Report
Current Observations in
Buzzards Bay
U.S. Geological Survey
Woods Hole Oceanographic Institution
BBP-89-17
The Buzzards Bay Project is sponsored by
The U.S. Environmental Protection Agency and
The Massachusetts Executive Office of Environmental Affairs
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U.S. DEPARTMENT OF INTERIOR
GEOLOGICAL SURVEY
CURRENT OBSERVATIONS IN BUZZARDS BAY, 1982-1986
DATA REPORT
by
Bradford Butman1, Richard Signell2,
Polly Shoukimas1, and Robert C. Beardsley2
U. S. Geological Survey Open-File Report 88-5
Prepared in cooperation with
the U.S. Environmental Protection Agency
under Cooperative agreement CX-813547-01-0 with the
Voods Hole Oceanographic Institution
This report is preliminary and has not been reviewed for conformity with U.S.
Geological Survey editorial standards. Any use of trade names is for descriptive
purposes only and does not imply endorsement by the U.S. Geological Survey or
the U.S. Environmental Protection Agency.
hj.S. Geological Survey, Woods Hole, MA 02543
2Woods Hole Oceanographic Institution, Voods Hole, MA 02543
December 1988
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THE BUZZARDS BAY PROJECT
US Environmental Protection Agency Massachusetts Executive Office of
WOP-2100 Environmental Affairs
John F. Kennedy Federal Building 100 Cambridge Street
Boston, MA 02203 Boston, MA 02202
FOREWORD
In 1984, Buzzards Bay was one of four estuaries in the country
chosen to be part of the National Estuary Program. The Buzzards
Bay Project was initiated in 1985 to protect water quality and
the health of living resources in the bay by identifying resource
management problems, investigating the causes of these problems,
and recommending actions that will protect valuable resources
from further environmental degradation. This multi-year project,
jointly managed by United States Environmental Protection Agency
and the Massachusetts Executive Office of Environmental Affairs,
utilizes the efforts of local, state, and federal agencies, the
academic community and local interest groups in developing a
Master Plan that will ensure an acceptable and sustainable level
of environmental quality for Buzzards Bay.
The Buzzards Bay Project is focusing on three priority problems:
closure of shellfish beds, contamination of fish and shellfish by
toxic metals and organic compounds, and high nutrient input and
the potential pollutant effects. By early 1990, the Buzzards Bay
Project will develop a Comprehensive Conservation and Management
Plan to address the Project's overall objectives: to develop
recommendations for regional water quality management that are
based on sound information, to define the regulatory and
management structure necessary to implement the recommendations,
and to educate and involve the public in formulating and
implementing these recommendations.
The Buzzards Bay Project has funded a variety of tasks that are
intended to improve our understanding of the input, fate and
effects of contaminants in coastal waters. The Project will
identify and evaluate historic information as well as generate
new data to fill information gaps. The results of these Project
tasks are published in this Technical Series on Buzzards Bay.
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This report represents the technical results of an investigation
funded by the Buzzards Bay Project. The results and conclusions
contained herein are those of the author(s). These conclusions
have been reviewed by competent outside reviewers and found to be
reasonable and legitimate based on the available data. The
Management Committee of the Buzzards Bay Project accepts this
report as technically sound and complete. The conclusions do not
necessarily represent the recommendations of the Buzzards Bay
Project. Final recommendations for resource management actions
will be based upon the results of this and other investigations.
David Fierra, Chairman, Management Committee
Environmental Protection Agency
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Table of Contents
Page
Introduction 1
Field Program , 1
Moored array .' 1
Long-term near-bottom observations 1
Wind observations 9
Instrumentation 9
Vector-averaging current meter (VACM) 9
Vector-measuring current meter (VMCM) 10
Bottom tripod 10
Temperature depth recorders 10
Data Processing 10
Along-bay/cross-bay coordinate system 12
Instrument fouling 14
Record identification 14
Explanation of data report 15
Summary data plots 15
Tabular data 15
Individual data records : 15
Scatterplots 15
Spectra 15
Stackplots 19
Data grouped by deployment 19
Long-term time series 19
Acknowledgements 19
References cited 21
Tables 22
Figures 47
ii
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List of Tables
Page
Table 1. Buzzards Bay moorings 3
Table 2. Statistics of current records 22
Table 3. Ellipse parameters for hour-averaged and
low-passed currents 23
Table 4. Amplitude and Greenwich phase for elevation for
M4, 1^, N2, S2, K,, and 0, tidal constituents 24
Table 5a. Amplitude and Greenwich Phase for east and north
currents and ellipse parameters for M4 tidal currents 25
Table 5b. Amplitude and Greenwich Phase for east and north
currents and ellipse parameters for Mj tidal currents 26
Table 5c. Amplitude and Greenwich Phase for east and north
currents and ellipse parameters for N2 tidal currents 27
Table 5d. Amplitude and Greenwich Phase for east and north
currents and ellipse parameters for S2 tidal currents 28
Table 5e. Amplitude and Greenwich Phase for east and north
currents and ellipse parameters for K1 tidal currents 29
Table 5f. Amplitude and Greenwich Phase for east and north
currents and ellipse parameters for 01 tidal currents 30
Table 6a-2.Percent occurrence of speed (in 5 cm/sec bins)
by directon (in 45° bins) 31
iii
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List of Figures
Page
Figure 1. Map of Buzzards Bay showing'location of current
moorings 2
Figure 2a-e. Timeline of current, temperature, salinity,
light transmission and pressure observations 4
Figure 3. USGS bottom tripod system 11
Figure 4. Definition of along-bay and cross-bay
coordinate system 13
Summary data plots
Figure 5. Mean currents observed during all observations 16
Figure 6. Principal axis of low-frequency currents 17
Figure 7. M2 tidal current ellipses 18
Scatter plots
Figure 8. Scatterplots of hour-averaged and low-passed currents
a. Station A, 1982 58
b. Deployment 1 59
c. Deployment 2 60
d. Deployment 3 61
' e. Deployment 4 62
f. Deployment 5 63
g. Deployment 6 64
h. Station F, 1986 65
i. Station WHOIA - 66
j. Station WHOIB 67
k. Station WHOIC 68
• Kinetic energy spectra
Figure 9a-z. Variance-conserving kinetic energy spectra 69
Individual data records
Figure 10. Data plots, Station A, record 2631
a. Hour-averaged data 95
b. Hour-averaged data 96
c. Low-passed data 97
Figure 11. Data plots, Station A, record 2651.
a. Hour-averaged data 98
b. Hour-averaged data 99
c. Low-passed data 100
Figure 12. Data plots, Station D, record 2851.
a. Hour-averaged data 101
b. Hour-averaged data 102
c. Low-passed data 103
Figure 13. Data plots, Station B, record 2861.
iv
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a. Hour-averaged data 104
b. Hour-averaged data 105
c. Low-passed data 106
Figure 14. Data plots, Station WHOIA, record 8121.
a. Hour-averaged data 107
b. Low-passed data; 108
c. Data series uncorrected for fouling 109
Figure 15. Data plots, Station WHOIA, record 8122.
a. Hour-averaged data 110
b. Low-passed data Ill
c. Data series uncorrected for fouling 112
Figure 16. Data plots, Station UHOIB, record 8131.
a. Hour-averaged data 113
b. Low-passed data 114
c. Data series uncorrected for fouling 115
Figure 17. Data plots, Station WHOIB, record 8132.
a. Hour-averaged data 116
b. Low-passed data 117
c. Data series uncorrected for fouling 118
Figure 18. Data plots, Station WH01C, record 8141.
a. Hour-averaged data 119
b. Low-passed data 120
c. Data series uncorrected for fouling 121
Figure 19. Data plots, Station WHOIC, record 8142.
a. Hour-averaged data 122
b. Low-passed data 123
c. Data series uncorrected for fouling 124
Figure 20. Data plots, Station C, record 2871.
a. Hour-averaged data 125
b. Hour-averaged data 126
c. Low-passed data 127
Figure 21. Data plots, Station B, record 2881.
a. Hour-averaged data 128
b. Hour-averaged data 129
c. Low-passed data 130
Figure 22. Data plots, station A, record 2891.
a. Hour-averaged data 131
b. Hour-averaged data 132
c. Low-passed data 133
Figure 23. Data plots, station B, record 2901.
a. Hour-averaged data 134
b. Low-passed data 135
Figure 24. Data plots, station A, record 2911
a. Hour-averaged data 136
b. Hour-averaged data 137
c. Low-passed data 138
Figure 25. Data plots, station C, record 2921.
a. Hour-averaged data 139
b. Hour-averaged data 140
c. Low-passed data 141
Figure 26. Data plots, station B, record 2931.
a. Hour-averaged data 142
b. Low-passed data 143
Figure 27. Data plots, station C, record 2941.
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a. Hour-averaged data 144
b. Hour-averaged data 145
c. Low-passed data 146
Figure 28. Data plots, station A, record 2951.
a. Hour-averaged data 147
b. Hour-averaged data 148
c. Low-passed data 149
Figure 29. Data plots, station E, record 2981.
a. Hour-averaged data .• 150
b. Hour-averaged data 151
c. Low-passed data 152
Figure 30. Data plots, station A, record 2991.
a. Hour-averaged data 153
b. Hour-averaged data 154
c. Low-passed data 155
Figure 31. Data plots, station B, record 3001.
a. Hour-averaged data 156
b. Hour-averaged data 157
c. Low-passed data 158
Figure 32. Data plots, station C, record 3021.
a. Hour-averaged data 159
b. Hour-averaged data 160
c. Low-passed data 161
Figure 33. Data plots, station B, record 3031.
a. Hour-averaged data 162
b. Hour-averaged data 163
c. Low-passed data 164
Figure 34. Data plots, station A, record 3041.
a. Hour-averaged data 165
b. Hour-averaged data 166
c. Low-passed data 167
Figure 35. Data plots, station F, record 3121.
a. Hour-averaged data 168
b. Hour-averaged data 169
c. Low-passed data 170
Data grouped by deployment
Figure 36. Data plots for Deployment 1.
a. Low-passed currents and wind stress 171
b. Low-passed currents at WHOIA, WHOIB, and WHOIC 172
c. PSDEV, beam attenuation, and wind stress 173
d. Hour-averaged temperature 174
e. Low-passed pressure 175
Figure 37. Data plots for Deployment 2.
a. Low-passed currents and wind stress 176
b. Hour-averaged PSDEV, beam attentuation,
and wind stress 177
c. Hour-averaged temperature and salinity 178
d. Low-passed pressure, pressure differences,
and wind stress 179
Figure 38. Data plots for Deployment 3.
a. Low-passed currents and wind stress 180
vi
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b. Hour-averaged PSDEV, bean attentuation
and wind stress 181
c. Hour-averaged temperature and salinity 182
d. Low-passed pressure, pressure difference,
and wind stress 183
Figure 39. Data plots for Deployment 4.
a. Low-passed currents and wind stress 184
b. Hour-averaged PSDEV, bean attenuation
and wind stress 185
c. Hour-averaged temperature and salinity 186
d. Low-passed pressure, pressure difference
and wind stress 187
Figure 40. Data plots for Deployment 5.
a. Low passed currents and wind stress 188
b. Hour-averaged PSDEV, beam attenuation
and wind stress 189
c. Hour-averaged temperature and salinity 190
d. Low-passed pressure, pressure difference
and wind stress 191
Figure 41. Data plots for Deployment 6.
a. Low-passed current and wind stress 192
b. Hour-averaged PSDEV, beam attenuation
and wind stress 193
c. Hour-averaged temperature and salinity 194
d. Low-passed pressure, pressure difference
and wind stress 195
Figure 42. Long-term observations at station A.
a. Current speed for deployments 2, 3, 4, 5, and 6 196
b. PSDEV at station A for deployments 2, 3, 4, 5 and 6.... 197
c. Temperature for deployments 2, 3, 4, 5, and 6 198
d. Beam attenuation for deployments 2, 3, 4, 5, and 6 199
e. Salinity for deployments 2, 4, 5, and 6 200
Figure 43. Long-term observations at station B.
a. Current speed for deployments 1 (1 mab), 2, 3,
4, 5, and 6 (4 mab) 201
b. Temperature for deployments 1, 2, 3, 4, 5, 6 202
c. Beam attenuation for deployments 1, 2, 5, 6 203
d. Salinity for deployments 1,2,5 and 6 204
Figure 44. Long-term observations at station C (including D and E).
a. Current speed for deployments 1 (D), 2, 3, 4,
5 (E). and 6 205
b. PSDEV for deployments 1 (D), 2, 3, 4, 5 (E) and 6 206
c. Temperature for deployments 1 (D), 2, 3,
4. 5 (E), and 6 207
d. Beam attenuation for deployments 2, 3, 4, and 6 208
e. Salinity for deployments 2, 3, 4, and 6 209
Figure 45. Long-term wind stress at New Bedford.
a. Wind stress amplitude for deployments 1, 2, 3,
4, 5, and 6 210
b. Low-passed wind stress for deployments 1, 2, 3,
4, 5, and 6 211
vii
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INTRODUCTION
Buzzards Bay is a semienclosed embayment located along the southeastern
coast of Massachusetts (figure 1). Between 1982 and 1986, the U.S. Geological
Survey (USGS) and the Woods Hole Oceanographic Institution (UHOI) made current
and other observations at several locations throughout the bay. The major
objective of these observations was to obtain a general description of the
circulation, near-bottom flow and sediment movement in the bay. Much of the
research was motivated by the discovery of PCB contamination of the sediments
in New Bedford Harbor (Weaver, 1984; Farrington and others, 1982). Little was
known about the processes that might transport these substances throughout the
Bay if they escaped from the harbor or were dredged and dumped at some location
in the bay.
FIELD PROGRAM
The measurements in Buzzards Bay can be separated into two major field
programs; a moored array experiment and long-term near-bottom measurements at
selected stations. The location of the moorings is shown in figure 1 and a
time-line of the observations in figure 2. The latitude, longitude, and water
depth of the stations, the start and stop time for each deployment, and the
parameters measured during each deployment are tabulated in table 1. Analysis
of some aspects of these measurements are presented in Signell (1987).
Moored array
In the fall of 1984, the Woods Hole Oceanographic Institution initiated a
series of measurements across the mouth of the Bay at stations WHOIA, WHOIB,
and WHOIC. One of the major objectives of this array was to provide boundary
conditions for numerical simulations of the circulation within the Bay. The
U.S. Geological Survey deployed tripods (see below for a description of these
instruments) at stations B and D to provide observations of current and pressure
in the Bay interior. Halfway through the WHOI deployment, the tripods at B and
D were recovered and redeployed at stations A and C. The tripod at station B
was replaced with a vector averaging current meter modified to also measure light
transmission and water conductivity (VACM-TCT) 4 meters above bottom (mab). In
addition to providing current and pressure observations, the tripods measure
near-bottom light transmission which can be used to monitor near-bottom sediment
resuspension and provide information on the transport of fine-grained sediments
throughout the Bay.
Long-term near-bottom observations
Following the fall 1984 moored-array experiment, tripods were maintained
at stations A and C and a VACM-TCT at station B through the fall of 1985,
providing nearly continuous near-bottom observations in excess of one year.
These observations were designed to assess the long-term variability of the
bottom currents and sediment movement. Of particular interest were the spatial
and temporal variability of sediment resuspension, and the transport of sediment
during resuspension events. It was hypothesized that at least in the deep parts
of Buzzards Bay, sediment resuspension and transport was episodic, caused by
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70°50' fr
70°40'
4I°40' -
4I"30
BUZZARD S BAY ARRAY
• TRIPOD
• CURRENT METER
Figure 1. Map of Buzzards Bay showing location of current moorings deployed by
USGS and WHOI. Sections labelled BBX are sometimes referenced in
the text and figure captions without the prefix BB.
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Table 1. Station name, mooring Identification, water depth, latitude and longitude, mooring type, instrument type, data
return, and dates of deployments for measurements made in Buzzards Bay.
Station
BBA
BBS
BBC
BBD
BBE
BBF
UHOIA
WHO IB
UHOIC
Moor.
no.
263
265
289
291
295
299
304
286
288
290
293
300
303
287
292
294
302
285
298
312
812
813
814
Water*
depth
(m)
12.5
12.0
13.0
13.1
13.3
12.0
12.6
12.8
12.6
12.6
13.3
12.6
13.0
16.6
16.6
16.6
15.7
14.2
15.4
9.1
15.5
18.0
16.0
Latitude (N.)/
Longitude (W.)
41-37.8'
70-40.5'
4T37.9'
70-40.6'
41-32.9-
70-52.5-
41-33.2'
70-52.2'
41-32.0'
70-48.3'
41-30.8-
70-47.0-
41-31.4-
70-47.8'
41-35.0-
70-53.3-
41-30.8-
70-55.7-
41-29.1-
70-53.1-
41-28.0-
70-52.3-
Moor.
type1
T
T
T
T
T
T
T
T
SS
ss
SS
ss
ss
T
T
T
T
T
T
T
SS
SS
SS
Inst,
type2
T
T
T
T
T
T
1
T
VICT
V
V
VTCT
VTCT
T
T
T
T
T
T
T
VHCM
VMCN
VHCM
VHCM
VHCM
VHCH
Inst.
depth
(m)
11.5
11.0
12.0
12.1
12.3
11.0
11.6
11.8
8.6
8.6
9.3
8.6
9.0
15.6
15.6
15.6
14.7
13.2
14.4
8.1
5.0
10.0
5.0
10.0
5.0
10.0
Current
P
P
6
G
G
G
G
G
P
G
F
G
P
G
G
G
P
G
G
G
G
G
G
G
G
G
Data3
Temp. Pres.
G
G
G
G
G
G
G
G
P
G
G
P
G
G
Q
P
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
-
-
-
G
-
G
G
G
G
G
G
G
.
-
_
-
.
•
Good.
_
.
G
G
G
G
N
G
P
-
-
G
0
G
G
G
G
.
N
G
.
-
.
-
.
•
Trans.
F
0
G
0
F
F
F
F
F
-
-
F
F
G
G
G
F
N
N
0
.
-
.
-
.
•
Deployed
(YrMoDy)
820705
820820
841108
850128
850409
850626
850814
840906
841025
850114
850328
850619
850807
841025
850128
850329
850807
840821
850619
860709
840824
840827
840828
Recovered
(YrMoDvl
820820
830105
850114*
850329
850619
850814
851022
841022
850114
850328
850619
850702
851023
850114
850328
850628
851205
841022
850807
860904
850118
850118
850118
•Water depth not corrected for tide (range "1.2 m).
*0ata ends 841228.
I = tripod; SS = subsurface.
I = tripod, V = vector averaging current meter; VICT = vector averaging current meter modified for conductivity
and transmission; VMCM = vector measuring current meter.
C - good; 0 = questionable data; F = fouled; P = partial record; M = failed.
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CURRENT
BUZZARDS BAY ARRAY
STA.
BBA
BBB
BBC
BSD
BBE
BBF
DEPTH
(m)
13
to
14
13
lo
14
17
14
15
9
DEPLOYMENT
WHOI A
WHOI B
WHOI C
15.5
180
16.0
INST.
DEPTH
(m)
12-13 -
9 -
. 13 -
l£
13 -
14 -
8 -
5 -
10 -
5 -
10 -
5 -
10 -
MAB
(m)
1 -
4 •"
1 -
1 •»•
1 -
1 -
1 -
II -
6 -
13 -
8 -
II -
6 -J
1982 1984 1985 1986
J|J,A|S|0|N|D J|F|M|A|M|J|J|A|S|0|N|D J ,F ,M|A |M| J , J , A, S|0|N,0 J |F|M|A|M, J | J , A,S |0|N|0
.2431. 26iL, ,Z89l 2911 2991 2991 3041
.2881 . 2901 .. 2991 ..3001 .3031.
,2961.
2871 ..292I..294I 3O2I
( 2851 1
•as,
,3421
r^^^^
• 8IZI i
. 8122 ,
8131
1 8IJZ 1
8141
8142
J'J'A'S'O'N'D J'F'M'A'M'J'J'A'S'O'N'D J'F'M'A'M'J'J'A'S'O'N'D J'F'M'A'M'J'J'A'S'O'N'D
1982 1984 1985 1986
Figure 2a. Timeline of current observations. The number above the horizontal line Indicates the USGS or WHOI
record identification number. Deployments 1-6 are indicated. No observations were made in 1983
and that year is omitted from the time-line.
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TEMPERATURE
BUZZARDS BAY ARRAY
STA.
BBA
BBB
BBC
BBD
BBE
BBF
DEPTH
(m)
8
14
13
to
14
17
14
15
9
DEPLOYMENT
WHOI A
WHOI B
WHOI C
15.5
180
160
INST.
DEPTH
(m)
ip.i-i _
9
13 -
16 -
13 -
14 -
8 -
5 -
10 -
5 -
10 -
5 -
10 -
MAB
(m)
1 -
4 -
1 -
1 -
1 -
1 -
1 -
II -
6 -
13 -
8 -
II -
6 -
1982 1984 1985 1986
J| J(A|S|0|N|D J|F|M|A|M|J|J|A|S|0|N|D J |F |M|A|M| J | J , A|S|0|N|D J |F|M|A|M| J | J|A|S|O|N|D
,263I| a»' , .289, ,»'„ 2»» „*»', »«l ,
. 2881 . . 2901 , . 2931 ..3001. 3031 .
|296I|
, 2871 t ^92^29,41 f 3021 ^
,2851^
f9B\t
t3!2lt
t 8'21 4
8122
8131
8132
1 8WI t
8142
J'J'A'S'O'N'O J'F'M'A'M'J'J'A'S'O'N'D J'F'M'A'M'J'J'A'S'O'N'O JIF'M'A'M'J'J'A'S'O'N'O
1982 1984 1985 1986
Figure 2b. Timeline of temperature observations.
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SALINITY
BUZZARDS BAY ARRAY
STA.
