel  time  was  the same
as the upper reach travel time of 2 hours, which  was used in  the  graphical
analysis for 4-25 and 4-26-77, 1-26 and  1-27-77,  and 10-27 and 10-28-77.
Table 2 summarizes and lists the best estimates of channel residence times
determinated by morphological or temperature front data.
     Only the starting time and the end  time of each D.O. sampling interval
in the MERS channels had been recorded.  It  was therefore necessary  to esti-
mate the actual time at which a D.O. sample  was taken from a  particular
station.  Knowledge of the sampling sequence in which stations along the
channels were sampled permitted estimates of actual  D.O. measurement times.
Knowing the length of a survey and the number of  stations sampled, it  was
determined that it took approximately 3  minutes to collect, each D.O. sample
and to travel to the next station.  Therefore, 3  minutes were added  to the
sampling time of each station in the order sampled.   The D.O. measurements
along with the estimated time are shown  in Appendix  A.

Rates of Community Respiration & Photosynthesis
Respiration Rates
     Several difficulties were encountered in the determination of community
respiration and photosynthesis rates as explained and discussed in the para-
graphs that follow.
     The July 28 and 29, 1976, respiration rates were difficult to evaluate
because of the lack of D.O.  data during the night.  As shown on the graphs
for 7-28 and 7-29-76 in Appendix B, linear interpolation between late
evening and early morning D.O. reading resulted in unreasonably high
respiration rates.   In view of this problem,  the oxygen curves were
                                 11

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                                                            o
                                                            (0
                                                            U
                                                            0>
                                                            I-
                                                            01
                                                            E-i

                         Hours
Fig. 3.  Residence time determination  from a temperature
         front on 4-19-77 between  stations 2 and 1C
         and Stations 10 and  18  in  Channel 8.
                         12

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evaluated only to the point where the actual D.O.  readings ended.  When
the computed residence time was obviously  incorrect  or when no D.O.
measurements had been taken during the night,  the  respiration rate for the
reach upstream or downstream was used.  This problem only occurred on
7-28-76 in channels 4 and 5 between stations 6 and 10 as indicated in
Table 3.
     At low D.O. concentrations respiration may  be reduced.  When D.O.
concentration fell below 3 mg/£ during the night,  a  respiration  rate limi-
tation was anticipated.  This data was therefore not used in determining
an average respiration rate.  Date restrictions  for  this method  of analysis
are footnoted in Table 3.

Photosynthetic Rates
     When morphological channel residence  time underestimated temperature
front residence time  (channel 8), the surveyed cross-sectional areas were
adjusted in proportion to the difference in residence times;.  It was assumed
that the surface width remained the same in spite  of the areal increase
because of the steep channel slopes.  The  hydraulic  mean depth for each
reach was determined using the newly computed cross  sections divided by the
known surface width.  This hydraulic mean  depth was  multiplied by the volu-
metric photosynthetic rate (g m   hr  ) to yield a photosynthetic rate
    -2   -1
(g m   hr  } per unit surface area.  The daily community photosynthetic
rates derived from the given D.O. data are presented in Table 4.  Difficul-
ties encountered during the analysis are identified.
     A problem arose from incomplete D.O.  measurements, not covering all of
the daylight hours.  The computed daily photosynthetic rates were therefore
partial rates and had to be multiplied by  a coefficient to obtain total
daily photosynthetic rates.  The coefficient was derived (Table  5) by deter-
mining the fraction of total hourly photosynthetic rates that the missing
daylight hours represented.  This was accomplished by determining fractions
of total daily photosynthesis from complete data sets obtained on other
survey days.  The complete data sets were  chosen on  the bassis of similarity
of light intensity and length of day.  The fractioning process is designed
to account for changes in light intensity  over a day, and to account for
differences in total daily radiation between the dates which are being
compared.   Three days (from which the coefficients were derived)  were chosen

                                       13

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             TABLE  3.  HOURLY RESPIRATION  RATES  FROM
                       GRAPHICAL-ANALYTICAL  PROCEDURE
(g m 3 hr"1)

Date
Station Nos. 1
7-28-76
6 •* 10 1.33 a
14 •> 18 1.00 a
8-5-76
6 •*• 10 1.68
14 -v 18 1.43 c
10-27-76
2 ->- 10
10 -> 18
1-26-77
2 -»• 10 .
10 -v 18
4-25-77
2 -»• 10
10 •*• 18
7-19-77
2+10 1.63
10 -»• 18 1.02
8-23-77
2 ->• 10
10 -*• 18
Channel Nos.
4

1.23 b, e 1
1.23 1

0.63 0
0.73 c 0

0
0

0


0
0

2
1

1
0
5

.33 b, e
.33 a

.63
.54 c

.37
.37

.12 d
d

.84
.84

.00
.70

.06
.86
8

1.20 a
1.22 a

1.52 c
0.69 c

1.16
0.73

0.44
0.36

1.72
0.92

1.58
1.58 c

1.39
1.59 c
a - Used only'AD.O. after sunset+lag time to determine respiration value.
b - Lag seems to be incorrect and no D.O. data readings during the
    evening.  Used computed downstream respiration value.
c - D.O. values below 3 mg/S, were not used in calculating respiration.
d - AD.O. too small to make meaningful analysis.
e - Lag time appears to be incorrect (started 2300 Hr in calculating
    R-value)
                                  14

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      TABLE 4.  PARTIAL DAILY RATES OF COMMUNITY PHOTSYNTHESIS
                FROM GRAPHICAL-ANALYTICAL PROCEDURE
(g m~2 day"1)
Date
Station Nos.
7-28-76
6 * 10
14 -»- 18
7-29-76
6 -»• 10
14 f 18
8-5-76
6 * 10
14 -»• 18
10-27-76
2 ->• 10
10 -c 18
10-28-76
2 -»• 10
10 •* 18
1-26-77
2 -»• 10
10 -»• 18
1-27-77
2 ->• 10
10 -* 18
4-25-77
2 -»• 10
10 -* 18
4-26-77
2 ->- 10

10 •*• 18
7-19-77
2 •+ 10
10 ->• 18
7-20-77
2 •»• 10

10 -»• 18

8-23-77
2 -v 10
10 -»- 18
Channel Nos.
1 4

11.13 a2 16.38 a2, d 14
6.79 a. 11.48 a2 10

18.01 14.96 d 16
9.48 c, d 13.47 10

2.90 a 3.05 a 3
4.11 a* 1.23 a* 2

5

.33 a2, d
.88 a2

.21 a
.32 a2

.52 a
.49 ag

2.85
3

2
3

0





4
5

4

5

16.57 a 17
8.89 a1 12

8.92 b, 7
3
4.82 b, 7
3

9
7
.10 ax

.25 b
.41

.01 e
— e

— e
— e

.55
.21

.03 b

.38 b3

.49
.11

.77 b.
s
.97 b.
3

.59 a
.42 a^
8

8.49
8.54

8.75
9.51

6.61
4.75

4.28
5.15

4.05
5.14

7.53
5.25

7.35
5.86

10.09
8.18

8.90

7.82

10.41
14.16

4.48

7.44


8.17
11.06


a3
a2

a,
2

39
39
















b,
3
b3

a.
a2

b,

b.
3

a
al
a  - Missing hours from sunrise where  N  indicates number of hours
     missing, i.e. a  implies first 4 consecutive hours after sunrise.
b  - Missing hours before sunset where  H

                                          indicates number of hours
    missing, i.e. b   implies  last  2 hours before  sunset  are mis;sing.
c - Negative photosynthetic rate value occurred before sunset s;o this
    value was not included in  accumulated photosynthetic rate.
d - Residence time seems  incorrect.
e - AD.O. too small  to make meaningful analysis.
NOTE;   Hydraulic rriean depths are given in appendix C.
                                        15

-------
               TABLE 5.  COEFFICIENTS TO ADJUST PARTIAL DAILY RATES OF PHOTOSYNTHESIS
                         TO TOTAL DAILY RATES OF PHOTOSYNTHESIS

Date Coeff.
Was Derived
For :
Date Coeff.
Was Derived
From:
Hours Missing After Sunrise
1 Hr 2 Hr 3 Hr 4 Hr 9 Hr
Hours Missing Before
Sunset
2 Hr 3 Hr 5 Hr
7/28-29/76
7/19-20/77
8/ 5/76
10-27-76
4-26-77
8-23-77
7/31/79
10-8-78
 4-25-77
 8-1-79
                       Coefficients




1.008   1.026  1.061  1.123  2.290

1.010                                1.233
                                                                                        1.242     1.501
                                              1.120
1.022
 Example:  The 4-26-77 coefficient was derived from tne 4-25-77 survey as shown in Appendix D.

-------
from Mattke and Stefan (1980) while the fourth day in April was selected
prior to the day with missing data as shown in Table 5.  Table 6 presents
the corrected total daily photosynthetic rates.   (For example, the adjusted
photsynthetic rate for channel 8 on 8/23/77 for Stations 2 to 10 is
8.17x1.022 = 8.35.)
                                      17

-------
         TABLE 6.   TOTAL DAILY RATES OF COMMUNITY PHOTOSYNTHESIS
                   FROM GRAPHICAL-ANALYTICAL PROCEDURE WITHOUT
                   REAERATION ADJUSTMENT
(g m"2 day'1)
Date
Station Nos.
7-28-76
6 -»• 10
14 -i- 18
7-29-76
6 -»• 10
14 -»• 18
8-5-76
6 -f 10
14 •*• 18

10-27-76
2 * 10
10 -»• 18
10-28-76
2 -»• 10
10 •»• 18
1-26-77
2 -»• 10
10 -f 18
1-27-77
2 -»• 10
10 -» 18
4-25-77
2 * 10
10 •»• 18
4-26-78
2 •»• 10
10 ->• 18
7-19-77
2 -»• 10
10 -* 18

7-20-77
2 + 10
10 * 18
8-23-77
2 * 10
10 -" 18
Channel Nos.
145

11.42 a 16.81 a , d 14.70 a , d
7.62 a4 11.78 &2 11.16 a^

18.01 14.96 d 16.21 d
9.48 c, d 13.47 10.59 a2

6.64 a 6.98 a 8.06 a
9.43 a^, 2.82 a^ 5.70 a^
99 9

2.85
3,13 ai

2.77 b
3.41 ^

^^ A
— e

— e
— e

4.55
5.21

4.50 b
6.03 b^

16.70 a 17.63
8.96 a, 12.21
1

11.08 b 11.66 b
5.99 b^ 9.90 b^

9.80 aj
7.58 a^
8

9.01 a
8.76 a^

8.98 a
10.68 a4

15.14 a
10.88 3g


4.28
5.15

4.05
5.14

7.53
5.25
,
7.35
5.86

10.09
8.18

9.97 b
8.76 b^

10.49 a
14.53 a,
1

5.56 b
9.24 b^

8.35 a
11.30 a£
a  - Missing hours from sunrise where  N  indicates number of hours missing,
     i.e. a. implies first 4 consecutive hours after sunrise.
b  - Missing hours before sunset where  N  indicates number of hours
     missing, i.e., b_ implies last 2 hours before sunset are missing.
 c - Negative photosynthetic rate value occurred before sunset, so this
     value was not included in accumulated photosynthetic rate.
 a - Residence time seems incorrect.
 e - AD.O. too small to make meaningful analysis

  NOTE:   Hydraulic mean depths are given  in Appendix C.
                                      17a

-------
                                SECTION 5
          APPLICATION  OF  THE  NUMERICAL DISSOLVED OXYGEN ROUTING
              METHOD  (DORM) FOR STREAM PRODUCTIVITY ANALYSIS

     A  numerical  Dissolved  Oxygen Routing Model (DORM)  wass developed by
Gulliver, Mattke,  and  Stefan  (1980)  to determine total  stream community
photosynthesis  and respiration  rates through successive routing of two-
station diel  D.O.  measurements.   The model includes surface oxygen exchange,
longitudinal  dispersion,  a  higher order curve extrapolation between
upstream D.O. measurements, and dependence of respiratory rate on water
temperature and D.O. concentration.
     The graphical-analytical procedure can also be simulated by DORM
numerically.  This is  accomplished by making the same assumptions as in
the graphical method;  namely,no surface oxygen  exchange (reaeration)  or
longitudinal dispersion occurs,  respiration is  independent, of temperature
and D.O. concentration, and a linear-interpolation  between. D..O.  measurements
is used.  DORM  used in this manner will be referred to  as "graphical  DORM"
as opposed to the  "complete DORM."
     Two D.O. survey dates  were selected (8-23-77 and 4-2fi-77)  for'complete
DORK and graphical DORM analysis.  These dates  were used to investigate the
seasonal effect of surface  exchange  on photosynthesis and respiration rates.
All input parameters needed for DORM were readily available except for
appropriate channel cross sections.   As previously discussed, when mor-
phological channel characteristics underestimated temperature front
residence times,  the cross  sections  were increased in proportion to the
.difference in their residence times.
     Table 7  compares  results from the complete DORM, the graphical DORM,
and the true  graphical procedure for daily community respiration and
photosynthetic  rates.  As before, incomplete D.O.  measurements taken
during  the day  resulted in  partial photosynthetic rates.   These values
                                 18

-------
TABLE 7.  TOTAL AND PARTIAL DAILY COMMUNITY RESPIRATION AND PHOTOSYNTHESIS RATES FOR COMPLETE
          DORM, GRAPHICAL DORM, AND THE GRAPHICAL-ANALYTICAL METHOD (UNADJUSTED FOR MISSING
          DAYLIGHT HOURS)
Date
Channel
Segment
Respiration g m day
Complete Graphical
DORM DORM Graphical
Photosynthesis g m day
Complete . Graphical
DORM DORM Graphical
% Graphical DORM
R-Value
Is of Complete
DORM
I Graphical DORM
P-Value
Is of Complete
DORM
8-23-77
8-23-77
8-23-77
8-23-77
4-25-77
4-25-77
4-25-77
4-25-77
4-26-77
4-26-77
4-26-77
4-26-77
a indicates
b indicates
5
5
8
8
5
5
8
8
5
5
8
8
1
3
2
10
2
10
2
10
2
10
2
10
2
10
hour of D.
hours of D
10
18
10
18
10
18
10
18
10
18
10
18
10.54
10.08
14.36
14.35
8.21
9.98
16.50
12.75
8.65
10.81
17.28
13.75
0. measurements
.0. measurements
8.78
7.55
13.27
11.63
7.45 .
8.04
14.59
9.44
7.45
6.04
14.59
9.44
were missing
were missing
9.36 B^
7.25 flj
12.79 a
13.90 a
6.85
7.26
14.04
7.95
6.85 b3
7.26 b
14.04 b3
7.95 b3
before sunrise.
before sunset.
10.72
10.15
9.52
12.85
5.77
7.48
11.88
12.09
5.33
8.16
11.42
11.79


9.41
8.03
8.55
10.81
5.14
5.95
10.61
9.68
4.71
6.77
10.17
9.55


9.59 Bj
7.42 Bj
8.17 ai
11.06 Bj
4. 55
5.21
10.09
8.18
4.03 b3
5.38 bj
8.90 t>3
7.82 bj


83
75
92
81
91
81
88
74
86
74
84
69


88
79
90
84
89
80
89
80
88
83
89
81

-------
 were multiplied by the coefficients in Table 5 to obtain  the  total daily
 photosynthetic rates listed in Table 8.
      When comparing the graphical DORM and complete DORM, assuming a
 small temperature change between the upstream and downstream  reaches,
 the D.O. saturation concentrations can be considered approximately the
 same.  The lower the measured D.O. falls below the D.O. saturation concen-
 tration, the greater the oxygen influx from surface exchange.  As a
 control volume travels downstream, respiration occurs, which  lowers the
 D.O. concentration in that control volume.  Thus, surface exchange should
 increase downstream.  The higher surface exchange becomes,, the higher the
 respiration rate must become to account for this increased oxygen input
 into the system.  The graphical methods with and without DORM will under-
 estimate P and R downstream due to the increased extent of surface oxygen
 exchange.
Date
Station Nos.
       TABLE  8.  TOTAL DAILY  RATES  OF  PHOTOSYNTHESIS  FROM DORM
                       (g nf2 day"1)
   Channel Nos.
4               5
4-25-77
   2 -> 10
  10 •> 18
4-26-77
   2 + 10
  10 -»• 18
8-23-77
   2 -v 10
  10 -> 18
              5.77
              7.48
              5.97*
              9.14
             10.96*
             10.37*
11.88
12.09
12.79*
13.20
 9.73*
13.13*
 *Photosynthetic rates adjusted from complete DORM for missing daylight
  hours.
                                   20

-------
                              SECTION 6
                  RESIDENCE TIME SENSITIVITY ANALYSIS

     Gulliver et al.  (1980) found total daily community photosynthesis
and respiration rates very sensitive to the hydraulic residence time.
Thus, a sensitivity analysis was conducted  with DORM  to investigate
the influence of residence time on respiration and photosynthetic rates.
     The residence time was increased and decreased by 20 per cent by
increasing and decreasing the cross-sectional area by 20 per cent.  The
channel surface width was not altered in order to provide a constant
surface area for surface exchange.  A 20 per cent error margin for
residence time was used for a variety of reasons.  As discussed pre-
viously, residence time computed from channel cross sections was 18 per
cent lower than found by temperature fronts.  Also, a 3 to 5 per cent
error is possible in the actual flow rate measurements at MERS.  Also
variation in water depth due to macrophyte growth is observed at a con-
stant flow rate.
     The results of the residence time sensitivity analysis are shown
in Table 9.
                                   21

-------
                                       TABLE 9.  RESIDENCE TIME SENSITIVITY ANALYSIS
Date
Channel
Segment
Respiration g m day
Complete 20% 20% -
DORM Increase Decrease
Photosynthesis g m day
Complete 20% 20%
DORM Increase Decrease
% Difference
Respiration
Increase Decrease
Photosynthesis
Increase Decrease
NJ
8-23-77
8-23-77
8-23-77
8-23-77
4-25-77
4-25-77
4-25-77
4-25-77
4-26-77
4-26-77
4-26-77
4-26-77
5
5
8
8
5
5
8
8
5
5
8
8
2
10
2
10
2
10
2
10
2
10
2
10
10
18
10
18
10
18
10
18
10
18
10
18
10.54
10.08
14.36
14.35
8.21
9.98
16.50
12.75
8.66
10.81
17.28
13.75
11.18
11.19
14.86
15.03
8.49
10.50
16.79
13.57
8.95
11.37
17.58
14.64
9.94
9.11
13.93
13.72
7.89
9.50
16.12
12.01
8.32
10.27
16. fl8
12.95
10.71
10.15
9.53
12.85
5.78
7.4fl
11.88
12.09
5.33
8.16
11.42
11.79
11.50
11.53
. 10.03
13.62
6.01
8.06
12.22
12.95
5.65
8.85
11.81
12.82
10.03
8.86
9.08
12.11
5.43
6.94
11.57
11.29
5.01
7.52
11.02
10.82
6.1
11.0
3.5
4.7
3.4
5.2
1.8
6.4
3.3
5.2
1.7
6.5
-5.7
-9.6
-3.0
-4.4
-3.9
-4.8
-2.3
-5.8
-3.9
-5.00
-2.3
-5.8
7.4
13.6
5.4
6.0
4.0
7.8
2.9
7.1
6.0
8.5
3.4
8.7
-6.3
-12.7
-4.6
-5.8
-6.0
-7.2
-2.6
-6.6
-6.0
-7.8
-3.5
-8.2

-------
                           BIBLIOGRAPHY
Gulliver, John S, Mattke, Tedd, W., and Stefan, Heinz G., 1980.
    "Numerical and Graphical Procedures for Estimation of Community
     Photosynthesis and Respiration in experimental Streams," St.
     Anthony Falls Hydraulic Laboratory, University of Minnesota,
     Project Report No. 198, 123 pp.

Gulliver, John S. and Stefan, Heinz G., 1981.  "Air-Water Oxygen
     Exchange:  Theory and Application to Experimental Streams,"
     St. Anthony Falls Hydraulic Laboratory, University of Minnesota,
     External Memorandum No. M-173, 108 pp.

Hahn, M., Gulliver, and Stefan, H. G., 1978.  "Physical Characteristics
     of the Experimental Field Channels at the USEPA Ecological .Research
     Station in Monticello, Minnesota,"  University of Minnesota, St.
     Anthony Falls Hydraulic Laboratory, External Memorandum No,'. M-156,
     36 pp.

Mattke, Tedd W. and Stefan, Heinz G., 1980.  "Graphical Method to
     Estimate Stream Community Respiration and Primary Productivity
     from Dissolved Oxygen Measurements," University of Minnesota, St.
     Anthony Falls Hydraulic Laboratory, External Memoran3um No. M-169,
     53 pp.
                                  23

-------
                     APPENDIX A


       SUMMARY  OF  DIEL DISSOLVED OXYGEN  DATA

                PROVIDED BY  MERS
Format:   12F5.2, F5.2,  19
          Data, Station  #,  Channel  I,  Date
The first two lines give the values of the measured
D.O. (g/m ) and the following two lines give the
time (hrs)  (after 0:00 hr of the first day) corresponding
to each D.O. measurement.
                       24

-------


D.O.
D.O.
Time
Time












ro




















.
(g/m ) 4 .
(g/m ) 6.
(hr) 5.
(hr) 35.
L. .
2.
5.
29.
1.
7.
5.
35.
.
.
5.
31.
.
12.
5.
37.
.
6.
7.
35.
4.
8.
5.
37.
3.
3.
5.
29.
2.
10.
5.
37.


60 4.
50 6.
18 7.
1837.
50 3.
75 3.
21 7.
2131.
65 2.
95 9.
24 7.
2437.
20 .
50 2.
27 7.
2733.
05 .
1512.
30 7.
3939.
30 2.
3010.
33 9.
3337.
90 4.
05 8.
51 7.
5139.
40 4.
40 4.
48 7.
4831.
85 4.
1511.
45 7.
4539.


70 5.
15 7.
18 9.
1839.
05 4.
25 5.
21 9.
2133.
50 4.
8010.
24 9.
2439.
35 2.
40 5.
27 9.
2735.
65 4.
6011.
30 9.
3941.
50 5.
9012.
3311.
3339.
90 6.
70 7.
51 9.
F.1 4*
30 5.
60 8.
48 9.
4835.
00 5.
4010.
45 9.
4541.

Data
25 5.70 6.40 6.85 7.20 7.20 6.
50 7.35 7.30 6.60 0 0
1811. 1813. 1815. 1817. 1819. 1821.
1841.1843.1845.18 0 0
20 5.70 6.00 6.75 7.35 6.60 4.
05 6.75 7.90 7.80 7.55 6.90 4.
2111.2113.2115.2117.2119. 2121.
2135. 2137. 2139.2141.2143. 2145.
55 6.35 7.50 8.30 8.80 7.25 4.
10 9. 25 6.25 4. 35 0 0
2411. 2413.2415. 2417.2419.2421.
2441.2443.2445.24 0 0
70 5.10 7.10 7.75 8.95 8.10 4.
65 9.7010.6010.30 6.90 4.80
2711. 2713. 2715. 2717. 2719. 2721.
2737. 2739. 2741 . 2743. 2745. 27
30 7.0010.2011.5011.15 8.80 5.
25 8.60 5.55 0 0 0
3011 . 3013. 3015. 3017. 3019. 3021 .
3943.3945.39 000
05 8.2010.6011.4010.05 6.25 2.
6012. 35 9. 90 6. 60 0 0
3313. 3315.3317.3319.3321.3323.
3341.3343.3345.33 0 0
20 6.40 7.20 7.55 8.00 7.55 6.
95 5. 20 0 0 0 0
5111. 5113. 5115. 51 17. 5119. 51 21.
514FIFI1 O O O O
40 6.40 7.85 8.60 8.75 7.50 5.
45 9. 80 9. 35 7. 10 5. 40 0
4811. 4813. 4815. 4817.4819. 4821.
4837.4839.4843.4845.48 0
80 7.40 8.8510.0010.15 8.25 5.
20 7. 65 5. 35 0 0 0
4511. 4513. 4515. 4517.4519.4521.
4543.4545.45 000


60 4.
0
1829.
0
60 2.
80
2123.
21
15 1.
0
2429.
0
55 1.
0
2723.
0
30 .
0
3031.
0
60 .
0
4225.
0
20 4.
0
5129.
O
25 4.
0
4823.
0
10 2.
0
4529.
0


35 5.
0
1831.
0
70 3.
0
4825.
0
80 2.
0
2431.
0
55 .
0
4525.
0
10 3.
0
3933.
0
20 .
0
4231.
0 .
75 5.
0
5131.
0
40 3.
0
2725.
0
90 4.
0
4531.
0


00 4.
0
1833.
0
10 2.
0
4827.
0
60 5.
0
2433.
0
30 .
0
4527.
0
65 8.
0
3935.
0
15 2.
0
3333.
0
60 7.
0
5135.
0
95 3.
0
2727.
0
10 9.
0
4535.
0


10
0
18
0
95
0
48
0
60
0
24
0
40
0
45
0
15
0
39
0
35
0
33
0
85
0
51
O
80
0
27
0
40
0
45
0
Sta- C
tion
2.0
2.0
2.0
2. 0
4.0
4.0
4.0
4.0
6.0
6.0
6.0
6.0
10.0
10. 0
10.0
10. 0
14. 0
14.0
14. 0
14. 0
18. 0
18.0
18.0
18.0
2.0
2. 0
2. 0
2 0
4.0
4.0
4. 0
4.0
6.0
6. 0
6. 0
6. 0
Chan-
nel
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
5
5
5
5
5
5
5
5
5
5
5
5

Date
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-7A
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76
7-28-76

-------
to
1.
2.
5.
29.
1.
13.
5.
37.
1.

5.
29.
5.
7.
5.
35.
3.
A.
5.
29.
3.
8.
5.
35.
2.
f-k
4. .
5.
- -2-9.
1.
7.
5.
35.
1.
1.
5.
29.
90 2.
15 2.
42 7.
4231.
55 2.
0014.
39 7.
3939.
05 1.
90 1.
36 7.
3*631.
05 5.
80 8.
is 7.
1837.
95 4.
25 4.
21 7.
2131.
35 3.
5510.
24 7.
2437.
20 2.
30 2.
27 7.
2731.
35 1.
2510.
30 7.
3037.
10 1.
30 1.
33 7.
3331.
70 5.
80 8.
42 9.
4235.
00 4.
5513.
39 9.
3941.
15 3.
05 6.
36 9.
3635.
45 6.
75 9.
18 9.
1839.
45 5.
65 6.
21 9.
2133.
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75 5.75 5.
55 6.55 6.
17 4.17 5.
1319.0921.
40 5. 40 5.
45 6.25 6.
19 4. 19 5.
1519. 1221.
40 6. 40 6.
10 7. 15 7.
39 4.39 5.
0517.0318.
05 7.
15 8.
10 6.
0818.
80 6.
20 8.
14 6.
1118.
50 7.
0
59 6.
0024.
05 7.
20 6.
04 6.
0118.
85 6.
25
07 6.
0824.
35 6.
30 6.
11 6.
1021.
75 5.
05
17 6.
1124.
40 5.
f^ M
1^
-------
6. 10 6
7. 00 7
2. 31 3
15.0716
5.85 5
6.95 7
2. 23 3
14. 0415
5. 30 5
7.30 7
2. 17 3
15. 1116
4.55 4
7.55 7
2. 14 3
14. 0815
4. 05 4
7. 55 7
2. 11 3
14. 1015
7. 05 7
7. 40 7
2. 02 3
17. 0918
5. 70 5
7. 15 7
2.04 3
17. 1118
4.80 4.
7. 60 7.
2. 06 3.
14. 0615.
4. 20 4.
8. 05 8.
2. 08 3.
14.0816.
. 10 6
. 15 7
.31 4
.0717
.85 5
. 15 7
.23 4
.0916
. 30 5
.30 7
. 17 4
. 1117
.55 4
.80 7
. 14 4
. 1316
.05 4
.80 7
. 11 4
. 1516
. 05 7
. 00 6
. 02 4
.0619
. 70 5
.00 6
.04 4
.0819
80 4.
60 7
06 4.
0616
20 4.
20 7
08 4.
0817.
. 10 6.
. 10 6.
. 31 5.
.0518.
.85 5.
.25 7.
.23 5.
.0917.
. 30 5.
. 20 6.
. 17 5.
.0918.
. 55 4.
.80 7.
. 14 5.
. 1317.
. 05 4.
.80 7.
. 11 5.
. 1517.
. 05 7.
. 75 6.
. 02 5.
. 0220.
. 70 5.
.75 6.
. 04 5.
. 0420.
80 4.
. 70 7.
06 5.
.0617.
20 4.
. 85 7.
08 5.
. 1618.
10 6.
95 6.
31 6.
0819.
85 5.
20 7.
23 6.
0718.
30 5.
85 6.
17 6.
1419.
55 4.
50 6.
14 6.
1118.
05 4.
60 7.
11 6.
1518.
05 7.
30
02 6.
0824.
70 5.
30
04 6.
1224.
80 4.
45 6.
06 6.
1418.
20 4.
30 6.
08 6.
1119.
10 6.
90 6.
31 7.
0420.
85 5.
00 6.
23 7.
1119.
30 5.
45 5.
17 7.
0820.
55 4.
85 6.
14 7.
1719.
05 4.
00 6.
11 7.
1919.
05 7.
-0
02 7.
0024.
70 5.
-0
04 7.
0024.
80 4.
90 6.
06 7.
0919.
20 4.
50 5.
08 7.
0920.
20 6. 30 6.
70 6. 60
02 9. 0210.
0721.0724.
90 5.95 6.
80 6.55 6.
04 8. 04 9.
0620. 0921.
40 5.50 5.
95 5.60
06 8.06 9.
1121. 1124.
55 4.85 5.
40 5. 65 5.
08 8.08 9.
1020. 1321.
15 4.40 5.
40 5.45 4.
10 8. 10 9.
1220. 1521.
20 7. 30 7.
-0 -0
17 8.0210.
0024.0024.
80 6. 30 6.
-0 -0
1910.0411.
0024.0024.
90 5.25 5.
45 5.50
21 8. 06 9.
0720. 1624.
30 4.60 5.
70 0
23 8. 08 9.
1824.0024.
50 6.
0
0211.
0024.
00 6.
50
0410.
0924.
90 6.
0
0611.
0024.
40 6.
15
0810.
1424.
15 6.
85
1010.
1824.
40 7.
-0
0212.
0024:
40 6.
-0
0412.
0024.
65 6.
0
0610.
0024.
25 6.
0
0810.
0024.
65 6.
0
0212.
0024.
20 6.
0
0411.
0024.
65 6.
0
0612.
0024.
00 6.
0
0811.
0024.
00 6.
0
1011.
0024.
55 7.
-0
0213.
0024.
60 7.
-0
0413.
0024.
40 6.
0
0611.
0024.
10 6.
0
0811.
0024.
80 6.
0
0213.
0024.
50 6.
0
0412.
0024.
70 6.
0
0613.
0024.
55 6.
0
0812.
0024.
40 7.
0
1012.
0024.
50 7.
-0
0214.
0024.
00 7.
-0
0414.
0024.
55 7.
0
0612.
0024.
90 7.
0
0812.
0024.
95 6.95
0 0
0214.02
0024.00
70 6.80
0 0
0413.04
0024.00
75 7.25
0 0
0614.06
0024.00
90 6. 90
0 0
0813.08
0024.00
00 6.95
0 0
1013. 10
0024.00
50 7.50
-0 -0
0215. 02
0024.00
20 7.25
-0 -0
0416.04
0024.00
20 7.30
0 0
0613.06
0024.00
35 7. 90
0 0
0813. 08
0024.00
6. 5
6.5
6.5
6.5
8. 5
8. 5
8. 5
8.5
11.5
11.5
11.5
11.5
15.5
15. 5
15. 5
15.5
17.5
17.5
17.5
17.5
2.5
2.5
2. 5
2.5
10. 5
10.5
10.5
10.5
15.5
15. 5
15.5
15. 5
19. 5
19.5
19.5
19.5
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9-11-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
9- 5-78
-------
                    APPENDIX  B


          TABULAR AND GRAPHICAL ANALYSIS
     OF  TWO-STATION  DIEL DISSOLVED  OXYGEN  DATA
(Procedure  described  in  University  of Minnesota  St.
 Anthony  Falls  Hydraulic Laboratory Project  R&port
 No.  198, June,  1981  and External Memorandum M-169,
 Dec.  1980.)
                     40
-------
15
20       .25      •   30




 TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF  REACH: Station 6 to 10 in Channel 1
Date:   7-28-76
Travel Time:   2.22 Hrs
Time at
Downstream R AD.O.
Station Om) gm hi gm
0000 **
0100
0200
0300
0400
0500
0600
0700
0800 1.33 0.12
0900 0.40
1000 0.66
1100 0.86
1200 1.01
1300 1-17
1400 1-19
1500 1-04
1600 0.85
1700 0.68
1800 0.21
1900 -0.43
2000 * i -0.90
2100 1.33 -1.51
2200 -3.56
2300 1.33
2400
2500
2600
2700
2800
2900
3000 1.33 0.59
3100 1.06
3200 1.49
3300 1.85
3400 2.32
3500 2.89
3600 3.34
3700 3.62
3800 3.51
3900 2.98
4000 2.44
4100 2.07
4200 1-56
4300 * 0.96
4400 v- 1.33 0.48
AD.O. P
g m" hi g m hi








0.05 1.38
0.18 1.51
0.30 1.63
0.39 1.72
0.46 1.78
0.53 1.86
0.54 1.87
0.47 1.80
0.38 1.71'
0.31 1.64
0.10 1.42
-0.19 1.14
-0.40 0.92
-0.68 0.65


-1 -\ Comments
gm *hr
1. Error in Station 10
D.O. data.
2. Only one hour was
used to compute
respiration rate,
due to lack, of D.O.
data. •

0.73
0.80
0.86
0.91
0.94
0.99
0.99
0.95
0.91
0.87
0.75
0.60
0.49
0.34

-7 -1
IP = 11.13 g m - day ~





0.27 1.60
0.48 1.81
0.67 2.00
0.83 2.16
1.04 2.37
1.30 2.63
1.50 2.83
1.63 2.96
1.58 2.91
1.34 2.67
1.10 2.43
0.93 2.26
0.70 2.03
0.43 1.76
0.22 1.55
— -3 _i
R = 1.33 g m hr



0.85
0.96
1..06
1.14
1.26
1.39
1.50
1.57
1.54
1.42
1.29
1.20
1.08
0.93
0.82
4500 D.O. Data Ended
4600
4700.
ZP = 18.01 g m~2 day"1
                             **Daylight  savings  time.
                                       42
-------
U>
                                         15
20        25        30




  TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH: Station 14 to 18.in Channel 1
Date:  7-28-76
Travel Time:   2.22 Hrs
Time at
Downstream R AD.P.
Station O1") gm'3hr~ gm'3
0000 **
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000 1.00 1.80
1100 1.42
1200 1.54
1300 2.29
1400 2.20
1500 1.56
1600 0.72
1700 -0.13
1800 -1.05
1900 * -1.75
2000 * 1.00 -2.80
2100
2200
2300 1.00
2400
2500
2600
2700
2800
2900
3000 | 1.00 -0.57
3100 -0.48
3200 0.62
3300 3.41
3400 3.69
3500 3.72
3600 3.47
3700 2.91
3800 1-43
3900 0.32
4000 -0.87
4100 -1.42
4200 * -2.05
4300 1.00 -2.71
4400
4500
4600
4700

ADO P
gm'hr1 gm'^hr"1










0.81 1.81
0.64 1.64
0.69 1.69
1.03 2.03
0.99 1.99
0.70 1.70
0.32 1.32
-0.06 0.94
-0.47 0.53
-0.79 0.21
-1.26








-0.26 0.74
0.22 0.78
0.28 1.28
1.54 2.54
1.66 2.66
1.68 2.68
1.56 2.56
1.31 2.31
0.64 1.64
0.14 1.14
-0.39 0.61
-0.64 0.36
-0.92 0.08
-1.22





P-2 -1 Comments
gm •'hr
Only one hour was used to_
compute respiration rate
due to lack of D.O. data.







0.89
0.80
0.83
0.99
0.98
0.83
0.65
0.46
0.26
0.10



-2 -1
IF - 6.79 g m day
— -3 -1
R = 1.00 g m hi



0.36
0.38
0.63
1.24
1.30
1.31
1.25
1.13
0.80
0.56
0.30
0.18
0.04



-2 -1
IP = 9.48 g m day
**Daylight savings time.
44
-------
o?

e
 •
<3

a
                                              20         25

                                             TIME IN HOURS
30
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH: Station 6 to 10 in Channel 4
Date: 7-28-76
Travel Time: 2.16
Time at
Downstream R AD .P.
Station 0"*) §m~ to" gm"
0000 **
0100
0200
0300
0400
0500
0600 "
0700
0800 1.23 0.09
0900 1.19
1000 1.91
1100 2.35
1200 2.32
1300 2.10
1400 2.13
1500 2.34
1600 2.29
1700 2.10
1800 1-56
1900 * 0.83
2000 1 1-23 -0.23
2100 -1.36
2200
2300
2400
2500
2600
2700
2800
2900
3000 t 1.23 -1.51
3100 -1.11
3200 -0.10
3300 1.05
3400 1.88
3500 2.41
3600 2.68
3700 2.97
3800 2.86
3900 2.47
4000 2.22
4100 2.12
4200 1-42
4300 * 0.44
4400 * 1.23 -0.35
4500 -1.01
4600
4700
AD.O. P
g m hr g m hr








0.04 1.27
0.55 1.78
0.88 2.11
1.09 2.32
1.07 2.30
0.97 2.20
0.99 2.22
1.08 2.31
1.06 2.29
0.97 2.20
0.72 1.95
0.38 1.61
-0.11 1.12
-0.63 0.60








-0.70 0.53
-0.51 0.72
-0.05 1.18
0.49 1.72
0.87 2.10
1.12 2.35
1.24 2.47
1.38 2.60
1.32 2.55
1.14 2.37
1.03 2.26
0.98 2.21
0.66 1.89
0.20 1.43
0.16 1.07
0.47 0.76


p
-2 -1 Comments
gm 'hi
1. Error in Station 10
27.33 hr D.O. measure-
ment.
2. Residence time is not
correct so R-value is
difficult to determine.
3. Will use R-value computed
between stations 14 to 18
0.33 in channel 4.
0.47
0.55
0.60
0.60
0.58
0.58
0.60
0.60
0.58
0.51
0.42 .
0.29
0.16


IP = 16.38 g m~2 day"1
-
R = 1.23 g m hr



0.28
0.38
0.63
0.91
1.11
1.25
1.31
1.38
1.35
1.26
1.20
1.17
1.00
0.76
0.57
0.40
-2 -1
IP = 14.96g m day
                             **Daylight savings time.
                                        46
-------
    18
    16
                 I
                                                                                                      ': :
                                   ,!.
                                  I
    10
!•
O
 •

Q

                          10
15
20         25


  TIME IN  HOURS
•


30
                                                                        •
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH: Station 14 to 18 in Channel 4
Date:  7-28-76
Travel Time: 2.16 Hrs.
Time at
.Downstream R AD.Q.
Station 0») S™ l»" gm"
0000 **
0100
0200
0300
0400
0500
0600
0700
0800 1.23 0.53
0900 1.42
1000 1.77
1100 1.63
1200 1.80
1300 2.09
1400 2.09
1500 1.88
1600 1.68
1700 1.39
1800 0.72
1900 -0.24
2000 1 * -1.23
2100 1.23 -2.11
2200
2300 1.10
2400 1-19
2500 1.35
2600 1.41
2700 1.35
2800 1.25
2900 1-06
3000 \ 1-23 -1.55
3100 -0.57
3200 0.56
3300 1.52
3400 2.64
3500 3.52
3600 • 3.49
3700 3.10
3800 2.47
3900 1.94
4000 1.45
4100 1.31
4200 0.79
4300 0.08
4400 * -1.18
4500 I'23
4600
4700
AD.O. P
g m J hi g m* hr"J








0.24 1.48
0.66 1.89
0.82 2.05
0.76 1.98
0.83 2.06
0.97 2.20
0.97 2.20
0.87 2.10
0.78 2.01
0.64 1.87
0.33 1.56
-0.11 1.12
-0.57 0.66
-0.98 0.25






-0.72 0.51
-0.26 0.97
0.26 1.49
0.70 1.93
1.22 2.45
1.63 2.86
1.62 2.85
1.44 2.66
1.14 2.37
0.90 2.13
0.67 1.90
0.61 1.84
0.37 1.59
0.04 1.27
-0.55 0.68
-0.14


-2 -1 Comments
gm •'hi *








0.73
0.93
1.00
0.97
1.01
1.08
1.08
1.03
0.98
0.92
0.76
0.55
0.32
0.12

£P = 11.48 g m~2 day"1
5 = 1.23 g nf3 hr"1



0.25
0.48
0.73
0.95
1.20
1.40
1.40
1.30
1.16
1.04
0.93
0.90
0.78
0.62
0.33

-2 -1
ZP = 13.47 g m day
                            **Daylight savings time.
                                       48
-------
" 	 I '•
. 1 1

I {*•' ;" ' !
1 c
16 t
T A ...... , , ,
14 . . .. p .

i •) 	 : 	 : . ... : 	 : : , , i , ;..
• • i :,
1 ' ''i •'
....
10 	 ; 	 . \
• ' i i
\ i' ' V
en ' . .; . .
E , ' '
• Q 	 i. . . ,:, ,.:, , :, •, ... :,, . . .. i! •
O ° 1
ft r . . , '
Q 1 (i' • ' ' ' ' i i
i ' • .
6 	 : : 	 '. '.. .'. '. ::: .':'. ; :.: : ... , > .:
; . jt • . . i

, . . , , , , i
4 ., . , •• :: •• ' '• : • '••':. '• • ' ': ; ''

., ; ' " r " •
	 : .l.i . . . . I
1
2 	 ' '. , ' • • • '


. . . • : • • ; ;• -• ......
' '
0 5 10 15 20 2
,;.:.• ,1 '.j|; ||
'
:: , . . . ! I 'I
.

	 ; ... 1 I 	 . j.f
i
j1 •
: • ' ' ' ' . ' ' 	 	 : | ' " . ; 	 	
: . : ' ' I,1 : . 8 . . .
! , n . .
i • \- 	 ' 	
r i ...
' J

; i ' . ' | : .
: • .. : •.'''.• i1 ' , . . • . ; '...•••.'•
1 ' ' . .'
	 • 	 j 	 ;; • '" : .
. . : . : i' • ••••••.••.•:: •:.
1 . ' . . . . • • • ' .
; i • • J . . :
... 1 , '
: . ; . . . : . . . . , • . , . .
1 ; i :::; : ;;: ; l:-: ;i . ':'•'_ 	 :: ' ; ' '.' '_". .' '.'.' ' .
'".'•' : i i ' ' • - . ' ' • :
'•• ,!• . • . : 	 :,
: • , • , . • . 	 : .

: ' . . :
it tut 1 1 n nt
»••••'••'... ... .
::. • - • •:'•'.. •• .•
.. ', . . : .' i: ' , ::: , ' .. :,,
5 30 35 40 45
TIME IN HOURS
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL



            LOCATION OF REACH: Station 6 to 10 .in Channel 5
Date:   7-28-76
Travel Time:  1.16 Hrs
Time at
Downstream R AD.O.
Station (hn'> gm hi gm
0000 **
0100
0200
0300
0400
0500
0600
0700
0800 1.33 0.42
0900 1.18
1000 1.47
1100 1.26
1200 1.37
1300 1.79
1400 2.16
1500 2.46
1600 2.45
1700 2.16
1800 1.61
1900 * 0.95
2000 1 1.33 0
2100 -0.82
2200
2300
2400
2500
2600
2700
2800
2900
3000 t 1.33 -1.03
3100 -0.41
3200 0.45
3300 1.19
3400 1.75
3500 2.02
3600 2.48
3700 3.00
3800 3.21
3900 3.20
4000 2.65
4100 .1.74
4200 0.74
4300 y" 0.14
4400 1 1.33 -0.35
4500 -0.66
4600
4700
AD.O P
g m J hi J g m J hr'1








0.19 1.52
0.55 1.88
0.68 2.01
0.58 1.91
0.63 1.96
0.83 2.16
1.00 2.33
1.14 2.47
1.13 2.46
1.00 2.33
0.74 2.08
0.44 1.77
0.00 1.33
-0.38 0.95








-0.48 0.85
-0.19 1.14
0.21 1.54
0.55 1.88
0.81 2.14
0.94 2.26
1.15 2.48
1.39 2.72
1.49 2.82
1.48 2.81
1.23 2.56
0.81 2.14
0.34 1.67
0.06 1.40
-0.16 1.17
-0.31 1.02


_2 -1 Comments
1. Residence time is not
correct so R-value is
difficult to determine.
2. Will use R-value
computed between
stations 14 to 18 in
channel 5.

0.81
1.00
1.07
1.01
1.04
1.14
1.23
1.30
1.30
1.23
1.10
0.90
0.70
0.50


IP = 14.33 g m"2 day"1

I = 1.33 g m"3 hr"1



0.45
0.60
0.8.2
1.00
1.13
1.20
1.31
1.44
1.49
1.49
1.36
1.13
0.89
0.74
0.62
0.54
-2 -1
£P = 16.21 g m day
                             **Daylight savings time.
                                       50
-------
l/l
                               10
15
20        25        30
   TIME IN HOURS
35
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH:  Station 14  to 18  in Channel 5
Date:  7-28-76
-Travel Time:  2.16  Hrs
Time at
Downstream R AD.O.
Station fl1*5) 8m I" 8m
0000 **
0100
0200
0300
0400
0500
0600
0700
0800 1.33 0.18
0900 1.04
1000 1.47
1100 1.25
1200 1.45
1300 1.75
1400 1.74
1500 1.49
1600 1.09
1700 0.78
1800 0.05
1900 -0.62
2000 * -1.59
2100 1.33 -2.34
2200
2300 1.33
2400
2500

2600
2700
2800
2900
3000 f 1.33
3100
3200 0
3300 0.63
3400 0.96
3500 1.70
3600 1.09
3700 1.70
3800 1-72
3900 1.53
4000 0.23
4100 -0.05
4200 -0.50
4300 V -0.42
4400 1-33 -0.82
4500 -2.54
4600
4700
&D--30M P3 1
gm-'hr1 gm-'hr1








0.08 1.41
0.48 1.81
0.68 2.01
0.60 1.91
0.67 2.00
0.81 2.14
0.81 2.14
0.69 2.02
0.50 1.83
0.36 1.69
0.02 1.35
-0.29 1.04
-0.74 0.59
-1.08 0.25











0.00 1.33
0.29 1.62
0.44 1.77
0.79 2.12
0.50 1.83
0.79 2.12
0.80 2.13
0.71 2.04
0.11 1.44
-0.02 1.31
-0.23 1.10
-0.19 1.14
-0.38 0.95
-1.18 0.15

p.2 .1 Comments
Only one hour was used to
complete respiration rate,
due to lack of 13. 0. data





0.69
0.89
0.98
0.94
0.98
1.05
1.05
0.99
0.90
0.83
0.66
0 .51
0.29
0.12


ZP = 10.88 g nf2 day"1

— —3 —1
R = 1.33 g m hr





0.65
0.79
0.87
1-.04
0.90
1.04
1.04
1.00
0.71
0.64
0.54
0.56
0.47
0.07
-•) -i
IP = 10.32 g m ~ day ~
                             "Daylight savings time.
                                       52
-------
Ul

to
      CD
      O
       •

      Q
                                10
15
20         25


   TIME IN HOURS
30
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
           LOCATION OF REACH: Station 6 to 10 in Channel 8
Date: 7-28-76
Travel Time:  2.16 Hrs
Time at
Downstream
Station C1")
g m" hi"
AD.O.
gm"*
AD.O.
gm-'hr1
P
g m"3 hi"1
P
gm^hi"1
Comments
0000 **
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000



1.20 0










1
0.40
0.55
0.67
0.77
0.76
0.61
0.61
0.68
0.23
-0.47
' -1.44
2100 1.20 -2.42
2200
2300 1.20
2400
2500

2600
2700
2800
2900
3000 '
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400 >
t

1.20 -0.89











F 1
-0.31
0.10
0.20
0.75
1.56
1.54
1.06
0.81
0.77
-0.20
-1.78
-1.86
4500 1.20 -2.43
4600
4700









0.00
0.18
0.26
0.31
0.36
0.35
0.28
0.28
0.32
0.11
-0.22
-0.67
-1.12











-0.41
-0.14
0.05
0.09
0.35
0.72
0.71
0.49
0.38
0.36
-0.09
-0.82
-0.86
-1.12











1.20
1.39
1.45
1.51
1.56
1.55
1.48
1.48
1.51
1.31
0.98
0.53
0.08











0.79
1.06
1.25
1.29
1.55
1.92
1.91
1.69
1.58
1.56
1.11
0.38
0.34
0.08


1.


2.





0.64
0.74
0.77
0.80
0.83
0.82
0.78
0.78
0.80
0.69
0.52
0.28
0.04


EP = 8.49 g


R = 1.20 g





0.42
0.56
0.66
0.68
0.82
1.02
1.01
0.90
0.84
0.83
0.59
0.20
0.18
O.ff4

IP = 8.75 g
D.O. measurement error
seems to exist at
Station 10 for 15.30 Hrs
Only one hour was used
to compute respiration
rate, due to lack of
D.O. data.

















m day

—3 — T
m hr




















m day
                             **Daylight .savings time.
                                        54
-------
Ul
Ul
I
E
 •
O
n
         18
          16
          14
          12
          10
           8
                                10
                                      15
20        25
   TIME IN HOURS
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH: Station 14 to 18  in Channel  8
Date: 7-28-76
Travel Time:  2.16 Hrs.
Time at
Downstream R AD. P.
Station 0«) gm" hi" gm"
0000 **
0100
0200
0300
0400
0500
0600 >•
0700
0800 1.22 0.32
0900 0.34
1000 0.45
1100 0.69
1200 1.00
1300 1.25
1400 1.08
1500 0.68
1600 0.30
1700 0.05
1800 -0.42
1900 -0.95
2000 * * -1.65
2100 1.22 -2.35
2200
2300 1.22
2400
2500
2600
2700
2800
2900
3000 '•
3100
3200
3300
3400 1.22 2.83
3500 2.96
3600 3.17
3700 3.32
3800 2.54
3900 1-33
4000 0.26
4100 -0.08
4200 -0.71
4300 I -1.29
4400 * -1.81
4500 1.22 -2.24
4600
4700
AD . o . p
g m" hi g m hi








0.15 1.37
0.16 1.38
0.21 1.43
0.32 1.54
0.46 1.68
0.58 1.80
0.50 1.72
0.32 1.53
0.14 1.36
0.02 1.24
-0.19 1.03
-0.44 0.78
-0.76 0.46
-1.09 0.13












1.31 2.53
1.37 2.59
1.47 2.69
1.54 2.76
1.18 2.40
0.62 1.84
0.12 1.34
-0.04 1.18
-0.33 0.89
-0.60 0.62
-0.84 0.38
-1.04 0.16

.1 .1 Comments
gm hi
Only one hour used to
compute the respiration
rate due to lack of D.O.
data.