BBA
BBB
BBC
BBD
BBE
BBF
DEPTH
(m)
13
ft
13
lo
14
17
14
15
9
DEPLOYMENT
WHO! A
WHOI B
WHOI C
15.5
180
160
INST.
DEPTH
(m
12-13 -
13 -
1C
ID
13 -
14 -
8 -
5 -H
10 -
5 -
10 -
5 -
10 -
MAS
(m)
1 -
1 -
1 -
1 -
1 -
II -
6 -
13 -
8 -
II -
6 -
1982 1984 1985 1986
J|J|A|S|O|N|D J|F|M,A|M|J|J|A|S|0|N|D J |F |M|A|M, J | J , A|S|0|N|D J |F |M|A|M, J | J ,A|S|0|N|0
fO^ ,2911, , 29SI ,,299lt
,28«_. 2931 ..you. 3031 .
(286I)
. 2871 ^921 29141 3021 .
,3121.
^^^^^
i 1 , 2 , 3 , 4,», 6 ,
J'J'A'S'O'N'D J'F'M'A'M'J'J'A'S'O'N'O J'F'M'A'M'J'J'A'S'O'N'O JIF'M'A'MIJ'JIA'S'O'N'D
1982 1984 1985 1986
Figure 2c. Timeline of salinity observations.
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TRANSMISSION
BUZZARDS BAY ARRAY
STA.
BBA
BBB
BBC
BBD
BBE
BBF
DEPTH
(m)
13
A
13
to
14
17
14
15
9
DEPLOYMENT
WHOI A
WHOI B
WHOI C
155
180
16.0
INST.
DEPTH
(m)
12-13 -
9 -
13 -
13 -
14 -
8 -
5 -
10 -
5 -
10 -
5 -
10 -
MAB
(m)
1 -
4 -
1 -
1 -
1 -
1 -
II -
6 -
13 -
8 -
II -
6 -
1982 1984 1985 1986
J|J|A|S|0|N|0 J|F|M|A|M|J|J|A|SjO|N|D J|F(M|A|M| J | J |A|S|0|N|D J |F|M|A|M| J | J |A,S|0|N|0
i£svsu & ab&mM&s*
4TU &M9L-I
&&
. 2871 . .292I»29.«I . SQ2I .
4£,
,1.2,3,4,5. 6 ,
J'J'A'S'O'N'D J'F'M'A'M'J'J'A'S'O'N'O J'F'M'A'M'J'J'A'S'O'N'D J'F'M'A'M'J'J'A'S'O'N'D
1982 1984 1985 1986
Figure 2d. Timeline of transmission observations.
-------�
PRESSURE
BUZZARDS BAY ARRAY
STA.
BBA
BBB
BBC
BBD
BBE
BBF
DEPTH
(m)
13
to
14
13
to
14
17
14
15
9
DEPLOYMENT
WHOI A
WHOI B
WHOI C
15.5
160
16.0
INST.
DEPTH
(m)
12-13 -
9 -
13 -
16 -
13 -
14 -
8 -
5 -
10 -
5 -
17 -
5 -
10 -
MAB
(m)
1 -
4 -
1 -
1 -
1 -
1 -
II -
6 -
13 -
1 -
II -
6 -
1982 1984 1985 1986
J|J|A|S|0|N|D J|F|M|A|M|J(J|A|S|0|N|D J |F |M|A|M| J , J , A| S|0|N|D J |F |M|A|M| J | J | A,S |0|N|D
26J. 2651 2B9 291. 2951 299) 3041
(2ea
i 2871 1 12921!29?' » M2' I
2851
t&8\t
^
I 1 i 2 , 3 i 4 , S , 6 ,
&e
J'J'A'S'O'N'O J'F'M'A'M'J'J'A'S'O'N'D J'F'M'A'M'J'J'A'S'O'N'D J'F'M'A'M'JIJ'A'S'O'N'D
1982 1984 1985 1986
Figure 2e. Timeline of pressure observations.
-------�
the combined effects of surface waves and currents during strong storms. Station
C (D and E) provided information in the central deep portion of the bay and
station A, information near the shallow head. In addition, the instruments at
A and C provided direct measurements of the along-bay setup, hypothesized as an
important driving element of the along-bay flow. Station B was selected to
provide observations of the near-bottom flow in the outer approaches to New
Bedford Harbor and the coupling of this flow to the flow in Buzzards Bay. In
total, six deployments of instruments were made as part of this long-term study,
the first two during the moored array experiment (figure 2).
Short-term observations at stations A and F in 1982 and 1986, respectively,
were cooperative bottom boundary layer-biological experiments with Dr. Cheryl
Ann Butman and Dr. William Grant of the Woods Hole Oceanographic Institution.
Wind observations
Wind observations made at the hurricane barrier at the entrance to New
Bedford Harbor by the U.S. Army Corps of Engineers (anemometer height 15 m above
sea level) were digitized hourly and converted to wind .stress using a quadratic
drag law with a constant drag coefficient of 1.8 x 10" . Analysis by Signell
(1987) suggests that these winds are an adequate representation of the winds over
Buzzards Bay.
INSTRUMENTATION
Several types of instruments and mooring configurations were used to make
measurements of current, temperature, pressure, salinity and light transmission.
Each instrument is briefly described below.
Vector-averaging current meter
Measurements of current and temperature were made by means of EG&G vector-
averaging current meters (VACM), which have a Savonius rotor and small vane to
detect current speed and direction. The VACM samples direction every 1/16 rotor
turn and vector-averages the current for a specified interval. In these
experiments, the sampling interval was 3.75 minutes. Most of the VACMs used in
this study were modified to measure light transmission and water conductivity
(called VACM-TCT, Strahle and Butman, 1985). The 0.25-m red LED (light-emitting
diode) transmission sensor was manufactured by Sea Tech Inc. (Bartz and others,
1978). The transmission sensor voltage was measured for about 0.1 sec in the
center of the VACM sampling interval. Conductivity was measured by means of a
Sea Bird Inc. conductivity sensor (Peterson and Gregg, 1979). Output of the
sensor was averaged for 1.875 sec in the center of the VACM sampling interval.
The VACM's were deployed on a taut subsurface mooring with the speed sensor
approximately 4 mab and the floatation approximately 7 mab.
Vector-measuring current meter
Vector-measuring current meters (VMCMs) were used to measure temperature
and velocity at WHOI sites A, B, and C (Weller and Davis, 1980). The VMCMs use
-------�
orthoganal bidirectional propeller speed sensors and were deployed beneath slack-
moored surface buoys. The sampling interval was 3.75 minutes.
Bottom Triood
An instrument system (Butman and Folger, 1979) which measured near-bottom
current, temperature, pressure, light transmission and water conductivity, and
which photographed the sea floor every few hours was deployed to monitor near-
bottom currents and sediment resuspension (figure 3). This instrument system
was developed for long-term studies of sediment movement on the Continental
Shelf. For the Buzzards Bay measurements, the instrument sampled average rotor
speed and pressure every 3.75 or 7.5 minutes. Measurements of temperature and
light transmission were made in the center of this sampling interval. The
instrument also burst-sampled current speed, current direction, and pressure,
typically for 48 or 96 sec at 1.0 or 0.5 hertz (48 samples), or for 48 or 60 sec
at 0.5 hertz (24 or 30 samples) beginning in the center of each 3.75 or 7.5
minute interval. The burst current measurements were vector-averaged to obtain
current speed and direction. The standard deviation of the high-frequency burst
pressure measurements (called PSDEV) was computed as a measure of the bottom-
pressure fluctuations caused by surface waves. Estimates of wave amplitude and
period can be computed from spectra of the burst pressure observations and linear
wave theory used to calculate the amplitude of the bottom-wave currents (these
calculations are not presented in this data report).
Temperature depth recorders
Pressure and temperature were measured at several coastal sites using
temperature-depth recorders (TDRs) manufactured by Sea Data Inc.
DATA PROCESSING
Data in all instruments were recorded on 1/4" cassette tapes on Sea Data,
Inc. recorders. These tapes were transcribed to 9T tape using a Sea Data
Reader. The data were decoded to engineering variables and stored in WHOI Buoy
format on tape and DISC. All subsequent processing was conducted using the WHO I
Buoy Group Processing System. The data were carefully checked for instrument
malfunctions and then edited. The beginning and end of the records were
truncated and wild points deleted. Host data gaps were filled by linear
interpolation. The data were carefully checked at each stage of processing.
Fouling of some of the sensors presented a serious problem (see below).
After editing, the basic version of the data file included all variables
recorded at the basic sampling interval. An hour-averaged data file and a low-
passed file were created from the basic file. The low-passed version was created
using a digital filter that essentially removed all fluctuations having periods
shorter than 33 hours (PL33, Flagg and others, 1976).
Beam attenuation coefficient (units of 1/m) was computed from the light
transmission observations as -4(ln(T/100), where T is percent light transmission
over 0.25 m. The beam attentuation coefficient is linearly proportional to the
concentration of suspended material in the water if the particles are of uniform
10
-------�
J
Figure 3. USGS bottom tripod system. A is the current sensor, B the pressure
sensor, C the transmissometer, D the camera (wrapped in a protective
plastic bag prior to deployment), E the camera strobe light, F the
camera battery, G the electronics, H the battery pressure housing, I
the acoustic release-transponder, J the rope cannister, K the
recovery float, and L the lead anchor feet. The systems used in
Buzzards Bay were slightly modified from this configuration for use
in shallow water and for deployment and recovery from small boats.
11
-------�
size and composition (Moody and others, 1987). However, the size of the
particles in the water changes with time, especially during resuspension events,
and thus the beam attenuation measurements must be interpreted with care. The
transmissometer measures light transmission, not particle concentration.
Principle axes for both the hour-averaged and low-frequency currents were
computed from the east (u) and north (v) current components as:
major axis - [(0.5 (uu + w) + 10/n]1/2
minor axis - [(0.5 (uu + w) - R)/n] 1/2
orientation - 90° - 0.5 tan" (2uv/(uu-w)]
ellipicity - 1-(minor axis/major axis)
where
uv - 2(u.v ) - n uv
-2
uu - S(u.u ) - n u
-2
w - S(v v ) - n v
2 21/2
R - [(0.5 (uu - w)T + '
u - Zu./n
v - 2v /n
n *- number of data points
ALONG-BAY/CROSS-BAY COORDINATE SYSTEM
The currents in many of the plots in this report are presented in an along-
bay/cross-bay coordinate system. For stations B, C, D, E, F, WHOIA, WHOIB, and
WHOIC the orientation of the positive along-bay axis is 55° and the orientation
of the positive cross-bay axis is 145° (figure 4). For station A the orientation
of the positive along-bay axis is 20° and the orientation of the positive cross-
bay axis is 110° (figure 4). The orientation of the coordinate system was chosen
based on the orientation of the semidiurnal tidal and low-frequency current
ellipses, and the bay geometry. In general, the flow in the rotated coordinate
system is a simpler and physically more meaningful presentation than in east and
north coordinates because the tidal and low-frequency currents are primarily
along-bay. All plots of current components are labelled as either along-bay or
cross-bay (i.e. the rotated coordinate system) or as east and north components
(i.e. in the unrotated coordinate system). Stickplots are labelled as along-
bay is up (data presented in the rotated coordinate system; positive along-bay
is up and positive cross-bay is to the right) or as north is up (data presented
in the unrotated coordinate system; positive north is up and positive east is
12
-------�
71 "00
70°50'
..70°40'
4I°40'
\
4I"30' -
ALONG-BAY/ CROSS-BAY
COORDINATE SYSTEM
10 KM
CONTOURS IN METERS
40MTEO r»W USCS HF-689 4088 »NO OL>U
I
A*;^
\
Figure 4. Definition of along-bay and cross-bay coordinate system.
13
-------�
to the right). Direction plots are always relative to true north. Tabular data
and the tidal analysis is presented in conventional east and north coordinate
system.
INSTRUMENT FOULING
Despite antifouling paint on all of the VACM and tripod sensors (except on
the camera lens and transmissometer), many of the instruments fouled during the
nominal three-month deployments, especially in the summer and fall. The
transmission and current sensors were occassionally inspected and cleaned by
divers. Nevertheless, many of the beam attenuation records (derived from the
transmission data) gradually deteriorate, and any absolute calibration of the
beam attenuation coefficient is suspect; the data are presented without
correction for fouling and should be used with caution. A gradual drift toward
higher beam attenuation or constant beam attenuation values above 4 indicate
fouling of the transmissometer optics. Times when the sensors were cleaned are
noted in the figure captions. In most cases, the current records have been
truncated when fouling occurred. Fouling was determined by sticking of the speed
sensors at low speeds (the speed dropped to zero at low speeds) and/or by a
gradual decrease in the amplitude of the tidal current. For almost all
deployments, the low light transmission characteristic of Buzzards Bay and
fouling of the camera windows obscured the bottom in the photographs.
Some of the salinity records appear to drift toward lower values over the
deployment period caused by fouling of the sensors. The salinity records are
presented here without correction for completeness, but further analysis and
processing.of the salinity data is needed. At present the data should only be
used to roughly estimate the amplitudes of the salinity fluctuations.
The VMCMs were not treated with anti-fouling paint and fouled significantly
during the five month deployment. The instruments were cleaned on November 8,
1984. Based on results of tidal analysis, it was decided to correct the time
series for the observed decay in response. Harmonic analysis was computed over
the entire record • to obtain the relationship between M2 and N2 tidal
constituents. The record was then analyzed in 15 day pieces with 50% overlap
to obtain a time series of Mj amplitude, using inference to separate N2 from M2.
The Mj amplitude at points between tidal analyses were obtained by linear
interpolation, while the Mj amplitude during the first and last weeks of the
record, as well as the two weeks bracketing November 8, was obtained by linear
extrapolation. Observed speeds were then boosted by the ratio of the
instantaneous estimate of Mj amplitude to the Mj amplitude at the beginning of
the record. The oridinal uncorrected time series aere shown in figures 14-19c.
All other figures and the statistics in the tables were derived using the
corrected time series.
RECORD IDENTIFICATION
All USGS and WHOI moorings are assigned a unique 3-digit mooring number.
USGS moorings deployed in Buzzards Bay had numbers ranging from 263 to 304 (table
1, and figure 2). WHO I moorings were assigned numbers 812- 814. Individual data
records are labeled by a 4-digit identifier that indicates mooring number and
the relative position of the instruments on that mooring (for example MMMP).
14
-------�
The mooring number Is the first 3 numbers in the data record label (MMM), and
the fourth digit (P) indicates the position of the instrument in the mooring from
the surface. Thus record 8131 is the upper-most instrument on mooring 813,
record 8132 the next instrument down, etc. For most of the measurements reported
here, there was only one instrument on a mooring and thus the records are
identified with the mooring number followed by a 1.
EXPLANATION OF DATA REPORT
This report contains data in graphical and tabular form.
Summary data plots
The mean current at all stations for all instruments deployed in Buzzards
Bay is shown in figure 5 and the orientation and amplitude of the major axis of
the low-frequency currents is shown in figure 6. The semi-diurnal tidal current
ellipses are shown in figure 7.
Tabular data
Statistics of the current and tripod data are tabulated in tables. The
mean and standard deviation of the hour-averaged and low-passed east current
and north current, and the mean, standard deviation, minimum and maximum hour-
averaged temperature are tabulated in table 2. Current ellipse parameters for
the hour-averaged and low-passed data are tabulated in table 3. The amplitude
and phase for MA, Mj, N2, S2, ^, and 0, tidal constituents are tabulated in table
4 for elevation and in table 5 for current. Sorts of the current by direction
(in 45° bins) and speed (by 5 cm/sec bins) are presented in table 6.
Individual data records
The current, temperature, salinity, pressure and transmission data from
each instrument is presented graphically in several ways.
Scatter plots
Scatter plots of the hour-averaged and low-passed current for each
instrument are shown in figure 8. Note the change in scale for the two plots.
The hour-averaged data was subsampled by 2 and the low-passed data subsampled
by 6 for these plots.
Spectra
Variance-conserving kinetic energy spectra of the currents for the along-
bay and cross-bay currents and for the total current are shown in figure 9.
The data records were broken into pieces 360 hours long and spectra averaged
over the pieces.
15
-------�
7I°00'
\
4I"40'
\ \ .70°50'.
MEAN CURRENT
0 5cm/»
"""*****• o Hi
4-8mob
I mob
uses
-------�
rieoo'
4I°40'1-
PRINCIPAL LOW-FREQUENCY AXIS
P 5cm/$
Figure 6. Principal axis of low-frequency currents. See table 3.
17
-------�
.70°40'
..a*
M2 TIDAL ELLIPSE
0 30cm/s
Figure 7. Mj tidal current ellipses. Speed scale is such that the displacement
over one tidal excursion is twice map scale. See table 5b.
18
-------�
Stackplots
Several stackplots are shown for each data record (figures 10-34). The
variables in each plot depend on the instrument type:
a. Stackplot of hour-averaged temperature, salinity, beam attenuation,
speed and PSDEV (for tripods and VACM-TCT, except without pressure for VACM-
TCT).
b. Stackplot of hour-averaged temperature, cross-bay current, along-bay
current, current direction, and current speed (for all instruments except
tripod data series, which are without temperature and with pressure).
c. Stackplot of low-passed temperature, cross-bay current, along-bay
current, vector stickplot (data subsampled every 4 hours), and pressure
(for all instruments except VMCM and VACM data series which are without
pressure).
Data grouped by Deployment
For each deployment, stackplots of selected variables from all stations
are presented in figures 36-41 to illustrate the Bay-wide response.
a. Stickplots of low-passed current and wind stress.
b. Stackplots of hour-averaged PSDEV and beam attenuation.
c. Stackplots of hour-averaged temperature and salinity
d. Stackplots of low-passed pressure, pressure differences
and wind stress.
Long-term time series
Measurements at stations A, B, and C (data from stations D and E are
included .with the station C data) were obtained for over one year. Stackplots
of current speed, PSDEV, temperature, beam attenuation, and salinity for all
deployments at these stations are in figures 41-44 to illustrate long-term
variability. Wind stress at New Bedford for deployments 1-6 is shown in figure
45.
ACKNOWLEDGEMENTS
The bottom tripod observations were supported by the USGS. The WHOI
measurements were supported by The U.S. Department of Commerce, NOAA Office of
Sea Grant under Grants R/P-13 and R/P-21, the National Science Foundation Grant
OCE 84-17769, the Battelle Memorial Institute Subcontract C-8184(8818)-381, the
WHOI Coastal Research Center, and the WHOI Education Program. The U.S.
Environmental Protection Agency provided partial support for the preparation of
this data report under Cooperative Agreement CX-813547-01-0 with the WHOI. The
New England Division of the U.S. Army Corps of Engineers kindly allowed use of
their data. B. Strahle and J. Moody (USGS) deployed and recovered the USGS
instruments. Most of the field work was conducted from the RV ASTERIAS; we thank
Captain Arthur D. Colburn Jr. for his capable assistance. We also thank C.A.
19
-------�
this data report under Cooperative Agreement CX-813547-01-0 with the WHOI. The
New England Division of the U.S. Army Corps of Engineers kindly allowed use of
their data. B. Strahle and J. Moody (USGS) deployed and recovered the USGS
instruments. Most of the field work was conducted from the RV ASTERIAS; we thank
Captain Arthur D. Colburn Jr. for his capable assistance. We also thank C.A.
Butman and C. Fuller for their skillfull diving, including numerous underwater
inspections and cleaning of the tripod sensors, and location and recovery of
several tripods after the primary recovery system failed. C.A. Butman and C.
Fuller also digitized much of the wind data. BB also thanks C.A. Butman for her
constant enthusiasm and interest in these measurements.
20
-------�
REFERENCES CITED
Bartz, R., Zanefeld, J. R., and Pak, H., 1978, A transmissometer for profiling
and moored observations in water. Proceedings, Society of Photo-Optical
Instrument Engineers, 160, 102-108.
Butman, B. and Folger, D., 1979, An instrument system for long-term sediment
transport studies on the continental shelf. Journal of Geophysical Research,
84, 1215-1220.
Farrington, J. W. , Tripp, B. W., Davis, A. C., Sulanowski, J., 1985, One view
of the role of scientific information in the solution of envir-economic
problems. In: Proceedings of the International Symposium on Utilization of
Coastal Ecosystems: Planning, Pollution, Productivity (1982: Rio Grande,
RS). Edited by Ning Labbish Chao and William Kirby-Smith. Ed. da Fundacao
Universidade do Rio Grande, 1985, 1, 73-102.
Flagg, C.N., Vermersch, J.A., and Beardsley, R.C., 1976, 1974 M.I.T. New England
Shelf dynamics experiment (March, 1974) Data Report Part II: The moored
array. M.I.T. Report 76-1.
Moody, J. A., Butman, B., and Bothner, M. H. , 1987, Near-bottom suspended matter
concentration on the .Continental Shelf during storms: estimates based on rn
situ observations of light transmission and a particle size dependent
transmissometer calibration. Continental Shelf Research, 7, 609-628.
Peterson, A. M. and Gregg, M. C. , 1979, Development of a small in situ
conductivity instrument. International Electronics and Electrical Engineering
Journal of Oceanography Enmgineering, OE-4, 69-75.
Signell, R. P., 1987, Tide- and wind-forced currents in Buzzards Bay,
Massachusetts. Woods Hole Oceanographic Institution Technical Report 87-15.
86 pp.
Strahle, W. and Butman, B, 1985, Modification of EG&G vector averaging current
meter to record light transmission and water conductivity. U.S. Geological
Survey Open File Report 85-106, 22pp.
Weaver, G. , 1984, PCB contamination in and around New Bedford, MA. Environmental
science and Technology, 18, 22A-27A.
Weller, R. A. and Davis, R.E., 1980, A vector-measuring current meter. Deep Sea
Research, 27, 575-582.
21
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Table 2. Statistics of current observations.
respectively.
SD|1|. and SO. are the standard deviations computed from the hour-averaged and low-passed time-series
N)
N)
Sta
A
B
c
D
E
F
WA
US
we
•Uater
Depth
12. 5
12.0
13.0
13.1
13.3
12.0
12.6
12.8
12.6
12.6
13.3
12.6
13.0
16.6
16.6
16.6
15.7
14.2
15.*
9.1
15.5
18.0
16.0
Inst
Depth
11.5
11.0
12.0
12.1
12.3
11.0
11.6
11.8
8.6
8.6
9.3
8.6
9.0
15.6
15.6
15.6
14.7
13.2
14.4
8.1
5.0
10.0
5.0
10.0
5.0
10.0
Moor
ID
2631
2651
2891
2911
2951
2991
3041
2861
2881
2901
2931
3001
3031
2871
2921
2941
3021
2851
2981
3121
8121
8122
8131
8132
8141
8142
Start Stop
YYHHOD TYHMDD
820705 820801
820820 821007
841108 841216
850219 850329
850409 850618
650626 8S0814
850814 851022
840906 841022
841025 841228
850114 850323
850402 850619
850619 850607
850807 850918
841025 850114
850128 850318
850329 850504
850807 851003
840821 841022
850619 850807
860709 860827
840824 850118
840824 841208
840827 850118
640827 850118
840828 050118
640828 050118
*
Hours
639
1141
923
910
1679
1175
1658
1106
1540
1640
1880
1171
1016
1946
1174
858
1361
1484
1175
1180
3526
2543
3453
3453
3427
3427
EAST
Mean SDhr SD,p
1.11 2.61 1.36
0.53 3.86 2.14
0.33 3.63 2.32
0.83 4.22 2.78
1.28 4.39 2.57
0.70 4.17 2.26
1.45 3.01 1.67
-0.16 5.29 1.62
-1.10 8.47 1.73
-1.34 9.13 2.87
-1.92 7.52 1.96
-2.56 7.76 2.39
-1.70 8.52 2.41
0.41 7.93 2.50
0.73 8.64 2.82
1.39 8.76 2.99
2.19 8.76 2.91
1.21 8.78 2.20
1.07 9.25 2.99
0.44 4.29 2.06
-1.37 13.17 1.31
-1.69 10.79 1.91
1.15 19.18 3.13
0.80 16.65 3.97
0.39 16.70 2.01
1.20 16.27 3.32
NORTH
Mean
1.04
0.54
1.06
1.17
0.75
-0.58
0.71
1.53
2.56
2.76
2.53
2.94
3.59
1.12
1.53
2.22
2.72
-1.08
0.66
0.68
1.47
2.44
-4.59
-1.90
-4.95
• -3.00
SV
5.55
6.78
7.50
6.45
6.73
6.94
7.16
7.38
8.02
8.11
8.07
6.78
7.85
7.82
5.88
6.59
6.88
6.31
5.49
4.27
15.76
14,79
7.20
7.42
6.56
8.39
S°lp
2.33
3.34
1.84
2.17
2.89
2.68
2.68
2.35
1.79
2.10
2.73
2.78
3.12
2.18
1.73
1.37
2.56
1.53
1.59
2.54
1.49
2.62
2.38
2.26
1.70
4.23
Mean
5.48
6.67
7.59
7.18
7.31
7.35
6.95
8.12
10.91
11.26
10.14
10.11
11.16
9.75
9.23
9.78
10.16
9.72
9.39
5.67
17.33
15.37
17.79
15.19
16.58
16.19
SPEED
SD
3.13
4.11
3.59
3.16
3.52
3.50
3.82
4.33
4.97
5.63
5.36
4.37
5.04
5.51
5.18
5.59
5.74
5.00
5.39
2.31
11.19
9.93
11.21
10.28
8.47
9.13
Nin
0.08
0.00
0.48
0.37
0.31
1.01
0.04
0.36
0.14
0.59
0.24
0.07
1.20
0.23
0.59
0.58
0.58
0.37
0.22
0.26
0.13
0.17
0.16
0.03
0.10
0.14
Max
19.61
21.04
22.58
18.64
28.94
24.37
32.74
28.92
28.91
33.05
36.94
25.04
31.82
30.54
26.50
40.37
33.34
28.23
26.97
15.38
52.56
53.35
59.95
58.68
44.70
51.92
Mean
21.50
17.77
8.13
2.41
12.18
21.51
20.20
17.34
9.59
0.49
10.97
19.50
19.54
8.68
0.67
6.36
16.68
17.83
19.11
21.18
12.26
14.98
12.23
12.21
12.21
12.18
TEMPERATURE
SD
1.04
2.73
2.18
1.34
3.46
2.00
2.38
1.92
3.14
1.64
3.78
1.75
3.85
3.48
1.35
1.26
3.70
2.02
1.47
1.22
5.66
4.02
5.23
5.14
5.14
5.08
Hin
18.67
12.47
5.53
-0.32
6.47
17.36
15.51
14.55
5.36
-1.80
4.35
16.18
15.16
1.69
-1.81
4.05
7.97
14.62
16.56
18.19
0.76
6.75
0.88
1.08
1.10
1.36
Max
23.71
21.92
12.55
4.52
17.99
23.67
24.61
20.03
15.05
3.55
17.22
22.71
23.09
14.97
3.36
9.00
22.08
21.18
21.71
23.15
21.29
21.14
21.02
20.04
20.83
20.08
Uater depth not corrected for tide (range ~ 1.2m)
-------�
Table 3. Ellipse parameters computed from hour-averaged and lovpassed
data series. ID is the data record identifier and hours is the
length of the data series. Major and minor axis, 0 is the
elliipse orientation measured clockwise from true north, and E
is ellipticity.
Sta ID Hours
Hour-averaged data
Major Minor 9 E
Low-passed data
Maj or Minor 6
A
B
C
D
E
F
WHA
UHfi
WHC
2631
2651
2891
2911
2951
2991
3041
2861
2881
2901
2931
3001
3031
2871
2921
2941
3021
2851
2981
3121
8121
8122
8131
8132
8141
8142
639
1141
923
910
1679
1175
1658
1106
1540
1640
1880
1171
1016
1946
1174
858
1361
1484
.1175
1180
3526
2543
3453
3453
3427
3427
5.77
7.47
7.80
7.00
7.38
7.45
7.37
8.59
11.32
11.76
10.42
9.36
10.79
10.85
10.03
10.54
10.59
10.44
10.40
5.00
20.44
17.77
19.85
17.58
17.23
16.99
2.06
2.24
2.92
3.23
3.03
3.17
2.47
2.93
2.80
3.29
3.61
4.29
4.19
2.51
2.93
3.00
3.45
2.81
2.73
3.40
1.91
3.22
5.10
4.79
4.99
6.81
17
26
17
26
27
24
14
33
47
50
42
51
48
45
58
55
54
56
62
45
40
36
75
70
75
72
0.64
0.70
0.63
0.54
0.59
0.58
0.66
0.66
0.75
0.72
0.65
0.54
0.61
0.77
0.71
0.72
0.68
0.73
0.74
0.32
0.91
0.82
0.74
0.73
0.71
0.60
2
3
2
3
3
3
2
2
1
2
2
2
3
2
2
3
3
2
3
2
1
2
3
4
2
4
.53
.74
.47
.04
.55
.18
.90
.47
.79
.90
.73
.83
.13
.91
.85
.08
.69
.23
.16
.67
.82
.71
.16
.00
.09
.27
0.92
1.31
1.62
1.77
1.53
1.45
1.24
1.43
1.73
2.06
1.96
2.33
2.39
1.58
1.68
1.15
1.23
1.50
1.23
1.88
0.79
1.78
2.35
2.19
1.60
3.26
25
29
63
60
40
38
25
22
5
78
1
161
6
52
80
73
49
79
70
26
39
20
79
99
65
167
0.64
0.65
0.34
0.42
0.57
0.55
0.57
0.42
0.03
0.29
0.28
0.18
0.23
0.46
0.41
0.63
0.67
0.33
0.61
0.30
0.57
0.34
0.26
0.45
0.23
0.24
23
-------�
Table 4. Tidal constant* (amplitude and Greenwich Phase) for tidal constituents M^, MZ. N2, $2. Kj. *nd Oj.
STATION RECORD INSTR ABOVE M4 M2 N2 S2 K1 01
LAT. LENGTH DEPTH BOTTOM AMP PHASE AMP PHASE AMP PHASE AMP PHASE AMP PHASE AMP PHASE
LONG. (DAYS) (M) (N) (MB) (DEG-G) (MB) (DEG-G) (MB) (DEG-G) (MB) (DEG-G) (MB) (OEG-G) (MB) (DEG-G)
BBA (Cleveland Ledge)
41-38'N. 261 13 1 8.2*0.4 38*7 53.8*1.0 6*2 13.9*0.9352*3 12.3*0.7 29*2 7.1*1.2176*9 4.8*0.6202*5
70-41'W.
BBB (Phlrmey Rock)
41°33'N. 29 12 1 6.4*0.0 31* 0 50.4*0.0 6* 0 12.5*0.0 349* 0 11.3*0.0 26* 0 7.9*0.0 178* 0 5.3*0.0 203* 0
70'52'U.
BBC (Kid-Channel)
41-32'N. 174 16 1 6.7*0.337*8 50.2*0.7 6*1 12.7*0.8354*3 11.6*0.8 27*1 6.9*0.7174*8 4.8*0.8200*2
70*48'U.
BBD (Naushon)
41'31'N. 58 13 1 6.5*0.2 31*8 51.8*0.4 6*0 12.6*0.0347*2 11.4*0.1 26*1 7.0*0.3170*4 5.1*0.7200*4
70°47'U.
BBE (Mid-channel)
41*31'N. 29 14 1 7.2*0.0 30* 0 51.8*0.0 5* 0 12.9*0.0 351* 0 10.8*0.0 31* 0 6.2*0.0 163* 0 5.1*0.0 202* 0
70048'W.
BBF (Clark's Point)
41°35'N. 29 8 1 6.9*0.0 41*0 50.5*0.0 6*0 12.6*0.0354*0 11.4*0.0 31*0 6.4*0.0165*0 5.0*0.0205*0
70°53'U.
-------�
Table 5s. Fourier coefficients (amplitude and Greenwich phase) for east and north currents, and ellipse parameter* (najor axis,
ninor axis, orientation measured clockwise from north, and phase) for M4 tidal currents.
STATION RECORD INSTR ABOVE
IAT. LENGTH DEPTH BOTTOH
LONG. (DAYS) (H) (M)
BBA (Cleveland Ledge)
FOURIER COEFFICIENTS
EAST PHASE NORTH PHASE
(CM/SEC) (OEG-G) (CM/SEC) (DEG-G)
CURRENT ELLIPSE PARAMETERS
UMAJOR UMINOR PHASE ORIEN
(CM/SEC) (CM/SEC) (DEG-G) (DEC-TRUE)
BBB
BBC
BSD
BBE
BBF
UHOI
UHOI
UHOI
41-38'N. 261
70-41 'U.
(Phirney Rock)
41-33'N. 232
70'52'W. 29
(Mid-channel)
41-32'N. 174
70'48'U.
(Naushon)
41'31'N. 58
70'47'U.
(Mid-channel)
41-31'N. 29
70'48'W.
(Clark's Point)
41°35'N. 29
70°53'U.
A
41°31'N. 145
70°56'W. 87
B
41°29'N. 116
70°53'W. 116
C
41°28'N. 116
70°52'U. 116
13
9
12
16
13
14
B
5
10
5
10
5
10
1
4
1
1
1
1
1
10
5
13
8
11
6
0.610.1 329*
2.210.1 2951
1.510.0 274t
2.4*0.3 316*
2.2*0.2 320*
2.5*0.0 305*
0.6iO.O 304*
3.610.1 307*
3.4*0.1 305*
4.6i0.7 327i
4.210.3 323i
1.6i0.1 323i
1.710.1 312t
97
7
0
B
7
0
0
7
4
11
7
14
12
1.710.2
2.710.2
2.1iO.O
2.410.4
1.9*0.1
2.310.0
1.3iO.O
5.210.3
4.510.2
2.210.2
2.6i0.3
2.710.2
2.7i0.2
315*
315i
314i
305i
316i
310*
314*
312*
307*
310i
313i
257i
259i
14
7
0
5
15
0
0
5
8
5
6
7
12
1.810.2
3.410.2
2.510.0
3.410.4
2.910.2
3.4iO.O
1.410.0
6.3*0.3
5.6*0.1
5.0*0.8
5.0i0.2
2.8*0.3
2.910.2
-0.1*0.3
0.610.2
0.8*0.0
-0.3*0.2
-0.1*0.2
0.210.0
0.1*0.0
0.3*0.2
0.1*0.5
-0.5*0.4
-0.410.1
-1.410.2
-1.2*0.2
316*
308*
301*
311*
319*
307*
312*
306*
324*
321*
263*
270i
14
6
0
6
10
0
0
5
5
a
7
12
17* 4
39* 4
34* 0
45* 5
49* 1
48* 0
25* 0
35* 1
36* 1
661 2
59i 4
15* 11
25i 7
-------�
Table 5b. Fourier coefficient* (amplitude and Greenwich phase) for east and north currents, and ellipse parameters (najor Mis.
•inor axis, orientation measured clockwise from north, and phase) for M2 tidal currents.
STATION RECORD INSTR ABOVE
LAT. LENGTH DEPTH BOTTOM
LONG. (DAYS) (N) (M)
BBA (Cleveland Ledge)
FOURIER COEFFICIENTS
EAST PHASE NORTH PHASE
(CM/SEC) (DEG-G) (CM/SEC) (DEG-G)
CURRENT ELLIPSE PARAMETERS
UMAJOR UMINOR PHASE ORIEN
(CM/SEC) (CM/SEC) (DEG-G) (DEC-TRUE)
BBB
BBC
BBD
BBE
BBF
UHOI
UHOI
UHOI
41'38'N.
70*41 'U.
(Phiimey
41'33'N.
70i52'U.
261
Rock)
232
29
13
9
12
1
4
1
3.0*0.7
10.0*1.0
5.7*0.0
249*
289*
272*
17 7.611.0
5 9.0*1.1
0 8.9iO.O
285*
287*
289*
7
4
0
8.0*1.0 1.60.6
13.4*1.3 -0.3*0.9
IO.SiO.0 1.4*0.0
281*
288*
284*
9
2
0
IB* 5
48* 3
32* 0
(Mid-channel)
41*32'N.
70'48'U.
(Naushon)
41*31 'H.
70'47'U.
174
58
16
13
1
1
10.0*0.7
10.4*0.1
280*
278*
11 7.611.4
8 7.311.1
294*
288*
3
0
12.5*0.8 1.5*1.0
12.7*0.6 1.0*0.7
284*
281*
a
6
53* 7
55* 5
(Mid-channel)
41*31'N.
70'48'U.
(Clark's
41°35'H.
70°53'U.
A
41°31'N.
70°56'U.
B
41°29'N.
70°53'U.
C
41°28'N.
70°52'U.
29
Point)
29
145
87
116
116
116
116
14
8
5
10
5
10
5
10
1
1
10
5
13
8
11
6
10.7iO.O
4.0*0.0
16.3*0.4
12.8*0.7
23.7i0.5
20.110.8
21.610.1
20.511.2
273*
220*
297*
293*
315*
313*
3091
3091
0 S.BiO.O
0 3.2iO.O
2 19.5i0.3
1 21.7i0.4
2 8.2t0.9
1 7.8i0.5
1 6.9i0.4
1 6.9i0.4
285*
276*
296*
298*
277*
283*
26Bt
272i
0
0
1
1
4
3
1
5
12.1*0.0 1.0*0.0
4.6*0.0 2.3*0.0
25.4i0.3 -0.3*0.4
21.7i0.4 0.910.4
24.610.5 -4.9*0.4
21.2i0.9 -3.8*0.3
22.3i0.1 -4.510.3
21.3*1.1 -4.010.1
276*
238*
296*
296*
312*
310*
306t
306*
0
0
2
1
2
1
1
1
62* 0
57* 0
40* 1
36* 1
74* 2
71* 1
76* 1
74i 2
-------�
Table 5c. Fourier coefficients (amplitude and Greenwich phase) for east and north currents, and ellipse parameters (major axis,
minor axis, orientation measured clockwise from north, and phase) for N2 tidal currents.
STATION RECORD INSTR ABOVE
LAT. LENGTH DEPTH BOTTOM
LONG. (DATS) (H) (H)
BBA (Cleveland Ledge)
FOURIER COEFFICIENTS
EAST PHASE NORTH PHASE
(CM/SEC) (DEG-G) (CM/SEC) (DEG-G)
CURRENT ELLIPSE PARAMETERS
UMAJOR UMINOR PHASE OR IEN
(CM/SEC) (CM/SEC) (DEG-G) (DEC-TRUE)
BBB
BBC
BBO
BBE
BBF
UHOI
UHOI
UHOI
41'38'N. 261
70'41'U.
(Phtmey Rock)
41'33'N. 232
70'52'W. 29
(Mid-channel)
41'32'N. 174
70'48'U.
(Naushon)
41*31 'N. 58
70'47'U.
(Mid- channel)
41'31'N. 29
70'48'U.
(Clark's Point)
41°35'N. 29
70°53'U.
A
41°31'N. 145
70°56'U. 87
B
41°29'N. 116
70°53'U. 116
C
41°28'N. 116
70°52'U. 116
13
9
12
16
13
14
a
5
10
5
10
5
10
1
4
1
1
1
1
1
10
5
13
8
11
6
0.7*0.2
2.3*0.5
1.6*0.0
2.5*0.3
2.7*0.1
2.6*0.0
1.0*0.0
4.5*0.4
3.2*0.2
6.6*0.6
5.7*0.9
5.3*0.7
5.2*0.6
235*
264*
243*
270*
243*
254*
201*
275*
269*
297*
295*
285*
281*
27
13
0
14
13
0
0
6
12
5
9
8
12
2.0*0.2
2.2*0.3
2.4*0.0
2.1*0.4
1.5*0.5
1.8*0.0
1.2*0.0
5.3*0.8
4.1*0.3
2.2i0.3
2.2i0.9
1.810.3
1.610.3
269*
269*
263*
279*
275*
276*
270*
276*
275*
260*
275*
242*
248*
9
7
0
8
6
0
0
6
5
8
9
21
22
2.1*0.2
3.1*0.5
2.9*0.0
3.2*0.3
3.0*0.2
3.1*0.0
1.3*0.0
7.0*0.9
5.2*0.2
6.9*0.6
6.1*1.1
5.5*0.7
5.4*0.7
0.3*0.2
0.2*0.4
0.5*0.0
0.3*0.4
0.6*0.2
0.6*0.0
0.9*0.0
0.1*0.2
0.2*0.3
-1.3*0.4
-0.7i0.4
-1.210.5
-0.8*0.5
265*
267*
257*
273*
248*
261*
250*
276*
272*
294*
293*
282*
280i
12
6
0
9
14
0
0
6
7
5
8
9
12
17* 8
46* 6
33* 0
50* 7
64* 12
56* 0
29* 0
41* 2
38* 4
75* 3
70* 6
76* 4
76t 6
-------�
Table Sd. Fourier coefficients (amplitude and Greenwich phase) for east and north currents, and ellipse parameter* (najor axis,
•inor axis, orientation measured clockwise fron north, and phase) for S2 tidal currents. •
STATION RECORD INSTR ABOVE
LAT. LENGTH DEPTH BOTTOM
LONG. (DATS) (M) (H)
FOURIER COEFFICIENTS
EAST PHASE NORTH PHASE
(CM/SEC) (OEG-G) (CM/SEC) (DEG-G)
CURRENT ELLIPSE PARAMETERS
UMAJOR UMINOR PHASE ORIEN
(CM/SEC) (CM/SEC) (DEG-G) (DEC-TRUE)
BBA (Cleveland Ledge)
41'38'N. 261 13 1
70'41'U.
BBS (Phinney Rock)
41'33'N. 232 9 4
70'52'U. 29 12 1
0.5*0.3 257*105 1.4*0.4 317* 20
1.7*0.7 312* 40
1.1*0.0 266* 0
2.1*0.2 305* 14
1.8*0.0 310* 0
1.5*0.4 0.0*0.2 316* 23 6* 22
2.7*0.4 -0.1*0.3 306* 11
2.0*0.0 0.7*0.0 301* 0
37* 16
25* 0
N>
00
BBC (Mid-channel)
41'32'N. 174 16 1
70'48'W.
BBD (Naushon)
41'31'N. 58 13 1
70'47'U.
BBE (Mid-channel)
41'31'N. 29 14 1
70'48'U.
1.8*0.4 303* 9 1.8*0.1 321* 11
1.7*0.5 292* 1 1.4*0.1 322* 11
1.6*0.0 274* 0 1.1*0.0 333* 0
2.5*0.4 0.4*0.3 314* 5 45* 7
2.2*0.4 0.6*0.1 305* 11 50* 11
1.8*0.0 0.8*0.0 287* 0 65* 0
BBF (Clark's Point)
41°35'N. 29
70°53'U.
8 1
0.2*0.0 254* 0 0.7*0.0 310* 0
0.7*0.0 0.2*0.0 308* 0 10* 0
UHOI A
41°31'N. 145
70°56'U. 87
5 10
10 5
3.9*0.6 312* 4
2.9*0.0 313* 5
4.6*0.5 309* 4
3.7*0.2 309* 2
6.0*0.7 -0.1*0.2 310* 3
4.7*0.1 -0.2*0.1 311* 3
41* 2
38* 2
UHOI B
41°29'N. 116 5 13
70°53'U. 116 10 8
UHOI C
41°28'N. 116 5 11
70°52'U. 116 10 6
5.1*0.8 330* 4
4.9*0.8 330* 10
4.5*0.4 324* 3
4.6*0.5 327* 9
2.1*0.3 307* 4
2.3*0.5 311* 11
1.8*0.1 280* 11
2.0*0.5 290* 11
5.5*0.8 -0.7*0.1 327* 4 69* 4
5.4*0.8 -0.7*0.4 327* 11 66* 4
4.7*0.4 -1.2*0.3 320* 2 73* 2
4.9*0.6 -1.1*0.4 322* 8 71* 2
-------�
Table 5e. Fourier coefficients (amplitude and Greenwich phase) for east and north currents, and ellipse parameters (major axis.
minor axis, orientation measured clockwise from north, and phase) for K1 tidal currents.