0.67
0.68
0.70
0.75
0.82
0.88
0.84 .
0.75
0.67
0.61
0.50
0.38
0.23
0.06

-2 -1
ZP = 8.54 g m day
- -3 -1
R = 1.22 g m hr







1.24
1.27
1.32
1.35
1.18
0.90
0.66
0.58
0.44
0.30
0.19
0.08
-•} -1
£P=9.51gm~ day "
                             **Daylight savings time.
                                        56
-------
en
         18
         16
          14
         12
          10
           8
       *

      Q
           6      '         .  :  .. .
           2
                                 10
15 .
20        25


  TIME  IN HOURS
30
-------
     HOURLY RESPIRATION  &  PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL

            LOCATION OF REACH: Station 6 to 10 in Channel 1
Date: 8-5-76 Travel Time: 1.37 Hr.
Time at
Downstream
Station O"5)

P
g m"3 hr"1

AD. 0.
gm

g m" hr"

P
gm'V1

P

Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
1.68
1.68
  04
  27
  13
  90
  65
1.53
  48
  42
                                      Possible error in D.O.
                                      reading Station 10 -
                                      2900 Hr.
 0.44    0.32   2.00    1.06
-0.39   -0.28   1.40    0.74
-0.99   -0.72   0.96    0.51
-1.43   -1.04   0.64    0.34
-1.64   -1.20   0.48    0.25
-2.60   -1.90
                     IP =  2.90 g m~  (5 Hrs)~

                      R =  1.68 g m    hr
                            ZP
                              g m   day
                             **Daylight savings time.
                                          58
-------
10
          18
          16
          14
          12
          10
       o?

       en
       E
       o
        •
       a
             Li
                                                                 F
                                 SIT
                            n
                                                                                                                •l
                                10
15
20         25         30

    TIME  IN HOURS
35
                                                                                               40
                                                              45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC  RATES  FROM D.O.  DIFFERENTIAL

            LOCATION OF REACH: Station 14 to 18 in Channel 1
Date:  8-5-76
                                     Travel Time:  1.37  Hr.
Time at
Downstream
Station Ous)
p
g m'3 hi"1
AD.O.
gin*-1
AD.O.
gm^hi'1
P
gm^hi'1
P
gm^hi"1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
       **
1.43
1.43
1.58
1.64
1.38
1.12
 1.20
 0.62
 0.18
-0.26
-0.49
 0.88
 0.45
 0.13
-0.19
-0.36
2.31
1.88
1.56
1.24
1.07
                                      D.O.  values  below 3  mg/d
                                      not used in  calculation
                                      of respiration
1.13
0.92
0.76
0.61
0.52
-1.48  -1.08   0.35   0.17
-2.18  -1.59  -0.16
                     IP = 4.11  g m~2{6  Hrs)'1

                      R = 1.43  g m~3  hr"1
                            IP =
                               g m    day
                             **Daylight savings time.
                                         60
-------
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL

           LOCATION OF REACH: Station- 6 to 10 in Channel 4

Date:    8-5-76                                   Travel Time:  1.37 Hr.
Time at
Downstream
Station <*>«)
p
g m"3 hr"1
AD.O.
gm'"5
AD:30-.!
gm^hi1
P
gm^hr'1
P .
gnf2!!!'1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
0.63
0.39
0.61
0.84
0.66
0.58
0.58
0.68
 1.20
 1.01
 0.72
 0.33
 0.00
-0.55
88
74
53
24
               0.00
              -0.40
1.51
1.37
1.16
0.87
0.63
0.23
0.63   -0.99  -0.72   -0.09
 .80
 .73
 .61
 .46
0.33
0.12
0.
0.
0.
0.
           IP = 3.05 g m~ (6  Hrs)"1

            R = 0.63 g m~  hr~
                                        -2  ,  -1
                                     g m   day
                             **Daylight savings time.
                                        62
-------
   18
   16
   14
   12
   10

 .   8
o
 »

Q
                                     I
            1
                         1

                                             !
                         10
15
20        25        30




   TIME  IN  HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC  RATES  FROM D.O.  DIFFERENTIAL

            LOCATION OF REACH:  Station  14  to  18  in Channel 4

Date:   8-5-76               	Travel Time:   1.37 Hr
Time at
Downstream
Station 0")
p
gm^hr"1
AD.O.
gm
AD.O.
gm^hr1
P
gm^hi"1
P
gm^hi'1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
        **
0.73
  56
  18
  74
       -0.66
       -0.53
0.73
0.57
0.85
0.96
0.69
0.55
 0.41
-0.13
-0.54
-0.48
      -0.39
1.48  -1.08
                                      D.O.  Values  below  3 mg/Jl
                                      were  not used  in calculating
                                      respiration  value.
1.14    0.56
0.60    0.29
0.19    0.09
0.25    0.12
0.34    0.17
                      ZP = 1.23  g  m~2(5  Hrs)"1

                       R = 0.73  g  m~3  hr"1
                                   -2  .
                                g  m   day
                                                  -1
                             **Daylight savings time.
                                      64
-------
   18
   16
   14
   12
   10
o
 »

D
                              .
                                                         i
                         10
15
20        25        30



    TIME  IN  HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL

            LOCATION OF REACH:  Station  6 to  10 in Channel 5
Date:  8-5-76
                                     Travel Time:  1.32
Time at
Downstream
Station Ous)
p
gm^hi"1
AD.O.
gm0
AD 0
gm3!!!1
P
gm^hr'1
P
gm^hf1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
       **
0.63
0.63
0.45
0.45
0.41
0.46
0.73
0.92
0.83
0.76
  ,32
  ,34
  .06
  .47
  ,05
  .45
-0.83
  .00
  .82
  .80
  .36
  .04
-0.34
-0.63
1.63
1.65
1.43
0.99
0..67
0.29
0.00
0.86
0.87
0.76
0.52
0.36
0.15
                       ZP = 3.52 g  m~  (6 Hrs)"1

                        R = 0.63 g  m"  hr"1
                             ZP =
                                g m   day
                             **Daylight savings time.
                                       66
-------
o\
        18
        16
        14
        12
        10
    o    8
     •

    D
I
                                                             til
                             111
                              10
       15
20        25        30



     TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH: Station 14 to 18 in Channel 5
Date:  8-5-76
                                     Travel Time:   1.32
Time at
Downstream
Station Ous)
j^
gm^hr"1
AD.O.
gm"
AD.O.
gm3tol
P
g m"3 hi"1
P
gm^hr"1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
       **
0.54
  54
0.80
0.64
  49
  55
  47
0.42
0.42
   26
   90
   80
   24
-0.08
-0.68
-1.22
 0.95
 0.68
 0.61
 0.18
-0.06
-0.52
49
22
15
72
48
                      0.02
                                      D.O.  values  below  3 mg/i
                                      were  not used  in calcula-
                                      tion  of respiration value.
0.73
0.60
0.56
0.35
0.24
0.01
                      £P =  2.49 g m~2 (6 Hrs)"1

                       R =  0.54 g m~3 hr"1
                                                  g m   day
                             **Daylight savings time.
                                       68
-------
         18
                                                                                     II
                                                                                     m
         16
         14
         12
UJ
         10
§
e

 •
o

Q
                                           I
                                                     \
                                                                         I Hi

                                10
                                    15
             i




20        25


   TIME IN HOURS
30
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL

            LOCATION OF REACH: Station 6  to 10 in Channel 8

Date:   8-5-76       .  .  ,                        Travel Time:  1-37 Hrs
Time at
Downstream
Station O"5)
p
g m"3 hr"1
AD.O.
gm
AD.O.
gm^hi'1
P
gm'3!!!*1
P
gm^hi'1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
1.52
 .52
 ,36
 ,64
 ,50
 ,51
 .61
         ,43
         .49
         .85
         .20
       -0.22
       -0.77
-1.59  -1.16
96
04
16
27
       -0.30
       -1.06
1.
1.
0.
0.
2.95
3.01
2.37
  72
  30
  75
               0.36
                                      D.O. values below 3 mg/2,
                                      were not used in calculation
                                      of respiration
1.56
1.60
1.26
0.91
0.69
0.40
0.19
                      ZP = 6.61 g m~  (7 Hrs)-1

                       R = 1.52 g m~3 hr"1
                                                   g m   day
                             **Daylight  savings  time.
                                       70
-------
o
 *
o
     4  	1
     2  	
                         10
15
20
     25        30

TIME IN HOURS
35
40
-------
      HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL

             LOCATION OF REACH: Station 14 to 18 in Channel 8

 Date:  8-5-76                                 	Travel Time:   1.37 Hrs
Time at
Downstream
Station C1")
j^
gm^hi'1
AD.O.
gnfj
AD 0
gm-'hr1
P
g m"3 hr"1
P
sm~2hi~l
Comments
 0000
 0100
 0200
 0300
 0400
•0500
 0600
 0700
 0800
 0900
 1000
 1100
 1200
 1300
 1400
 1500
 1600
 1700
 1800
 1900
 2000
 2100
 2200
 2300
 2400
 2500
 2600
 2700
 2800
 2900
 3000
 3100
 3200
 3300
 3400
 3500
 3600
 3700
 3800
 3900
 4000
 4100
 4200
 4300
 4400
 4500
 4600
 4700
       **
0.69
0.69
0.69
0.80
0.60
0.67
   68
   72
   08
   95
   13
 0.00
-0.94
1.96
1.26
0.79
0.69
0.82
0.00
0.69
2.65
                        95
                        48
                        38
                        51
                        69
0.00
                                      D.O.  values below 3  mg/J,
                                      were  not used in calculation
                                      of respiration
1.30
0.96
0.73
0.68
0.74
0.34
                      ZP =  4.75  g ra~   (6  Hrs)"1

                       R =  0.69  g m    hr
                             ZP =
                                 -2  ,  -1
                              g m   day
                              **Daylight savings time.
                                        72
-------
    18
    16
    14
    12
    10
en





6    8
 •

Q
     2
                           10
15
20        25



   TIME IN HOURS
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES  FROM  D.O.  DIFFERENTIAL



             LOCATION  OF REACH:  Station 2 to  10  in Channel 5
Date:  10-27-76
Travel Time;   2.06 Hrs.
Time at
Downstream R AD.P.
Station P"*) 8m~ hr" gm"
0000 **
0100
0200
0300
0400
0500
0600
0700 ^
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700 >
0.37 -0.62
-0.25
0.71
1.05
1.31
1.46
1.65
1.51
1.32
' * 0.69
1800 0.37 0.17
1900
2000
2100 0.27
2200 0.31
2300 0.36
2400 0.36
2500 0.52
2600 0.38
2700 0.40
2800 0.41
2900 0.41
3000 0.38
3100 0.30
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
0.37 -0.51
0.24
0.70
0.74
1.00
1.07
1.07
| 0.97
0.37 0.94
f
4200
4300
4400
4500
4600
4700
AD--3°M P-3 -!
gm hi g m hr








-0.30 0.07
-0.12 0.25
0.34 Q.71
0.51 0.88
0.64 1.01
0.71 1.08
0.80 1.17
0.73 1.10
0.64 1.01
0.33 0.70
0.08 0.45











-0.25 0.12
0.12 0.49
0.34 0.71
0.36 0.73
0.49 0.86
0.52 0.89
0.52 0.89
0.47 0.84
0.46 0.83






P-2 -1 Comments
gm •'hr








0.02
0.08
0.24
0.30
0.34
0.37
0.40
0.37
0.34
0.24
0.15




IP = 2.85 9 m~ day"
R = 0.37 9 m~ hr~





0.04
0.17
0.24
0.34
0.29
0.30
0.30
0.29
0.28






IP =2.25 g m~2 day'1
                             **Daylight savings time.
                                        74
-------
•-J
Ul
          18
          16
          14
          12
          10
I
o   8
                                                                                                                      \\


                                 10
                                      15
20         25         30

     TIME IN HOURS
                                                                                      35
                                                                                          40
                                                     45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH: Station 10 to 18 in Channel  5
Date:  10-27-76
Travel Time;   2.00 Hrs.
Time at
Downstream R AD.P.
Station fl"5) gm'-'hi"1 gm"3
0000 **
0100
0200
0300
0400
0500
0600
0700.
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700 
-------
   18
   16
   14
   12
   10
O   8
 •

Q
                                              1
                                      \
                         10
15
20        25        30



    TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
              LOCATION OF REACH:  Station 2 to 10 in Channel 8
Date:  10-27-76
Travel Time: 2.00 Hrs.
Time at
Downstream R AD.O.
Station 0«) gm" hr" gm"
0000 **
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700 ,
t
1.16 -1.01
-0.11
0.61
1.25
1.30
1.15
0.93
v 0.55
1.16 -0.38
1800
1900
2000 1.20
2100 1.27
2200 1.32
2300 1.20
2400 1.08
2500 1.12
2600 1.14
2700 1.14
2800 1.12
2900 1.11
3000 1.10
3100 1.16
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100 '
AD.O P
gm^hi1 gm-'hr1









-0.50 0.66
-0.06 1.10
0.31 1.46
0.63 1.79
0.65 1.81
0.58 1.74
0.47 1.63
0.28 1.44
-0.19 0.97












1.16 -2.10 -1.05 0.11
-1.30 -0.65 0.51
-0.35 -0.18 0.99
0.35
1.12
1.03
0.92
0.77
* 0.52
0.18 1.34
0.56 1.72
0.52 1.68
0.46 1.62
0.39 1.55
0.26 1.42
1.16 -0.40 -0.20 0.96
4200
4300
4400
4500
4600
4700






.•} .1 Comments
gm •'hi *









0.22
0.37
0.50
0.61
0.62
0.59
0.55
0.49
0.33





EP = 4.28 g nf2 day"1
R = 1;16 g m~3 hr"1





0.04
0.17
0.34
0.46
0.58
0.57
0.55
0.53
0.48
0.33





£P = 4.05 g nf2 day"1
                             **Daylight savings time.

                                        78
-------
20        25        30
    TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHET1C RATES FROM D.O.  DIFFERENTIAL
              LOCATION OF REACH:  Station 10 to 18 in  Channel 8
Date:  10-27-76
Travel Time: 2.00 Hrs.
Time at
Downstream R AD.P.
Station 0"*) 8m" hr S">
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700 »

0.73 0.14
1.35
2.15
2.67
2.67
2.35
2.10
1.60
' 0.73 0.56
1800
1900
2000 0.86
2100 0.86
2200 0.77
2300 0.77
2400 0.74
2500 0.73
2600 0.70
2700 0.70
2800 0.69
2900 0.67
3000 0.65
3100 0.61
3200 '
3300
3400
3500
3600
3700
3800
3900
4000
4100
AD--30--1 P-3 -1
gmjhrj gm-'hi1









0.07 0.80
0.68 1.40
1.08 1.80
1.34 2.06
1.34 2.06
1.18 1.90
1.05 1.78
0.80 1.53
0.28 1.01












0.73 -1.10 -0.55 0.18
-0.16 -0.08 0.65
1.25
2.30
3.13
2.90
2.40
1.93
i 1.26
0.73 0.10
4200
4300
4400
4500
4600
4700
0.63 1.36
1.15 1.88
1.57 2.30
1.45 2.18
1.20 1.93
0.97 1.69
0.63 1.36.
0.05 0.78






P
-2 -i Comments
gm •'hi *









0.29
0.50
0.65
0.74
0.74
0.68
0.64
0.55
0.36





IP = 5.15 g nf2 day'1
— = 0.73 g m hr
H





0.06
0.23
0.49
0.68
0.83
0.78
0.69
0.61
0.49
0.28




-2 -1
£P = 5.14 g m day
                             "Daylight savings time.
                                       80
-------
TO
     cr«
      ;    8
                               10
15
20        25         30
    TIME  IN  HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM  D.O.  DIFFERENTIAL

            LOCATION OF REACH:  Station 2 to 10  in Channel 5
Date:  1-26-77
                                     Travel  Time:  2.06 Hrs.
Time at
Downstream
Station fr")

R
gm hi

AD .p.
gm

AD.O.
gm hi

P
gm hi

P
gm hi

Comments

0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
       **
0.12   -0.55
       -0.66
       -0.42
       -0.37
       -0.32
       -0.28
       -0.21
       -0.24
0.12   -0.24
0.12
0.14
0.13
0.16
0.21
0.16
0.09
0.06
0.04
0.05
0.12
       -0.27
       -0.32
       -0.20
       -0.18
       -0.16
       -0.14
       -0.10
       -0.12
       -0.12
       -0.24  -0.12
-0.04

 0.02
-0.00
-0.00
 0.00
                                          AD.O. to close to
                                          determine accurate photo-
                                          synthetic values.
                                          Same situation for
                                          1-26-77; channel 5;
                                          Station 10 •>• 18.
0.01
0.00
0.00
0.00
                      ZP = 0.01  g  m   day

                       R = 0.12  g  ro   hr
-0.11  -0.05    0.07     0.03
-0.24  -0.12    0.00     0.00
-0.39   0.19   -0.07    -0.04
                             £P
                                  -2  .  -1
                               g m    day
                             "Daylight savings time.
                                        82
-------
00
00
                                10
15
20        25

  TIME  IN HOURS
30
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH:  Station 10 to 18 in Channel 5
Date:  1/26/77
Travel Time: 2.0  Hrs.
Time at
Downstream R AD.O. AD.'
Station 0"*) gm^hi"1 gm"3 * gm"
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
.1 .3 .1 .? -1 Comments
hr gm hi gm hr
Graphical difference between
upstream and downstream diel
oxygen curves are insignifi-
cant to conduct meaningful
analysis.










































                             **Daylight savings time.
-------
Oi
     C7>
     O
      •

     Q
                               10
15
20
     25        30


TIME IN  HOURS
35
40
-------
     HOURLY RESPIRATION  &  PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL

            LOCATION OF REACH:  Stations 2 to 10 in Channel 8
Date:  1-26-77
                                      Travel Time: 2.00 Hrs
Time at
Downstream
Station O"*)
•n
gm^hr'1
AD.O.
gm'J
AD 0
gm3)!!1
P
gin'3 hi'1
P
gm^hT1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
0.44
0.44
  .25
  ,32
  .53
  ,75
  ,71
  .70
  ,50
  ,28
  .29
0.29
0.35
0.45
0.36
0.44
0.44
 0.82
 2.60
 3.90
 5.20
 5.80
 6.25
 5.28
 4.20
 2.10
-0.52
 0.88
 2.50
 4.00
 5.45
 5.50
 5.45
 4.50
 3.50
 1.90
0.41
1.30
1.95
2.60
2.90
3.13
2.64
2.10
1.05
0.26
0.44
1.25
2.00
2.73
2.75
2.73
2.25
1.75
0.95
0.86
1.75
2.40
3.05
3.35
3.57
3.09
2.55
1.50
        0.71
        0.89
                         70
                         45
                         17
                         20
                         17
        2.70
        2.20
        1.40
               0.29
               0.60
               0.82
               1.04
               1.14
               1.21
               1.05
               0.87
               0.51
                       ZP = 7.53 g m~2 day"1

                        R = 0.44  g m~3 hr"1
       0.24
       0.30
       0.58
       0.83
       1.08
       1.09
       1.08
       0.92
       0.75
       0.48
                               ZP = 7.35  g m~2 day"1
                             **Daylight  savings  time.
                                        86
-------
en
-j
                                10
15
20        25

   TIME IN HOURS
30
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHET1C RATES FROM D.O.  DIFFERENTIAL



            LOCATION OF REACH:  Stations 10-to 18 in  Channel 8




Date: 1/26/77		   	. _ Travel Time:  2.00 Hrs
Time at
Downstream R AD.O.
Station 0>n) tm'*tu'1 gnf
0000
0100
0200
0300
0400
0500
0600
0700
0800 '
0900
1000
1100
1200
1300
1400
1500
1600
1700 ,

0.36 2.06
3.22
3.85
4.46
3.75
2.83
2.10
*• 1.37
0.36 -0.01
1800
1900 0.62
2000 0.10
2100 °-°5
2200 0-05
2300 °-30
2400 O-5^
2500 0.66
2600 0.66
2700 0.50
2800 0.31
2900 0.29
3000 0.30
3100 0.25
3200 '
3300
3400
3500
3600
3700
3800
3900
4000 >|
0.36 -0.34
1.10
2.75
3.50
4.20
4.00
3.68
3.11
4- 2.45
4100 0-36 0.85
4200
4300
4400
4500
4600
4700
Vf'i P3 i
gmjhr' gmjhi"1









1.03 1.39
1.11 1.47
1.93 2.29
2.23 2.59
1.88 2.24
1.42 1.78
1.05 1.41
0.69 1.05
-0.01 0.36












-0.17 0.19
0.55 0.91
1.38 1.74
1.75 2.11
2.10 2.46
2.00 2.36
1.84 2.20
1.56 1.92
1.23 1.59
0.43 0.79





P-2 -1 Comments
gm hi









0.50
0.53
0.82
0.93
0.81
0.64
0.51
0.38
0.13





£P = 5.25 g m~Z day"1
R = 0.36 g m hr~,





0.07
0.33
0.63
0.76
0.89
0.85
0.79
0.69
0.57
0.28




ZP » 5.86 g m~2 day"1
                             "Daylight savings time.
                                       88
-------
CO
         18
         16
         14
         12
         10

      o?

      e
      J.   8
                                                     1

                                                                                                                 I  I
                                                                                                                 til
                                10
15
20        25

   TIME IN  HOURS
30
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
           LOCATION OF REACH: Station 2 to 10 in Channel 5
Date:  4-25-77
Travel Time;   2.06 Hrs.
Time at
Downstream R AD.O.
Station (h") gin hr gm
0000 **
0100
0200
0300
0400
0500
0600
0700 t 0.84 -0.63
0800 0.12
0900 0.49
1000 0.81
1100 1.05
1200 1.26
1300 1-17
1400 1.06
1500 0.83
1600 0-55
1700 0.05
1800 1 -0.50
1900 * 0.84 -1.22
2000 -1-98
2100
2200 0.87
2300 0.87
2400 0.90
2500 0.84
2600 0.78
2700 0.81
2800 0.85
2900 0.82
3000 0.78
3100 t 0.84 -0.78
3200 0.12
3300 0.64
3400 1.08
3500 1.12
3600 1.10
3700 1.10
3800 1.07
3900 « 0.92
4000 0.84 0.68
4100
4200
4300 ''
4400
4500
4600
4700
AD-0. P
g m hr g m hr







-0.37 0.53
0.06 0.90
0.24 1.08
0.39 1.23
0.51 1.35
0.61 1.45
0.57 1.41
0.51 1.35
0.40 1..24
0.27 1.11
0.02 0.86
-0.24 0.60
-0.59 0.25
-0.96 -0.12







-
-0.38 0.46
0.06 0.90
0.31 1.15
0.52 1.36
0.54 1.38
0.53 1.37
0.53 1.37
0.52 1.36
0.45 1.29
0.33 1.17







_2 -1 Comments







0.18
0.31
0.37
0.42
0.46
0.49
0.48
0.46
0.42
0.38
0.29
0.20
0.09



IP = 4.55 g m~2 day"1
I = 0.84 g m"3 hr"1




0.16
0.31
0.39
0.46
0.47
0.47
0.47
0.46
0.44
0.40





-2 -1
ZP = 4.0 3 g m day
                             **Daylight  savings  time.
                                       90
-------
10
15
20        25
    TIME  IN HOURS
30
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
            LOCATION OF REACH:.Station 10 to 18 in Channel  5
Date:   4-25-77
Travel Time;  2.00 Hrs.
Time at
Downstream
Station Ous)
p
gm^hr"1
AD.O.
gm"-*
AD.O
gm-'hr1
P
g m"3 hi'1
P
gm^hr'1
Comments
0000 **
0100
0200
0300
0400
0500
0600 A
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900 >
0.84 . -0.42










^
0.35
0.88
1.27
1.49
1.63
1.41
1.34
1.00
0.55
-0.07
-0.82
' 0.84 -1.51
2000 -2.31
2100
2200 0.94
2300 0.91
2400 0.88
2500 0.83
2600 0.79
2700 0.76
2800 0.81
2900 0.84
3000 , 0.83
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
0.84 -0.55







0.48
1.02
1.46
1.57
1.56
1.60
1.57
1.98
0.84 2.43



4400
4500
4600
4700







-0.21
0.18
0.44
0.64
0.75
0.82
0.71
0.67
0.50
0.28
-0.04
-0.41
-0.76
-1.16








-0.28
0.24
0.51
0.73
0.79
0.78
0.80
0.79
0.99
1.22













0.63
•1.02
1.28
1.48
1.59
1.66
1.55
1.51
1.34
1.12
0.81
0.43
0.09
-0.32








0.51
1.08
1.35
1.57
1.63
1.62
1.64
1.63
1.83
2.06













0.23
0.37
0.46
0.53
0.57
0.60
0.56
0.54
0.48
0.40
0.29
0.15
0.03



ZP = 5.2i g m~2 day"1
R = 0.84 g ra~3 hr"1




0.18
0.39
0.49
0.57
0.59
0.58
0.59
0.59
0.66
0.74





IP = 5.38 g m~2 day"1
                             **Daylight savings time.
                                        92
-------
>£>
U)
o?

e
 •
o
 *
Q
           10
                                  10
                                      15
20        25

   TIME IN  HOURS
30
35
40
-------
     HOURLY RESPIRATION &  PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
               LOCATION OF REACH:   Station 2 to 10 in Channel 8
Date:   4-25-77
                                      Travel Time:  2.30 Hrs.
Time at
Downstream
Station 
-------
Ul
     §
      E
         18
         16  T
         14
         12
         10
      u.   8
          2  	
                               10
15
20        25
    TIME IN HOURS
30
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHET1C RATES FROM D.O. DIFFERENTIAL
              LOCATION OF REACH:   Station  10  to 18  in Channel 8
Date:  4-25-77
                                                 Travel Time:  2.00 Hrs.
Time at
Downstream R AD-P-
Station O"5) sm~ *"' sm'
0000
0100
0200
0300
0400
0500
0600
0700 '
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
0.92 0.37
2.32
2.95
3.40
3.45
3.45
3.04
2.28
1.78
1.10
0.16
* -0.96
0.92 -1.80
2000
2100
2200 1.20
2300 1.10
2400 1.03
2500 0.98
2600 0.90
2700 0.90
2800 0.90
2900 0.75
3000 0.55
3100 '
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300 >
i 0.92 0.56
2.56
3.25
3.60
3.55
3.30
2.93
2.43
* 1.80
0.92 1.00


f
4400
4500
4600
4700
ADf'-l P3 1
gm3!!!1 gm3^1







0.19 1.11
1.16 2.08
1.48 2.40
1.70 2.62
1.73 2.65
1.73 2.65
1.52 2.44
1.14 2.06
0.89 1.81
0.55 1.47
0.08 1.00
-0.48 0.44
-0.90 0.02










0.28 1.20
1.28 2.20
1.63 2.55
1.80 2.72
1.78 2.70
1.65 2.57
1.47 2.39
1.22 2.14
0.90 1.82
0.50 1.42







-2 -1 Comments
gnT'hr1







0.40
0.75
0.86
0.94
0.95
0.95
0.88
0.74
0.65
0.53
0.36
0.16
0.01



ZP = 8.18 9 m~2 day"3'
— -3 -]
R = 0.92 g m hr




0.43
0.79
0.92
0.98
0.97
0.93
0.86
0.77
0.66
0.51





-2 -1
IP = 7.82 g m day
                             **Daylight savings time.