STATION RECORD INSTR ABOVE
LAI. LENGTH DEPTH BOTTOM
LONG. (DAYS) (H) (H)
BBA (Cleveland Ledge)
FOURIER COEFFICIENTS
EAST PHASE NORTH PHASE
(CM/SEC) (DEG-G) (CM/SEC) (DEG-G)
CURRENT ELLIPSE PARAMETERS
UMAJOR UNINOR PHASE OKIEN
(CM/SEC) (CM/SEC) (DEG-G) (DEC-TRUE)
BBB
BBC
BBD
BBE
BBF
UHOI
UHOI
UHOI
41*38'N.
70*41 -U.
(Phlrmey
41'33'N.
70*52'U.
261
Rock)
232
29
13
9
12
1
4
1
0.6*0.2
0.8*0.4
1.2*0.0
356* 83
74* 38
97* 0
1.0*0.5
0.8*0.4
1.810.0
64* 87
66* 78
68* 0
1.1*0.5
1.1*0.5
2.1*0.0
0.2*0.4
-0.1*0.3
-0.5*0.0
53* 84
74i 71
76* 0
22* 15
42* 25
32* 0
(Mid-channel)
41*32'N.
70'48'U.
174
16
1
1.1*0.5
82* 51
1.2*0.6
104* 60
1.6*0.7
-0.1*0.4
104* 33
29* 51
(Naushon)
41*31 'N.
70'47'U.
58
13
1
1.4*0.1
104* 77
1.3*0.1
64* 67
1.8*0.0
-0.7*0.1
85* 69
47* 5
(Mid-channel)
41*31'N.
70*48'W.
(Clark's
41°35'N.
70°53'U.
A
41°31'N.
70°56'U.
B
41°29'N.
70°53'U.
C
41°28'N.
70°52'U.
29
Point)
29
145
87
116
116
116
116
14
a
5
10
5
10
5
10
1
1
10
5
13
8
11
6
1.0*0.0
0.7*0.0
1.2*0.2
1.0*0.2
2.2*0.2
1.9*0.3
1.9*0.2
2.210.5
27* 0
325* 0
86* 10
79* 6
106* 8
103* 14
83i 5
79i 7
0.3*0.0
1.0*0.0
1.4*0.2
1.7*0.4
0.5*0.1
0.910.1
0.710.1
1.110.2
117* 0
13* 0
81* 5
92* 17
98* 45
BOi 33
98t 23
94i 18
1.0*0.0
1.2*0.0
1.9*0.3
2.0*0.4
2.3*0.2
2.1*0.3
2.010.2
2.410.5
0.3*0.0
0.5*0.0
-0.1*0.1
0.2*0.3
-0.1*0.3
-0.310.4
0.2i0.3
0.210.2
27* 0
360* 0
83* 7
89* 11
106i 10
99* 13
861 5
82i 10
90* 0
31* 0
39* 3
30* 5
79* 3
67* 5
70* 3
63i 5
-------�
Table 5f. Fourier coefficients (amplitude and Greenwich phase) for east and north currents, and ellipse parameters (Major axis,
•inor axis, orientation Measured clockwise from north, and phase) for 01 tidal currents.
STATION RECORD INSTR ABOVE
LAT. LENGTH DEPTH BOTTOM
LONG. (DAYS) (M) (H>
BBA (Cleveland Ledge)
FOURIER COEFFICIENTS
EAST PHASE NORTH PHASE
(CM/SEC) (OEG-G) (CM/SEC) (DEG-G)
CURRENT ELLIPSE PARAMETERS
UHAJOR UMINOR PHASE ORIEN
(CM/SEC) (CM/SEC) (DEG-G) (DEC-TRUE)
BBB
BBC
BBD
BBE
BBF
UHOI
UHOI
UHOI
4r38>N. 261
70'41 'U.
(Phinney Rock)
41'33'N. 232
70'52'W. 29
(Mid-channel)
41'32'N. 174
70'48'U.
(Naushon)
41'31'N. 58
70'47'U.
(Mid-channel)
41'31'N. 29
70'48'U.
(Clark's Point)
41°35'N. 29
70°53'U.
A
41°31'N. 145
70°56'U. 87
B
41°29'N. 116
70°53'U. 116
C
41°28'H. 116
70°52'U. 116
13
9
12
16
13
14
8
5
10
5
10
5
10
1
4
1
1
1
1
1
10
5
13
8
11
6
0.310.1
0.5t0.3
0.310.0
0.410.1
0.410.2
0.410.0
0.410.0
1.010.4
0.7i0.2
1.410.1
1.010.3
1.410.2
1.310.2
279i 80
1061 23
82* 0
681 29
188i 62
192i 0
264i 0
114i 6
105i 23
106i 11
110i 14
73i 5
65 1 8
0.310.2
0.5t0.3
O.SiO.O
0.510.3
0.610.1
0.310.0
O.liO.O
0.8iO.J
O.BiO.1
0.4i0.1
0.4i0.2
0.910.2
1.0i0.3
65l
nil
159i
104i
128i
160i
134i
106i
109i
99t
103i
76
96
0
28
0
0
0
11
9
44
21
14
16
0.5i0.2 O.OiD.2
O.BiO.2 -0.110.3
O.SiO.O O.SiO.O
0.7i0.2 0.210.2
0.7iO.O -0.2i0.1
O.SiO.O -0.1*0.0
0.4*0.0 -O.liO.O
1.310.5 -0.1*0.1
1.0i0.2 0.2*0.2
1.4i0.1 -0.0i0.2
1.1i0.3 O.OiO.O
1.710.2 0.410.1
1.610.3 0.5t0.3
67* 74
110* 94
152* 0
90* 29
131* 9
178* 0
85* 0
110* 8
117* 8
105* 11
110* 14
80i 8
83t 14
18i 60
43i 23
12* 0
38* 19
22* 41
50* 0
280* 0
50* 6
43* 12
76* 9
70* 6
58i 7
SOi 14
-------�
Table 6. Percent occurrence of currents sorted by current speed (in 5 cm/sec
bins) and direction (by 45° bins). The bins are listed by the upper-
bound of the bin. For example, the bin in the column 5 and 22.5
contains the percent occurrence of speeds between 0 and 5 cm/sec and
between 337.5° and 22.5°.
31
-------�
2631DS-A1H BSA , 13m
COOBDISATZ STSTZJC HOT KOTATH)
HOSTS IS TOWARDS 0 DEGBZES
STABI TDffl : 88- VI1-03 10.00.00
sAKPtnra nrrERVAL : eo KIOTTES
TOTAL • PTS: 630
STOP TH£H : 82-VI11-01 00.00.00
VSPS.l
9
10
19
20
23
30
39
40
49
90
99
60
69
70
999
one AVO
22.3
67.9 118.9
847.9 888.9 337.9
7.199
0.839
2.817
0.469
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.346
13.180
8.034
0.626
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.164
0.469
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.060
1.009
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
11.111
10.489
8.034
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.790
8.973
0.460
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.073
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.699
0.939
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
CO* AVO
90.948
41.008
7.399
1.003
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
80.344 27.387- 9.634 9.164 23.631 0.233 2.973 3.634
Table 6a. Percent occurrence of currents sorted by current speed
and direction for record 2631, station A. See caption
for Table 6 for full explanation of bins.
32
-------�
2651DS-A1H BBA , 13m
COOBDISATZ SYSTEM HOT BOTATZD
VOBTB IS TOWASDS 0
STAET TIXE : B8-VIII-20 12.00.00
SAKPLISO rHTISVAL : 60 KIHUTES
TOTAL • PTS: 1141
STOP TIME : 82- X -07 00.00.00
VSPD.l
9
10
19
20
29
30
39
40
49
90
99
60
69
TO
099
CUX AVO
88.9
VSia.l
67.9 118.9 197.9 808.6 847.9 808.9 337.9
one AVO
4.733
4.996
8.191
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.326
13.322
10.917
0.3S1
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.894
0.876
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.769
0.701
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
7.490
7.713
3.906
0.789
0.088
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.294
7.937
9.083
0.613
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.689
1.139
0.088
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.330
1.490
0.179
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
38.826
37.774
21.960
1.793
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
11.919 32.919 9.171 4.470 19.944 17.928 3.896 4.996
Table 6b. Percent occurrence of currents sorted by current speed
and direction for record 2651, station A. See caption
for Table 6 for full explanation of bins.
33
-------�
2891-A1H
BBA , 13m
COOBDIJTATS STSTEX HOT SOTATZD
HOSTS IS TOWAEDS 0 DEGREES
STAET TIHZ : 84- XI -08 11.00.00
SAKFLnro nrrzEVAi. : so XIHOTSS
TOTAL • PTS: 923
STOP TIKE : 64- XII-16 81.00.00
22.9
67.9 112.9 197.9 202.9 247.9 292.3 337.9
VSPO.l
9
10
19
20
29
30
39
40
49
90
99
60
69
70
909
one AVO
3.399
13.943
7.181
1.408
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.792
12.391
4.442
0.433
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.929
1.990
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.492
1.408
0.000
0.000
0.000
0.000
o.ooo
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.900
12.134
9.929
1.192
0.433
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.709
6.176
1.990
0.108
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.279
2.384
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.099
3.900
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
croc AVO
23.910
93.846
19.068
3.142
0.433
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
29.460 21.018 4.879 3.900 23.189 10.943 4.699 9.999
Table 6c. Percent occurrence of currents sorted by current speed
and direction for record 2891, station A. See caption
for Table 6 for full explanation of bins.
34
-------�
2911-A1H
BBA , 13m
COOBDnrATZ STSTEH SOT BOTATED
JTOETH IS TOWARDS 0 PB1BJEES
STABT TIKE : 83- II -10 14.00.00
SAMPinro nrnsvAt : eo XIOTTES
TOTAL • PTS: 010
STOP TIME : 89- 111-20 11.00.00
88.9
VSPD.l
9
10
19
80
29
30
39
40
49
90
99
60
69
70
090
CTO AVO
67.9 118.9 197.9 808.9 847.9 808.9 337.9
4.066
11.000
9.409
0.330
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.407
19.099
6.374
0.440
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.096
3.846
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.736
8.418
0.110
0.000
0.000
o.ooo
0.000
0.000
0.000
0.000
o.ooo
0.000
0.000
0.000
0.000
3.407
7.012
1.078
0.880
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.077
0.760
3.807
0.330
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.868
3.916
0.110
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.637
1.938
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
CUX AVO
86.194
99.169
17.363
1.310
0.000
0.000
0.000
0.000
0.000
0.000
.000
.000
.000
0.000
0.000
0.
0.
0.
80.080 89.879 7.808 6.864 13.916 16.484 9.409 4.176
Table 6d. Percent occurrence of currents sorted by current speed
and direction for record 2911, station A. See caption
for Table 6 for full explanation of bins.
35
-------�
2931-A1H BBA . 13m
COORDINATE SYSTEM HOT ROTATES
HORTS IS TOWARDS 0 DEGREES
START TDCB : 89- IV -09 11.00.00
SAKPLCTO LHTKkVAL : 60 XIlfUTES
TOTAL • PTS: 1679
STOP TUffi : 69- VI -18 09.00.00
VSPD.l
9
10
19
20
89
30
39
40
49
90
99
60
69
70
999
CtM AVO
aa.9
vsn.i
67.9 118.9 197.9 808.9 347.9 898.9 337.9
4.169
6.909
3.197
0.417
0.119
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.633
17.749
7.684
1.310
0.060
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.407
3.097
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.798
8.899
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
o.obo
0.000
0.000
8.978
9.178
3.399
0.417
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.097
8.398
4.889
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.448
1.668
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.740
1.969
0.000
0.000
0.000
o.ooo
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
87.819
91.817
18.463
8.204
0.179
0.119
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
14.830 30.439 7.964 6.611 19.968 19.783 4.110 4.709
Table 6e. Percent occurrence of currents sorted by current speed
and direction for record 2951, station A. See caption
for Table 6 for full explanation of bins.
36
-------�
2991-A1H
BBA , 13m
COOEDIHATE STSTEK HOT BOTATED
HOSTH IS TOWARDS 0 DEOSEES
STABT TIKE : 89- VI -26 08.00.00
SAXPtnro nrravAi. : eo XISDTZS
TOTAL • PTS: 1173
STOP THE : 89-VIII-14 06.00.00
VSPO.l
9
10
19
20
29
30
39
40
49
90
99
60
69
TO
eee
one AVO
88.9
67.9 118.8
VDIB.l
187.8
808.8 8*7.8 898.8 837.8
3.064
6.070
3.834
0.426
0.426
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.480
18.681
4.486
0.911
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.830
4.891
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.081
8.804
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.447
0.097
6.813
0.911
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.404
0.097
9.106
0.089
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.188
1.106
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.043
8.813
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
CtDC AVO
88.486
90.636
18.070
1.932
0.426
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
14.128 21.106 8.681 7.019 22.128 18.393 3.234 4.893
Table 6f. Percent occurrence of currents sorted by current speed
and direction for record 2991, station A. See caption
for Table 6 for full explanation of bins.
37
-------�
3041-A1H
BBA , 13m
CCX3BDUTATE STSTQf HOT BOTATED
VOBTH IS TOWARDS 0 DEGREES
STABT TIKE : 83-VIII-14 08.00.00
SAXPLUrO nrrEBVAL : 60 XIHT7TES
TOTAL • PTS: 1698
STOP TIKE : 89- X -22 00.00.00
VSPD.l
9
10
19
20
29
30
39
40
49
90
99
60
69
TO
990
one AVQ
28.9
67.9 112.9
VSXS.l
197.9
208.9 847.9 208.9 337.9
4.343
10.193
9.187
1.448
0.121
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
7.177
12.666
6.092
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.679
1.689
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
6.333
2.999
0.362
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
7.410
12.123
6.212
0.422
0.060
0.000
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.413
3.197
0.483
0.060
0.121
0.060
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.749
0.241
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.930
1.029
0.000
0.000
0.000
0.000
0.000
0.000
o.ooo
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
39.048
44.089
18.396
2.091
0.302
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
21.291 29.999 9.428 9.710 26.297 6.333 1.900 2.099
Table 6g. Percent occurrence of currents sorted by current speed
and direction for record 3041, station A. See caption
for Table 6 for full explanation of bins.
38
-------�
8861-A1H
BBS , 130
COOKDIHATS STSTZM HOT BOTATED
JTOKTH IS TOWARDS 0
START TDffi : 84- IX -06 10.00.00
SAXTLnro IITTEKVAL : eo XIHDTES
TOTAL t PTS: 1106
STOP TUCE : 84- X -28 11.00.00
VSPZ.l
a
10
is
20
25
30
39
40
49
90
99
60
69
TO
999
cmc AVO
02.s
67.9 112.9
VDXS.I
197.8
808.8 847.8 898.5 337.9
3.165
8.828
3.895
0.995
0.181
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.859
18.116
8.990
2.803
0.904
0.181
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.259
2.622
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.447
0.904
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.984
8.260
0.633
0.090
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.069
12.968
9.888
1.179
0.181
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.436
9.194
0.458
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.803
3.074
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
84.412
46.026
88.152
9.063
1.266
0.181
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
15.883 87.846 5.877 8.391 9.967 87.815 9.042 5.877
Table 6h. Percent occurrence of currents sorted by current speed
and direction for record 2861, station B. See caption
for Table 6 for full explanation of bins.
39
-------�
2881-A1H
KBB , 8m
COOBDnTATE SYSTEM SOT BOTATZD
SOSTH IS TOWABDS 0 TffTTTtTTS
STAST TIME : 84- Z -23 11.00.00
SAXPLXBO IBTER7AL : 60 XIHUTES
TOTAL * PTS: 1340
STOP TIKE : 84- XI1-28 14.00.00
VSPB.l
9
10
19
20
29
30
33
40
49
90
59
60
69
TO
909
2a.9
1.948
9.779
8.468
0.260
0.069
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
67.9
1.039
6.234
19.000
8.896
3.182
0.919
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
112.9
0.714
0.499
0.199
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
VDra.l
197.9
0.649
0.069
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000 '
0.000
202.9
0.499
0.069
0.130
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
247.9
1.733
'6.398
12.597
6.169
0.584
0.193
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
292.9
3.092
7.208
4.610
0.919
0.069
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
337.9
2.922
9.919
0.130
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
12.332
31.883
33.130
15.844
3.896
0.714
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
10.319 34.870 1.364 0.714 0.649 27.837 13.455 8.371
Table 61. Percent occurrence of currents sorted by current speed
and direction for record 2881, station B. See caption
for Table 6 for full explanation of bins.
40
-------�
2901-A1H
COOBDIHATE STSTEX HOT BOTATZD
1TOBTH IS TOWABDS 0
STABT TIKE : 85- I -14 16.00.00
SAXPIISO nrTEBVAL : 60 KISOTES
TOTAL • PTS: 1640
STOP TIKE : 65- 111-23 23.00.00
88.9
VSPD.l
9
10
19
20
89
30
39
40
49
90
99
60
69
70
099
OIK AVO
VDIB.l
67.9 118.9 197.9 808.9 847.9 808.9 337.9
i.eeo
9.610
2.866
0.349
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.012
6.280
10.703
0.878
4.268
0.949
0.122
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.280
1.341
0.000
0.061
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.427
0.183
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.671
0.309
0.183
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.707
4.796
0.207
6.098
1.220
0.183
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.091
8.780
8.671
1.646
0.076
0.061
0.000
0.000
0.000
0.000
a. ooo
0.000
0.000
0.000
0.000
3.049
4.817
0.610
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
ctnc AVO
12.088
32.073
80.320
18.232
6.463
0.703
0.122
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
10.019 33.002 2.683 0.610 1.190 23.171 10.089 8.476
Table 6j. Percent occurrence of currents sorted by current speed
and direction for record 2901, station B. See caption
for Table 6 for full explanation of bins.
-------�
2031-A1H
BBS , On
COORDINATE STSTEH HOT EOTATED
IS TOWABDS 0
STABT TI1CZ : 85- IT -03 02.03.49
SAKPinro UTTEBVAI, : 60 KHIUTJB
TOTAL • PTS: 1880
STOP TIKE : 89- VI -10 00.03.49
88.9
VDX2.1
67.9 118.9 197.9 808.8 847.9 808.9
337.8
VSPT.l
9
10
19
20
29
30
39
40
49
90 .
99
60
69
70
099
2.993
7.447
4.734
1.489
0.601
0.160
0.033
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.900
6.330
7.606
9.372
2.181
0.426
0.106
0.093
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.996
1.436
0.160
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.064
0.749
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.064
0.997
0.093
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.223
6.064
0.043
4.840
1.064
0.093
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.878
8.080
9.426
1.330
0.106
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.777
9.638
0.708
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
16.640
37.606
27.810
13.032
4.043
0.638
0.160
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
CUX AVO 17.128 24.974 3.101 1.800 2.074 22.287 18.723 10.213
Table 6k. Percent occurrence of currents sorted by current speed
and direction for record 2931, station B. See caption
for Table 6 for full explanation of bins.
-------�
3001-A1H
EBB , On
COORDIITATE SYSTBC HOT BOTATED
HOS7B IS TOWARDS 0 DEGREES
START TD£Z : 89- VI -19 13,00.00
SAXPLnro nrnxvAL : so xnnrres
TOTAL t PTS: 1171
STOP TIXZ : 89-VIII-07 07.00.00
88. 9
67.9 113.8
VDia.l
197.9
808.9 847.9 808.9 337.9
vsro.i
9
10
19
20
29
30
39
40
49
90
99
60
69
70
009
CUX AVO
1.110
0.092
4.611
1.708
0.089
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.492
9.636
6.976
4.399
1.064
0.089
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.623
2.080
.o.9ia
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.106
2.220
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.342
1.337
0.171
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.030
3.160
6.140
2.139
0.342
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.879
e.oei
18.041
2.962
0.089
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.937
8.067
8.080
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
COX AVO
10.077
43.9S3
33.040
10.760
8.477
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
16.967 20.068 9.124 3.416 2.090 12.724 26.998 13.403
Table 61. Percent occurrence of currents sorted by current speed
and direction for record 3001, station B: See caption
for Table 6 for full explanation of bins.
43
-------�
3031-A1H
BBB , 9m
COOBDISATE SYSTEM HOT BOTATED
HOBTH IS TOWASDS 0
START TDCE : 8S-VIII-07 00.00.00
SAXPLISO IHTEttVAL : 60 KIHOTES
TOTAL » PTS: 1893
STOJ TIJCE : 89- X -83 13.00.00
VSPD.l
9
10
19
20
29
30
39
40
49
90
99
60
69
70
990
aa.9
6.908
3.778
a. a**
0.917
0.270
0.094
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
67.9
8.041
7.124
7.717
4.933
1.839
0.432
0.094
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
118.9
1.403
1.403
0.168
0.094
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
VBXS.l
197.9
0.486
0.378
0.168
0.094
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
808.9
1.079
0.917
0.870
0.816
0.000
0.094
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
847.8
6.806
3.886
3.994
8.798
0.486
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
808.9
7.663
9.828
9.181
1.899
0.270
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
337. S
9.990
4.489
1.070
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
37.777
87.730
81.800
9.882
8.860
0.940
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
14.971 29.736 3.028 1.079 8.936 17.323 80.237 11.499
Table 6m. Percent occurrence of currents sorted by current speed
and direction for record 3031, station B. See caption
for Table 6 for full explanation of bins.