                                      96
-------
   18
   16
   14
   12
   10
          4-
                                                                  I
                                                            a..:
o
 i   8
                                                                                Y
                          10
15
20         25         30
    TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHET1C RATES FROM D.O. DIFFERENTIAL
              LOCATION OF REACH:   Station  2  to  10  in Channel  1
Date:  7-19-77
Travel Time: 2.04 Hrs.
Time at
Downstream R AD.P.
Station 0«) gm" hi" gm~
0000
0100
0200
0300
0400
0500
0600
0700 1.63 -1.14
0800 0.45
0900 1.96
1000 3.12
1100 4.35
1200 5.32
1300 6.34
1400 5.96
1500 5.57
1600 4.10
1700 2.63
1800 1.16
1900 -0.29
2000 4- * -1.75
2ioo I-" -3.22
2200 1-63
2300
2400
2500
2600
2700
2800
2900
3000 f 1-63 -2.65
3100 -2.54
3200 -2.43
3300 -2.30
3400 -1.70
3500 -1.10
3600 0.33
3700 L80
3800 3.19
3900 4.58
4000 * 4.30
4100 1>63 4-05
4200
4300
4400 >'
4500
4600
4700
AD--3°M P-3 1
gm^hi1 gm^hr1







-0.56 1.07
0.22 1.85
0.96 2.59
1.53 3.16
2.13 3.76
2.61 4.24
3.11 4.74
2.92 4.55
2.73 4.36
2.01 3.64
1.29 2.92
0.57 2.20
-0.14 1.49
-0.86 0.77
-1.58 0.55







-1.30 0.33
-1.25 0.38
-1.19 0.44
-1.13 0.50
-0.83 0.80
-0.54 1.09
0.16 1.79
0.88 2,51
1.56 3.19
2.24 3.88
2.11 3.74
1.98 3.62






7 i Comments
gm ''hr J







0.43
0.74
1.04
1.26
1.50
1.70
1.90
1.82
1.74
1.46
1.17
0.88
0.60
0.31
0.02

-2 -1
EP = 16.57 g m day
R = 1.63 g nf3 hr"1



0.13
0.15
0.18
0.20
0.32
0.44
0.72
1.00
1.28
1.55
1.50
1.45




-2 -]
IP = 8.92 g m day
                             **Daylight savings time.

                                        98
-------
VD
         18
         16
         14
         12
         10
     <=?
     e
                                                                        .:   r:  ;     ;:
                                           15
20        25         30
    TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYMTHETIC RATES FROM D.O. DIFFERENTIAL
                ON OF REACH:  Stations  10 to 18 in Channel 1
Date: 7-19-77
Travel Time: 1.78 Hrs.
Time at
Downstream R AD.O.
Station C1") sm~ ™ gm"3
0000
0100
0200
0300
0400
0500
0600
0700 0.53 -0.48
0800 1.02 0.20
0900 1.41
1000 1.99
1100 2.62
1200 2.94
1300 2.51
1400 2.24
1500 1.94
1600 1.73
1700 1.03
1800 0.59
1900 I -0.59
2000 -1.26
2100 1-02 -1.73
2200
2300
2400
2500
2600
2700
2800
2900 /I
3000 1-02 -1.14
3100 -1.13
3200 -1.06
3300 -1.01
3400 -0.79
3500 -0.43
3600 °«00
3700 0.95
3800 1«45
3900 2.13
4000 "•' 1.67
4100 i-02 0.18
4200
4300
4400 >'
4500
4600

4700
AD:0. P
gin •'hi ' gm •'hr *







-0.27 0.27
0.11 1.13
0.79 1.82
1.12 2.14
1.47 2.49
1.65 2.68
1.41 2.44
1.26 2.28
1.09 2.11
0.97 1.99
0.58 1.60
0.33 1.35
-0.33 0.70
-0.71 0.32
-0.97 0.05







-0.64 0.38
-0.64 0.38
-0.60 0.42
-0.57 0.45
-0.44 0.58
-0.24 0.78
0.00 1.02
0.53 1.55
0.82 1.84
1.20 2.22
0.94 1.96
0.10 1.12







-2 -i Comments
gm ''hr1







0.10
0.43
0.69
0.81
0.95
1.02
0.93
0.87
0.80
0.76
0.61
0.51
0.27
0.12
0.02

-2 -1
EP = 8.89 g m day
R = 1.02 g m"3 he'1



0.14
0.14
0.16
0.17
0.22
0.30
0.39
0.59
0.70
0.84
0.74
0.43





— 2 —"1
EP = 4.82 g m day -l
                             **Daylight savings time.
                                        100
-------
10
15
20       25
    TIME IN HOURS
30
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC  RATES  FROM D.O.  DIFFERENTIAL
              LOCATION OF  REACH:   Station  2  to 10  in Channel  5
Date:  7-19-77
Travel Time:  2.1)6
Time at
Downstream R AD. P.
Station <•"*) Bm' ta" ?m
0000
0100
0200
0300
0400
0500
0600 " 2.00
0700 -2.60
0800 -0.95
0900 1.05
1000 2.35
1100 3.65
1200 4.24
1300 4.70
1400 4.88
1500 4.99
1600 4.55
1700 3.98
1800 2.64
1900 1-07
2000 * -0.45
2100 * -2.00
2200 2'°° -3.17
2300 1-98
2400 2'14
2500
2600
2700
2800
2900
3000 T 2.00 -2.62
3100 -2.41
3200 -2.02
3300 -1.51
3400 -0.90
3500 -0.10
3600 1.10
3700 2.50
3800 * 3.19
3900 2-°° 3.70
4000
4100
4200
4300
4400 >'
4500
4600
4700
AD^O.j P_3 ^
g m ni g ni ni







-1.26 0.70
-0.46 1.54
0.51 2.51
1.14 3.14
1.77 3.77
2.06 4.06
2.28 4.28
2.37 4.37
2.42 4.42
2.21 4.21
1.93 3.93
1.28 3.28
0.52 2.52
-0.22 1.78
-0.97 1.03
-1.54 0.46





-1.27 0.73
-1.17 0.83
-0.98 1.02
-0.73 1.27
-0.44 1.56
-0.05 1.95
0.53 2.53
1.21 3.21
1.55 3.55
1.80 3.80








.5 .1 Comments
gm •'hi*
D.O. below 3 mg/fc were
not used in computing
the R-values.




0.28
0.59
0.95
1.19
1.43
1.54
1.63
1.66
1.68
1.60
1.49
1.25
0.96
0.68
0.39
0.17
ZP = 17.49 g nf2 day"1
R = 2.00 g nf3 hr"1



0.28
0.32
0.39
0.48
0.59
0.74
0.96
1.22
1.35
1.44






-2 -1
ZP = 7.77 g m day
                             "Daylight savings time.
                                       102
-------
        18
o
w
                              10
15
20        25         30


    TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION 6 PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
              LOCATION OF  REACH:   Stations  10  to  18 in Channel 5
Date:  7-19-77
Travel Time: 2.00 firs.
Time at
Downstream R AD.p.
Station C1") «m" **' gm
0000
0100
0200
0300
0400
0500
0600 f 1.70
0700 -0.94
0800 -0.22
0900 1.86
1000 2.76
1100 3.90
1200 4.06
1300 3.60
1400 3.30
1500 2.52
1600 1.60
1700 * 0.40
1800 1>7° -0.60
1900
2000
2100
2200 1.70
2300
2400
2500
2600
2700
2800
2900
3000 'f 1-70 -1.44
3100 -1.66
3200 -1.49
3300 -1.26
3400 -1.09
3500 -0.89
3600 -0.30
3700 °.56
3800 1-67
3900 3.07
4000 * 2.86
4100 1'70 2-16
4200
4300
4400
4500
4600
4700
AD:3°--i P-3 -i
gm^hi1 gmjhi'







-0.47 1.23
-0.11 1.59
0.93 2.63
1.38 3.08
1.95 3.65
2.03 3.73
1.80 3.50
1.65 3.35
1.26 2.96
0.80 2.50
0.20 1.90
-0.30 1.40
0.77
0.41







-0.72 0.98
-0.83 0.87
-0.74 0.96
-0.63 1.07
-0.54 1.16
-0.44 1.26
-0.15 1.55
0.28 1.98
0.84 2.54
1.54 3.24
1.43 3.13
1.08 2.78





p_, ., Comments
gm hi *
D.O. below 3 mg/l were not
used in computing the
R-value .




0.46
0.59
0.97
1.14
1.35
1.38
1.30
1.24
1.10
0.93
0.70
0.52
0.28
0.15


IP = 12.11 g m~2 day"1
R = 1.70 g m~3 hr"1



0.36
0.32
0.36
0.40
0.43
0.47
0.57
0.73
0.94
1.20
1.16
1.03




IP = 7.97 g m~2 day"1
                             **Daylight savings time.
                                        104
-------
o
(Jl
         18
         16
         14
         12
         10
                                      '


                                 I
                                                                           I
                                                                                 (

                                                            I
                               10
15
20        25        30



    TIME IN HOURS
35
40
                                                             45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
              LOCATION OF REACH:   Stations  2 to 10  in  Channel  8
Date:  7-19-77
Travel Time: 2.00 Hrs.
Time at
Downstream R AD.O.
Station O"5) B"1" hi" gm
0000
0100
0200
0300
0400
0500
0600 A 1.58
0700 -2.50
0800 -1.35
0900 -0.35
1000 0.81
1100 2.00
1200 1.50
1300 0.78
1400 2.90
1500 5.40
1600 3.40
1700 1-22
1800 -0.85
1900 -3.10
2000 | L58 -3.30
2100
2200
2300 1.76
2400 1.62
2500 1.47
2600 1.47
2700
2800
2900
3000 f 1.58 -2.45
3100 -2.40
3200 -2.43
3300 -2.50
3400 -2.35
3500 -2.15
3600 -1.60
3700 -1.00
3800 -0.10
3900 0.84
4000 * 0.56
4100 1-58 0.12
4200
4300
4400 4-
4500
4600
4700
AD.O. P







-1.25 0.33
-0.68 0.90
-0.18 1.41
0.41 1.99
1.00 2.58
0.75 2.33
0.39 1.97
1.45 3.03
2.70 4.28
1.70 3.28
0.61 2.19
-0.43 1.16
-1.55 0.03
-1.65









-2 -i Comments
gm •'hi
1) Depletion in O.O. during
the day occurs in both
curves..

2) D.O. values bslow 3 mg/£
not used in computing
respiration rates.
0.13
0.36
0.56
0.80
1.03
0.98
0.97
1.21
1.71
1.31
0.88
0.46
0.01




ZP = 10 ..41 g nf2 day'1

I = 1.58 g nf3 hr"1



-1.23 0.36 0.14
-1.20 0.38 0.15
-1.22 0.37 0.15
-1.25 0.33 0.13
-1.18 0.41 0.16
-1.08 0.51 0.20
-0.80 0.78 0.31
-0.50 1.08 0.43
-0.05 1.53 0.61
0.42 2.00 0.80
0.28 1.86 0.74
0.06 1.64 0.66











ZP = 4.48 g nf2 day"1
                             **Daylight  savings  time.
                                        106
-------
18
                      10
15
20        25        30
     TIME IN  HOURS
35
                                                                                 40
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL



              LOCATION OF REACH:   Stations  10  to  18 in Channel 8
Date:  7-19-77
Travel Time;  2.0(i Hrs.
Time at
Downstream R AD.O.
Station Ous) gm~ hr" gm~
0000
0100
0200
0300
0400
0500
0600 A 1.58
0700
0800 0.20
0900 1.80
1000 3.10
1100 4.70
1200 5.25
1300 5.50
1400 5.66
1500 5.50
1600 3.80
1700 1.70
1800 0.05
AD.O. P







-2 -1 Comments
gm hr
1) D.O. values be].ow 3 mg/Jl
would not be uiied in comput
ing respiration rate due to
D.O. limitation.
2) Respiration ral:e assumed
same upstream as downstream

0.10 1.68 0.64
0.80 2.48
1.55 3.13
2.35 3.93
2.63 4.21
2.75 4.33
2.83 4.41
0.94
1.19
1.49
1.60
1.65
1.68
2.75 4.33 1.65
1.90 3.48
1.32
0.85 2.43 0.92
0.03 1.61 0.61
1900 * -1.55 -0.78 0.81 0.31
2000 1 1.58 -2.35 -1.175 0.41 0.16
2100
2200
2300
2400
2500
2600
2700
2800
2900










-2 -1
IP = 14.16 g m day
R = 1.58 g m~3 hr""1



3000 * 1.58 -1.54 -0.77 0.81 0.31
3100 -1.77 -0.89 0.69 0.26
3200 -1.70 -0.85 0.73 0.28
3300 -1.60 -0.80 0.78 0.30 .
3400 -1.40 -0.70 0.88 0.33
3500 -1.07 -0.54 1.05 0.40
3600 0.25
3700 2.00
3800 2.45
3900 2.65
4000 jr 1.95
4100 1-58 0.95
4200
4300
4400 >'
4500
4600

4700
0.13 1.71 0.65
1.00 2.58 0.98
1.23 2.81 1.07
1.33 2.91 1.11
0.98 2.56 0.97
0.48 2.06 0.78












-2 —1
IP = 7.44 g m day
                             **Daylight savings time.
                                         108
-------
o
VD
      Cr>
      e
o  .
                                10
                                     15
20        25        30


    TIME IN HOURS
35
40
                                                                                                        45
-------
     HOURLY RESPIRATION  &  PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
              LOCATION OF REACH:  Stations 2 to 10 in Channel 5
Date:  8-23-77
                                      Travel Time:  2.0<> Hrs
Time at
Downstream
Station 0>«)
p
gm^hr"1
AD. 0.
gm'J *
AD:3°M
gmjhi *
P
g m'3 hi"1
gm^hr'1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
1.06
 .12
 .31
 .90
 .08
 ,06
 ,02
 ,01
1.01
16
81
        0.35
              -0.56
              -0.39
               0.17
               0.83
                .56
                .34
                .20
                .98
               1.75
               1.51
               0.78
              -0.06
1.06   -1.42  -0.69
        1.70
        3.22
        4.82
        4.53
        4.07
        3.61
        3.11
          61
          12
     1.
     2.
     2.
     1.
0.50
0.67
 .23
 .89
 .62
 .40
 .26
 .04
2.81
2.57
1.84
1.00
1.
1.
2.
3.
3.
3.
                      0.37
                                      1)  D.O. error in Station 2
                                          1610 Hrs.
0.19
0.25
0.47
0.72
 .00
 .29
 .24
 .16
 .07
0.98
0.70
0.38
0.14
1.
1.
1.
1.
1.
                      ZP = 9.59  g  nf2  day"1

                      i = 1.06  g  nf3  hr'1
                                     g m~  day"
                             **Daylight savings  time.

                                        110
-------
10
15
20        25
  TIME  IN HOURS
30
35
                                                                     45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL
              LOCATION OF  REACH:   Stations 10 to 18 in Channel 5
Date;  8-23-77
                                      Travel Time;  2.0(1 Hrs.
Time at
Downstream
Station O1")
R
gm^hr"1
AD. 0.
gnT
^D:3°M
gm-'hi '
P
g m"3 hr"1
P
gm'2!!!'1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
       **
0.86
0.86
  26
  99
  86
  72
  73
  74
0.75
  .60
  .64
  .38
  .20
 2.95
 3.75
 3.21
 2.29
 1.78
 1.21
 0.25
-0.85
-1.18
0.
0.
1.
2.
   ,30
   ,32
   .69
   .10
   ,48
   .88
   .61
 1.15
 0.89
 0.61
 0.13
-0.43
-0.95
0.
0.
0.
1.
1.
1.
1.
  16
  ,18
  .55
  ,96
2.34
2.74
2.47
2.01
1.75
1.47
                        99
                        44
                     -0.11
0.43
0.44
0.57
0.73
 .87
 .01
 .91
 .74
 .65
 .54
0.37
0.16
                              0.
                              1.
                              0.
                              0.
                              0.
                              0.
                                       -2    -1
                          ZP = 7.42 9 m   day

                           R = 0.86 g m   hr
                                IP =
                                    g  m    day
                             **Daylight savings  time.

                                          112
-------
    18
    16
    14
    12
    10
O    8
Q
     6.
                                  t>
                                             I

                                           :
                          10
15
20        25        30  .
     TIME IN HOURS
35
40
45
-------
     HOURLY RESPIRATION  &  PHOTOSYNTHETIC RATES FROM D.O. DIFFERENTIAL

            LOCATION OF REACH:  Station 2 to 10 in Channel 8

Date:   8-23-77                              	   Travel Time;   2.06 Hrs
Time at
Downstream
Station C1")

R
gm hi

AD .P.
gm

AD.O.
gm hr

P-3 -1
gin •'hi1

P
gm hr

Comments

0000   **
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
•3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
1.39
1.
1.
1.
 .59
 .67
 .53
1.37
1.31
1.21
1.21
1.21
         .28
         .41
       -0.02
        0.30
         .03
         .98
         .09
         .98
         .54
         .05
         .05
         .27
-1.
-0.
        1.
        1.
        2.
        1.
        1.
        1.
       -0.
       -1.
-0.62
-0.20
-0.01
 0.15
 0.50
 0.96
          01
          96
        0.75
        0.51
       -0.02
       -0.62
77
19
38
54
89
35
40
        2.35
         ,14
         .90
         .37
         ,77
1.39   -2.18  -1.06   0.33
0.31
0.48
0.55
0.62
0.76
0.94
0.96
0.94
0.86
0.76
0.55
0.31
0. 13
                       P  =  8.17 g m  2 day"1

                       R  =  1.39 g m~3 hr"1
                                       g m    day
                             **Daylight  savings  time.

                                          114
-------
   18
    16       11
    14
    12
    10
en





O    8
 •

P
                                    15
20        25         30



    TIME  IN HOURS
35
40
45
-------
     HOURLY RESPIRATION & PHOTOSYNTHETIC RATES FROM D.O.  DIFFERENTIAL

            LOCATION OF REACH: Station 10 to 18 in Channel 8

Date:    8-23-77                                  Travel Time:  2.00 Hrs.
Time at
Downstream
Station 0")
T>
gnf'hr"1
AD. p.
gnfj
AV-1
gm'hi1
P
g m'3 hi'1
P
gm^hi"1
Comments
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
4000
4100
4200
4300
4400
4500
4600
4700
1.59   -1.17
       -0.78
        0.39
        1.80
       . 3.50
        4.77
        4.79
        3.50
        2.46
        1.52
        0.16
       -1.52
1-59   -2.62

1.81

1.43
1.54
               ZP
                        D.O. values below  3  mg/Z,
                        not used in calculating
                        R-value
-0.59   1.00    0.38
-0.39   1.20    0.46
 0.20   1.79    0.68
 0.90   2.49    0.95
 1.75   3.34    1.27
 2.39   3.98    1.51
 2.40   3.99    1.52
 1.75   3.34    1.27
 1.23   2.82    1.07
 0.76   2.35    0.89
 0.08   1.67    0.63
-0.76   0.83    0.32
-1.31   0.28    0.11
                f = 11.06 g m~2 day"1

                R = 1.59  g m"3  hr"1
                                        -2  ,  -1
                                    = g m   day
                             **Daylight savings time.
                                         116
-------
           APPENDIX C







HYDRAULIC MEAN DEPTHS FOR 1976-77





     DIEL D.O. CURVE ANALYSIS
              117
-------
     HYDRAULIC MEAN DEPTHS FOR 1976-77 DIEL D.O. CURVE ANALYSIS  (METERS)

Date
Station
7-28-76
6
14
8-5-76
6
14

Nos.

10
18

10
18
Channel Nos.
1 4

0.53 a 0.53 a 0
0.49 a 0.49 a 0

0.53 a 0.53 a 0
0.49 a 0.49 a 0
5

.53
.49

.53
.49


a
a

a
a


0
0

0
0
8

.53
.49

.53
.49


a
a

a
a
10-27-76
2
10
1-26-77
2
10
4-25-77
2
10
7-19-77
2
10
8-23-77
2
10
10
18

10
18

10
18

10
18

10
18
0
0

0
0

0
0

0.40 c 0
0.38 c 0

0
0
.34
.36

.34
.36

.34
.36

.38
.37

.38
.37
b
b

b
b

b
b

c
c

c
c
0
0

0
0

0
0

0
0

0
0
.34
.36

.34
.36

.34
.36

.40
.38

.40
.38
b
b

b
b

b
b

c
c

c
c
a - Determined from 10-4-76 and 10-18-76 morphological survey in Channel 1.
b - Determined from 4-6-77 morphological survey in Channel 1.
c - Determined from 8-4-77 and 8-5-77 morphological survey in Channels 5
      and 8.
                                   118
-------
            APPENDIX D
   COEFFICIENT DERIVATION FOR





   ADJUSTMENT OF PARTIAL DAILY





   RATES OF PHOTOSYNTHESIS TO





TOTAL DAILY RATES OF PHOTOSYNTHESIS










              (EXAMPLE)
               119
-------
                                              -2    -1
      HOURLY  PHOTOSYNTHETIC RATES  (gm    hr   )  FROM D.O.