-------�
2891-A1H
BED . 13m
COOBDIHATE S7STZX HOT BOTATH)
VOBTB IS TOWARDS 0 PEBKFTS
STAET TIXE : 84-VIII-21 13.00.00
SAKPLnrO UJTIBVAI. : 60 JCIOTTES
TOTAL t PTS: 1484
STOP TIME : 84- Z -22 08.00.00
VSPT.l
9
10
19
80
£9
30
39
40
49
SO
99
60
69
70
ceg
era AVO
23.9
TOIS.i
67.9 118.9 197.9 808.9 847.9 898.9 337.9
1.689
0.809
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.426
8.423
8.962
3.976
1.348
0.802
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.032
11.923
9.993
1.482
0.202
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
o.'ooo
0.000
8.763
8.398
0.202
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.032
3.100
0.674
0.067
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.100
10.310
10.179
6.806
1.819
0.202
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.213
8.196
1.078
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.741
0.939
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
COX AVO
17.892
39.218
86.689
12.332
3.369
0.404
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.493 89.337 21.833 9.323 6.873 32.412 4.447 1.280
Table 6n. Percent occurrence of currents sorted by current speed
and direction for record 2851, station D. See caption
for Table 6 for full explanation of bins.
-------�
2871-A1H
BBC . 16m
COOBDXXATZ Sm'UC SOT KOTATZD
HOSTS IS TOWARDS 0 IWHtKHi
START TDCZ : 84- X -89 10.00.00
SAXPLXVO UTIMIIVAI. : 60 XXXUTES
TOTAL • PTS: 1946
STOP TUCK : 89- I -14 11.00.00
VDXS.l
88.9 67.9 118.9 197.9 808.9 847.9 803.9
337.9
VSPS.l
9
10
19
80
29
30
39
40
49
90
99
60
69
70
90S
one AVO
1.606
8.681
0.828
0.091
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.308
11.810
18.288
7.811
8.878
0.914
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.946
8.724
0.411
0.091
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.107
0.308
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.133
1.028
0.091
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.340
11.810
10.740
4.629
1.233
0.462
0.091
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.678
3.997
0.029
0.297
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.790
0.874
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
COM AVO
81.686
39.140
89.831
18.799
4.111
0.076
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.100 38.609 6.738 8.419 4.814 38.271 7.811 2.678
Table 60. Percent occurrence of currents sorted by current speed
and direction for record 2871, station C. See caption
for Table 6 for full explanation of bins.
-------�
2021-A1H
BBC
COCBDttATE STSTDf TOT BOTATZD
TKSS.TS IS TOWARDS 0 T"""'1"'
START TUffi : 89- I -88 13.00.00
SAXPLZVO nrrZRVAL : 60 KUfUTZS
TOTAL t PTS: 1174
STOP THCE : 89- 111-18 10.00.00
SB.9
vsro.i
9
10
is
20
29
30
39
40
49
90
99
60
69
TO
999
one AVO
VDXS.l
67.9 112.9 197.9 802.9 847.9 282.S
337.9
8.389
3.402
0.089
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.470
11.073
10.647
6.720
8.470
0.296
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.174
6.218
1.103
0.911
0.170
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.806
0.341
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
8.819
0.892
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.978
9.707
6.303
2.726
0.767
0.896
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.978
8.044
4.914
0.892
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.090
8.641
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
COX AVO
83.294
30.267
22.743
10.818
3.407
0.911
.000
.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.
0.
9.063 33.646 12.266 3.237 3.066 10.336 17.888 4.600
Table 6p. Percent occurrence of currents sorted by current speed
and direction for record 2921, station C. See caption
for Table 6 for full explanation of bins.
-------�
8941-A1H
BBC , 16m
COOKDnfATZ SYSTQC HOT BOTATZD
HOBTB IS TOWABDS 0 DEOBEES
STABT TttZ : 8S- II1-29 18.00.00
SAXPLZHO nrravAt : eo KISUTZS
TOTAL • PTS: 898
STOP TIKE : 89- V -04 09.00.00
28.9
VDIB.l
67.9 112.9 197.9 208.9 247.9 292.9 337.9
VSPD.l
9
10
19
20
29
30
39
40
49
90
99
60
69
70
999
nnc AVO
3.147
2.214
0.233
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.994
3.147
12. 937
13.094
6.294
2.797
0.816
0.233
0.117
0.117
0.000
0.000
0.000
0.000
0.000
0.000
39.910
1.981
6.643
1.981
0.233
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
10.839
1.166
1.049
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.214
1.869
1.049
0.000
0.117
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.030
2.331
9.828
6.294
2.797
0.932
0.117
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
18.298
3.030
7.976
3.846
0.983
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
19.039
3.380
1.981
0.117
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.478
CUK AVO
20.047
39.277
29.924
10.023
3.730
0.932
0.233
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
Table 6q. Percent occurrence of currents sorted by current speed
and direction for record 2941, station C. See caption
for Table 6 for full explanation of bins.
-------�
2981-A1H
BEE , 14m
COOEDINATTE: STSTEX HOT BOTATZD
HOSTS IS TOWARDS 0 DEGREES
START TIKE : 85- VI -19 11.00.00
SAKPLUfO nriTRVAI. : 60
TOTAL t PTS: 117S
STOP TIKE : 85-VIII-07 09.00.00
VSPD.l
9
10
19
20
25
30
35
40
45
50
55
60
65
TO
999
88.9
1.957
1.362
0.340
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
67.9
9.702
8.766
7.4O4
9.021
8.723
0.426
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
118.9
4.936
9.617
4.000
1.191
0.255
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
VDH.I
157.9
2.953
1.532
0.000
0.000
0.000
0.000
0.000
0.000
o.ooo
0.000
0.000
0.000
0.000
0.000
0.000
808.5
1.872
0.681
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
847.9
2.043
6.128
8. 766
4.426
0.911
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
898.9
2.638
6.128
3.974
1.447
0.29S
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
337.9
2.894
0.891
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
24.996
35.064
84.089
12.085
3.745
0.426
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
cm AVO
3.660 30.043 20.000 4.085 8.993 21.872 14.043 3.749
Table 6r. Percent occurrence of currents sorted by current speed
and direction for record 2981, station E. See caption
for Table 6 for full explanation of bins.
49
-------�
3021-A1H
BBC . 16a
COOBDIHATE S7STQC HOT SOTATH)
HOBTH IS TOWARDS 0
START TIXZ : BS-VXIX-07 08.00.00
SAXPLZVO nmsvAL : eo xnnrrzs
TOTAL I PTS: 2886
STOP THCE : 89- XI1-03 13.00.00
88.9
VDIS.l
67.9 118.9 197.9 808.9 847.9 808.9 337.9
VSPS.l
9
10
19
80
89
30
39
40
49
90
99
60
69
70
999
3. 969
8.010
0.318
0.039
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.409
10.499
11.400
7.419
8.460
0.838
0.347
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.888
4.401
1.871
0.069
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.049
0.994
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.386
0.980
0.069
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
7.103
6.969
9.717
8.841
0.693
0.039
0.139
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.909
3.934
8.388
0.416
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.897
1.040
0.069
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
CUM AVO
33.437
29.522
81.760
10.776
3.193
0.866
0.489
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
cine AVO
9.989 38.398 9.963 3.604 3.915 83.493 10.776 4.366
Table 6s. Percent occurrence of currents sorted by current speed
and direction for record 3021, station C. See caption
for Table 6 for full explanation of bins.
50
-------�
3121-A1H
EBF . 8m
COOKDIHATZ STSTDf HOT ROTATED
ITOETE IS TOWARDS 0
START TIKE : 66- VI 1-09 13.00.00
SAKTLISO UTTERVAL : 60 MIHUTZS
TOTAL t PTS: 1180
STOP TIKE : 66-VIII-27 16.00.00
22.9
VDIB.l
67.9 112.9 197.9 202.9 217.9 202.9 337.9
VSPD.l
9
10
19
20
29
30
39
40
49
90
99
60
69
70
099
CTJM AVO
4.068
7.203
0.032
0.089
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.032
16.017
1.040
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.089
9.763
0.763
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.976
1.396
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.407
6.186
0.294
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
6.049
8.220
0.294
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.407
9.903
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
4.831
9.089
0.089
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
COM AVO
40.294
99.424
4.237
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
12.288 23.808 11.610 9.032 10.847 19.424 10.000 10.000
Table 6t. Percent occurrence of currents sorted by current speed
and direction for record 3121, station F. See caption
for Table 6 for full explanation of bins.
51
-------�
8121-A1H
WHOI A . 9«
COOBDISATZ SYSTEK HOT ROTATED
HOBTH IS TOWARDS 0 DECREES
START TIKE : 84-7111-34 14.00.00
SAKPLDTO INTERVAL : 60 KIUDTES
TOTAL » PTS: 3926
STOP TDCE : 85- I -18 11.00.00
22.9
VBIR.l
67.9 112.9 197.9 202.9 247.9 293.3
337.9
VSPD.l
9
10
19
20
29
30
39
40
49 .
90
99
60
69
70
999
:DM AVO
4.056
3.460
1.220
0.340
0.142
0.028
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.246
1.843
4.368
4.821
9.956
6.665
5.996
3.403
2.326
1.479
0.539
0.170
0.000
0.000
0.000
0.000
37.521
0.227
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.227
0.089
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.085
0.199
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.199
2.070
5.445
7.516
7.998
7.289
5.048
3.261
1.843
0.891
0.429
0.097
0.000
0.000
0.000
0.000
41.804
4.909
2.864
0.482
0.028
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
7.884
2.382
0.692
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
3.039
CTW AVO
19.372
16.790
14.030
14.322
14.099
11.032
6.669
4.169
2.326
0.964
0.227
0.000
0.000
0.000
0.000
Table 6u. Percent occurrence of currents sorted by current speed
and direction for record 8121, station WA. See caption
for Table 6 for full explanation of bins.
52
-------�
8122-A1H
VEOI A . 10a
COOBDIHATE STSTQC HOT BOTATSD
HOSTS IS TOWARDS 0 DEGREES
STAET TIME : 84-VIII-84 14.00.00
SAJCPlHrO IBTZBVAL : 60 MIHDTZS
TOTAL • PTS: 2543
STOP TIKE : 84- XI1-08 12.00.00
22.9
VDIB.l
67.9 112.9 197.9 202.9 247.9 202.9 337.9
VSPD.l
9
10
19
20
29
30
39
40
49
50
95
60
65
70
agg
CTJX AVO
3.578
4.640
3.303
2.350
1.612
0.944
0.275
0.433
0.393
0.079
0.039
0.000
0.000
0.000
0.000
2.084
3.185
4.758
4.444
5.112
4.365
2.084
1.534
0.629
0.157
0.000
0.000
0.000
0.000
0.000
0.315
0.157
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.354
0.039
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.236
0.319
0.118
0.157
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.831
6.202
8.140
8.258
9.890
3.032
1.888
1.062
0.118
0.030
0.000
0.000
0.000
0.000
0.000
4.247
3.736
0.004
0.236
0.070
0.030
0.000
0.030
0.000
0.000
0.000
0.000
0.000
0.000
0.000
2.010
1.455
0.107
0.030
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
COX AVO
16.555
10.819
17.420
15.494
12.662
0.280
4.247
3.067
1.140
0.275
0.000
0.000
0.000
0.000
0.000
17.696 28.352 0.472 0.303 0.826 38.410 0.280 4.601
Table 6v. Percent occurrence'of currents sorted by current speed
and direction for record 8122, station WA. See caption
for Table 6 for full explanation of bins.
53
-------�
8131-A1S
WHOI B , 5a
COOSDIHATZ ST5TEX HOT EOTATID
WDBTB IS TOWARDS 0
START TIKE : 84-VIII-87 19.00.00
SAXPLDTO UTTEBVAL : 60 KISUTES
TOTAL * FTS: 3493
STOP TDCB : 89- X -18 11.00.00
VSPD.l
9
10
IS
20
29
30
39
40
49
90
99
60
69
TO
990
88.9
0.990
0.087
0.029
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
67.9
0.811
0.979
0.981
0.409
0.232
0.116
0.029
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
118.9
1.829
3.707
4.402
9.416
9.647
4.344
3.244
8.096
1.906
0.666
0.990
0.319
0.000
0.000
0.000
vsnt.i
197.9
8.143
8.317
8.178
1.849
0.348
0.203
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
208.9
1.911
8.639
1.893
0.840
0.203
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
847.9
2.433
3.962
9.449
9.213
4.981
4.029
2.462
1.448
0.724
0.087
0.087
0.000
0.000
0.000
0.000
898.9
1.738
8.838
3.186
3.186
1.993
1.477
0.699
0.409
0.238
0.029
0.029
0.000
0.000
0.000
0.000
337.9
0.793
0.838
0.149
0.087
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
one AVO
12.163
19.997
17.793
16.392
13.003
10.169
6.429
3.910
2.462
0.782
0.666
0.319
0.000
0.000
0.000
ctnc AVO
0.666 2.693 33.681 8.427 7.443 30.466 19.407 1.216
Table 6w. Percent occurrence of currents sorted by current speed
and direction for record 8131, station WB. See caption
for Table 6 for full explanation of bins.
54
-------�
8132-A1H
VBOI B , 10m
COORDUrATZ STSTQC SOT BOTATED
SOBTH IS TOWASUS 0 DEO&EES
STAET TIKE : 84-VIII-27 13.00.00
SAHPLISO HTTZRVAI. : 60 KISUTZS
TOTAL • PTS: 3493
STOP TIKE : 69- I -18 11.00.00
VSPD.l
9
10
19
20
29
30
39
40
49
90
99
60
69
70
999
82.9
1.198
0.666
0.149
0.116
0.098
0.029
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
67.9
1.829
1.908
1.332
1.198
0.724
0.434
0.203
0.232
0.098
0.174
0.000
0.087
0.000
0.000
0.000
112.9
2.920
3.968
4.748
4.807
9.300
4.286
2.404
1.249
0.608
0.348
0.149
0.000
0.000
0.000
0.000
VDXS.l
197.9
1.767
2.639
1.100
0.232
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
202.9
2.114
2.143
1.072
0.174
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
847.9
2.722
4.094
4.981
4.344
3.823
2.983
1.390
0.869
0.261
0.087
0.098
0.000
0.000
0.000
0.000
892.9
3.099
4.836
4.344
3.099
2.143
1.198
0.492
0.261
0.116
0.029
0.000
0.000
0.000
0.000
0.000
837.9
1.906
0.811
0.149
0.203
0.174
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
COX AVO
16.710
21.112
17.869
14.133
12.221
8.891
4.489
2.606
1.043
0.637
0.203
0.087
0.000
0.000
0.000
CDX AVO
2.172 8.229 30.379 9.734 9.902 29.372 19.977 2.838
Table 6x. Percent occurrence of currents sorted by current speed
and direction for record 8132, station WB. See caption
for Table 6 for full explanation of bins.
55
-------�
8141-A1B
VBOI C . Sa
COOBDIXATZ STSTISC HOT BOTATED
HOSTS IS TOWABDS 0
STABT TDCE : 84- VI 1 1 -28 16.00.00
SAKT1ISO ISTZRVAL : 60 XXVUTES
TOTAL t PTS: 3427
STOP TDCB : 89- I -18 10.00.00
22.9
VSPD.l
9
10
19
20
29
30
39
40
49
90 '
99
60
69
TO
000
C1» AVO
67.9 112.9 197.9 202.9 247.9 202.9 337.9
0.117
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.233
0.370
0.233
0.179
0.233
0.088
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.099
4.000
9.486
8.170
6.886
4.923
2.247
0.642
0.088
0.000
0.000
0.000
0.000
0.000
0.000
2.190
2.626
2.480
1.868
0.984
0.233
0.020
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.663
3.739
2.900
1.609
0.438
0.000
0.020
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.634
3.881
6.219
6.274
9.169
2.860
1.090
0.467
0.098
0.000
0.000
0.000
0.000
0.000
0.000
0.467
1.634
2.247
3.677
3.006
2.743
1.488
0.929
0.179
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.020
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
COC AVO
8.220
17.279
10.171
21.768
16.312
10.446
4.844
1.634
0.321
0.000
0.000
0.000
0.000
0.000
0.000
0.117 1.342 34.087 0.080 0.080 27.604 19.061
0.000
Table 6y. Percent occurrence of currents sorted by current speed
and direction for record 8141, station WC. See caption
for Table 6 for full explanation of bins.
56
-------�
8142-A1H
VSOl C , 10m
COOHDISATZ STSTZX HOT BOTATZD
VOBXB IS TOWARDS 0 TffifUHTS
STAET TIKE : 84-VIII-28 16.00.00
SAKPLDTO nrrnWAL : 60 KHTOTZS
TOTAL • ITS: 3427
STOP TIKE : 63- I -18 10.00.00
vsro.i
9
10
IS
20
29
30
39
40
49
90
99
60
69
TO
999
nnc AVO
88. 9
0.496
0.282
0.833
0.204
0.263
0.263
0.179
0.146
O.OSB
0.000
0.029
0.000
0.000
0.000
0.000
2.199
67.9
0.613
1.109
1.021
1.401
0.730
0.879
0.467
0.204
0.146
0.029
0.000
0.000
0.000
0.000
0.000
6.999
118.9
1.663
3.892
9.944
9.894
9.603
4.027
2.013
0.909
0.321
0.117
0.098
0.000
0.000
0.000
0.000
29.997
VDXX.l
197.9
1.868
2.889
2.491
1.313
0.671
0.117
0.088
0.029
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.429
808.9
1.634
3.968
8.199
1.401
0.390
0.117
0.000
o.ooo.
0.000
0.000
0.000
0.000
0.000
0.000
0.000
9.629
847.9
1.371
4.439
6.011
4.931
3.960
1.722
1.021
0.379
0.233
0.029
0.029
0.000
0.000
0.000
0.000
23.723
892.9
1.138
2.939
3.239
3.618
3.297
1.809
0.879
0.467
0.179
0.098
0.000
0.000
0.000
0.000
0.000
17.216
337.9
0.409
0.379
0.390
0.029
0.098
0.029
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
1.299
one AVO
9.192
19.463
81.010
18.792
14.932
8.998
4.640
2.130
0.934
0.233
0.117
0.000
0.000
0.000
0.000
Table 6z. Percent occurrence of currents sorted by current speed
and direction for record 8142, station WC. See caption
for Table 6 for full explanation of bins.
57
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Figure 8a. Scatterplots of h6ur-averaged (left) and low-passed (right) current
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averaged data plotted every 2 hours, low-passed every 6 hours.
Note change of scale.
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plotted every 2 hours, low-passed every 6 hours. Note change
of scale.
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Figure Be.
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of scale. ,
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Figure Bf. Scatterplots of hour-avera
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plotted every 2 hours, low
of scale.
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observations (in cm/sec) during deployment 6. Hour-averaged data
plotted every 2 hours, low-passed every 6 hours. Note change
of scale.
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observations (in cm/sec) at Station F. Hour-averaged data plotted
every 2 hours, low-passed every 6 hours. Note change of scale.
65
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50
40
30
20
10
. 0
-10
-20
-30
-40
-50
50
40
30
20
10
. o
-10
-20
-30
-40
-50
E/W
-50-40-30-20-10 0 10 20 30 40 50
WHOI A
8121-1H
-50-40-30-20-10 0 10 20 30 40 50
E/W
WHOI A
8122-1H
-50-40-30-20-10 0 10 20 30 40 50
E/W
50
40
30
20
10
0
-10
-20
-30
-40
-50
50
40
30
20
10
0
-10
-20
-30
-40
-50
E/W
-10-8 -6 -4-20 2
l/l
10
8
6
4
2
0
-2
-4
-6
-8
4 6 8 10
-10
WHOI A
8121-LP
10
8
6
4
2
t/i
-10-8 -6 -4-20 2
E/W
6 8 10
10
8
6
4
2
0
-2
-4
-6
-8
-10
WHOI A
8122-LP .
-2
-4
-6
-8
10
10
8
6
4
2
oo
-10-8 -6-4-20 2 4 6 810
E/W
_ o
-4
-6
-8
10
Figure 8i. Scatterplots of hour—averaged (left) and low-passed (right) current
observations (in cm/sec) at station WHOI A. Hour-averaged data
plotted every 2 hours, low-passed every 6 hours. Note change
of scale.
66
-------�
oo
50
40
30
20
10
. 0
-10
-20
-30
-40
-50
50
40
30
20
10
. 0
-10
-20
-30
-40
-50
E/W
-50-40-30-20-10 0 10 20 30 40 50
WHOI B
8131-1H
. ••».
-50-40-30-20-10 0 10 20 30 40 50
E/W
WHOI B
8132-1H
-50-40-30-20-10 0 10 20 30 40 50
E/W
50
40
30
20
10
0
-10
-20
-30
-40
-50
50
40
30
20
10
0
-10.
-20
-30
-40
-50
E/W
-10-8 -6-4-20 2 4 6 810
10
8
6
4
2
0
-2
-4
-6
-8
-10
WH01 B
8131-LP
10
8
6
4
2
oo
-10-8 -6 -4-20 2
E/W
4 6 8 10
00
10
8
6
4
2
0
-2
-4
-6
-8
-10
WHOI B
8132-tP
-10-8 -6 -4-20 2
E/W
-2
— 4
-6
-8
-10
10
8
6
4
2
oo
4 6 8 10
-2
-4
-6
-8
-10
Figure 8j. Scatterplots of hour-averaged (left) and low-passed (right) current
observations (in cm/sec) at Station WHOI B. Hour-averaged data
plotted every 2 hours, low-passed every 6 hours. Note change
of scale.