                   DIFFERENTIAL ON APRIL 25, 1977.
Time at Channel 5
Downstream
Station (hrs.) Station 2 to 10
0000
0100
0200
0300
0400
0500
0600 .
0700
0800
0900
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
0.18
0.31
0.37
0.42
0.46
0.49
0.48
0.46
0.42
0.38
0.29
0.20
0.09
2000
2100
2200
2300
2400
I P(total) 4.55
I P(10 hours) 3.97
Channel 5
Station 10 to 18


0.23
0.37
0.46
0.53
0.57
0.60
0.56
0.54
0.48
0.40
0.29
0.15
0.03





5.21
4.74
Channel 8
Station 2 to 10


0.29
0.59
0.77
0.94
1.03
1.11
1.09
1.06
0.93
1.01
0.52
0.48
0.27





10.09
8.82
Channel 8
Station 10 to 18


0.40
0.75
0.86
0.94
0.95
0.95
0.88
0.74
0.65
0.53
0.36
0.16
0.01





8.18
7.65
                  1.15
                                    1.10
                                                      1.14
                                                                        1.07
                    Mean Coefficient Value =
                                                 = 1.12
The 4-26-77 data set  contained only  10 of the 13  daylight hours.  The coefficient was
derived  by dividing the total daily  photosynthetic rates for  each segment by  the sum
of the first 10 hourly photosynthetic rates.  The four coefficients were iiveraged to
determine a mean coefficient value that represents the fraction by which t:he  4-26-77
photosynthetic rates  were initially  underestimated.
                                      120
-------
                 APPENDIX E
             DORM INPUT DATA AND





       SIMULATION PRINTOUTS FOR 8 RUNS





(INPUT DATA FORMAT FOLLOWS SPECIFICATIONS IN





APPENDIX B OF GULLIVER ET AL, 1980)
                      121
-------
                                     DORM  INPUT DATA FOR APRIL 25 and 26,  1977

                                        IN CHANNEL 5 FROM STATION 2  TO 10
                    II
                              O.Q.1
                                        720.
                                                  25.0
                                                            HOP.
                                                                      0.46
                                                                                36.
                                                                                            . 00

5
17.
10
91
100

P
7
7
•
4. 00
0 00
44F-4
19
3. 37
A AO
HF).
100
5. OflR-4
CHANNF'I 5

3. f!
IB
17.7
10 7
D4.
100
45. 0
lOF-f,
20
3.99
A 2O
74.
100.
5. ORF-4
APPTI 25

1
113.
1 1
67
100

93.0
J744

. 47FOO
2_ 2
4
ri

4. 00
A 7O
67.
100
5. OftF-4
1977
17.
11
67
100
5
90 0
3 0
2 3. 31
3 A 4O
. 51.
100
ORF-4
0.001 1.00 0.00

If,. 4
1O 9
35.
100
5.0BF-4 5.0HF-4 5.0F1F-4
1.045



5. 08F-4
to
to
9.25 9. OR FI.91 FI.74 B.f.B 8.41
14. (3
13. 5
13. 2
13.3
1.4. 1
14. B
15. 1.
15.0
1.4.5
14.4
1.4. 5
14. 3
14. 3
1.4.0
13. A
1 3 . n
14. 4
15.4
1A. 0
16.2
2.0 2.7 2.5 3.2 3.B 5.2 5.6
3.0 3.4 3.F) 5. A 5.0 4.5 3.7
332. 333. 346. 349. 351. 324. 324.
IBS. 162. 178. 1F)2. 2.1.9. 252. 279.
9.25 9.10 9.5010. 101.0. FI51 1 301 1 .501
9.30 9.00 9.50.10.201.0.601.0.9011.00
F1.24 n.07 7.90
12.6
12. 5
12. 4
13 4
15.0
1A. J
16. 4
IS. 6
1. 4 . 4
1.3.6
13.3
13. 2
13. 4
13 2
13.2
14. 2
15. 6
17.0
17.6
1.7.0
4.5 3.0 2.0 1.8 2.4
320. 352. 197. 17FI. 19P.
1 . 201.0. H010. 15 9.90 9.65 •;.
               4. 03 A. 03 F). 0310. 031 2. 031 4. 0316. 03] P. 0320. 032.2. 0324. 0326. 03
              28.0330.0332.0334.0336.033R.0340.03
               8.00 9.3010. 4O11 . 40.1 1 .9011 . B010. 90 9.10 0 70 F» 30 Fl 30 7 90
               7 . 70 9 . 20.10. 601.1 . 30H . 701.1 . 55	;	
               6.12  8.1210.1212.1214.121A.1218.1220.1222.1224.1226.122R.12
              30.1232.1234.1236.1238.1240 12	
-------
              DORM SIMULATION PRINTOUT FOR APRIL  25 AND 26, 1977

                    IN  CHANNEL 5  FROM STATIONS  2 TO 10
	FSTTM6TTON  OF CHANNFI  COMMUNITY Pt-ltlTOSYNTHFT T P ANfl RFT.PTRATnRY RATFS


	FlY MIIMrpTf.AI I Y ROIITTNF.  I1TF1  riTf.cjni UFTl  OXYRFN HF6BIIRFHFNT5	


	BFTUFFM TUP
                                        PftTF  -  aPP'TI  7S   1977
    LIST OF SYMBOLS:
    C = J.i.0. CONCENTRATION  0/M**3)
    F.PR =  COFFFICIF.NT WHICH  PPITCIFIPS TIMF  PTFP MF.THOn
   	U . 0  FOR
    P = PHCITOSYNTHFTIC RATF  OF ri-IANNFl. REACH  (G/(M*H*HR)>
    T = UflTFK'  TFMPFfraTltPF  f TlFf!  T<	
    TR = HYnRAiu..ir. RESinFNrr.  TJMFI nF HHANNFI.  RFAHH 
    TMPIIT TlA.TA_
                   TTMF TMPJJFMEMT =
    COMPUTATIONAL DISTANCE INCRF.MF.NT =  7./> M
    ££•'•; =  1  nn	'
    05TAR =   .01
    MaYTHIIM  FPBnR.-TM.-tJ-HP  P  FQP TTrpATT"N rPNl'FPHFNrF =  .001.0 P
    MAXIMUM  ITERATIONS = 20
                  rtKRMFMTUP RF.L.flTIPM - 1.005
    CONSTANT  RFPRFSrNTATTNP  RF.'RP'ir.lAT.TON INHIBITION PUF. TO  LOU P.  0. CONC.  =     0 B/M**3
                       FIT TO-UP-CTftEAM-O.
    TNPUT fiATA  FOR F.ACH FFGMF.NT
SFfiMF.NT NHMHF.R
TWITIAI P 0 AT JJPSTREAM
FNn OF SKRUFNT <0/M**3>
crrnrNT ( rKPrTH FCT. AREA (M*«)
	 cupcarr urriTu /MI r ,
?
9. 25
.1 . A4
3
9. OP
. 31
"i 01
4
Ft. 91
-^n "v
.t. A4
•i 04
CJ
8.74
"W "i
.37
\ O^f
*
0.50
10 "f
1 .73
T 4^
7
8.41
10 ^
.37
2 04
ft
B.ZA
1. AO
-2-44-
9
8.07
TO *v
. 31
1.0
7. 90

-------
I-J

UFATHFR PfiTA
TIME I-JTNI)
UPI nr.TTY

S 00 7 00
7.00 7.70
9 OO 7 SO
11.00 3. 70
13 oo 3 no
JS.OO 5.70
17 OO 5 AO
19.00 4. SO
71 00 3 00
23.00 2.00
1. 00 1.00
3.00 2.40
5.00 3.00
7.00 3.40
9.00 3.F10
It. 00 5.60
.1.3.00 5.00
15.00 4. SO
17.00 3.70
INPUT TO MnnFL
WTND AIR
niKECTinN PRESSURE
(DrGREES) (MB)
TT7 00 991 A7
333.00 991.67
34A 00 971 A7
349.00 991. 67
351 00 991 A7
37.4.00 991.A7
374 00 991 A7
370.00 991.A7
35? 00 991 A7
.197.00 991. 67
178.00 991.67
19H.OO 991 .67
1.85. 00 991 .67
162.00 99.1.67
17H. 00 991 .67
187.. 00 991.67
219.00 991.67
252.00 991.67
779.00 991.67

MEASURED DISSOLVED
UPSTREAM
TIME D.H.
3. OS 9.2S
5.05 9.1.0
7.05 9.50
9.05 10.1.0
11.05 10.FJ5
13.05 11.30
.1 5 . 05 1 .1 . 50
17.05 11.20
19.05 10.50
?1.05 10.15
23.05 9.90
25.05 9.A5
27.05 9.30
29.05 9 00
31.05 9.50
33 05 10 70
35.05 10. /.O
37 Ofi 10 90
OXYGEN (0/M**3)
riOWNPTRFiAH
TIME n.n.
5.70 8.00
7.20 9.30
9.70 1.0.40
11.20 11.40
13.20 11.90
15.20 1.1.80
17.7010.90
1.9.20 9.10
7J.70 B.70
73.20 8.30
75.70 R.30
77,20 7.90
79.70 7.70
31 70 9 20
33.70 10.60
35 70 1 1 30
37 . 20 11. 70
39.20 11 55
                       39.05  11.00
-------
to
Ul
STANDARD RESPIRATION RATE •
STANDARD RESPIRATION RATE «
. 4/.00 B/
-------
to
COMPUTED VALUER

OF SURFACE 0. 0
P 1 t D C~ A P C irVfll
SATURATION n
AM n I.I A T tT D T r*
. EXCHANGE «3/(M*M*H:
AN RE— T,Of^F-J CT-E-MT < /H
. 0. CONCENTRATION ,
0 \
/M**3)/




FOR EACH CHANNEL SEGMENT

RF.CTION NO.
TIME « 5.
c*i ir-'C'APir rvni.1
se COEFFICIENT
CAT n n POMP
TEMPERATURE
TIME a 7.
SURFACF FXril
CAT ri n rnur
TEMPERATURE
TIME - 9.
cnr/rapr rxpH
RE COEFFICIENT
. - r.AT n n rnwr
TEMPERATURE
TIME .«= 1) .
r.lIRFACF FXr.14
CAT n n rnwr
TEMPERATURE;
TIME « 13.
RIIRFACr FXQR
r.F. COEFFICIENT
TEMPERATURE
1 I nh. • If,.
RURFAr.r Fxri4
RE COEFFICIENT
SAT n.n r.oN.c.
TEMPERATURE
TIMC B 17.
SURFACE EXCJ,
SK COEFFICIENT
SAT. 0.0. CONC.
TFMPFRATURE
7. 3
00 FLOW RATE -
()"H J (> A 1 *? f
.0772 .0771.
9 90 9 96
1.4.66 14.39
00 FLOW RATE =
.0774 .0771
1 n 1 1 1 fi r»n
13.44 13.31
00 FLOW RATE -
. 0767 . 0767
1 0 74 . 1 0 .27
13. If, 13. Of,
. 00 n.OU RATF "
- 007«i - 0034 -
.076R .0767
10 71 10 70
.13.3] 13.3?
00 FLOW RATE =
- 0397 - 0140 -
. 0770 . 0770
10 01 9 9R
14.16 14. ?7
OO (-LUW Kftlfe =
- 0739 - 0739 -
.0947 .0916
9 R?i 9 R1
14.88 15.04
00 FLOW RATE =
-.0789 - 0247 -
. 09B1 . 0947
9.78 9.75.
.IS. IB Ifi. 34
4 5 6
.0343 
0460 019°! n^Tr?
. 0769 . 0767 . 0767
ai'l 1 t\ ?J. 1 A ?O
1.3. I1? 13. 06 17. 94
.0343 (M**3/KEC)
n^>m nori9 n-?i7
. 0767 . 0766 . 0766
1O 99 in T( 1O T4
17..95 12.05 12.75
7
_^04?4.g_
. 0767
in TM
13.29
0209
. 0766
-10,32-
oom
. 0766
10 76
17..65
.0343 (M**3/Bf;:C)
0176 -.0060 - 016B - O071
.0767 .0767 .076B
10 70 10 70 10 19
13.33 13.34 13.36
.0343 (M**3/r>EC>
- 04fH -.0704 - 0^49
.0770 .0770 .0771
9 9A 9 97 9 91
14.38 14.49 14.61
0771 - 07F19 - 0741
. 0877 . 079B . 077A
9 7n 9 74 9 71
15.21 15.37 15.53
.0343 
-------
to
TIME = 1.9.
SURFACE. FXCH.
SE COEFFICIENT
RAT. P.O. CONC.
TEMPERATURE.
TIME = 71 .
SURFACE EXCH.
RE COEFFICIENT
SAT. n.n. CONC.
TEMPERATURE.
TIME = 23.
Rl IRE ACE EXCK.
RE COEFFICIENT
RAT. P.O. CONC.
TEMPERATURE
TIME = 1 .
SURFACE FXCH
RE COEFFICIENT
QaT n n rnwr
TEMPERATURE
TIMF. = 3.
RHREACF FXCH
RE COEFFICIENT
RAT n.n CONC
TEMPERATURE
TIME = 5.
r.URFACF FVCH
PF COEFFICIENT
n«T n n POMP
TEMPERATURE
TIMF. «= 7.
SURFACE FXCH
BE COEFFICIENT
f!AT n n CONC
TEMF'ERATURE
TIME = V,
SURFACE EXCH
RE COEFFICIENT
RAT 1i 0 rONC
00 FLOW
~.04VR -
. 092?
9.P)
15. 04
oo FLOW
-. 014A -
. 0770
9. 93
14. 49
00 Fl.ntJ
-. 000?
. 0770
9. 97
1 4 . 35
00 FLOW
OOF17
. 0770
9 9S
14. 43
00 FLOW
0715
. 0770
9 99
14. 73
00 FLOW
0343
. 07A9
9 99
1.4. 24
00 FLOW
. 0772
10 OA
13. 95
RATF =
. 0898
9. 80
1.5. 11
RATF. =
. 0018 -
. 0770
9. 94
14. 4(3
RATE =
. 0031
. 0770
9 99
1.4. 25
RATE =
OOAO
. 0770
9 9P1
14.27
RATE ' =
0097
. 0770
14. 09
RATF =
0135
. 07A9
10 07
.14.13
RATE -
_ O175,
. 0770
_10_00
13.H5
.OO Kl. 1'IW KflTI: =
0149 0044
. 07AR
1O 1 4
10 15
. 0343
-.0308 -
086*
9.78
15. 19

0174 -.0703
. orioi
9.77
15. ?6
. 0778
9.75
15. 34
.0343 
-.0001 .0029 . 017A
. 0770
9. 94
14. 47
. 0343
.0172
. 0770
10.01
14. 15
. 0343
07AR
. 07A9
i n n?
.14. 12
.0343
0384
.0770
10 OA
13.96
. 0343
O499
. 07A9
1 ft O4
) 4 . 02
. 0343
	 Q4/»4_
. 07A9
_1.Q_1.0._
13. 75
0114 	
. 07AE1
1O 17
. 0770
9. 94
14.46
. 0770
9 . 95
34. 44

.0.1.0? .0329
. O772
1.0. 03
14. 05
. 0775
10 OA
13.95
(M*#3/REC>
0141 O43?
. 07A9
t n n*.
13.97
. 07A9
1 O rt9
13.82

_OJ.9J_
.0768
J.a_L3_
13.6.1)
_0054
. 07A9
1O 1fl
. 0778
in 09
1 3 . 79
'RF.C>
	 0525
. 07A8
_JJ)_15
13.55
/«!:.(';>
0145
. 077A
10 19
.077D
1O 17
13.6P
07O9
.0768
10 17
13. 45
OO53
.077A
10 70
-.0713
. 0779
9. 7?
15. 49
. 0277
. 0770
9. 95
14. 42
. 0449
. 0774
1.0. 10
13. 75
0555
.07A8
1O 1 =!
13.53
OA57
.0784
10 18
13.41
0770
.0777
10 14
13. 57
OS73
.0767
10 70
13.35
- OOA3
. 0772
9.70
15.56
.01.00
. 07R4
9. 95
14.41
.0183
.0788
10 13
13.65
0719
.0770
1 O 1 9
13.38
07A?
.0813
10. 71
13.27
07S9
.0019
1 n 17
13.46
:.
.0772
1O 7?
13.25
0145 005A
. 0775
10 71
.0040
1O 72 '
                 TEMPERATURE
                                   13.57   13.52  13.47  13.42  13.3B  13.32   13.27  13.22
-------
                          TIMF  =  11.00  FLOW RATH  a    . 0343 
                     sitR-Fftr.F Fxr.H     - OIOR - 004H -  oiH4  - OORQ - O?AR - 0111  - 030? -
                     SF. noFFFiriFNT   . o?/,?  .0769   .0769   .0797  . orue   .0040  .0049   .1026
                     SAT  D n	cnhir   10 09	io 07   10  o&   10  or,  10 04	10  03  10 o?  10 01
                                               1?!.R7   13.9?  13.97  14.03   14.07  14.1?   14.1.8
                          TIMP:  =  13.00  FLOW RATI-  =    .0343 
                        FACr  FXCII    -• 0703 - O?49 -  QH70 - 0377 - 1 QO?  -  Q391  - 1 04*; - Q364
                     KC COKFFICTFNT    .111?  .11?3 .1134  .1149  .114A  .1145   .1145  .1100
                     r.AT  n n  POMP __ 
-------
                                DORM  INPUT  DATA  FOR APRIL  25 and 26,  1977

                                   IN CHANNEL 5  FROM  STATION 10  TO  18
115.
o.oo
f. j AT . A
Fl 19
0.01
• *" f\
544.
— -3-rflOE-5 —
.10 20
720.
73.0
744.
10 2
25.0 000. 0.40
V/.W W , VWi A , WW
3 0
36.5
0 . 00

2. 00
i.w,.

              1-7 7-4-3 7-63-1-9TO-3r35-iy-.-2-3-r5?-l 871-2 7TJO— 18rl
              10.9 5.90 11.1  5.90 10. fl 5.90 10.7  5.40  10.7
                         81.  3S1 .  3D1 .  331.  33.1. 33 I .  SSI.
  100.  100.  100. 100. 100.  100.  100.  100.
-- STflftF:-* - HrOOP— 4
 CHANNEL 5  APRIL 25  1977
                                                       100.
to
VO
7.90 7.74 7.5(3 7.41 7.2.5
12. 5
: 1.3.4
16. 1
1(3. 4
15. A
13. A
13.2
1 ,3 . S
• 13.2
1 J . I.
14.2
17.0
17.0
. v c.rS.-J J.2 J.o U.2
3.0 3.4 3.6 5. A 5.H 4. hi
7.09 A. 93
12.
13.
17.
.
17.
10.
14.
1 J .
13.
1 .3 .
13.
1 A .
14.
1.8.
1 T .
19.
O. O 4 . U 3.
3. /
A. 76 A.AO
2
4
8
*\
4
5
1 :
A.
1
7
8 . '
0
2.0 1.8 2.4
              185.  1A2.  178.  182.  219.  252. 279.
              7.90 0.00 9. 3010T-4OHrT^HVH-r9flll. (1010.90 9.10 0. 7ft 8.30-
              7.90 7.70 9.2010. A011.3011.7011.55
             28. 1230. 1232. 1234. 123A. 1238. 1240. 12
              A.flO 0.50H)r^O.ir. 05} ?. 701S. 3510 . 00  0.40  7. CO A. 90 6.70 6 .
              6.50 8. 4010. B012. 2012. 9014. 45
            — 6. 21 O.at-hO.Jllg. ?.l
             30. 2132. 2134. ?13A. 2138.2140. 2.1
-------
                      DORM SIMULATION PRINTOUT  FOR APRIL  25 and  26,  1977

                          IN CHANNEL  5 FROM STATIONS  10 TO 18
      ESTIMATION OF CHANNEL COMMUNITY PHOTOSYJJTHETIC  AND RESPIRATORY RATES
•	BY-NUMERICALLY  ROUTING  DICL  DI550LVEn_OXY_RFN MEASUREMENTS,

	   EETUEEN  TUIO  STATIONS	
                                STARTING  DATE = APRTI  ?5  1977
      LIST OF SYMBOLS:
      C = D.0.CONCENTRATION  R/M**3>
     -jaiAR ^ riTMENS-ioNi r,qs  i oNamiiuNAL tiLSEERai.oN-NUMnER	
      EPS - COEFFICIENT  WHICH SPECIFIES  TIME  STEP  METHOD
            (1 0 fOS-FDI.IY TMEI TTTT.  0,1 FOR_CRftNIC=HICOi.SON-IMEl-XCXXX-
      P = PHOTOSYNTHETIC RATE OF CHANNEL  REACH  (G/(M*M*HR»
      T_=_UA-TER_IEMPERa.TURE_jCJiF.G__CX.
      TR = HYDRAULIC RESIDENCE  TIME OF CHANNEL REACH  (HR)
      INF:UT._DAI.A_
     _CLOMEUTA.TIONAL_.TItlE_ INCREMENT.. =	720-_SEi
      COMPUTATIONAL DISTANCE INCREMENT =  7. A M
     _PPSL=_1_QQ	
      DSTAR -  . 01
     _-MAXIitUM_ERROR_IN_R_OR_E_EOR_LIERAilON_CONUERGeNCE-=j	0010_G/-tM*M*HRX-
      MAXIMUM ITERATIONS - 20
                                        j	0.4 5L
      CONSTANT RF.PRESENTATINQ RESPIRATION  INHIBITION  IHJE TO LOU D.  0. CONC.  -     0 G/M**3
                                         3^_Q	MEAF,UR£MEHTS_-_3	
      INPUT DATA FOR EACH SEGMENT
           Sf?n«F.NT NiiMnrR     10     31     12     n     i4.    is    IA     17     IB
 TNTTTAI.  n n  AT I IFT.TKrFAM ...
-------
END OF SEGMENT 
-------
to
ro
MEASURED DISSOLVED OXYREN
(G/M**3)

UPSTREAM DOWNSTREAM
TIME D.Q. TIME D.O.
3.20 7.90 5.35
5.20 B.OO 7.35
: 7.2.0 9.30 9.35
9.20 10.40 11.35
11. .20 11.40 13.35
' 13.20 1.1.90 15.35
.15.2.0 11.00 17.35
17.20 10.90 19.35
19.2.0 9. JO 21.35
21.20 8.70 23.35
23.20 0.30 25.35
25.20 8.30 27.35
27.2.0 7.90 2.9.35
29.20 7.70 31.35
31.20 9.20 33.35
33.20 10. AO 35.35
35.2.0 11.30 37.35
37.20 11.70 39.35
39.20 11.55 0
STANDARD RESPIRATION RATE •
STANDARD RESPIRATION RATE -
STANDARD RESPIRATION RATE -
 AT 20 DEG C MEAN ERROR - -.0001



.






5 ITERATIONS
8 ITERATIONS
10 ITERATIONS
RESULTS OF COMPUTATIONS:
.
: STANnARD RESPIRATORY RATE =
SUNRISE TIME = 5.07

.5299 (VCM*M*HR> AT 20 DEG C


SUNSET TIME =19.86
10 ITERATIONS
-------
ROUTED TOTAL COMMUNITY
TIME
5.
7.
9.
S:
15.
17.
19.
21.
PHOTOSYNTHETIC AND RESPIRATORY RATES
P R RESIDUA) TR
	 G/ ( M*M*HR ) 	
35 .091 .379
35
35
35
35
35
35
35
35
2.3 . 35
1.35
3.
5.
7.
9.
11 .
13
15.
35
35 	
35
35
35
35
35
. 47.A
. 680
. 706
.791
. 642
.309
0
0
0
0
0
044
.473
741
.825
R7H
1. 117
.379
. 397
. 431
. 470
..455
. 429
410
.397
393
.394.
39?
.395
415
. 448
4HO
.468
G/M**3 HR
.000 .1.999
-.000
.000 1
1 . 999
999
. 000 1 . 999
.000 1. 999
.000 1.999
.000 1.999
-.236 1.999
- 094 1 999
.017
057
.019
OOO
-.000
000
.000
- OOO
-.000
.. 999
. 999
..999
999
. 999
999
..999
1 999
1 .999
      DAY  .1
      THTAI DAT! V  RESPIRATION =
                                 _SL_2805G/.M**2_
      TOTAL DAILY PHOTOSYNTHESIS =
      P/R RftTTn =	ZA9JZ	
                   7.4819G/M**2
      TOTAL nAILY  RESPIRATION = 10.BOAOG/H**2
     -TOTAL PAXL.Y—gHaTJaYN.T.H£SXS-g	
      P/R RATIO =   .7548
 COMPUTED VALUES OF SURFACE  D.  0.  EXCHANGE 
 StlRFArF. EXCH.     .0921	OJJBJ	102.4	Q.4Q3	130S_
 SE COEFFICIENT    .0740  .0749  .0739  .0774  .0774
                                   _0.4 67	13 4J	0392_
                                    .0774  .0774   .0774
 TEMPERATURE
L
-------
M
U>
TIME = 7.
SURFACE EXCH.
RE COEFFICIENT
RAT. P.O. CONC.
TEMPERATURE
TIME = 9.
RURFACE F.XCH
RE COEFFICIENT
RAT. D.O. CONC.
TEMPERATURE
TIME = 11.
SURFACE EXCH.
SE COEFFICIENT
SAT. H.O. CONC.
TEMPERATURE
TIME = 13.
SURFACE EXCH.
SE. COEFFICIENT
SAT. D.O. CONC.
TEMPERATURE
TIME = 15.
RURFACE EXCH.
SE COEFFICIENT
SAT. D.O. CONC.
TEMPERATURE
TIME = 17.
SURFACE EXCH.
SE COEFFICIENT
SAT. 0 O CONC
TEMPERATURE
TIME = 19.
SURFACE EXCH.
SE COEFFICIENT
SAT. no CONG
TEMPERATURE
'"" ' TTMF = 71.
SURFACE EXCH
: SE COEFFICIENT
RAT. D.O. CONC.
TEMPERATURE
TIME = 23.
: SURFACE EXCH.
SE COEFFICIENT
SAT n n rnwr,
TEMPERATURE
00 FLOU
. 0737
.0744
10. 40
12. 48
00 FLOU
.0316
.0758
12738~
00 FLOU
-.0213
.0003
10. 18
13. 40
00 FLOU
-.0737
.OB59
9. 81
15. 06
00 FLOU
-.0072
.0765
9.57
16. 21
00 FLOU
-. 0769
.0772
9 50
16. 52
00 FLOU
-.0229
.0749
9.67
15.71
"oo FI..OU
.0350
. 0000
9. 94
14.48
00 FLOU
. 0626
.0775
10. 12
13. 66
RATE =
0320
.0780
10.41
12.. 44
RATE =
. Ot31
. 0798
-ULA*—.
12.34
RATE. =
-.0107 -
.0076
10. 18
13. 40
RATE =
-.0345 -
.0953
9. 79
15. 17
. 0343
. OB93
.0739
10 42
12. 41
. 034.3
. 0355
.0738
.10.44 	
12.31
.0343
.0269 -
.0741
10. IB
13. 40
.0343
. 0788 -
.0745
9.76
15.2.8
RATE = . 0343
-.0433 -. 1126 -
. 0917
9.52.
16. 4.2
RATE =
-. 0382 -
.0949
9 4Fi
16. 77
RATE =
-.0098 -
.0833
9 62
15. 94
RATE =
.0166
.0061
9 90
14.64
RATE »
.0272
.0783
10. 10
13. 77.
. 0818
9.43
16. 63
. 0343
.0971 -
. 0037
9 4O
17.02
. 0343
.0281 -
.0813
9 57
16. 16
. 0343
.0417
.0744
9 87
14.81
.0343
. 0767
.0742
10.07
13. 88
(M**3/SEC)
. 0357 1166
.0843 .0843
10.43 10 44
12.37 12.33
(M**3/SEC>
.0135 04S1
.0833 .0633
1 0. 45 	 10.- 4 6_
12.27 12.23
(M**3/RF.C)
.0127 -.0407
.0723 .0923
10 IB 10 IB
13.40 13.40