67
-------�
E/W
-50-40-30-20-10 0 10 20 30 40 50
50
40
30
20
10
to
Z?" ®
-10
-20
-30
-40
50
WHOI C
8141-1H
.... : f. v.. /_
* * ^ ^r^SBsSc>jff*iiQ>y*^*
-' ^'t^^^^^^^^^':'
' -^^^^^^^^^^y^
's^^fQ'fT.v pji-\ • yV« . •*'
..-*.-.^.v '.. .
" • "'
50
40
30
20
10
0
-10
-20
-30
-40
en
-50-40-30-20-10 0 10 20 30 40 50
E/W
50
40
30
20
10
00
-10
-20
-30
-40
50
WHOI C
8142-1H
'.. ". • *•
* * * »
• • . ' _ .. .
. f~\ * ••-•••:, r-:s£w°-
* •* ***"^ *• JJP ^ it 'Cytj^S'^t^ 4 *
• _ . "'.irJ^^XS^Ssrt^ • .. "
^^^^Sf^::J!" ;
" "* !'' '.'9r :.'"•"* "• *
• . • •'
50
40
30
20
10
0
-10
-20
-30
-40
-50
-50-40-30-20-10 0 10 20 30 40 50
E/W
E/W
-10-8 -6-4-20 2 4 6 8 10
10
8
6
4
2
oo
\ 0
-2
-4
-6
-8
1 n
WHOI C
8141-LP
.._.„• ^s-
J°V>* *%i^n'**'~i^-
•••: '. * li'l^reWi " '
\^y^:-*£';. ••
* ^x^^*^.*** " / vH **^.***
^^"^ •'- %-'! ^ V. V
^^ * V '"•;•*
10
8
6
4
2
00
-2
-4
-6
-8
1 rt
-10-8 -6-4-20 2 4 6 8 10
E/W
10
8
6
4
2
00
-2
-4
-6
-8
-10
WHOI C • .
8142-LP . i
' \" '
J \' .
••:. ' \ ' '
* * \ * *
jC-'.j \ •-'•' . ^
•••.•y^j-;fe;^'; '.-••-.'
: " "-Vc^^^v^-'v-Vr.X* "
. ^V^'.itv-'.J • .' * V
•»"*% '?'-'"y"' "•' * •
' • ' A^' -.-•...• •
' "•' *
10
8
6
4
2
t/1
°z'
-2
-4
-6
-8
-10
-10-8 -6-4-20 2 4 6 810
E/W
Figure 8k. Scatterplots of houi—averaged (left) and low-passed (right) current
observations (in cm/sec) at Station WHOI C. Hour-averaged data
plotted every 2 hours, low-passed every 6 hours. Note change
of scale.
68
-------�
200
"
o
*"?
oi
200
O
O
10-
io-s
Hertz
10 '
200
O
ui
V)
o
v^
»
AUTO-SPECTRUM
BBA
CROSS BAY 2631-A1HR
24-SEP-87 15.JO.I8
Hertz
AUTO-SPECTRUM
BBA
ALONG BAY 2631-A1HR
24-SEP-87 15. JO 18
10
Hertz
AUTO-SPECTRUM
BBA
CROSS BAY 2631-A1HR
ALONG BAY 2631-A1HR
24-SEP-87 15.J0.22
Figure 9a. Spectra for record 2631, station A (2 pieces). Variance conserving kinetic energy spectra for each
current component and for the total current. The spectral estimates were computed from the hour-
averaged time series. The estimates were computed from hanned and overlapped data pieces 360 hours
long. In the variance-conserving spectra, the energy In each frequency band times the frequency
of the band Is plotted on a linear scale vs. the log of the frequency; the area under the spectral
curve Is the total variance of the data record.
-------�
200
O
(jj
O
10
oi
10"
JL ,
10"r
Hertz
200
ID"
AUTO-SPECTRUM
BBA
CROSS BAY 2651-A1HR
24-SEP-87 15.31.08
o
**
200
O
10-
AUTO-SPECTRUM
BBA
ALONG BAY 2651-A1HR
24-SEP-87 1531.08
o
ui
in
o
AUTO-SPECTRUM
BBA
CROSS BAY 2651-A1HR
ALONG BAY 2651-A1HR
24-SEP-87 15.31.12
Figure 9b. Spectra for record 2651, station A (5 pieces).
-------�
200
O
UJ
2
O
•*»
oi
10
200
10''
AUTO-SPECTRUM
BBA
CROSS BAY 2891-A1HR
24-SEP-87 15.34.21
o
ui
V)
in
o
^~*
•
•o
200
10
Heriz
10"
AUTO-SPECTRUM
BBA
ALONG BAY 2891-A1HR
24-SEP-87 1534.21
O
til
o^
*
Hertz
AUTO-SPECTRUM
BBA
CROSS BAY 2891-A1HR
ALONG BAY 2891-A1HR
24-SEP-87 15.34.25
Figure 9c. Spectra for record 2891, station A (4 pieces).
-------�
200
10"
I r
10-
Hertz
AUTO-SPECTRUM
BBA
CROSS BAY 2911-A1HR
24-SEP-87 15.3443
200
E
u
K)
04
10"
10-
Hertz
10"
AUTO-SPECTRUM
BBA
ALONG BAY 2911-A1HR
24-SEP-87 15.J4.43
200
o
cs
10"
10"
Hertz
10"
AUTO-SPECTRUM
BBA
CROSS BAY 2911-A1HR
ALONG BAY 2911-A1HR
24-SEP-87 15.34.46
Figure 9d. Spectra for record 2911, station A (4 pieces)
-------�
200
o
200
10
AUTO-SPECTRUM
BBA
CROSS BAY 2951-A1HR
24-SEP-87 15.35.J7
10-
KT
Hertz
200
10-
AUTO-SPECTRUM
ALONG BAY 2951-A1 MR
24-SEP-B7 15.J5.17
o
•*-*>
»
•o
10
Hertz
AUTO-SPECTRUM
BBA
CROSS BAY 2951-A1HR
ALONG BAY 2951-A1 MR
24-5EP-87 15.J5.20
Figure 9e. Spectra for record 2951, station A (8 pieces).
-------�
200
O
Ul
to
2
O
-------�
a
CO
CO
2
200
10" 10"r 1C
Hertz
AUTO-SPECTRUM
BBA
CROSS BAY 3041-A1HR
24-SEP-87 15.38.23
O
ui
CO
o
"*?
eg
200
10"" 10 10
Hertz
AUTO-SPECTRUM
BBA
ALONG BAY 3041-A1HR
24-SEP-87 15.3823
O
UJ
to
O^
*
»o
10-
AUTO-SPECTRUM
BBA
CROSS BAY 3041-A1HR
ALONG BAY 3041-A1HR
24-SEP-87 153826
Figure 9g. Spectra for record 3041, station A (8 pieces).
-------�
(ft
K)
oi
»j
CT>
1 1 1 1 1
.j , . - ,->^rv; .
Jl ,"
10 10 10
Hertz
200
AUTO-SPECTRUM
BBB
CROSS BAY 2861-A1HR
24-SEP-87 15.4016
O
Ul
V)
VI
3
200
10-
AUTO-SPECTRUM
BBB
ALONG BAY 2861-A1HR
24-SEP-87 15.40.16
O
tu
vt
tn
5
O
AUTO-SPECTRUM
BBB
CROSS BAY 2861-A1HR
ALONG BAY 2861-A1HR
24-SEP-87 15.4019
Figure 9h. Spectra for record 2861, station B (5 pieces),
-------�
200
o
10"
200
10
AUTO-SPECTRUM
BBB
CROSS BAY 2881-A1HR
1-OCT-87 1504.23
u
o
200
10-'
Hertz
AUTO-SPECTRUM
BBB
ALONG BAY 2881-A1HR
1-OCT-87 1504.23
u
^^
*
K)
1 1 1 1 1
_l , -r — -f —
V
1 f
k:
10-' 10'* 10'4
Hertz
AUTO-SPECTRUM
BBB
CROSS BAY 2881-A1HR
ALONG BAY 2881-A1HR
1-OCT-87 15.04.26
Figure 91. Spectra for record 2881, station B (7 pieces).
-------�
200
u
200
10
Hertz
AUTO-SPECTRUM
BBB
CROSS BAY 2901-A1HR
29-SEP-87 14.10.31
u
200
to
AUTO-SPECTRUM
BBB
ALONG BAY 2901-A1HR
29-SEP-87 14.10.31
o
**>
oi
Hertz
AUTO-SPECTRUM
BBB
CROSS BAY 2901-A1HR
ALONG BAY 2901-A1HR
29-SEP-87 14.10.34
Figure 9j. Spectra for record 2901, station B (8 pieces).
-------�
200
vO
200
10-
10-'
Hertz
10"
AUTO-SPECTRUM
BBB
CROSS BAY. 2931-A1HR
Z9-SEP-87 14.12.39
E
o
200
10
AUTO-SPECTRUM
BBB
ALONG BAY 2931-A1HR
29-SEP-87 14.1239
o
10-
AUTO-SPECTRUM
BBB
CROSS BAY 2931-A1HR
ALONG BAY 2931-A1HR
29-SEP-B7 14.12.42
Figure 9k. Spectra for record 2931, station B (9 pieces).
-------�
CD
O
200
M
O
o
10-'
10"
Hertz
AUTO-SPECTRUM
BBB
CROSS BAY 3001-A1HR
30-SEP-87 15.b2.07
200
o
*
K)
oi
10-
10"'
Hertz
10 -r
AUTO-SPECTRUM
BBB
ALONG BAY 3001-A1HR
30-SEP-87 15.b2.07
200
o
10-'
io-J
Hertz
10-
AUTO-SPECTRUM
BBB
CROSS BAY 3001-A1HR
ALONG BAY 3001-A1HR
JO-SEP-87 15.52.10
Figure 91. Spectra for record 3001, station B (5 pieces).
-------�
200
oo
o
»—••
*
•o
oi
200
10-'
icr
Hertz
10"'
AUTO-SPECTRUM
BBB
CROSS BAY 3031-A1HR
2-OCT-87 08.38.08
o
200
10 10 10
Hertz
AUTO-SPECTRUM
BBB
ALONG BAY 3031-A1HR
2-OCT-87 08 J8.08
o
10"
10-'
Hertz
AUTO-SPECTRUM
BBB
CROSS BAY 3031-A1HR
ALONG BAY 3031-A1HR
2-OCT-87 08. J8.11
Flgurp 9m. Spectra for record 3031, station B (4 pieces).
-------�
200
O
UJ
O
10
AUTO-SPECTRUM
BBD
CROSS BAY 2851-A1HR
29-SEP-87 14.03.28
IUU
C?
UJ
V)
2
O^
*
K)
r
-------�
200
O
UJ
in
o
200
10
AUTO-SPECTRUM
BBC
CROSS BAY 2871-A1HR
29-SEP-87 14.06.10
O
Ul
(n
O
10*
Hertz
200
10-'
AUTO-SPECTRUM
BBC
ALONG BAY 2871-A1HR
29-SEP-87 14.06.10
3
O
•o
oi
10~* 10
Hertz
AUTO-SPECTRUM
BBC
CROSS BAY 2871-A1HR
ALONG BAY 2871-A1HR
29-SEP-B7 14.06.14
Figure 9o. Spectra for record 2871, station C (9 pieces).
-------�
200
>*>
oj
CO
10"
200
10-'
Hertz
10"
AUTO-SPECTRUM
BBC
CROSS BAY 2921-A1HR
29-SEP-87 14.08.28
o
I I
200
AUTO-SPECTRUM
BBC
ALONG BAY 2921-A1HR
29-SEP-87 14.08.28
u
o
AUTO-SPECTRUM
BBC
CROSS BAY 2921-A1HR
ALONG BAY 2921-A1HR
29-SEP-B7 14.08.J1
Figure 9p. Spectra for record 2921, station C (5 pieces).
-------�
200
00
en
•*»
01
200
Hertz
AUTO-SPECTRUM
BBC
CROSS BAY 2941-A1HR
30-SEP-87 15.45.43
u
200
10
AUTO-SPECTRUM
BBC
ALONG BAY 2941-A1HR
30-SEP-87 15.45.43
E
u
10
AUTO-SPECTRUM
BBC
CROSS BAY 2941-A1HR
ALONG BAY 2941-A1HR
30-5EP-87 1545.46
Figure 9q. Spectra for record 2941, station C (3 pieces).
-------�
200
CO
CT»
10
Hertz
10"
AUTO-SPECTRUM
BBE
CROSS BAY 2981-A1HR
30-SEP-87 15.bO.21
200
E
u
10
AUTO-SPECTRUM
BBE
ALONG BAY 2981-A1HR
30-SEP-87 1b.t>0.21
200
o
10"
10-I
Hertz
10'
AUTO-SPECTRUM
BBE
CROSS BAY 2981-A1HR
ALONG BAY 2981-A1HR
30-SEP-87 15.iO.24
Figure 9r. Spectra for record 2981, station E (5 pieces).
-------�
200
E
u
o
o 7£r
JL
200
io'p
Hertz
AUTO-SPECTRUM
BBC
CROSS BAY 3021-A1HR
15-OCT-87 15.53.50
E
o
o
Hertz
1(T
AUTO-SPECTRUM
BBC
ALONG BAY 3021-A1HR
15-OCT-87 15.53.bO
o
10^
-r-^N!
10-'
Hertz
AUTO-SPECTRUM
BBC
CROSS BAY 3021-A1HR
ALONG BAY 3021-A1HR
15-OCT-87 15.53.53
Figure 9s. Spectra for record 3021, station C (6 pieces).
-------�
200
E
o
oo
00
200
E
o
ID'1
200
o
AUTO-SPECTRUM
BBF
CROSS BAY 3121-A1HR
30-SEP-87 15.52.48
10
Hertz
AUTO-SPECTRUM
BBF
ALONG BAY 3121-A1HR
30-SEP-87 15.52.48
10-
AUTO-SPECTRUM
BBF
CROSS BAY 3121-A1HR
ALONG BAY 3121-A1HR
30-SEP-B7 15.52.52
Figure 9t. Spectra for record 3121, station F (5 pieces).
-------�
200
00
o
10^ 1010
Hertz
AUTO-SPECTRUM
WHOI A . 5m
CROSS BAY 8121-A1HR
5-OCT-87 08.29.24
10 ' 10''
Hertz
AUTO-SPECTRUM
WHOI A , 5m
ALONG BAY 8121-A1HR
S-OCf-87 08 29 24
10' 10"*
Hertz
AUTO-SPECTRUM
WHOI A , 5m
CROSS BAY 8121-A1HR
ALONG BAY 8121-A1HR
S-OCT-87 082927
Figure 9u. Spectra for record 8121, station WA (8 pieces).
-------�
•-O
o
200 p p
10' 10=*
Hertar
AUTO-SPECTRUM
WHOI A , 10m
CROSS BAY 8122-A1HR
5-OCT-87 0829.S9
lOOr-r
10
Hurt/
AUTO-SPECTRUM
WHOI A . lOrn
ALONG BAY 8122-A1HR
5-OCT-8/
Hertz
AUTO-SPECTRUM
WHOI A , I Om
CROSS BAY 8122-A1HR
ALONG BAY 8122-A1HR
S-OCf-87 06 JO.02
Figure 9v. Spectra for record 8122, station WA (6 pieces).
-------�
10
Hertz
AUTO -SPECTRUM
WHOI B , 5m
CROSS BAY 8131-A1HR
5-OCT-87 OBJI.J2
200 f-r
Hertz
AUTO-SPECTRUM
WHOI B . 5m
ALONG BAY 8131-A1HR
5-OCT-87 08J1.J2
VJ
10- ioT
Hertz
AUTO-SPECTRUM
WHOI B . 5m
CROSS BAY 8131-A1HR
ALONG BAY 8131-A1HR
5-OCT-87 08.J1.JS
Figure 9w. Spectra for record 8131, station WB (8 pieces).
-------�
200 r-r
10 10
Hertz
AUTO-SPECTRUM
WHOI B . 10m
CROSS BAY 8132-A1HR
S-OCf-87 08 12 OJ
icr
HcrU
AUTO-SPECTRUM
WHOI 13 , 10m
ALONG BAY 8132-A1HR
5-OCT-87 08J20J
AUTO-SPECTRUM
WHOI B . 10m
CROSS BAY 8132-A1HR
ALONG BAY 8132-A1HR
S-OCT-87 08 J2.06
Figure 9x. Spectra for record 8132, station WB (8 pieces).
-------�
100 f-T
VO
U>
10"
Hertz
AUTO-SPECTRUM
WHOI C , bm
CROSS BAY 8141-A1HR
5-OCT-87 08J4.J3
106 f-r
10 '
Hertz
AUTO-SPECTRUM
WHOI C . bm
ALONG (BAY 8I41-A1HR
S-OC.-H; 08J4.JJ
100 rr
Hertz
AUTO-SPECTRUM
WHOI C . 5m
CROSS BAY 8141-A1HR
ALONG BAY 8141-A1HR
S-OCT-87 08 J4.J6
Figure 9y. Spectra for record 81A1, station WC (8 pieces).
-------�
200 i-r
to-" to*to"
HerU
AUTO-SPECTRUM
WHOI C , 10m
CROSS BAY 8142-A1HR
S-OCt-8/ 0« JS 14
200 r-r
Hert/
AUTO-SPECTRUM
WHOI C . 10m
ALONG BAY 8142-A1HR
5-OCT-87 Oaj514
200 r-r
i*
Harti
io
AUTO-SPECTRUM
WHOI C . 10m
CROSS BAY 8142-A1HR
ALONG BAY 8142-A1HR
5-OCr-87 08 Jib/
Figure 9z. Spectra for record 8142, station WC (8 pieces).
-------�
VO
Ln
Sta. A (Cleveland Ledge). 12m. Record 263
Hour averaged
24 Temperature
22
10 i5 20 25 30 4
Figure lOa. Station A, record 2631. hour-averaged temperature, current speed.
and PSDCV.
-------�
Sta. A (Cleveland Ledge), 12m, Record 263
Hour averaffed
20
10
-10
-20
Cross -bay
, l.»l.Pk.»_.«A — ^.«I^.A«..lW\M^f^»A..i .»».««. >K..<
5 10 ' ' 15 ' JO ' S5 iO V ' ' '9 <4" <9
20
-1°0<
-20
Figure lOb. Station A, record 2631, hour-averaged cross-bay and along-bay current.
current direction, current speed, and pressure.
-------�
Sta. A (Cleveland Ledge). 12m. Record 263
Lowpassed
-10
& " *
10 Along-bay Is up
-to
2160
52140
&
' io
Pressure
io
982
is
15
20
is
Jo
20
25
AUG
14
19
-10
10
-3
-10
°
v>
2160
2140%
2120g
Figure lOo. Station A. record 2631. low-passed temperature, cross-bay and along-bay
current, sllckplot (the along-bay direction is up. data plotted every 6 hours).
and bottom pressure.
-------�
00
Sta. A (Cleveland Ledge), llm. Record 265
Hour averaged
2* Temperature
22
U 19 24 20
Figure lla. Station A, record 2651, hour-averaged temperature, beam attenuation.
speed, and PSDEV. The transmissometer fouled extensively during the
deployment and was cleaned on September 13 and October 8.
-------�
20
Sta. A (Cleveland Ledge), Urn, Record 265
Hour averaged
VO
Figure lib. Station A, record 2851. hour-averaged cross-bay and along-bay current,
current direction, current speed, and pressure.
-------�
O
O
Sta. A (Cleveland Ledge). Urn. Record 265
Lowpassed
24
22
20
in
14
1*
Temperature
~\^~ ^_
^~~~"\__
^^~^— -^__
24
22
20
1ft
14
19
1982
0 Cross-bay
V
-5
-10
«,
10 Along-bay
Jo
<*
19
(4
-5
-10
\ ^
23
io
1982
10 Along-bay la up
3
-5
-10
14
19
24
29
ocT
14
2160
£2140
§2120
32100
AUC
1962
14
19
24
29
OCT
14
Pressure
14
19
24
29
14
J9
19
19
19
J4
24
29
29
10
-5
-10
10
-5
-10
10
-5
-10
2160
2140
2120
2080
Figure lie. Station A. record 2651, low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 houra).
and bottom pressure.
-------�
Sta. D (Naushon). 13m. Record 285
Hour averaged
24 Temperature
22
CX?T
10 IS 20
10
a
i '
3 4
i 2
0.
A
PSDEV
1
i ft
. l\\ JJIA
i 26 J1 'S iO iS 10 25 JO "5 <0 is 20
10
a
6i
4§
2a
0
Figure 12a. Station D. record 2851. hour-averaged temperature, current speed.
and PSDEV.
-------�
„
20
Sta. D (Naushon). 13m. Record 285
Hour averaged
Figure 12b. Station D, record 2851. hour-averaged cross-bay and along-bay current,
current direction, current speed, and pressure.
-------�
o
OJ
Sta. D (Naushon). 13m, Record 285
Lowpassed
24 Temperature
22
20
16
26
31
10
iS
iO
25
30
10
iS
10
-10
10
&
1 26 31
-5
-10
2360
|2340
=2320
T1 26
AUG
1984
31
Pressure
26
31
5
10 i5 2"0 25
30
10
15
20
25
30
5
10
10
is
io
25
30
10
15
is
20
10 iS 20
20
20
24
22
20
18
16
14
10
5
-1O
Cross -bay
/\ ./v
,/\^~^-^~^\ s^ i* — ^---^-— ^~^/v\_ /\y^X__/x_^-^\ f^~\-^\ ,^~^S\-^/\/\^~s><_^
V \^j
10
3
i
_°i
-10
Along -bay
S\^^s^
J
^ ^A_ ^_y
^^/ - ^r~
^~\ r^ ~f^
X/ ^^- v->y
/v
-^ *-^j|71-
10
-10
Along-bay Is up
^( /.... -^1 r* ''w'*«5^!li^ "^ "* ^\\'^S>"' * '* —K"*!™'^V^"S''^^ji.v ^ijj^ •'''•' •^"''•1-^'
to
si
-in
2360
2340
2320
Figure 12c. Station D. record 2851, low-passed temperature, cross-bay and alone-bay
current, stickplot (the along-bay direction is up. data plotted every o hours).
and bottom pressure.