.0185 .0587
.0094 .0894
9 83 9 79
14.97 15.13
O419
.0843
10 45
12. 7.9
0162
121O
.0043
10 46
12.26
04R7
.0834 .0834
10 47 10.48
12. .19
. 0923
10 IB
13. 40
- 04J»1
. 1003
9. 69
15. 62
-.0622
.1121
9.35
17. 27
-.0523
. 1174
9 ?S
17.77
- 01 24
. 1008
9 44
16.84
M^^V^«_^^^^—
.0214
.0893
9 76
15.29
(M**3/SEC)
.0209 .0944 .0345
.0769 .0769
10 05 10 02
13.99 14.11
.0769
10 00
14. 22
12. 16
_^-0_4_lQ_
. 097.3
10 IB
13. 40
- X?55_
. 1003
9.67
15.73
-'. 1773
. .1120
9 31
17. 48
-. 1490
. 1173
9 ?O
18. 02
- 0366
. 1007
9 39
17.06
^^••^^^•^^^•^•^^
.0597
.0893
9 72
15.46
.0992
.0769
9 97
14.33
0360
. 0843
10 47
12.22
014A
.0834
10 49
12. 12
- 0173
.0923
1 0 1 R ._...'
13.40
- 0375
. 1002
9.64
15.84
-0525
. 1120
9 27
17. 69
- 0435
.1172
91?;
18.27
- 0102
. 1007
9 35
17.29
-
.01B1
.0893
9 69
15.62
.0300 '
.0769
9 95
14.44
-------
UJ
ui
TIME = 1.
SURFACE EXCH.
00 FLOW
. 0715
SE COEFFICIENT . 0750
SAT, 0.0. CONC. 10.21
TEMPERATURE
TIME « 3.
RE COEFFICIENT
TEMPERATURE
TIME = 7.
SURFACE EXCH.
SE, COEFFICIENT
RAT. 0.0. CONC.
TEMPERATURE
TIME = 9.
SURFACE FXCM.
F5F COEFFICIENT
SAT. D.O. CONC.
TEMPERATURE
TIME = 11.
SURFACE EXCH.
SE COEFFICIENT
SAT. D.O. CONC.
TEMPERATURE
TIME = 13.
SURFACE EXCH.
SE COEFFICIENT
SAT. D.O. CONC.
TEMPERATURE
TIME •> 15.
SURFACE EXCH.
SE COEFFICIENT
. SAT. D.O. CONC.
TEMPERATURE
TIME = 17.
SURFACE EXCH.
SE COEFFICIENT
SAT. D.O CONC
TEMPERATURE
13.31
RATE =
. 0.313
. 0763
13.32
00 FLOW RATE -
. 0855 . 0370
.0811
10.23
13. .19
00 FLOW
.0737
. 0744
10. 40
12. 48
00 FLOU
_. .0316
.0750
10.43
12. 38
. OB22
10.23
13.10
RATE =
.0320
. 07flO
10. 41
12. 44
RATE ='
.0131
.0798
.10. 44
12.34
.0343 
, Q3B4 . 17AO
0795 . 0795
10.24 10.24
13.17 13.16 13.14
.0343 
_Z,- 0 21 3 -.0107 -.026 9 -.0127 -.0407
.0003 ..0876 .0741 .0923 .0923
10.18 10.18 10 1R to 1fl 10 1fl
.13.40
00 FLOU
-.0737 -
. 0859
9.81
15.06
13.40
RATE =
.0345 -
.0953
9.79
15.17
00 FLOU RATE =
-. 0872 -. 0433 -
. 0765
9.57
16.21
00 FLOU
-. 0769 -
. 0772
9 50
16.52
.0917
9.52
16. 42
RATE =
. 0382 -
.0949
9,45
16.77
13.40
.0343
. 0788 -
.0745
9. 76
15.28
.0343
:.1126 -
.0818
^.48
1 6 . 6,i
.0343
0971 -
.0037
9 40
17.02
13.40 13.40
-------
CO
cn
TIME <• 19.
SURFACF EXCH.
SE COEFFICIENT
SAT. D.O. CONC.
TEMPERATURE
TIME = 21.
SURFACE EXCH.
SE COEFFICIENT
SAT. P.O. CONC.
TEMPERATURE
TIME = 23.
SURFACE EXCH.
SE COEFFICIENT
BAT. n.O. CONC.
TEMPERATURE
TIME o 1.
SURFACE EXCH.
SE COEFFICIENT
SAT. P.O. CONC.
TEMPERATURE
TIME • 3.
SURFACE FXCH.
SE COEFFICIENT
TEMPERATURE
TIMF • 5.
SURFACE EXCH.
RE COEFFICIENT
SAT. 0.0. CONC^.
TEMPERATURE:
TIME • 7.
SURFACE EXCH.
SE COEFFICIENT
SAT. P.O. CONC.
TEMPERATURE
TIME = 9.
SURFACE EXCH.
BE COEFFICIENT
SAT. D.O. CONC.
TEMPERATURE
00 FLOW
-.0229
. 0749
9.67
15.71
00 FLOW
. 0350
. 01100
9.94
14.48
00 FLOW
.0775
10. 12
13.66
00 FLOW
. 0715
.0750
	 ULZL-
13.31
00 FLOW
_*0035_
.0811
" 13, '".19
00 FLOW
.1001
.0045
13.39
00 FLOW
. 070B
.0787
10.23
13. 19
00 FLOW
. 0293
. 0901
• 10.23
13.20
RATE =
-.0098 -
.0833
9 62
15. 94
RATE. =
.0164
.0061
9. 90
14.64
RATE =>
. 0272
.0783
10. 10
13. 77
RATE =
0313
.0763
_UL.2.i>_
13.32
RATE •
__03ZQ_
.0022
— J- " -*- f*tJ _„ „
13. If)
RATE •
.0439,
.0089
13.36
RATE =
.0361
. 0873
10.23
13. 18
RATE. •
.0125
.0982
10.23
13.20
.0343 
.0201 -.0112 -.0368 -
.0813 .1009 .1009
9.57 9 53 9 48
16.16 16.39 16.61
.0343 (M**3/SE.C)
.0417 . 01B5-... Q.5B.7 	
.0744 .0094 .0094
9 R7 9 93 9. 79
14.81 14.97 15.13
.0343 (M**3/SEC)
.0767 .0209 .0944
.0742 .0769 .0769
10.07 10.05 10.02
13.88 13.99 14.11
.0343 
-------
TIME = 11.00 FLOW
SURFACE F.XCH. -.0450
GE COEFFICIENT
SAT. D.O. CC1NC.
TEMPERATURE
. 1141
- 9. 99
14. ?3
RATE -
-.0225
. 1260
9.98
14. 29
.0343 
-.0390 -.0253 -.0009
.0745
9. 97
14.36
. 1270
9.95
14. 4?
. 1270
9^4
14. 4Q
-.0293
. 1270
9 . 9?.
14. 54
-. OB10
. 1269
9. 91
14. 61
-.0241
. 1269
9 . 90
14.67
      TIME = 13.00  FI.OU  RATE «
 ?!!R£ACF._ F.XCH..	-, 11 56 -.0471
 GE COEFFICIENT    .1313  .1238
_SAT ._.n JL_£CIN(L	9. 60	?JjS.A
 TEMPERATURE       15.68  15.84
                                                 .0343  
                                                J.2ZO  -, 0418  ^J 368. n. 049.7.
                                               .1076   .1012   .1012  .1011
                                                ?_A3	9 ..57.	SL 54	9.51.
                                               16.01.  16.17   16.33  16.49
                    TIMF  =  15.00  FLOW RATF. =    .0343  
-------
03
                                  DORM INPUT  DATA FOR APRIL 25  and  26,  1977



                                      IN CHANNEL 8 FROM STATIONS  2  TO 10
) 1
0.
n
177 "T
10.7 A.
*? 1 D
100. 1C
CHANNEL

P. 10
« n i
19.?
i Q n
IB. 9
20.3
70. A
20. 0
19 9
20. 0
19. A
19. 4
^ A A
20. P
^1 n
21. P
3.0 3
1EI5. 1A
7. 90 7.
A rt-» I
28.0330.
	 A— an- 7-
4. 40 7.
r.. o.oi 7?o. 75.0
00 S44. 744.
19 10 ?0 2 2 3 . . .0
AO 10.7 A.?0 11.7 A. 70 11.3 A. 40
0. 100. 100. 100. 100. 100. 100.
"^ J . WUt. 9 .j. <)l^r."«l !j . Onr."4
B APRIL ?5 1777

7.7? 7.34 A . 9A A . P8 A . ?0 f, .










.4 3.0 fl.A 5.P 4.5 3.7
2. 1711. 10?. 219. 252. 279.
7S 7.90 n.70 9.10 9.7R 9 . ?f.
A "7 - -P>- A~T1/> rt"T 1 ** OTIjI rt"T1 ' m f O AT
0337. 0334. 033A. 033P.0340. 03
9010. AOli .001?.. 0011 . 20
000. 0. 70 3A. 5 2. 00
0.00 1 1 . 00 "• 0.00 1.04"

10.9
\J.
100.


ftl P. 43 5.05
17.4
10.1
/. .J
20. S
70. 2
c. O . U
in. 4
1 H . 0
• 17.8
/ . v
17.0
7 . B
19. 1
«. u . u
21.4
7.1. A
. 0 i. . 0 I . B /:. . 4
'.««'-. j. / / , A / u . j. _• i^ .
•*^\ rtT^^* rt T* jl AT^X AT


           30.1732. 1?34. J?3£. 1?3B. J?40. 12
-------
                      DORM  SIMULATION  PRINTOUT  FOR APRIL  25 and 26,  1977

                               IN  CHANNEL  8  FROM STATIONS  2 TO  10
        ESTIMATION OF f.HftHHFI  fOMMIINTTY PHOTn9YIOTI-IFTTP AHT, RFt;pTR6TnRY  P6TFS
           nv  NUHFRTrAi i v ROUTING riTFI	nTssni urn  nyynFN

          	riFTMFFN TLin
                                  STARTTMR  nftTF  = 6PPTI  7S  1 Q77
        LIST  OF  SYMBOLS:
        r.  =  n.n. CONCENTRATION P/M**3)
        Fl^TftR  =  riTHFNRTnMI FC!g I OKim Tl IFITMAI
         FPf! = COEFFTCIFNT HUTCH PPFHIFIFS  TJMF, RTI7P MFTHOB
        _ (^  0 pnK ri)i i y TMP'-.TCTTr O.^  FHP PRftHK—N TCPI.90N IhP1 ICTT)
         P  = PHOT05YNTKKTIC RATF OF CHANNEL  REACH 

n. 10
1. A4
71.
7.72
• r^o s
? 01
Of).
7.34
1. A4
F14.
A. 9 A
.37
74.
A.fiO
1.71
A7.
A.?0
.37
_2_Q4.
A7.
s.ni
-?n =i
1
_3
. AO
A7.
S.43 5.05
10 •>
. 31
51. ... .
	WATKK. aUPFACF . r.l.flPF
-------
WFATHFH FiATA TNF'UT TO MnnFL
TIME WTNJJ UTNTi
un nr.TTY ruRFTTT
5 00
7. 00
9 00
1 1 . 00
13.00
15.00
.1.7. 00
19.00
21.00
23.00
1.00
3. 00
5.00
7.00
9.00
M.oo
13.00
15.00
17.00
AIR
HM PPFCQMPF
 (BERRF-liS)
2. 00 337 00
2.70 333.00
2. 50 346 00
3.20 349.00
3. 00 351.00
5.20 324.00
5.60 324.00
4.50 320.00
3 00 757.00

2.00 197.00
1. .00 170.00
2.40 190.00
3.00 1H5.00
3. 40 162. 00
3.00 170.00
5.60 1H7.0O
5.00 2.1.9.00
4.50 257.00
3.70 2.79.00
(MB)
991 67
991 . 67
991 67
991.67
991 A7
991. 67
991 67
991.67
991 . 67
991.67
991 67
991. 67
991. 67
991. 67
991. 67
991. 67
991.67
991. 67
991.67 '

MEASURED tUSSOI.VED OXYBEN
IIPSTRFAM
TIME Tf.
3.
5.
7.
9.
i u •
15.
: 17.
19.
71
23.
?5.
2.7.
33.
.15 .
37,
05
05
05
05
05
05
05
05
05
05
05
05
05
05
05
05
05
P.
7
R.
R.
9.
9.
9.
9.
9.
n
R.
7.
7.
7
7.
0,
9.
9
n.
JO
70
20
70
85
V5
50
10
40
70
90
75
90
70
10
' TTMF
K.
7.
9.
11 .
15.
17.
19
7.1.
73
75.
27.
29.
31
35
37.
39
70
20
70
20
20
20
20
20'
7.0
7O
20
20
20
?o
20
70,
70
20
(B/M**3>
TREAM
n. o.
4
7
10
1 1
12
11
9
5
F.
4
4
4
7
10
17
11
.no
90
. 40
80
.05
.30
.05
.02
.45
10
.95
70
.40
90
.60
BO
.00
20
39.05    9.?.5
-------
          STANDARD RESPIRATION RATE =
                                          .7000  fi/ AT 20 DEC C
                                                                 MEAN ERROR
              -.00(39
                                                                                                       6  ITERATIONS
          STANDARD RESPIRATION RATE  =
                                .7007  0/(M*M*HR)  AT ?O DER C
MEAN ERROR
                                                                                -.0002
                                                                                                        9  ITERATIONS
******************************************************
    .RESULTS. Olr- COMPUTATIONS
STANDARD HfSF'TRATOKY RATE
fll.lNRir.F. T^MF ». «i 07
                                        .7009 0/(M*M*HR) AT TO PFO  C
           SUNKFT TIME = 10.86
            9 ITERATIONS
I
ROUTED TOTAL. COMMUNITY
TTME
5.20
7. 70
9.20
1 1. 70
13.20
J 5 . ,70
1 7. 70
19. 20
71 70
23. 20
3. 20
5 70
7.20
9 70
11. 20
13 70
15. 20
PHOTOSYNTHETIC AND RESPIRATORY RATES
f R RESirillAI TR
	 — R/(M*M*HR) 	 R/H
0 A57
. 7.17
1 . 7A4
1.017
539
0
0
0
0
0
0
.739
1 714
1. 323
1. 102
. 650
. AA?.
. 6B9
.716
. 7Z8
.77?
.712
.678
. -474
A70
AR7 -
. 70A
7TP
.740
£22-
000
000
000
000
000
000
007
Of!0
170
01 H
27.A
134
000
000
000
000
IIR
1 974
.1 . 974
1.974
.1 . 974
I 974
.1 . 974
1 974
.1 . 974
1 974
.1 . 974
1 974
1. 974
1 974
1.974
1 974
.1 . 974
1 07&
1 . 974

DAY 1
THT6I HftTI Y RFRPTPATTHM - 1A r,O1 
-------
TOTAL fiAILY RESPIRATION = 1 7 . 2770R/M**2
TOTA1 T'ATI v cunrnovkiTuc-cTo - 11 ^onor: /w**r>
P/R RATIO
= ./.A10

COMPUTED VALUES OF SURFACE n.
ojjppftpjr pyp
SATURATION
A>m u/vrrp T
0. EXCHANGE <0/
.0781 .0779 .0778
9 OJ3 913 917
in. A4 in. 41 .18. 19
.0343 (M**3/SEr)
01.9.7 00/.5 O1 S3
. 0779 . 0770 . 0770
9 IS 9 19 9 ?4
18.?7 1(3. OA 1.7.04
.0343 EC>
- O?O3 - 0174 - 039A
. 0700 . 0779 . 0779
9 00 9 10 9 17
18. A5 in. 55 18.45
.0343 (M**3/SF.C>
0509 - 0?49 - 073?
.070? .078? .0707.
89? 8.97 8 92
19.50 19.50 19.50
.0343 (M**3/SEC)
• 0775 -.0?97 - 001?
.0873 .0804 .0787
8 77 8.7A 8 76
20. 3A 20.39 20.41
7

.0778
9 'M
17.95
033R
.0778
9 71
17. 9A
0049
. 0777
9 7PI
17. A3
- O1 PI 4
. 0779
9 14
18. 35
- O31 A
. . 0782
8. 92
19.50
- 0333
. 07B7
8 75
20. 44
8
1 ""Jl
.0777
17. AS
, 0943
9
"47"*
. 0777
o -r-i - - 	 	
17.35
A*7 C"CJ
. 0777 . 0777
9 7A 9 in
17. 74
O1 3 A
. 0777
9 T?
17.4?
•
. 0779
9 1 A
18. 75
- OB9S
.078?
8 97
19. 50

.0787
B 75
20.44
17.51
. 0778
9 TA
17.21
- O71 T
.0788
9 m
18.15
- O35R
. 0009
R 9? :
19.50
- 0347
.0784
H 74
20. 49
-------
TIME. = 17.
SURFACE EXCH.
SE COEFFICIENT
SAT. 0.0. CONC.
TEMPERATURE
TIME = 19.
SURFACE EXCH.
SF. COEFFICIENT
SAT. n.O. CPNC.
. . TEMPERATURE
TIME. = 7.1 .
SURFACE EXCH
SF COEFFICIENT
SAT. ri.O. CONC.
TEMPERATURE
TIME = 23.
SURFACE EXCH..
SE COEFFICIENT
SAT. D.O. CONC.
TEMPERATURE
TIME = 1 .
SURFACE EXCH.
SE COEFFICIENT
SAT. p.fjj 	 CONC .
TEMPERATURE
TIME = 3.
SURFACE EXCH
SE COEFFICIENT
RAT. P.O. CONC.
. TEMPERATURE
TIME * 5.
SURFACE FXCH
BE COEFFICIENT
r:ftT n n rnwr
TEMPERATURE
TIME = 7.
RiiRPArr ryrn
00 FI..OU
-. 0513
. 0770
8.74
70.57
00 FLOW
-.0739
. 0914
0.73
20.57
00 FI.CIW
. 0007
. 0899
fl. 00
70. 19
00 FLOW
. 0160
. 0783
0.85
19.90
00 FLOW
. 0365
.070?
B. 87
19.70
00 FLOW
._• . 0403
. 0783
0.06
19.86
00 FLOW
.0495
. 0702
n H7
19.77
00 FLOW
OA7S
RATE. =
-. 0162 -
.0938
R. 73
70.56
RATE =
- . 0077
. 0892
0. 74
20.52
RATE =
.0076
. 0905
8. 80
70. 16
RATE =
.0116
.0782
P. 89
19. 70
RATE =
0177
.0702
fl ?1
19.54
RATE «
.0710
.0707
Fl. 91
19. 59
RATE -
. 0707
n 97
19.57.
RATE •
01 no
. 0343
-. 05.16 -
.0096
8.73
20.59
. 0343
.0014
. 0863
0.75
20. 47
. 0343
.0413
.0912
B. 81
20.14
.0343
. 0575
.0782
0.92
19. 50
.0343
0710
.0701
n 96
17.31.
.0343
0853
. 0782
0.96
19.31
. 0343
.0886
.07(11
n o/.
19.27
. 0343

.0189 -.0489
.0812
8.72
20.63

0744 0775
.0970
8.81
20.11
(M**3/
.0778
.0783
Q.96
19. '30
0345
.0781
9, 00_
1.9.07
.0919
8.82
20.07
REC)
_, 0056
.0785
19. 10
SE f. )
LOA5
.0700
9 05
1.0. 03
(M**3/SEC)
0409 119fl
.0786
19.04
.0792
9 06
10. 76
(M**3/SEC)
.0423 1741
. 0707
9 ftl
19. 0?
-------
RE COEFFICIENT
RAT. n.n. ncwr..
TEMPERATURE
T.TMF = 9.
SURFACE EXCH.
5F COEFFICIENT
SAT. n.o. CONC.
TEMPERATURE
TIME =11.
SURFACE FXCH
RE COEFFICIENT
RAT. n.n. roNr..
TEMPERATURE
TIME = 13.
SURFACE EXCH
RE COEFFICIENT
RAT n.n. CONC
TEMPERATURE .
TIME = 15.
RIIRFAPF FYPH
RE COEFFICIENT
c:iaT ft n rnwr
TEMPERATURE
TIME = 17.
cnoc-ftpc F~vr|.|
RE COEFFICIENT
C'AT p n rrNr
TEMPERATURE
. 0704
0 9?
19. 49
00 FI..OU
.0281
. 07fU
0. 99
.1.7. 11
00 FLOW
- . 0007
.0701
n.?4
19. 33
oo FLOW
-.0244
.0797
a ni
20. 00
00 Fl.OU
- O3P4
. 1096
n X.R
20.. 04
00 FLOW
- "1 1
. 1007
9 "v"*
21.81
. 07B?
D 97 •
.19. ?6
RATE =
. OOA9
. 07BO
9 01
18.94
RATE =
- 004fl -
.0781
0 95
19. 34
RATE =
-.0149 -
. 1033
H R3
?0.00
RATE =
— fti m -
. 1106
n /.•?
20.91
RATE =
— nncf4 _
. 1003
n e;i
21. B4
.0701
9 O1
19.04
. 0343
. 0186
. 07HO
9 06
10. 76
.0343
. 07S4 -
. 07R1
D.96
19.31
.0343
0666 -
. 107S
R 83
ZO.OO
.0343
O7T7 -
. 1118
P f-f-
20. 99
. 07RO . 0779
Q OS orJ
. 0995
a CM
21.86
. 0965 . 0936
f) =;o p =:o
21.89 21.91
.0779
9 14
18.36
. 0077
. 0705
9. 16
IB. 24
-.0233
. 0947
B.9B
1.9. 19
- 0510
. .1234
R 03
20.00
- OA^I
. 1130
n (t?
21. 21
- Oil ~*
. 0936
n 49
21. 94
. 0778
o 1 p
18. 14
.0069
. 0705
9. 19
18. OA
-.0/,7?
. 0847
H 99
19.16
- 145?
. 1234
H 83
20. 00
- 1 ?n?
. 11.29
0 f A
21. 29
- ntirf
. 0936
P 49
21. 96
.0782 "
o r»£
17.91
.0022
.0039
9 ?3
17. 89
- 031fl
.1014
S 99
19.12
- 0606
. 1327
F1 03
?.0 . 00
- r\A~j~j
. 1087
0 l=*0
21.36
ftl ?ft
. 0859
a ^o
21. 99
-------
                                DORM INPUT DATA FOR APRIL 25 and 26, 1977
                                   IN CHANNEL 8 FROM STATIONS 10 TO 18
l-n
115. O.01 720. 25.0
4.00 45.0 93.0 90.0
0.00 544. 744.
5.44E-4 3.80E-5 I . 49EOO
. fl 19 IB ?0 10 . 2 3 0
17.4 3.63 19.0 3.35 19.2 3.59 18.1 2.60
10.9 5.90 11.1 5.90 10. R 5.90 10.7 5.40
35. 16. 01. 351. 351. 351. 351.. 351^
100. 100. 100. 100. 100. 100. 100. 100.
5.0nF.-4 5.0DF-4 5.0HE-4 5 OflF-4
CHANNEL 8 APRIL 25 1977

5.05 4.06 4.A8 4.49 4.30 4.11 3
17.2
17.4
17.1
IP. 1
19 5
20.5
20.8
20.2
20.0
IB. 4
18.0
17.0
17_9
17. B
17 R
19. 1
?0 0
21.4
?? 0
21.6
3.0 3.4 3.B 5. A 5.0 4.5 3.7
IBS. 162. 178. 182. 219. 252. 279.
•5 OF, 4 po 7 9010 4011 0012 n*M "«0 9 0"?
4.70 4.40 7.9010.6011.0012.001.1.20
28. 1230. 1232. 1234. 1236. 1238. 1240. 12
T 4 5.onF.-4 5.oBir-4


93 3.74 3.55
16 3
16.2
1A 1
16.6 • ' ; .
177 . '
IB. 9
19 7
19.6
19 2
IB. 4
17 A
1.7.3
171
17.0
1A 9
17.7
22.1
22.5
7O?-n^n?4

f, ?0 °i 45 "i 10 4 oc:

b
??*M?4r>1,2A'*l*'B*-ll

-------
                     DORM  SIMULATION PRINTOUT FOR APRIL  25 and  26,  1977

                              IN CHANNEL 8  FROM  STATIONS  10 TO  18
                                             -CHANNEt-8-
    -- E5TIMAT ION -OF-CHANNEb-COMMUNITY-PHOTOSYNTHET-ie-ANri- RESPIRATORY- -RATE9-

                              fi DIQ.
                               BETWEEN-TWe-STAT-IONS
                                -fiTAR^INfUPATC--  APRitr-?5	1-97-7-
       LIST  OF  SYMBOLS:
           P.O. CONCENTRATION G/M**3)
       EPS  «  COEFFICIENT WHICH SPECIFIES TIME STEP  METHOD
      - t-l-r()-Ffm-fW.:t-Y— f ttPtrltMT.  0.5
           PHOTOSYNTHETIC RATE OF CHANNEL REACH  >
       TR -  HYDRAULIC RESIDENCE TIME OF CHANNEL REACH (HR)
                                        770T-S1T.C
       COMPUTATIONAL DISTANCE INCREMENT =   7.6 M
      "FP5- *~JT. 00
                 01 _ _
      "MAXIMUM IFfcROk IN R Ok P F UK  ITfc.KHTTON  CuNV£.kGfi.Ni,t s .01)10 13/
       MAXIMUM ITERATIONS = 20
       CONSrANT~TnR-T3RRHEKTC15 RE.I.ATTON~=  1 . OAS - : -
       CONSTANT REPRESENTftTINB RESPIRATION  INHIBITION IUJE TO LOU P.  0.  CONC.  °    0 G/M**3
       fjROEK  OF  EQijRi luN MI FO UKt»TK£flM~IT CT MEASUKtrtEKTb = ^
       INPUT PATA FOR EACH SEGMENT
            SEGMENT NUMBER  .10     11     12    13    14    15    16     17    18
 -INITIfltr-PrO—AT-TJPSTREAM	
   ENIi OF SEGMENT (G/M**3)   5.05   4. F16   4.68   4.49  4.30  4.11  3.93   3.74  3.55
H^RnENT^ENfiTTrTW
CROSS-SECT. AREA
^>uKt-fli,t^iurH mr

.24
1 . 6^
  SEGMENT DIRECTION (PEG)     35.    16.    81.   351.   351.   351.  351.   351.
"WATER- SURFACE-SLOPE	rOOOSlTOOOSl. 00051'. 00051. OOOSV.'OUUSl. OOObl. 0(TO5T"
-------
     UEATHER DATA  INPUT TO MODEL
TIME











7
V .
11
15
19
23
3
7
11
13
15
1 7

rOO
.00
-oo-
.00
.00
:o(r
.00
.00
.00
.00
. oo
. 00
. vU
3.20
3-.-80 	
5. 20
4
3
2
t
2
.60
.50
TOO 	
.00
. BO
.40
.1 . \'U
3. 40
	 3rflO 	
5. 60


4
3
"Oil
.50
.70
DISSOLVED

.
.05
UIND
LP' X n EL \f \ i L'Pf
(DEGREES)
332 . 00
333.00
346. 00
349.00
—351-00
374.00
3?0. 00
O w»*l . 00
197.00
7K. 00
198.00
Tori, oo
162.00
— t^RrOO
182.00
*'. 1 v . 00
252.00
1 279. 00
OXYOEN