-------�
Sta. B (Phinney Rock). 13m. Record 286
' Hour averaged
22 Temperature
20
18
ie
ii
14
32.0
31.5
30.5
in A
Salinity
-VrT— TAr-v— -
32.0
31.5
31.0
30.5
vi n
40
11
16
ii
26
ocV
11
16
21
Beam Attenuation
11 16 21 26
oc\
6 11 16 4l
'10
Speed
mtk^^
16
19B4
10 PSDEV
8
it
( 6
ocV
11
16
21
d
I 2
TT
16
OcV
16
21
40
10
10
8
u
6<
4-
Figure 13a. Station B, record 2B61, hour-averaged temperature, salinity, beam
attenuation, speed, and PSDEV. The transmissometer fouled during
the deployment and was cleaned on September 12.
-------�
o
Ul
Sta. B (Phinney Rock), 13m, Record 288
Hour averaged
20 Crow-boy *
20
2200 5
2150
Figure 13b. Station B. record 2861. hour-averaged cross-bay and along-bay current,
current direction, current speed, and pressure.
-------�
o
01
Sta. B (Phinney Rock). 13m. Record 266
§84
to Along-bay
A
-10
JB4
10 Along-bay Is up
5
0
-10
11
16
2300
|2280
^2260
19B4
Pressure
11
16
984
A
-
/
21
26
1
21
26
OCT
2"6 '1 6 il i6
11
11
22
20
18
p16
14
12
?!
10
5
-in
Lowpassed
Temperature
^ ' " ir ' ' " \& ' ii ie' ^ 'e ' ii ie ' ar
184
Cross -bay
--v^V/-v/- VAX/V"^ ^
22
20
18
14
12
10
-in
16 21
16 it
10
-10
10
-10
2300
i
2280
2260
Figure 13c. Station B, record 2661. low-passed temperature, cross-bay and alone-bay
current, stickplot (the along-bay direction is up. data plotted every 6 houra).
and bottom pressure.
-------�
Sta. WHOI A. 5m. Record 8121
Hour averaged
24 Temperature
20
16
12
24
20
16
12
8*
4
0
4 29
'§4
B 13 18 23 28
8 13 18 23 28
N&f
7 12 17 22 27
7 12 17 22 27
J,
198
985
16
20 i Cross-bay
7 12 17 22 27
8 13 IB 23 28
8 13 18 23 28
7 12 17 22 27
60 i Along-bay
8 13 18 23 28
7 12 17 22 27
8 13 18 23 28
7 12 17 22 27
8 13 18 23 28
8 13 18 23 28
7 12 17 22 27
7 12 17 22 27 1 6 11 16
7 12 17 22 27 2 7 12 17 22 27 1 6 11 16
8 13 18 23 28
B 13 IS 23 28
Figure 14a. Station WHOIA, record 8121, hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
o
00
Sta. WHOI A. 5m. Record 8121
24
20
16
12
4
n
Lowpassed
Temperature
^~~^_
^ -~^_
' "*— -^
^-^
24
20
16
12
ff
4
n
1984
10 Cross-bay
N
1985
-5
-10.
29 8 13 18 23 2B 8 13 18 " 28
$84
10 Along-bay
12 17 M 27
7 12 l7 22 27 JA!( 6
1985
16
-5
-10.
A A r\
- v
"f
24 29 A 8 13 18 23 28 ^ 8 13 18 23 28 ^ 7 12 17 22 27
..UC
1984
0 Along-bay Is up
7 12 17 22 27 1 6 11 16
"1985
-10
4 29
3 8 13 18 23 28 "3 8 13 18 23 28 ^ 7 12 17 22 27 i 7 12 17 22 27 1 6 11 16
S
10
-5
10
0«
-°a
-10
10
s«
3
-10
Figure 14b. Station WHOIA. record 8121. low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 hours).
-------�
Station WHOI A. 5m. Record 8121
Uncorrected for fouling
20,,
4. 29 3 8 13 18 23 28 ^3 8 13 18 23 28 2 7 12 17 22 27 _JL 7 12 17 22 27 ..). 6 11 16
8 13 18 23 2
121 1"7 2'J! 27
7 12 17 22 27
8 .3 ,8 23 28
7 12 17 22 27
7 12 17 22 27
5 Cross-bay (low-passed)
7 12 17 22 27
7 12 17 22 27 ..1. 6 11 16
8 13 18 23 28
8 13 18 23 28
5 | Along-bay (low-
7 12 17 22 27
7 12 17 22 27 1 6 11 16
8 13 18 23 28
8 13 18 23 28
10
u, 5
^ 0
° -5
-in
Low-passed data (Along-bay Is up)
„ r~~^ y 'i-"^f T ^
V ^ ^ ^ \ w^ W. V
r^-w • * '* * " v -
4. 29
10
-10
JAN
1983
Figure 14c. Station WHOIA, record 8121, hour-averaged cross-bay and along-bay current,
current speed, low-passed cross-bay and along-bay current, and low-passed
stickplot (along-bay Is up, data plotted every 6 hours). Data uncorrected
for fouling.
-------�
Sta. WHOI A, 10m. Record 6122
Hour averaged
24 Temperature
20
16
24
20
16
12
.8
4
4 29
0 13 18 23 28
8 13 18 23 28 2 7 12 17 22 27
20 j Cross-bay
J" 0
u-20
-40.
.lltiU. ..-1.
nil.. .lUilili...
***m
4 28 3 8 13 18 23 28 1 8 13 18 23 28 2 7 12 17 22 27 2 7
o£
NOV
20
0£
-208
-40
60 I Along-bay
4 29 _3 8 13 18 23 28 1 8 13 18 23 28 2 7 12 17 22 27 2 7
irection (North
1318 23 28 2 " 712
ft" •*
60 Speed
29 ""T '8i""l'3""l'8 "2'3" 2'8 " 1 ' 8 Yji 18i"'ti 2'81 ^2 '? 1-21 "17 jij 2'7 "i >
o£ 8 I3
Figure 15a. Station WHOIA. record 6122, hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
Sta. WHOI A. 10m. Record 8132
Lowpassed
24
20
16
12
4
A
Temperature
~^__
^ -^^
24
20
16
12
8"
4
n
-5
-10.
^ 8 13 18 23 28 ^ 7 12 17 22 27 ^
Crow-bay 10
4 29
8 13 18 23 28 3 8 13 18 23 28
^ 7 12 17 22 27
10 Along-bay
5
-5
-10.
J\. ..ItrA A A
s/ W v v
a ,3 ,.
2.
8 13 18 23 28
7 12 17 22 27
10 Along-bay is up
5
-10
10
-5
-10
10
5,,
-5
-10
Figure 15b. Station WHOIA, record B122, low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction la up, data plotted every 6 hours).
-------�
Sta. WHOI A. 10m. Record 8122
Uncorrected for fouling
20 | Cross-bay
«C 0
*,"•*
60 Along-bay
-bay i :
W|HtyP^
" '"'ll ' I -
.S 8 13 18 23 28 ^3 8 13 18 23 28 ^ 7 12 17 22 27 ^ 7 "
20
°l
20u
40
«," •* ' " "
50 | Speed
40
23 28
0<*
8 13 18 23 28
NoV
7 12 17 22 27
oA
60
40
20,
°i
-20
-40
-60
A 8 " lfl a 2B oA
5 Cross-bay (low-passed)
o -5
-10.
A
10
5o
-5.
8 13 18 23 28 ^
^^SA^/\A^V\7
24 29
8 13 18 23 28
8 13 18 23 28
Along-bay (low-passed)
^\Avf O'
A ». -
, 7 12 17 22 27 ^ ;
^-^..^-^rAA.A A /^ A.. /-j\
-yy—V V \/ \^/ VW yV\/~>w\/
13 8 13 18 23 28
|p Sj
10 Low-passed data (Along-bay la up)
5
8 13 18 23 28
7 12 17 22 27
10
5|
03
-3
-10
AUC
1984
Figure 15c. Station WHOIA. record 8122. hour-averaged cross-bay and along-bay current.
current speed, low-passed cross-bay and along-bay current, and low-passed
stickplot (along-bay is up. data plotted every 6 hours). Data unconnected
for fouling.
-------�
Sta. WHO! B, 5m. Record 8131
Hour averaged
24 Temperature
20
16
12
0.
24
20
10
12
6 11 16 21 26 1 6 11 IS 21 26 31 3 10 IS 20 25 30 5 10 IS 20 25 30
14
-20.
6 11 16 21 26 _V 6 11I 16 2)I 26i 3"l 5 10 ISi 20 25 36 jj 10 15 " 20 25 30 "4 9 14
-20
60 1 Along-bar
71 6 11 16 21 26 1 6 11 16 21 26 3l 5 10 IS 20 25 30 5 10 15 20 25 30 4 9 14
360 . Direptlon. ({jl.9r.4i >• (T)
270
6 11 16 21 26 1 6 11 16 21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14
6 11 16 21 26 1 6 It 16 21 26 31 5 10 15 20 25 30 5 10 IS 20 25 30 4 9 14
Figure 16a. Station WHOIB. record 8131, hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
Sta. WHO! B. 5m. Record 6131
Lowpassed
24 Temperature
20
1 6 11 16 21 28 1 6 11 16 21 26 31 5 10 15 20 25 30 „» 10 15
20 25 30 4 9 14
1 1 i 1 6 2 1 " 26 i " 3" 1 1 ' 5 10 15 20 25 30 _5 10 15
NOV DtC
20 25 30 4 0 14
6 11 16 2 1 26 i 6
15 Along-bay la up
10
5
6 " 16 21 26 6 11 16 21 26
10 15 20 25 30 _A 10 15 20 25 30 4 9 14
1985
-19
Figure 16b. Station WHOIB. record 6131. low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 hours).
-------�
Sta. WHO! B, 5m. Record 8131
Unconnected for fouling
*0 • Cross-bay *
6 11 16 21 26 1 6 11 16 21 26 31 5. 10 15 20 25 30 _5 10 15 20 25 30 4 0 14
60 Along-bay
6 11 16 21 26 31
10 15 20 25 30
10 15 20 25 30 4. 9 14
10 '5 20 2S 9 14
10 Cross-bay (low-passed)
5
27 1 6 11 16 21 26 1 611 16 21 26 31 * 10 15 20 25 30 Sr 10 15 20 25 30 4 9
5 Along-bay (low-passed)
"10" •••-•••- -g - • Yi fe ' 2'1'' 26 "_'1""'"6 1'1""\t 21 26 "if
10 Low-passed data (Along-bay Is up)
5
10 15 20 25 30 5. 10 15 20 25 30 .4 9 14
DEC
-5
-10.
ffll
> V*ffR?V
10
5,
j
-10
XLc SEP 6 11 16 21 28 /J '6." "l'l 16 21 26 '"&"„& 10 15 20 25 -50 p^. 10 15 20 25 ^ ..*- 9 u
1984
^85
Figure 16c. Station WHOIB, record 8131, hour-averaged cross-bay and along-bay current.
.current speed, low-passed cross-bay and along-bay current, and low-passed
stickplot (along-bay is up. data plotted every 6 hours). Data uncorrected
for fouling.
-------�
Sta. WHOI B. 10m. Record 8132
24
20
16
12
4
n
Temperature
r^~-^-^
24
20
16
12
8<
4
n
ocV
NOV
6 11 16 21 26 1 6 It 16 21 26 51 5 10 19 20 25 JO 5 10 IS 20 25 30 4 9 14
60 I Along-bay
6 11 16 21 26 1 6 11 16 21 26 31 3 10 IS 20 25 30 5 10 IS 20 25 30 4 0 14
360 Direction, (North 1. 0')
O.L...J..I..U..MI.BI
6 11 16 21 26 1 6 11 16 21 26 31 5 10 IS 20 25
10 15 20 25 30 4 9 14
6 11 16 21 26 1 6 11 16 21 26 31 5 10 IS 20 25 30 5 10 15 20 25 30 4 9 14
Figure 17a. Station WHOIB. record 8132. hour-averaged temperature, croaa-bay and
along-bay current, current direction, and current speed.
-------�
Sta. WHOI B. 10m. Record 8132
Lowpassed
24 Temperature
20
6 11 16 21 26 1 6 11 16 21 26 31
10 15 20 25 30
10 IS 20 25 30 4 9 14
6 11 16 21 26 1 6 It 16 21 26 31
10 IS 20 25 30
10 15 20 25 30
6 11 16 21 26 1 6 11 16 21 26 31
10 15 20 25 30
10 15 20 25 30 .4 9 14
15 Along-bay is up
10
5
6 11" 1'6" 21 26" '1 " 6 '11 '16" 21 26 3"l 5 10 15 20 25 30 5 10 15 20 25 30 .4 9 14
Figure 17b. Station WHOIB. record 8132. low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction ia up. data plotted every 6 hours).
-------�
oo
Sta. WHO! B. 10m. Record 8132
Uncorrected for fouling
40 I Cross-bay
"2> ^
SO | Speed
40
6 11 16 21 26 1 6 11 16 21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14
-60
10 | Cross-bay (low-passed)
6 11 16 21 26 1 6 11 16 21 26 31
Along-bay (low-passed)
6 11 16 21 26
6 11 16 21 26 ii 5 'tO'"l5"2'6"25" A) "i 10 " 1'5" 20 25 30
10 Low-passed data (Along-bay Is up)
„ 5
'-',
-10.
"
/lie SEP 6 " 16 21 26 OCT 6 1( '6 21 26 N&I '° 1S 2° 25 M D^ 10 >5 2° 25 X
Figure 17c. Station WHOIB, record 8132. hour-averaged cross-bay and along-bay current,
current speed, low-passed cross-bay and along-bay current, and low-passed
stickplot (along-bay is up, data plotted every 6 hours). Data uncorrected
for fouling.
"
10
-10
-------�
Sta. WHOI C, 5m. Record 8141
Hour averaged
2* Temperature
20
7 12 17 22 27 27 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 3 10 15
40 | Cross-bay
"> 20
7 12 17 22 27 _2 7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 5 10 13
60 Along-bay
40
20
7 12 17 22 27 2 7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 9 10 IS
7 12 17 22 27 '""*""i> 12i""f7 2"S! 2'7 "•" "ii" "€i'"l'lI ""fti 2"1i " "S«i""ll""eI l'l l'6 2"l 2-6 il ""5 ' 10 l'5
7 12 17 22 27
7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 5 10 IS
NOV DEC
Figure 18a. Station WHOIC. record 8141. hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
KJ
O
Sta. WHOI C. 5m. Record 8141
Lowpassed
24
20
16
12
J 8
4
0.
A
10
-5
-10
Temperature
t«* 7 '2 " "
NCJV
DE1C
JA% ^ '**
7 12 17 22 27 2 7 12 17 22 27
2
6 It 16 21 26
6 11 16 21 26 31
10 15
24
20
16
12
10
-5
-10
10
s
I/) n
^
o -5
-10
3
10
^ 5
> 0
"-5
-10
-IS
Along -bay
U\f^^/\^^\f\TJ\
S 2 7 12 17 22 27 ^
Along -bay la up
W*P"»^
v^v-^-.^vV-V-- • vV-v-wV- -vvwv
'7 12 17 22 27 1 6 11 16 21 26 i 6 11 16 21 26 31 "S 10 IS
Y NOV DEC ^
^ «VN ^. X > ^\^ \
10
5
nin
04£
-10
IS
10
-10
1984
Figure IBb. Station WHOIC. record 8141. low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 hours).
-------�
Sta. WHOI C. 5m. Record 8141
Uncorrected (or fouling
40 I Croat-bay
40
m«M0ttm 2oi
-20
17 22 27 27 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 5 10 15
7 12 17 22 27 "2 7 12
Cross-bay (low-passed)
_1 6 11 16 2"l 26 Vi 6 11 16 21 26 31
7 12 17 22 27 ^2 7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31
-bay (low-passed) 0<*T NOV DEI
7 12 17 22 27
6 11 16 21 26 31
7 12 17 22 27
6 11 16 21 26
10 Low-passed data (Along-bay Is up)
5
7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31
-10
Figure 18c. Station WHOIC, record 8141. hour-averaged cross-bay and along-bay current.
current speed, low-passed cross-bay and along-bay current, and low-passed
stickplot (along-bay Is up. data plotted every 6 hours). Data uncorrected
for fouling.
-------�
Sta. WHOI C. 10m. Record 6142
24
20
16
12
4
0
Temperature
*• ^_^
^ ^-u- - ....
s — ^
GS& 7 12 '7 ^ " oft ? 12 1? " i7 NOV ' fl " *' " DEC * " '° 21 26 i' J^ 10 f*
24
20
16
12
ai
4
0
1984
60 i Along-bay
40 I
7 12 17 22 27
"7" 12 1'7 22 ' 27
6""fl 1'6 2'1 26 _'1""6 11 16 21 26
360 Direction (Nor
7 12 17 22 27 1 6 It 16 21 26 1 6 11 16 21 26 31 S 10
7 12 17 22 27
7 12 17 22 27
7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 S 10
DEC
^5
13
Figure 19a. Statioa WHOIC, record 6142. hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
NJ
U)
Sta. WHOI C, 10m. Record 8142
Lowpassed
24
7 12 17 22 27
7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31
6 It 16 21 26 1 6 11 16 21 26
7 12 17 22 27
7 12 17 22 27
-15
8 _2 7 12 17 22 27 2 7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 5 10 15
1984
'5 Along-bay Is up
10
-5
-10
o*
NOV
DEC
-15.
82 7 12 17 22 27 ^ 7 12 17 22 27 ^ 6 11 ,6 21 26 ^ 6 11 16 2. 26 31 5 10 15
1984 1985
-15
IS
10
5<
-?
-10
-15
Figure 19b. Station WHOtC, record 8142, low-passed temperature, cross-bay and along-bay
current, atickplot (the along-bay direction is up. data plotted every 6 hours).
-------�
Sta. WHOI C. 10m. Record 8142
Uncorrected (or fouling
«0 Cross-bay
20
2 o
-20.
28 _3 8 13 18 23 28 3 8 13 18 23 28 2 7 12 17 22 27 2 7 12 17 22 27 1 6 11 16
oeV
NOV
-40.
"
&'
50 Speed
. 13 18 23 28 i 8 13 18 23 28 2 7 12 17 22 27 2 7 12 17 22 27 . 1 6 11 16
oA
NOV
D&
tiki
40
020
10
0
,0'
G so
*" -5.
i29^
8 13 18 23 28 3 8 13 18 23 28 2 7 12 17 22 27 2 7 12 17 22 27 1 6 11 16
oA
H&l
40
^
-20
40
2V
°5
-20
-40
SO
40
30^
203
10
0
Cross-boy (low-pawed)
iss-boy (low-pa
VVM.
:1 29 -4. 8 13 t8 2S 20 ~A 8 13 18 23 28 2 7 12 17 22 27 2 7 12 17 22 27 . 1 6 11 16
s£
NOV
&
l/> A
' ,
o -5
-in
Along-bay (low-passed) A
J\ f\hr A ^ A /^-T.JT. ~~^ ,
/^ V~V'V^/V\/\V^' \^VW "Ar^x- -^V^yv^/
» , A A
*J\*s\f\fS~ V"*" V V\l~*~~ ~~~~
24. 29 ^ 8 13 18 23 28 ^ 8 13 18 23 28 ^ 7 12 17 22 27 ^
°s
-5u
-10
10
1984
Low-passed data (Along-bay Is up)
Figure 19c. Station WHOIC, record 8142, houi—averaged cross-bay and along-bay current.
current speed, low-passed cross-bay and along-bay current, and low-passed
stickplot (along-bay la up. data plotted every 6 hours). Data uncorrected
for fouling.
-------�
Sta. C (Mid Channel). 16m. Record 287
Hour averaged
16 I Temperature
14
9 14 19 24 29
9 14 19 24 29
32.0 Salinity
31.5
ro
m
£31.0
30.5
30.0
~"A>'~^^
32.0
31.5
31.0
30.5
30.0
9 <4 i9 24 29
Figure 20a. Station C, record 2871. hour-averaged temperature, salinity, beam
attenuation, current speed, and PSDEV.
-------�
Sta. C (Mid Channel), 16m. Record 287
Hour averaged
20 Crosi-bay
*'::
-10
-20
20
-10
Figure 20b. Station C. record 2871. hour-averaged cross-bay and along-bay current.
current direction, current speed, and pressure.
-------�
Sta. C (Mid Channel). 16m. Record 287
Lowpassed
Figure 20c. Station C. record 2871. low-passed temperature, cross-bay and along-bay
current, stlckplot (the along-bay direction is up, data plotted every 6 hours).
and bottom pressure.
-------�
to
CO
Sta. B (Phinney Rock). 9m, Record 288
Hour averaged
"6 [Temperature
14
24
Figure 21a. Station B. record 2881, hour-averaged temperature, salinity, beam
attenuation, and current speed. The transmissometer fouled during
the deployment.
-------�
Sta. B (Phinney Rock). 9m. Record 288
Hour averaged
| Temperature
14
ti/Ar^^
Figure 21b. Station B. record 2881. hour-averaged temperature, cross-bay and along-bay
current, current direction and speed.
-------�
Sta. B (Phinney Rock), 9m. Record 288
Lowpassed
16
14
12
10
Temperature
16
14
12
10
10
-3
-10
10
5,,
-5
-10
10
-10
30
i84
10 Croat-bay
5
NOV
24
14
10
24
-5
-10
30
18
29
DEC
14
19
10 Along-bay
5
/\
24
A/
-5
-10
x//
NOV
1984
10 Along-bay Is up
19
29
DEC
14
-10
19
24
30
24
29
oct:
14
19
24
Figure 21c. Station B, record 2881, low-passed temperature, cross-bay and along-bay
current, and stickplot (the along-bay direction is up, data plotted every
6 hours).