AIR

(MB)
991 '.
991.
991.
991 .
"99T.
991.
991.
991.
W 1 .
991.
991.
991.
791.
6/
67
67
67
67
67
67
67
67
O /
67
O /
67
*7 	 • 	 "• 	 	 	 —
67
67
67
67
(G/M**3>
DOWNSTREAM


. ou 	
7.90
Ivt HO
11.80
i?. Olj
11.30
" O f\T~
r . 03
6. 20
*j
5
4
7
1 V
11
^
. «»Tr
. 10
. y.j
.70
. 90
. oo
. 80
rOfl"










i int
5. 35
7. 35
9. 35
11 .35
13.35
J. «J . O«J
17. 35
19. 33
21.35
23 . 35
25. 35
i.i . Jj
2.9. 35
Jl . ..1-J
33.35
3u . J J
37. 35
39. 3U
U
3
11
^
14
1 3
10
.90
. 00
.60
. vv
. 10
. 00
.00



'
S. vu
3.00
3
3
3
11
4
14
-l-J*
. **v
.30
.70
.00
• ?°
. 90





39.20  11.2.0
-------
.e.
CD
STANDARD RESPIRATION RATE - .4000
STANDARD RESPIRATION RATE = .5673
STANDARD RESPIRATION RATE = .5716
G/(M*M*HR) AT 20
fi/(M*M*HR) AT 20
G/
-------
TOTAL DAIL
— -• - • - TOTAL DAIL
P/R RATIO
Y RESPIRATION =
Y-PHOTOSYNTHE-Stl
= . 8573
13. 7545G/M**2
3 •=— 1\ .' 7917G/M**2







COMPUTED VALUES
OF SURFACE 0. 0. EXCHANGE (G/(M*M*HR»,
SATURATION H.O. CONCENTRATION ,
flNIl 1>)H 1 KK 1 h.ni-'h.K« 1 UKfe *LltU. I..;
FOR EACH CHANNEL SEGMENT
;
SECTION NO.
TIME = 5.
bUKhBUh. tXl.M.
SE COEFFICIENT
s«T. u. u. udNu.
TEMPERATURE
TIME = 7.
SUKH B(.k. R.XC.H.
SE COEFFICIENT
SAT. n.o. CONC:.
; TEMPERATURE
TIME = 9.
HURFAUt EXCH.
Stf COEFFICIENT
-SAT. U.U. IJIJNU.
TEMPERATURE
TIME = 1.1.
SE COEFFICIENT
' GAT. D.O. CONC.
TEMPERATURE
TIME = 13.
SuKFAijE EXCH.
SE COEFFICIENT
— QA-T " r*— fi — pOKir*1-
TEMPERATURF
TIME = 15.
SE COEFFICIENT
— — c/VF — 1> n — rnwr—
TEMPERATURE
10 11
00 FLOU RATE =
. 16y 1 . OAbl
. 0750 . 0757
y . j/ y . 4U
17.14 17.03
00 FLOU RATE =
. i^Vf> . wrj*4n
.0754 .0783
17.32 17.17
00 FLOU RATE. =
. w*sll .0113
. 0764 . 0798
9.40 9.42
17.04 16.91
00 FLOU RATE =
— . 065J — .03J5
.0803 .0871
18.01 17.82
00 FLOU RATE <*
~ '-VivSV' -. 0587
.0055 .0945
r). V4 8. 98
19.39 19.16
00 FLOU RATE =
.0771 .0910
e"7 A O O A
. /O n . Hw
20. 40 20. 20
32 13 14
.0343 

"~ . 07*10
.1115 ,
9 . 01
19.00
-------
l/l
TIMF = 17.
"iircrArr PYPII
SE COEFFICIENT
TEMPERATURE - '
TIME -. 19.
i^i in-f* Apr" nvpii
SE COEFFICIENT
TEMPERATURE
TIME = 21.
SE COEFFICIENT
bH 1 . U . IJ . LUNL .
TEMPERATURE
TIME = 23.
SE COEFFICIENT
OAT ri o f" n *j r*
MH I . 11 . U . UlJNl; .
TEMPERATURE
TIME = 1.
SE COEFFICIENT
TEMPERATURE
TIME - 3.
SE COEFFICIENT
TEMPERATURE
! TIME » 5.
! SE COEFFICIENT
TEMPERATURE
: ' TIME * 7.
: SE COEFFICIENT
TEMPERATURE
00 FLOU
. 0777
. 7O
20.73
00 FLOW
"IB
.0758
Bn A -
. HO
20.16
00 FLOW
. 0801
. 84
19.95
00 . FLOU
. 0779
9. 13
18. 40
00 FLOU
	 1S66 —
.0759
. Zt
17.98
00 FLOU
7n4
. 0810
. i.3
17.77
00 FLOU
. iTJ'J
.0041
7 . 23
17. B5
00 FLOW
. 0789
V , i-3
17.75
RATE =
.0942
. 7o
70.59
RATE o
. 0070
.0831
fi n*r
l ) . cJZ
20.09
RATE =
'4/V
.OB56
. Bo
19.85
RATE =
. OrtlZ
.0786
9. 13
18.40
RATE. =
.0768
17.92
RATE =
. 07,13
. 0820
17.71
RATE. =
. 0883
17.75
RATE -
. 0867
T. 7.7
17.65
.0343 
': 0081 • .'O197"
. 1000 . 1000
Tfl4—
19.94
B. OO
19. 86
. 1001
. 87
19.79
.0343 (M**3/SEC)
. 1 173 "
.0754
8. 88
19.75
. 0343
. 1 O 7 X.
.0752
9. 13 '
18. 40
. UM/ 7
.0087
8. 89
19.65
. INTO
.0887
8. 91"
19.55
.0887
19.45
H. O.J
19. 91

. 0098
. 1001
8. 88
19.71

o
.0887
19.35

. 1167
8. 87
19.77

. 00^ 1
.1001
w . vo
19.64

. 0317
. 0888
8 . 97
19.25

. OolO
.0773
18.40
.0773
— 9T13
18. 40
.0343 
.0750
'. 23
17.87
. 0343
T4LI
.0752
9. 27
17.64
.0343
. ITT/
. 0750
T. 7.7
17.65
. 0343
.0750
'.. 7.f
17.55
.0772
9. 24
17.02
.0772
. i.j
17.77
. U O 7 O
.0773
9: 13~
18. 40

.0772
9. 26
17.73
. 4. 7O /
.0773
18. 40

.0772
9. 27
17.68
.0773
— 9rl3 	 	 	 	
18.40

. VOO^J
.0772
9. 28
17.63
(M**3/SEC)
.0796
9. 29
17.58
.0796
17. 52
-------
Ul
TIME =  9.00  FI.OU  RATE

                    .0971
                     ?r?fl
                    17.63
                                                   .0343 
 SE COEFFICIENT
-SAT— n
 TEMPERATURE      17.74
                   .0894
                     . gft
                                                                                     r
                                                 . 0750  .0994   .0994  .0995   .0995   .0995
                                                 17. 52   17.41   17.29  17.18  17.07   16.96
       TIME • 1J .00  FI..OU RATE  »
                                                   .0343 
                                                             -.1815 •
                                 .1079  .0759  .0759   .0759   .0760   .0760
                                          T53	8rf.2	BT50	0-49	8r47~
                                 21.62  21.71  21.79   2.1.88   21.97   22.06
                         RATE
                         r03.te
      TIME = 17.06   FI.OU
-SURFACE EXCH. -- -rOBS«
 SF COEFFICIENT   .0771   . 07AO
         — 6ONC-: - B-rA7 - 8r45
 TEMPERATURF.    .  22.06
                             .0343  
-------
to
                                        DORM INPUT DATA FOR AUGUST  23,  1977

                                        IN CHANNEL 5 FROM STATIONS  2 TO 10


23

5.
ft
. 0
11 .5
91,
100.
5.
?00.
5. 00
00.0
44F-4
13
5. 20
7.9
on.
100.
A7R-4

3
12
71. B
12. 1
04.
100.
f..
0.01
45.0
AOO.
. OF.-B
20
3. no
6.7
74.
100.
A7F-4


17.
) J.
47
100
R

1
2
2
2

720.
93 0
744.
. 49F.O
1
4. 1.0
A.9
100.
A7F.-4




3
1.9 0
1 I .
*7
100
5
5
•
75.
90. 0

0
3. no
ROO 0 4A 24. 5 2. 00
0. 001 1. 00 00 0 1. 045

23. 0
7 . 2^1 1 . 9
51. 35.
100.
A7F-4
100.
R . A7F.-4 5 . A7F..-4 R . A7F.-4 5 . A7K-4
            CHANNEL. S AIIRUST ?3 1977

5.
19.
IV.
19.
IV.
20.
21 .
21 .
',20.
' 20.
20.
. . 19.
IV.
45 5. I(!P 4. F!A 4.57 4. 20
9
3
4
0
7
7 .
2
9
6
7.
7
A
5 2.5 2.0 3.0 3.5 3.7
3.98 3.A9
19.
10.
1.9.
19.
20.
21.
20.
20.
20.
19.
19.
1.9.
3.0 2.7 2.
3.39 3.10
9
0
7
5
e :
3
7
4
0
7
3
2
0 1.7 1.5 1.5
               1.5
               40.  77. 360. 342.  361.  330.  361 .   34.   34.   34.  37fi.   27.
              27.
             5. 45 7.10 7.50 n. 5511 . 00.11 . 131 1 . 3010. 2.0 7.70 7.AO 7.10 A.9O
             .5. 90
                                                                      O3
            29.03
             '4.00 A.35 7.3013.5015,0014. ?010. 90 7-.40 A . 20 5.40 5.10 4.90
             7. 12 9. 1211. 1.213. 1.215. 1717. 1219. 1221. 1223.1225. 1227. 1229. .12
-------
                                      DORM SIMULATION PRINTOUT FOR  AUGUST 23,  1977

                                           IN  CHANNEL 5 FROM STATIONS 2  TO 10
                      ESTIMATION OF CHANNEL  COMMUNITY PHOTOSYNTHFTTC ANTi RESPIRATORY RATES
                        FiY NUMERICALLY  ROUTING IHFl  nTSSOI.VEn OXYGEN MEASUREMENTS

                        	BETWEEN TUn STATIONS	
                                                STARTING riATE =M\GU3T 23  1977
                      LIST OF SYMBOLS:
                      C = P.P.CONCENTRATION fi/M**3>
                              DTMFMSTOMI FSS I nNHTTUriTNftl  TlT^PFPSTDM NUMBFR
                      EPS = COEFFICIENT  WHICH  SPECIFIES TIME STEP METHOD
                     	X1 o  FHR  FIII i Y  TUPI Tr.TT.  o s rprv HRftMto=NlCni CJON  TMPI TPTT>
M                     P = PHOTOSYNTHF.TIC  RATR  OF CHANNEL RF.ACII 
01         	T - I.IATFR  TFMr-FRATIIRF (TiFH  m	
CJ
                      TR = HYDRAULIC  RESIDENCE TIME OF CHANNEL REACH UJM_ERR£1R_IN  R OR P-
                      MAXIMUM ITERATIONS =  20
                      CONSTANT REPRESENTATINO  RESPIRATION INHTRTTION DDE TO  LOU  D.  0.  CONC.  =    0 G/M**3
                            r\f FnilATTfiM  riT rn IIPQTC'PAM p  n  M^ftcyRFHFNTg  - 1	
                      INPUT DATA FOR EACH  SEGMENT.
                           SEGMENT  NUMnF.ft     ,?     3 '    4     5     A      7     8     9    30
                 INITIfol—tl. 0, AT UPSTREAM	:	
                  END OF SEGMENT    ^n_•*<_ ie\ s  TO. s   10.
CROSS-flFCT. AREA
•^IIRFAr.F IJTriTU fMl
PFOMENT DIRECTION
WATFP rf^PFArr "^l PI
(M*M)
(PEG)
PC
?. 1.4
9] .
.40
? <11
OR.
Z.03
04.
. 000-37 ..
.35
74.
1. (SO
A7.
-OOO52
•7 in
A7.
1.04
3 *51
67.
. 35
r> i u
51.
-------
HEATHER PATA TNF'UT TO
TIME UINti
UC~! nPTTV VI
 AT 20 DEC, C MEAN ERROR = .0007 9 ITERATIONS
-------
**** ***** *#.*# *#***# ****** **** ******* **** **** **********
     RESULTS  OF COMPUTATIONS:
STANl'ARn RESPIRATORY RATE -
SUNRISE TIME =   4. 61.
                                         . 4336 r;/<«*M*HR> AT 70
           SUNSET TIMF. = J7.P9
            9 ITERATIONS

RnUTFn TOTAL COMMUNITY PHOTOPYN THFTIC ANIi
TIME P R
6
(5
10
12
14
16
10
20
?7
7
4
. 20
70
70
. 70
?0
.70
70
. 20
.70
. 20
70
. 20
	 Ci/(M*M*HPi)
0
. ?66
1 . 456
1 . 105
. 400
0
. 0
0
0
0
420
. 4)£l
^421
. 439
456
. 466
464
.454
. 447
. 440
.413
RESPIRATORY RATES
RFStni.lAI TR
- 07/7
-.000
000
-.000
OOO
.000
. 000
-.377
-. 062
-.093
-. tno
MR
? 067
7.067
_ 2.06?
7. 062
2 062
7. 06?
2.062
7.067
2. 06?
7 06?
2.06?

HAY 1
. . TCITAI IIATI V
r.r-ir.
Tfl'AT TCIM . - 1 A K; A
^t_r .
**o

                TOTAL DAILY PHOTOSYNTHESIS = 10.7151R/M**2
                P/R RATIO = 1.0164	
           COMPUTEn VALUES OF SURFAHE 0.  0.  EXCHANGE  (n/(M»H*HR)),
                               SURFACE FXCHANPE COEFFICIENT (/I-IR),
                             _SAJUfiATJ.ON..t'. Q	CONCEjNj;Rfl.T_lON_tGZ«*JlC3_L,
                               AND  WATITR TEMPERATURE  (PFn.  D
                               FOR  FACH CHANNFI  r.EnHFNT	
                  ML
                TTMF
SURFACE EXCH.
SF CnFFFTCTENT
SAT. P.O. CONC.
TFMPFPATIIPF
. 1367
079A
8
19
.06
R6
.0^00
nnoo
n.07
19 77
. 1S4P
B.
19
09
6.R
. 0554
OR73
S.91
19 ^9
. 1634
8.9?
19 51
. OA79
S.
19
94
4?
. 700?
8. 95
19 ^3
. 0694
B.97
197-4
-------
                                 TIHF  ».  n.OO   Finn  RATr =      0.77B
Ui
SURFACE F.XCH.
f.F rnrFFiriFMT
SAT. n.o. CONC
TFMF'F&ATHK'F
TIMF - 10
SURFACE F.XCH.
SAT., n.o. CONC.
TFMPERrtTURE

SURFACE EXCH.
BAT. P.O. CONf.1.
TFMPFRATIIRF
TI1F - M
SURFACE EXCH.
cc fOFFF'TTFNT
SAT. D.O. CONC.
TFMF'FF'ATIIPF
TTMF - 14
SURFACE FXCH.
SAT n 0 CONC

TTMF . ip
SURFACE EXCH.
SAT. n.O. CONC.
TFMPF.RATUKF
TTMF = 70
SURFACF. FXCH.
SAT. 0.0. CONC.
TGMEERftlURE 	
- •' TTMF » ?•?

. 0946
onss
8.93
19 4A
oo FI ni.i
. 0517
0. 96
on FI nu
- . 0306 -
fl.94
19 79
nn f| nw
-. 1109 -
13.79
.00 	 FJJQU-
-. 13B2 -
r>"-i /.p
00 	 ELOU-J
. 0474
'nnoo "
0.55
71 4">
&ATF .
014R
. 115B
B.96
19 71
0370
. 0474
0707
B. 90
A77R
. 0463 -
fl.95
1971
037F)

. 0412
8. 97
19 74
. 0149
0707
0. 98
« o . .t 7
_(M*SG
. 01B4
19 "31
050B
n7Q-( /wnn
(3.77 B.76
?0 74 *"* ^^
n3"73
.JA31 -
fl.43
? 1 14

. 1752 -
0. 53
71 77 _
0370
. 0364 -
OflO/.
0. 54
O"?™
. 050 1

. 0577
fl. 6?
2-U-22-.
.0426
B. 53
71 74
..U1AJJ5
.0110
8. 54
71 5?
_CM»*3
.010.1
. 1207
. 051.1
B.9B 9.00
19 14 19 09

. 0412
O7fld
0. 99
J2Z.CJ 	
-.055(3
8.9A
1 0 00

-. 1503

13.75
?0.4B-
-.1AB5
•'U 20-
-. 1219
B.52
7i 74
/SFC)
-.0335
	 Qtl40_
B. 57
51 4f|

. 057?

. 0163
O7P.4
9. 00
i o no

-.0251
0. 97
1 9 7A

-. 0445
8.73

-^A28B-
.-4s U^-34 -
-.0505
13.52
71 77

-.0179
	 0040-
8. 5B
71-43!

.0271
. 1589
9.01
19 m

. 0507
. 0516
9. 03
i n 94

.0168
O7O7
9.00 9.01
i o AA i o n*?

-.07A5
B.97
i p 7 A

-. 1964
8.72

-.2204
8.50
—31-4-1-
-. 1553
0.52

-. 0410
On4rt
8. 59

. 0447
-.0261
8.98
1O O -t

-. 0491
8.71

-.0736
8. 57
o \ 47

-.0530
8.5?
•>\ 79

-.01.37
OO71
B. 60

. 0713
-------
ui
F,AT. n.n. CONC.
TIME - 74
SURFACE fXCII.
RAT. n.n. CDNC.
TIME <* ?.
SURFACE EXCH.
RF COEFFICIENT
SAT. n.n. CONC.
TEMPERATURE
TIME = 4.
SURFACE EXCH.
F.E COEEFTCIENT
SAT. n.n. CONC.
TEMPERATURE.
TIME = A.
SURFACE EXCH.
SE COEFFICIENT
SAT. p.rt. CONC.
TEMP.FRATI.IRE
0. A3
71 17
oo FI nu
. OA7S
O7RR
0. AB
00 Fl OU
. 0839
0707
R. 73
70 SA
00 FLOW
.1113
. 070A
0. 00
?0. 17
00 FLOW
. 07f)f.
0 . f)9
1 9 . AB
fl. A 4
71 11
. 0770
B. A9
7O m
RATF »
.031.9
07OA
B. 74
70 49
RATE =
. 0399
.0706
70. 1.1
RATE. =
. 05A8
n . 90
1?-. A3_
fl Ab
.71 04
	 Q37J3.
OR31
O7F19
n.7o
70 74
037B
O70A
0.76
?O 41
. 0370
. 1.154
Fl.BT.
70.04
.0370
. 1S79
. 07BFi
FI.7J
19.57
1). f,A
. 0299
O791
B.71
70 AH

.033H
07OA
B. 77
70 34
fl. A 7
?O <77
/rEC)
. 0077
0794
B. 7?
70 A7

.09B3
0707
B. 70
70 7A
B. AB
7ft nA

. 037','
0794
B.73

. 0416
0707
B. 00
70 19
0. A9

.1.134
0793
0.74
7O 49

. 17.00
070A
0. Bl
70 11
n. 70

.0377
O799
B.75
?O 4^

.0427
0709
f). 0?.
70 04

. 0395
.. 0707
B. 03
19.90

.0405
. 07BA
0.9?
.1177
.0708
f). 85
19. 9?
/RFC)
. 1319
.0707
R. 93
19. 48
. 0467
.0707
0. 06
19. OA

. 0787
0. 94
19. 42
. 1415
.0707
B.87
19.79

. 0786
8. 95
.0466
.0791
8.88
19.73

..0484
.0790
fl.95
19.32
-------
H
Ln
00
                                        DORM  INPUT DATA  FOR AUGUST 23, 1977

                                        IN CHANNEL' 5 FROM STATIONS 10 TO  18
700.
5.00
. 00.0
e 13
11.9 6.80
35. )(,.
100. 100.
fi.^7F-4
CHANNEL 5
0.01 770. 75.0
*5.0 93.0 90.0
600. 744.
3.POF-5 .1.49TOO
1.7 70 10 \ 3 0
1. 1.9 7.50 .11. Fl X..60 17.1 6.10
1. 351 351 351 351 351
100. 100. 1.00. 100. 1.00. 100.
5.67E-4 S.&7F-4 5 A7F-4
AUGUST 73 1977
ROO. 0.41 74.5 7.00
0. 001 1 .00 00. 0 1 . 045 ;

1R 1
11. 3
315
100.
5 67F-4 5 67F-4 5 67E-4 5 A7F-4


3.10 3.
19 7
19.0
19. 0
1.9. ?
70 7
71.5
71 Fl
21 .3
70 7
• 20.4
7r\ r»
J9. 7
' 1 ° 3
.19.7
1. 5
^1 ^"i 77
77.
4. 90
5 \? "* ) ""
: 29. 17
2 "7":; 4 75
06 3.01 2.97 2.93 2. OB 2.






70 30 ~* ct 37 30 77
Ifp T( 7 ^n
04 2.79 7.75
Ifl R
If). 6
in 6
19.2
19 7
*"* 1 7
77 0
71.5
70 6
70. 1
1 O 7
19.3
1 ° 1
19. 0
r*/\ 1-7 «er -ic:
'~XA IA T7C! r»-»
7 A rt V. *?rt c; Art *^ 1rt

•r «:o A pn T DA T xn
            7. ?1 9.2111.2113. ?lt^. 2.117. 7119. 21 SI. 7,173. 7125. 7.127. ?.t29. 21
-------
                                    DORM SIMULATION PRINTOUT FOR  AUGUST 23,  1977

                                          IN CHANNEL 5  FROM  STATIONS 10 TO  18
                                                            CHANNFI.  5
                    ESTIMATION OF  CHANNEL CnMMUNITY PHOTOSYNTHET.in ANin RESPIRATORY  RATES
                      BY NUMERICALLY  ROIJTTNB PIEI. PISSO! W~I< DXYPI'N MEASUREMENTS
                                             KETIJEEN TUG STATIONS
                                              STARTING  DATE.  ^AUGUST ?3	j,977	
                    LIST OF SYMBOLS:
                    r. =  n. n. CONCENTRATICIN fi/M**3>
                    DSTAR  =  DIMF.NSU1 NLESS_LONGITUHINAL, IiISPFRSIDN_NiWBE.R	
                    FTPS  =  COEFFICIENT HUTCH PPFCIFTES  TIMF  STITP MFTHOU
                   	(10 FOR  FULLY IMPIIETT. O.S FOR  r.RftNK-NICOl RON TMPITPTT)
                    P = PHOTOSYNTHr-TJC RATE OF CHANNEL.  REACH (R/(M*M*HR»
                   jr._^WAJ£R._I£ME:ERATHRE_LDEG	C.)	
V*                   TR  = HYriRAHI.in RFRiriFNCF. TIMF OF  CHANNEL RF.ACH (HR)
                    INPUT DATA,
                                   TlhF INPKEhrNT =   7?Q   RFC
                    COMPUTATIONAI  DISTANCE INCREMENT =   7.6  ft
                   _EES_=u_L_QO	
                    DSTAR =   .01
                    MAXIMUM  FPRPR TN R flR P FOR TTrRATTHN  mNUFRRFMrF =  OO1ft  R/(M*M*HR1
                    MAXIMUM  ITERATIONS = 20
                                            RFL ATTI1N =  1  045
                    CONSTANT  REPRESFTNTATINR RFSPTRATION  INHIBITION CUE TO LOU D.  0.  CONC.  =    0 G/M**3
                    nr?ncp  nr  frnilATTOM frrj JQ UPSTREAM  P   0.  MFAC-UREHENTS = 3	
                    INPUT tiATA  FOR  EACH PFr.MENT
SEGMENT NIIMPER
T|gTTTAI I1 0 AT IIP"5TRCAM
ENtt OF SEBMFNT 
10 3 . O/.
i ^. in rr
14 .53
17.
3.01
30 "5
1.90
13
?. 97
in •=;
. 41
14
7.93
tn =;
I q4
15
?. PP
. 33
^ n|
16
T"> 5
1 .75
17 18
?.79 ?.75
.28
               SF.RMENT niRECTION  (UFO)      35.   16.     I.   351.   351.   351.   351.   351.
                             .SL.flPF	POOF:? oon'='.7 ooos7  OOPS? Qon"-.? nnn'=:7  nnn«:7
-------
en
O
WFA1HFR TATA
TTMF. WTNtt
ui-i nrTTY
7
991 A7
991. A?
991 A7

MEASURE DISSflLUEn nxYGEN  AT 20 DF.G C MEAN ERROR = -.0093 A ITERATIONS
rtio-j R//M*u*ur-\ /\T ->/» r.r-r; r< MFAN' FRROK - 0004 B TirKHiTuris
            ************#***#*********#*)»**** ******* ******* Hi******
-------
KFfUM.TR  OF COMPUTATIONS:
' !;! I AN 11AR11  REBPIR AT0R Y RAT R
         TTHF =   4.61
                                    .4193 n/(M*M*HR) AT ?0 PEG  C
     SUNSET TTMF = 1.9.58
         TTEFVATTONri

ROUTEH TOTAL flOMMUNIT
TTMF
6.
0.
10
J 7 .
.,.-,.. 14.
16.
	 - 	 .' 10
70.
77
y-
4.
35
35
IS
,15
35
35
35
35
35
35
Y PHOTOSYNTHETTC ANP
P R
	 fi/(M*M*HR:
. 1.43
. 409
. H36
1 . 776
1 099
. 094
397
0
0
0
0
0
. 390
.390
. 406
,4?3
.446
. 454
.416
.433
.474
.417
.41.1.

RESPIRATORY
RFS IPIJAL
0/M**3
. 000
-.000
OOO
. 000
OOO
. 000
- 000
- . 656
-. 154
.373
077
-.703
RATES
TR
HR
2 067
7
7
2
•?
7
2
?
2
2
7
.067
. 067
. 067
067
.067
. 062
. 06?
.067
. 067
. 067
.067
          HAY
  COMPIJTETi VAUIP
                                       » 1>0. 1 4990/M**?.
              HF SURFACE P.  0. EXCHANGE.._(_0/.{M.»t1*r!R.LL
                 SURFACE OCHHANRF.  COEFFICIENT (/HR),
                     _SATl!RATTnN  P.O.  CONCENTRATION._IB/M**3).
                      ANP WATER  TEMPERATURE  (DER.  D
  f.r.TTTQN NO.
                       10
                                             J.3..
                                                     1.4
                                                               JA.
 	TIME =   6,_QO   FLOW RATE  =    .0370 (h**3/3.F.C)	
 " BURFAn-" Exrn.     .2043  ..1220  .7465  .0041   .743?  .OB07   .7305  .0739
 _5e_Cn.EEEICIENT     Of)56   0030	. 0003   07B9	0.7.8?.__Ji7fl2	07B9  . 07S9_
  SAT. P.O. HONC.    0.90   0.99   9.00   9.01   9.02   9.03   9.04   9.05
  TEMPERATURE	1910  19.12  1907  1902   IB. 90 • 10. 97   10  BO  10.02
1 SURFACE EXCH.
^F rOFFFTCTFNT
SAT. P.O. CONC.
TFMPFRATIIRF
.2090
0006
9.02
10 90
.0929
0704
9. 03
10 97
. 1975
0700
9. 04
10 00
. OA90
0700
9. 05
10 07
. 2049
07OO
9. 06
10 77
.0685
07RO
9. O7
10 73
. 1991
0780
9. 08
10 60
. 0645
0700
9. 09
10 67
-------
           	IJMF...=...10_QQ	FLniJ  RATE =     Q37F1 (M**3/;
                   ICXCH.     .0917  .0445   .0993  .0352   .1064  .0359   .1074   .0352
                             O79S   om o    OBIS   oni7   nni 3   nni^    OOIT   nm -x
          SAT.  n.n.  roNC.    9.02   9.03    9.04   9.05   9.06   9.07    9.00   9.09
                        	113. 9B	IS. P.2—m PP  m B?  ia 77  in 7T   in ^.n  in  A?
SURF,
SAT.
TFMP

ACE EXCH.
nr FJ""-J-C- j IT HT —
n.n. CONC .
FU'ATIIRp
TTMF = 14
fH.IRFACF. FXCII.
RAT.
n.n. cnNC .
-.0739
— ^nos-
B. 9R
1 o ?n
no FI nu
-.?<<.7fl
	 O304—
H.7?
7/) 44
-. 0322 -. 0636
Otiro nnoo
8
1 <5
fi'A
-. .1
-^O'
fl
.98 Q.98
*?rt ^ Cf> OQ

240 -. 254P
.74 B.7A
-.0226
8.98
1 ^ ^"^
'n ^n**7
-.0074
n.70
-. 0607
AO 1 A
f).9f)
1 *? ^0

-.2467
8. fll
'•'O 1 4
-. 0201
8. 98
19 r'ri


-.OFU?
^^0.957-
R. R3
-. 0539
B. 98
1 o OA

-. 22.C4
AO-77
t ° R9
-.0175
/JO 1 A
8.
1"

98

-.0735
8
t ^
. 87
•7 A
                               FLIIUL-RAJC-J
          SURFACE  EXCH.    -.2927  -.1428 -.3225 -.1175 -.33(37  -.1123  -.3218 -.1038
         -PF-rOffFFI-CIPN-T	r4V?0    0.60    8.59   B.59   8.58    8.58    R. 57   8.57
                        	?1  'XI   ?1 TA   ^1  ~*L  r>l "zn  r> 1  A1   ? 1 AA   ? 1  AA  *> 1  AO
               TIME  - 7? on  FI nu  KftiT « _ 037.0_t«**3^CECJ
                   f-Xr.H.      .0701   .0792   .0554  . 
-------
TTMF = 74
r.tlRFACF F.Xril.
DAT. P.O. nONn.
TFMPFRATIiRF
TTMF - 7
r.URFAHF F.XHH.
RAT . ri. n. cnwr. .
TFMPFI-'ATIIRF
TTMF = 4
PUKFACF F.XCII.
r.F ntlFFFICIFNT
PAT. P.O. CONC.
TEMPERATURE
TJMF = 6.
SURFACE EXCH.
RE CnrFFICTFNT
RAT. P.O. CONC.
TF.MPFRATDRF
oo FI nu
. 1339
onoo
H. 76
70 3R
oo FI nu
07(19
fl.83
19 9H
00 FLOW
. 1 070
0791
R.fl9
19 68
00 FI OW
. 1929
rt o JL
1?'. 79
(^ATF =
. 060?
0796
FI . 77
70 34
RATF =
0797
0. 04
19 94
RATE -
. 01175
0770
FI . 90
1 9 63
RATF =
. 0865
.0790
8. 97
19. 76
0370
. 1751
0791
fl. 7fl
20 31

. 1573
0791
8 . OS
19 91
. 0378
. 1744
0787
8.91
19 57
. 0370
. 1799
.0787
8. 97
\7, ?4

. 0443
07H7
8. 7D
70 77

_D-ZQB_
H . oo
19 87
/•".FO
. 1703
07B7
8 79
70 73

07HR
8. 86
19.83

. 0677
02a5_
8.97
1 9 52
(M**3
. 067.9
,0784
8.98
!9.?1.
. 1830
. 0785
8. 93
19 4R
/RFC)
. 1833
. 0784
8.98
vjp 1 9

.0430
07(57
8. no
70 19

.0556
07RR
8. 87
19 79

. 0670
07B5
8. 94
19 42

.0613
. 07R4
8. 98
19. 16

07R7
n. 80
70 16

. 1620
8. 88
19 76

. 18.17.
. 0785
R.95
19 38

. 1787
.07P4
8. '99
. X9..14

.0400
0787
8. 81
70 17

. 053?
O7R8
8.88
19 72

. 0596
.0785
R.95
19 3?

.0582
. 0784
8. 99
19.11
10
-------
                            DORM INPUT DATA FOR  AUGUST 23,  1977

                             IN CHANNEL 8  FROM STATIONS 2 TO  10
200. 0.01 770. 25.0 ROO.
5.00 45.0 93.0 90.0 0.001
00.0 600. 744.
5.44F.-4 3.ROE-5 \ . 49EOO
0' 13 IT 70 7 1 3 0
19.0 3.39 21.0 3.77 23.5 3.52 23 4 2 89 22. A
11.0 A. 40 10.4 A. 60 .11.6 6.70 .17.3 5.70 11.3
92. 92. 90. RO. 72. 69. 69. SB. 44.
0.39 74.5 ?.00
1 . OO 00 O 1.045



 100.  100.  100.  100.  100.  100.  100.  100.  100.
   5.67E-4    5.67E-4    5.67E-4    5. 67F.-4   5.67E-4    5. 67E-4    5. 67E-4    5.67E-4
CHANNFl. f) AUGUST 23  1977
A.
29.
20.
28.
2f).
29.
30.
30.
30.
30.
30.
30.
78.
26.
25.
2.
90 6.63 A. 36 A. 09 5.83
0
A
4
8
3
0
2
A
9
8
0
7
0
6
5 2.5 2.0 3.0 3.5 3.7
5.56 5.29
27.
26.
77.
77.
28.
7F).
28.
79.
29.
78.
74.
75.
3.0 2.7 7.
5.02 4 . 75
0
6
8
»' .
R
2
4
8
2
3
1
B
0 1.7 1.5 1.5
  1.5
  45.  77.  360.  342.  361.  330.  36i .   34.   34.   34.  375.   27.
  27.
 6.90 6.75 7.10 8.00 B.BO 9.70 9.90  9.50  fl.70  7.70  7.30 7.00
 6.90
 5.03 7.0? 9.03ji.0313  o?is 0^17 orsi9  or*?i  03?^  or*??; 0*77
29.03
 4.90 A.50 7.4510.?010.aoiO.70 8.40  6.30  5.20  4.90  4.70 4.60
 7.15 9.1511.1513.1515.1517.1519.1521.1523.1525.1527.1529.15
-------
                                   DORM SIMULATION PRINTOUT  FOR AUGUST 23,  1977

                                         IN CHANNEL 8  FROM STATIONS 2 TO 10
                                                        CHANNEL  8
                  ESTIMATION OF CHANNEL COMMUNITY PHOTOSYNTHETIC AND RESPIRATORY RATES
                    BY NUMERICALLY ROUTING PIEL IHSSOI.VED OXYGEN  MEASUREMENTS

                   	   BETWEEN TUO STATIONS
                                           STARTING HATE =AUGUST  23   1977
                  LIST OF SYMBOLS:
                  C = n.O.CONCENTRATION G/M**3>
                  DSTAR = niMF.NSIONLESg LONGITUtHNAL DISPERSION hlUrtBER	
                  EPS = COEFFICIENT WHICH SPECIFIER TIME STEP METHOD
                        (1.0 FOR FULLY IMPLICIT, 0.5 FOR CRANK-NICOLSON  IMPLICIT)
                  P = PHC1TOSYNTHETIC RATH OF CHANNEL REACH  
-------
WEATHER DATA INPUT
TO MODE!
•
TIME WIND UINO AIR
(M/BEC) (DECREES) (MB)
A. 00 2,50 45.00 991 67
8.00 2. SO 77.00 99.1.67
10.00 2.00 360.00 991.67
12.00 3.00 342.00 991.67
14.00 3.50 361.00 991.67
16.00 3.70 330.00 991.67
18.00 3.00 361.00 991.67
20.00 2.70 34.00 99.1.67
22.00 2.00 34.00 991.67
24.00 1.7O 34.00 991.67
2.00 1.50 375.00 991.67
4.00 1.50 27.00 991.67
A. 00 1 .SO 27. 00 991.67

MEASURED DISSOLVED OXYGEN
(G/M**3)

UPSTREAM DOWNSTREAM
TIME 0.0. TIME D.O.
4.05 6.90 6.25
6.05 6.75 8.25
(3.05 7.10 10.25
10.05 8.00 12.25
12.05 (3.80 1.4.25
14.05 9.70 16.25
16.05 9.90 10.25
' ' 18.05 9.50 20.25
20.05 H.70 22.25
22.05 7.70 . 24.25
24.05 7.30 26.25
! 26.05 7.00 28.25
1 28.05 A. 90 0
STANDARD RESPIRATION RATE =
STANDARD RESPIRATION RATE =
4. 90
6.50
7.45
10.20
10.80
10.70
0. 40
6 30
5.20
4. 90
4. 70
4. 60
I
.3900 I3/(M*M*HR> AT 20 DEG C MEAN ERR.OR = -.0215
.4115 (5/(M*M*HR) AT 2.0 DEfi C MEAN ERROR = -.0007







A ITERATIONS
9 ITERATIONS
******************«************:M*****************
-------
RESULTS OF COMPUTATIONS:
     STANDARD RESPIRATORY RATE
     SUNRISE TIME =  4.41	
                          .4115  R/(M*M*HR>  AT 20 REG C
     SUNSET TIME =
      9 ITERATIONS
          19. 58
     ROUTED TOTAL r.OMMIINJTY  PHOTOSYNTHF.TIC ANH RESPIRATORY RATFS
    	TIME	 P          R     RESIDUAL    TR
                     6.
                            ---- G/(tt#M*HR) ------
                                . 135
                                           S77
                                                    . 000
                                                               096
8.
10.
.1.?.
14.
16.
18.
20.
22.
•>
4.
25
25
2.5
75
rs
75
25
75
?5
75
25
. 540
. 650
3 . 14?
1. 054
. HP 8
.327
0
0
0
.0
0
.575
.58.3
.597
.611
.619
. A7B
.639
.A3fl
.A17
.57A
.511
-.000
.000
. 000
-. 000
.000
-.000
-.0??
- . ?3f;
. 149
	 	 151 .__
-.070
?..
Z.
r^
t- .
»%
?.
•^
?..
2.
o
t'. .
	 2_
?..
096
096
096
096
096
096
076
096
096 - -..•-•
OOA • .-. • • ' •.-,.,...'.. 	
076
          DAY  1
                      RESPIRATION = 1 4 . ?600n/H*«2
_
 TOfAI.. DAILY PHOTOSYNTHfSIS
 P/R RATIO =.   ,66?9
                                         9.5181R/M**2
     CQMPDTEn UALUES OF SURFACE  P.  0.  EXCHANGE (G/(M*M*HR)),
                        SURFACE.  C.XCHANRF. COEFFICIENT 
.0593
.0781
7.51
28.37
.0213
.0792
.0075
.0003
7 . 54 7 . 50
-29.13 .27-87
. 0203
.0006
7.61
27 63
. 1049
. 0(306
7.65
27.37.
.0316
.0817
7.69 ' "
27.13
-------
01
CO
TIMF. = 8.00 FLOW RATE = 0378 
SURFACE EXCH. -.0339 -.0112 -.0429 -.0130 -.0457
SAT. n.O. CONC. 7.46 7.49 7.53 7.55 7.57
TFMPFJ*ATIIRF 7fl 7O 7F1 SO 7F> 1ft 7R 1 ft 77 
SURFACE EXCH. -.0737 -.0250 -.0991 -.0304 -.1115
RF COFFFTTIFNT O77O 077O O7A9 O7A9 O77O
. SAT. D.O. CONC. 7.39 7.42 7.44 7.47 7.50
TFMPFRATItRF 79 71 79 07 7H R.T 7R A4 7R 46
TIMF = 16.00 Fl OU RATE = 037H (M**3/SFC)
SURFACE EXCH. -.1040 -.0334 -.17.79 -.0370 -.1324
IF nOFrFTTTFNT O791 O791 O7P»A O77T O77D
SAT. 0.0. CONC. 7.30 7.33 7.36 7.39 7.42
TFMPFPATIIRF 79 R9 79 41 29 19
TTMF = 70.00 Fl (1U RATF - O37R i-i r\-i-ia r>->a-> .. . moo-
SAT. n.O. CONC. .7.71 7.24 7.27 7.31 7.34
TEMPERATURE , 30.49 30.26 3O 04 79 flj ?9 ff9
TIME o 22.. 00 FLOW RATE «. .0378 (M**3/f3EC>
SURFACE rXC.fl. -.0417 -.0071 -.CISo .0007 .0149
SE UOKFFICIENT ,0775 .0774 .0774 077j
-------
TIME = 2.
RURFACF. EXCH.
SE COEFFICIENT
•SAT. n.n. CONC.
TEMPERATURE
TIME = 4.
SURFACE EXCH.
SF. r.OUFFICIF.NT
SAT. n.O. CONC.
TEMPERATURE
TIME = A.
SURFACE EXCH.
SE COEFFICIENT
SAT . r.i . n . CONC .
TEMPERATURE
00 FLOW
.0107
. 0772
7. 79
29. B9
00 FLOW
. 0268
.0769
7. 48
20 , 54
00 FLOW
.0429
. 0763 ..
7.P6
25. 92
RATE =
. OOB7
.0771
7.3?
29. 68
RATE =
.0135
.0768
7. 53
?8.21
RATF. =
.0173
.0763
7 B9
25. 77
. 037f) (M**3/SF.C)
.0469 .0167
.0771 .0770
7.35 7.38
29.47 29.26
.0796
.0770
7. 41
29,04
. 0378 
. 0651 . 0237
. 0767 . 0767
7.58 7.62
27.89 ?.7.56
. 0981
.0767
7. 67
_£? 24
.0378 
.0743 .0244
.0762 .0762
7.91 7.93
25.62 25.47
. 0958
. 0763
7. 95
25 ..33
.0275
.0770
7.44
28.83

. 0328
.0766
7. 72
26.91

. 0305
. 0763
7.98
25. 17
. 1040
.0769
7.47
rs. 62

. 1226
.0766
7.76
26.59

. 1116
. 0762
8.00
25. 02
.0323
0770
7.50
28.41

.0374
.0767
7.81
26 . 26

.0333
.0764
8.02
24.87
V.O
-------
                                   DORM INPUT DATA FOR AUGUST 23, 1977



                                   IN CHANNEL 8 FROM STATIONS 10 TO 18
O




5
21
11



200
5.00
00. 0
. 44E-4
n 13
A
3
44.
100.
3.11
5.80
29.
500.
5. A7E-4
CHANNEL. R

0.
01

45.0
AOO.
.1. noF>5
12 2.0
20. A
10.4
15.
100.
2.
5.
16
AO
5.
100.
5.67E-4
AUGUST 23
720.
93.0
744.
1. 49EOO
10 1
IB. 9
11.0
350.
100.
4 . 07 23
t, .20 .1 J
25.0
90.0
3 0
.5 2. 16
.3 A. 00
350. 350. 350.
JOO. 300. 100.
5. A7E-4
1777
5.67E-4



1(3.
10.
i
BOO. O.RO 24.5 2.00
0.001 1.00 0.00 1.045

4
9
350.
1OO.
5
.67E-4 5.A7E-4 5.A7E-4 5.A7E-4

4
27
2f,
27
27
2B
28
20
29
29
28
24
25
2
: 1
.75 4.




•



0
A
r>
8
^
K.
4
n
3
?
3
1
8
?
5
Cj
27.
4.
; 4.
5.
29.
j.
. 7.
75
60
15
t5
i:'3
21







2.5
77.
4.90
7.15
54 4.







2.0
360.
A. 50
9.15J
34







.3







. 0
342.
7.
1.
b.vr< H.A513.
9.24.11. 2413.
4. )3







3.5
3A1.
3.93 3.72 3.







3. 7 3






'
.0 2. 7
330. 361. 34.
4510.7010. 8010.
15
13. 151.5. 151.7.
2013. 4012. 00 8.
2415.2417. 2419.
70 B. 40
51
2A.
?A.
2A.
2A.
27.
27.
27.
28.
2P.
29.
27.
2A.
2A.
?<>
2.
3.31 3.10
3
1
3
A
0
A
A
*1
/-
6
A
*>
4_
*^
*'..
9
B
0 1.7 1.5 1.5
34. 34. 375. 27 . •
A. 30 5.20 4.90 4.70
1519. 1521. 1
523. 152.5. 1527. 15 . |.
70 4.50 3.30 3.00 2. AO 2.50 :
2421.2423.2425.2427.2429.24
-------
                        DORM SIMULATION  PRINTOUT FOR AUGUST  23,  1977

                              IN  CHANNEL  8  FROM STATIONS  10 TO 18
                          EL- CDMHBHfrT-Y  PHOTOnYNTHETIC-ftNIt-RESP-IRA-TOR3?—RftTCS-

         Ft Y-NHHER-ICALL Y ROOT-*-Ng-frrEb-frHrS&tr^En-OfrYfi

                                         B  STi¥HdN5
                                -9-TftRTINO  Hft-TE-^fttlGUS-T-23	1-977-
      1.IST OF  SYMBOLS:
      C  =  D.O. CONCENTRATION G/M**3)
      EPS  =  COEFFICIENT WHICH SPECIFIES  TIME STEP METHOD
      P =  PHOTOSYNTHET1C RATE OF CHANNEL  REACH 
     —TNPtrr-ItATft—
      COMPUTATIONAL TIHF INCRF.MFNT —   720.  Stl^n         .
      COMPUTATIONAL DISTANCE INCREMENT =  7.6  M
     "FTPS  =  1. 00	
      OSTAR  =   .01
     "MAXJflun  fcKRuK IN K UK r HIK JII.KOIJUN n.iRyERRENUfc =  70010 li/ (M*H*HR~)
      MAXIMUM  ITERATIONS = 20
     "CONS I AN I  l-iiw  Hkh:HI:.N.UIb Kt.i..n i .1 url  3  i . u^5
      CONSTANT  REPRE5ENTAT.TNG RESPIRATION INHIBITION DUE TO LOU D.  0.  CONC. =     0  G/M**3
             UK  K'ULIfl IJ UN > i I  'I U UPS I KEHH  CL  U.  HEfiSOREfflEN I S =  3	:	
      INPUT DATA FOR  EACH SEGMENT
SEGMENT NUMBER
INITlnl. DrOT'AT UPSTRE'AM —
END OF SEGMENT C(VM**3>
!»t'.bnh.N r i..r.N(iTH \ n )
CRnnS-HECT. ARF.A (M*M)
10
4.
30
2.
75
01
1.1
12
4.54 4.
307 !5 — 3C
.29 1 .
. 34
r?-
,91
13 14
4.13 3.93
30. 5 .$0. S '
. ?0 1 . 76
15
3.72
30. S
.38
16
3.51
-30T5-
?. 18
17
3.31
301 5 '
.20
18
3. 10

                                   L . / /  o . .I/   t. / I   J . JD  17 or   .3T^*^  TToo
 SERMENT niRECTION  (TiFR)      44.   29.    15.     5.   350.  350.   350.  350.
-WATER-SURFACE~Sl:.nPr~	TO0057—OOOS7VOOOS7. O0057~O005T.'OgOh/. 00057TTO057"
-------
                               WEATHER TATA INPUT TO  MGHF.U
                            TIME
WIND
 UTND
                                    \1
14. 00
'" 	 — . _ _ _ . i a AA
1 O . '/O
20.00
y 7. . oo
24. 00
4. 00
	 *_/> A--
2
'~2
3
3
2
4.
1
1
!;50-
. 50
.00
. 00
. 70
. 70
. vO
.70
. SO
77.00
' ' 360. 00""
342. 00
3A1 . 00
330.00
361 . 00 •
34. 00
3 4 . 00 —
34. 00
375. CK) —
27. 00
	 *>^ — f\4\ 	 —
' VV1. k>
991. 67
991! . 67
991. 67 V
991 . 67
991. 67
• 9911. 67 • •
991.67
~ 991 . 67
791.67
•• 991':-617- •- 	 ._ . - .
991. 67
                         MEASURED DISSOLVED OXYGEN (G/M**3)
-J
to
                          UPSTREAM
                         -T-IMfr	rt-ffr-
                          4.?5
                                 4.75
  nOUNSTREAM
 -TTHF	tt-(V
  6.35   3.25
	 fj . *:":}
	 	 — - -1 /\ i-»e-
12.25
	 4-d ?n
— ^r-y« 	
6. fiO
•7 • tr-
/ . sti
10.20
— w»-nn
	 1.1. <»'.>-
10. 40
14. 40
	 4-A — ^-A —
	 rj yrj 	 ^ 	
8. 65
13.40
                                1.0.70
                                              18.40   8.70
.._ _ 	 1H. yj —
20.25
>• — 	 — 1* T *t '"7
i 24.25
— — p jL .- p rj •• •
— Br-<«) 	
6.30
^" 1 A
%.l . 2 (/
4.90
	 A ff\
	 rWT4fl —
22. 40
26. 40
	 Q<1 — AA-.-
3.30
.00 " ._ .. . ... — — .... _ . .
2.60
                                 4.60
                             RESPIRATION RATF!
                                                    .8000 R/(M*M*HR)  AT 20 PEG C
                                         MEAN  ERROR
                                                                 . 3557
                                                                      6 ITERATIONS
                    STANDARD RESPIRATION  RATE
                                                          R/(M*M*HR>

                                                 W(~ A.V* ^l-.r1. «r-»
                                                 » it-nit c.r\rMjr\
                                                                     10 ITERATIONS
                    STANDARD RESPIRATION  RATE
.4325 G/(M*M*HR) AT  20  DEO C
                                                                                       MEAN ERROR
                                                          . 0002
                                                                             12  ITERATIONS
-------
               -ftgfH.H..Tri Or COMPUTATIONS.
                               RESPIRATORY RATE =   .4325  G/(M*M*HR> AT 20 DEC  C
                     SUNSET  TIME = 19.58
RfHJTEfl TOTAL COMMUNITY
I l nr.
: 3!5
8. 40
I w . 4 O
12.40
16. 40
20. 40
	 	 	 • *T*> lift
z«;. 40
. 40
	 — 	 ._._... n AI-LJ,
.4. 40
PHOTClSYNTHETir. ANH
.p,_ ...
	 R/(M*M*HR) 	
. 177 ——37-4—
. 748 . 577
. Out . S8o
l!n39 .570
.923 .616
!7n 	 . n«r8 —
0 .639
0 ' —-7*37 —
0 . 607
. "2
0 .518
RESPIRATORY
fT/M**:^
	 •'. 000 	
.000
. 000
-.000
-.000
— — . ooo 	
-.865
	 -" 1 72 	
.353
-.263
RATES
• TR •
MR
2.003 ;
2'. 003
--2r003 	 	 — - - • -
— grOO3 	 	 	 • - • -
2. 003
2.003
-2.-003 	 — 	 	 - — — - •
2.003
U)
         PAY  I
	70TAI—PAII V-RFBW/RAT-ION— - Mr3493t3/M**2	
         TOTAL UAU.Y PHOTOSYNTHESIS  » 12. 84A9R/M**2.
	PXR RftT-H»—	rfl9S3	
                                    SURFACE; EXCHANGE COEFFICIENT  >
                                    OATDftATION P.O.  CflNf?ENTftftTION  (&/tHnK3);
                                    AND WATER TEMPERATURE 
-------
-J
	 •• - i -.i nr." *= — r*r
F.URFACF. rXCH.
V>r. l.Utr r- IL lh.N 1
SAT. n.O. ODNC
i tnFEKH i UN FT
T 3 (1 r_ = .12
SURFACE F.XCH.
bh. l.Ufc.t-f- .i(, It.N i
SAT. n.O. CONG
n"'KC't!'C'l'l 1 1 IL'L
•:.nr fc KH I UNI:.
TTHF; a 14
RURFACF. FXCH.
i>t-. i..ut(-t- it itrt 1
SAT. D.O. CONC
• • T F"MP trC* P T 1 IDC

1 J n r. — .1 o
SURFACE EXCH.
MI- i.ui-FFIC.JFNT
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