-------�
Sta. A (Cleveland Ledge). 12m. Record 289
Hour averaged
'4 Temperature
12
10
18
1984
I Salinity
** rv|V>v^^^^
30.0
1984
Beam Attenuation
14
12
10
0
4
31.5
31.0 I
30.5 <
30.0
Figure 22a. Station A. record 2891. hour-averaged temperature, salinity, beam
attenuation, current speed, and PSDEV.
-------�
U)
N>
Sta. A (Cleveland Ledge),
Hour averaged
20 CroM-bay
to
12m. Record 289
H^VVr^1^"
20
to,,
Figure 22b. Station A, record 2891, hour-averaged cross-bay and along-bay current.
current direction, current speed, and pressure.
-------�
Sta. A (Cleveland Ledge). 12m. Record 289
Lowpassed
1* Temperature
12
10
13
19~d4
10 Cross-bay
S
-5
' -5
-10
18
28
A
V
V
^7
V
18
28
olc
13
DEC
Along-bay Is up
13
18
23
28
13
2220
1984
2140
Pressure
23
14
12
10
10
-5
-10
10
5
0
-5
in
Along -bay
^—'v \y
10
5
-------�
Sta. B (Phinney Rock), Om. Record 200
Hour averaged
* Temperature
Figure 23a. Station B. record 2901. hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
Sta. B (Phinney Rock). 9m. Record 290
Lowpassed
* Temperature
-1
14
19
&5
10 Crosi-bay
5
24
-5
-10
19
T985
10 Alon|-bay
, 5
U
-10
14
UJ O
Ul
10
5
0
-5
-10
19
24
Along-bay U up
19 ' 24
29
13
IB
28
A S\
MM
10
29
18
23
28
10
A
29
FE&
13
18
23
10
29
13 18 23 28
MW
10
15
15
A/\
15
4
2
°*>
-2
10
-9
-10
10
»..
-10
10
-10
Figure 23b. Station B. record 2901. low-passed temperature, cross-bay and along-bay
current, and stlckplot (the along-bay direction la up. data plotted every
6 hours).
-------�
Sta. A (Cleveland Ledge). 12m. Record 291
Hour averaged
6 Temperature
4
2
-2
32.5'
32.0
|31.5
31.0
30.5
J6
Salinity
'"VMV'~^^
J& i4 16 11 i6 il 16
FCB MAR
198S
4 Beam Attenuation I 1111 Vl I
>*W^^
32.5
32.0
31.5
31.0
30.5
4
o i
MAR
Figure 24a. Station A. record 2911, hour-averaged temperature, salinity, beam
attenuation, current speed, and PSDEV.
-------�
20
10
-10
Sta. A (Cleveland Ledge), 12m. Record 291
Hour averaged
Croat-bay
20
30 1 Speed
5io
1 Speed
W^Jbj^^
26
Figure 24b. Station A. record 2911, hour-averaged cross-bay and along-bay current.
current direction, current speed, and pressure.
-------�
u>
00
Sta. A (Cleveland Ledge). 12m. Record 291
6
4
2
F
10
5
(/I
-S
F
10
< 5
^ ft
— 1ft
1
10
5
(rt
Vt
o _5
Lowpassed
Temperature
__,
4 24 j 6 11 16 2l 26
^a MAR
Cross-bay
v ^-\/~ ^ ^ x/V^^ v^
i 24 1 6 11 16 21 26
Along -bay
/\ ^_^ /~\ /^V.
vT- -v\y v^^ y • v -
1 24 1 6 11 16 21 26
Along -bay U up
^ - f^ i
6
4
2
to
5i
10
1
10
5i
_in
2200
ui
|2I80
§2160
Pressure
24
MAR
11
16
21
26
2200
2 180
Figure 24c. Station A. record 2911. low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 hours).
and bottom pressure.
-------�
u>
vO
Sta. C (Mid Channel), 16m. Record 292
Hour averaged
• Temperature
7 12 17 22 27 4 9 14
MAR
Beam Attenuation ju I Ijtl
U-wJ*^^
12 17 22 27
7 12 17 i2 27
Figure 25a. Station C, record 2021. hour-averaged temperature, salinity, beam
attenuation, current speed, and PSDEV. The salinity data is
questionable.
-------�
20
-10
-20.
Sta. C (Mid Channel). 16m. Record 292
Hour averaged
Crosa-bay
"rtw^wi^^
2650
"28 ji 7
JAN FEB
1985
12 17 i2
W JK
'fl 14
20
-10
12 17 22 27
Figure 25b. Station C, record 2021, hour-averaged cross-bay and along-bay current,
current direction, current speed, and pressure. •
-------�
Sta. C (Mid Channel), 16m, Record 292
Lowpassed
6 Temperature
-10
•*
Crow-bay
12
17
22
27
/\
/\
... t&
985
10 Along-bay
5
-10
10 Along-bay l» up
5
-5
-10.
2580
[02560
12540
32520
Z25OO
1985
Pressure
12
17
42
i7
7
12
17
22
MAR
//i
12
17
22
27
MAR
12
17
22
27
MAR
14
14
'lip
14
6
4
2
-2
10
-10
10
-10
10
*<
-?
-10
2580
2560 M
2540 3
2520 3
2500*
Figure 25c. Station C, record 2921. low—passed temperature, cross-bay and along-bay
current, atlckplot (the along-bay direction Is up. data plotted every 6 hours),
and bottom pressure.
-------�
Sta. B (Phinney Rock), 9m. Record 293
Hour averaged
18 Temperature
16
12 17 22 27
Figure 26a. Station B, record 2931, hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
Sta. B (Phinney Rock). 9m. Record 293
Lowpassed
18
16
14
12
Temperature
18
16
14
12
lO
8
6
10
5
s
-5u
-10
-IS
10
-5
-10
10
A*
1985
10 Croat-bay
12
17
22
MAY
17
22
27
JUN
/\
11
o -5
-10
-15
\A/
1985
-5
-10
12
12
1985
10 Along-bay Is up
5
-5
-10
17
22
12
17 22
JUN
17
22
27
MAY
17
22
11
16
Along -Day
^/V~/ v^W - -- W
A^ A /L /"
^ ^\J~
f^\ f*- f\ /\ f\ /*- /^
-N/ v ^ x/Vv V
X^^V/\ A XV
y/^ \/ ^-^
16
s
-10
AP'R
1985
12
17
22
27
MAY
12
17
22
27
JUN
11
16
Figure 28b. Station B. record 2931. low-passed temperature, cross-bay and along-bay
current, and stlckplot (the afong-baydirection is up, data plotted every
6 hours).
-------�
Sta. C (Mid Channel), 16m. Record 294
Hour averaged
10 Temperature
B
6
*> 4
23
10
8
6
MAY
33.5
33.0
32.0
\i *<
Salinily
_^ -v^^vv,^, „- —
33.5
33.0
32.3
32.0
\\ *
19B5
MILLIBARS
^o M * »
PSDEV
.. _, •*k_*'*'^»-j-ta f^**^ >
-------�
.p-
Ln
Sta. C (Mid Channel). 16m. Record 294
Hour averaged
20 Cross-bay
10
MAY
Figure 27b. Station C, record 2941. hour-averaged cross-bay and along-bay current.
current direction, current speed, and pressure.
-------�
Sta. C (Mid Channel). 16m. Record 294
Lowpassed
10
8
6
*j
S«
l»
f
10
X. S
o 0
-5
10
-10
"•?
^2560"
52540
i?VYl
Temperature
_^__- — ' """
""^
& «4 8 13 18 "ta 28 M&
985
Cross -bay
•*\ /\ ^\ ~ /^ ^"
^->Vx^N/ -\^ — ^x -^
185
Along -bay
/\ /"
W xx7^ ^7
Along -bay Is up
if /I 1 1 tit
IML^ i// sv\\V ..l/Mv^U\ll/W\\\l//!i. viialll I///
T
8. «* ' IJ " " M -A
)85
Pressure
x-Nx^xX^x^^ ^\x~^V >— ^— X\— ^/^-
^-^^^
10
8
e
2
-S
-10
15
10
^2
-5
-10
IS
10
-10
-15
2560
2540$
2520 a
9>W>^
1985
MAY
Figure 27c. Station C. record 2941, low-passed temperature, cross-bay and along-bay
current, slickplot (the along-bay direction is up. data plotted every 6 houra).
and bottom pressure.
-------�
IB
Sta. A (Cleveland Ledge), 12m. Record 295
Hour averaged
18
1985
Figure 28a. Station A. record 2951. hour-averaged temperature, salinity, beam
attenuation, current speed, and PSDEV. The transmissometer fouled
during the last month of deployment.
-------�
Sta. A (Cleveland Ledge), 12m. Record 295
Hour averaged
20 Croaa-bay *
10
-10
-20
i/WV^^
14 19 24 29
1985
30 Along-bay
20
00
20
-io
Figure 28b. Station A. record 2951, hour-averaged cross-bay and along-bay current,
current direction, current speed, and pressure.
-------�
Sta. A (Cleveland Ledge). 12m. Record 295
Lowpassed
IB
16
14
12
10
8
Temperature
18
10
14
12
AP*
1985
10
-5
-10
1985
15 Along-bay
10
19
19
29
14
19
24
29
24
29
MAY
14
19
24
29
-
18
cross -bay
\/ ^^/ V/
_^ /NX _/^/\A ^
^
18
10
-5
-10
19
10
-10
-15
10
-10
2180
-10
-15
J
14 19
10 Along-bay Is up
MAY
14
19
24
29
>|\\' ^/^-"""""'W/i^/) '""^"""'yri
f3
A
18
-10
IT
ir
TT
IT
2180
cn2160
£2140
32120
APR
1985
2100
Pressure
MAY
14
JUN
18
2140;
2120J
2100'
APR
1985
14
19
24
29
9 14
19 24
JIJN
18
Figure 28c. Station A, record 2951, low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up, data plotted every 6 hours).
and bottom pressure.
-------�
Ln
O
Sta. E (Mid Channel), 14m. Record 208
Hour averaged
24 Temperature
22
9 14 19 24 29
Figure 29a. Station E, record 2981. hour-averaged temperature, current speed,
and PSDEV.
-------�
Ul
20
10
-10
Sta. E (Mid Channel), 14m. Record 298
Hour averaged
Cross-boy
WV^WN*^^ ^^^^
20
-10
-20
Figure 29b. Station E. record 2981. hour-averaged cross-bay and along-bay current,
current direction, current speed, and pressure.
-------�
01
Sta. E (Mid Channel). 14m. Record 298
Lowpassed
24
22
20
16
1
10
Temperature
24
Cross -bay
10 Along-bay
5
-5
-10
10 Along-bay
5 i
-10
2460
£2440
§2420
52400
34
Pressure
24
29
14
19
24
tt
v
jut
jo
uP
.,,,/ilH
.,«„,„
29
14 19
i4
i9
29
14
19
24
29
\/
24
22
20
16
10
3,.
10
-10
10
-10
2460
2440 S
2420 D
24002
Figure 29c. Station E. record 2981. low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 hours),
and bottom pressure.
-------�
Sta. A (Cleveland Ledge), llm. Record 299
Hour averaged
6 11 16 21 26 31
1985
6
4
2
PSDEV
J\
6
4
2
JUL
AIJG
Figure 30a. Station A. record 2091. hour-averaged temperature, salinity, beam
attenuation, current speed, and PSDEV. The transmissometer fouled
during the last month of deployment.
-------�
Sta. A (Cleveland Ledge), llm. Record 299
Hour averaged
20 Croat-bay
10
Figure 30b. Station A. record 2991, hour-averaged cross-bay and along-bay current,
current direction, current speed, and pressure.
-------�
(_n
Ln
Sta. A (Cleveland Ledge), llm. Record 299
Lowpassed
24
22
20
16.
10
5
-°
-10,
Temperature
11 16 2l
31
10
10 Along-bay Is up
I// JllllLi
n. ^
2180
§2160
§2140
fi
85
Pressure
2*6
31
6 11 16 21 26 31
AUG
AdC
10
Crosi-Doy
\s
it jul 6 i
^ /N /\ /V-./^-
\J
16 21 26
^V^x ^r^y
"
ii 's 1o
AUG
24
22
20
,8^
16
10
-10
10
-10
10
*
-10
2180
2I60|
21403
Figure 30c. Station A. record 2991, low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 hours).
and bottom pressure.
-------�
24
22
20
16
Sta. B (Phinney Rock), 9m. Record 300
Hour averaged
Temperature
29
jut
14
19
24
29
JU
AtJC
AUC
24
22
20
IB*
16
33.0
32.5
St32-0
31.5
11 n
Salinity
^~^«*-^ — 'A/r~^'"""VWV'''V"V'"^^
33.0
32.5
32.0
31.5
M n
Figure 31a. Station B, record 3001. hour-averaged temperature, salinity, beam
attenuation, and current speed. The transmissometer fouled from
July 29 on.
-------�
Sta. B (Phinney Rock), Om. Record 300
Hour averaged
2* Temperature
22
JUI
AU3C
Figure 31b. Station B, record 3001, hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
01
00
Sta. B (Phinney Rock). 9m. Record 300
Lowpassed
24 Temperature
22
Figure 31c. Station B. record 3001, low-passed temperature, cross-bay and along-bay
current, and stickplot (the along-bay direction is up. data plotted every
6 hours).
-------�
Sta. C (Mid Channel), 15m. Record 302
Hour averaged
22
18
12 17 22 27 1
6 11 16 21 26 1 6 11 16 21 26 31
10 15 20 25 30
12 17 22 27 1
6 It 16 21 26 1
6 11 16 21 26 31
10 15 20 25 30
Beam Attenuation
12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31
10 15 20 25 30
12 17 22 27
6 II 16 21 26 I 6 II 16 21 26 31
10 15 20 25 30
11 16 21 26 31
10 15 20 25
Figure 32a. Station C. record 3021, hour-averaged temperature, salinity, beam
attenuation, current speed, and PSDEV. The transmissometer fouled
rapidly after August 12.
-------�
Sta. C (Mid Channel). 15m. Record 302
Hour averaged
20 CroM-bay
12 17 22 27
It 16 21 26
6 11 16 21 26 31
10 15 20 25 30
12 17 22 27
6 11 16 21 26
6 11 16 21 26 31
10 13 20 23 30
10 15 20 25 30
A"
40 Speed
7 12 17 22 27
6 11 16 21 26 1
6 11 16 21 26 31
10 15 20 25 30
12 17 22 27
6 11 16 21 26 1
6 11 16 21 26 31
io ~ is to is so
Figure 32b. Station C. record 3021. hour-averaged cross-bay and along-bay currents.
current direction, current speed, and pressure.
-------�
Sta. C (Mid Channel). 15m. Record 302
22
IB
14
10
ft
Lowpassed
TrmprrMurft — -
" ' -— — ~— ^
x
22
18
14
.0**
H
1985
10
t 5
*-°,
-10
fl
15
to
< !
3-°5
-10
-15
Cross-bay
T. f\ J^L." /\ !"• J*L J*
->^,^V xxvyvw-VX/Vx^^/v,^- V^
* 12 17 2"2 27 ^ '6
Along -bay .
' v v \/ \/
11 16 2"1 2"6 '1 '6 11 1'6 2"l 2*6 3"l 'i 10 15 2"6 2"5 30 •
^V,j\/\/v.
I
10
5M
-?
c"°
13
10
5
-------�
24
22
20
Sta. B (Phinney Rock). 9m. Record 303
Hour averaged
16
14
32.5
32.0
J[JI.5
31.0
30.5
Temperature
24
22
20
16
14
32.5
32.0
31.5
31.0
30.5
4
*f
1
40
3
10
0
12 17 22
Salinity
6 11 16 21 26
OUT
6 11 16 21
^\f^^^ ^—-v^^v^
7
19B5
12
3
>*
*" 1
Beam
17
22 27
_JL
11
16 2l
26
6 11
16
2l
12
1985
40 Speed
10
0
17 22 27 "J
11
16
21
26
ocV
11
16
21
12
17
22 27
Sit
11
16
21
26
OC\
11
16
2l
Figure 33a. Station B. record 3031. hour-averaged temperature, salinity, beam
attenuation, and current speed. The transmissometer fouled rapidly
after August 12.
-------�
Sta. B (Phinney Rock), Om. Record 303
Hour averaged
2* Temperature
22
OCT
Figure 33b. Station B. record 3031. hour-averaged temperature, cross-bay and
along-bay current, current direction, and current speed.
-------�
24
22
20
£>18
16
14
Sta. B (Phinney Rock). Qm. Record 303
Lowpassed
Temperature
24
22
20
IBjj
16
14
10
5
iT^' "
CroM-bay
22
27
4
11
16
21
26
OC\
it
1985
OCT
i6
21
Figure 33c. Station B. record 3031, low-passed temperature, cross-bay and along-bay
currents, and stickplot (the along-bay direction is up, data plotted every
6 hours).
-------�
26
24
22
20
Sta. A (Cleveland Ledge). 12m, Record 304
Hour averaged
16
14
Temperature
26
24
22
20
18
16
14
AUG <9 *4
ftis
Beam Att«nuatli
29
i
SEP
iZ
16
"3.
OCT
13 ifl
IB
Figure 34a. Station A. record 3041, hour-averaged temperature, beam attenuation,
current speed, and PSDEV. The transmissometer fouled rapidly from
the beginning of the deployment.
-------�
Sta. A (Cleveland Ledge), 12m, Record 304
Hour averaged
Cross-bay
ubk^^
8 13 IB 23 28
TJ 18
Figure 34b. Station A. record 3041, hour-averaged cross-bay and along-bay current,
current direction, current speed, and pressure.
-------�
Sta. A (Cleveland Ledge), llm. Record 304
Lowpassed
26 Temperature
18
2100
Figure 34c. Station A, record 3041, low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 hours).
and bottom pressure.
-------�
24
22
20
16
t
32.0
31.5
|31.0
30.5
30.0
Sta. F (Clarks Point), Bin. Record 312
Hour averaged
Temperature
U
Salinity
(9
24
29
MJC
13 18
13
13 18 23
Beam Attenuation . i , l/W^T*^
^^M^^^
23
24
22
20
,1**
1C
32.0
31.5
31.0
30.5
30.0
Figure 35a. Station F. record 3121, hour-averaged temperature, salinity, beam
attenuation, current speed, and PSDBV. The transmlssometer fouled
from about August 8 on.
-------�
Sta. F (Clarks Point), 6m. Record 312
Hour averaged
20 CroM-bay
to
-10
20
to,.
-10
-20
20
10,,
13 is 23
8 13 18 23
14 19 24 29
8 13 18 23
1950 i Pressure
14 19 24 29
Figure 35b. Station F. record 3121, hour-averaged cross-bay and along-bay current.
current direction, current speed, and pressure.
-------�
Sta. F (Clark Point). 6m. Record 312
Lowpassed
24
22
20
16
Temperature
14 f9 2V 29
I&B
10
-10
<8 23
8 f3 i8 23
Crou-bay
A^ /v ^ ~ A A _x\ ^ ^
/ \S^ \ 1 \ / \/
' V V v
A A
W \J
24
22
20
18*1
16
10
-10
10
Figure 35c. Station F. record 3121, low-passed temperature, cross-bay and along-bay
current, stickplot (the along-bay direction is up. data plotted every 6 hours).
and bottom pressure.
-------�
Deployment I
Low—passed Data (North is up)
10 Station B (R2861)
10
-5
-10
10
Oa-
-5°
-10
' -5
-10
1 26 31
5
SEP
10 15 20 25 30
'5
10 Station D (R2851)
5
10 15 20
' -5
-10
21 26 31
5
SEP
10 15 20 25 30
5
10 15 20
New Bedford Wind Stress
3
2
-2
3:
«
jp,
If ^ '^
3
2
I
-,<
-2
1 26 31 5 10 iS 20 25 io '5 10 i5 20
Figure 36a. Low-passed current at stations B and D and wind stress at New Bedford
during deployment I.
-------�
Deployment I
Low-passed Current Data (North is up)
20
10
Sta. WHOI A. 5m (R8121)
^...l .ally- n> ll ... 4 J^ .u .!>..< Am.
20
o
-10
-20
-10
-20
20
°
20
co I0
o
21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 18
AUG SEP OCT NOV DEC J.AN_
1984
SLa. WHOI A, 10m (R8122)
-10
~20
-10
-20
o
2i" 26" 31 i" "5 10 1'5 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 '4 9 14 19 24 29 3 8 13 18
UG SEP
1984 1985
20 Sla. WHOI B. 5m (R8131) 20
10
10,
-10
-20
20
O
-10
-20
20
« 10
21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 18
AUG SEP OCT NOV DEC
Sta. WHOI B, 10m (R8132)
i»nn •,*'^"»r<
o
-10
—20
CJ
-10
20
« 10
21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 18
AUG SEP OCT NOV DEC JAN
1984 1985
Sta. WHOI C. 5m (R8141)
20
o
-10
-20
°
-10
-20
20
21_ 26 31 5 10 15 20 25 30 _£ 10 15 20 25 30 4 9 14 19 24 29 __4_ 9 14 19 24 29 ..3 8 13 18
OCT NOV DEC
20
10
•s
o
WHOI C. 10m
°
-20
-10
-20
21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 IB
AUC4 SEP OCT NOV DEC JAI^
Figure 36b. Vector stickplot of Low-passed upper and lower currents at stations
WHOIA. WHOIB, and WHOIC during moored array experiment. North is
up. Data plotted every 6 hours.
-------�
Deployment I
Beam Attenuation
5 Station B (R2861)
4
3 3
- 2
1
0
To~
To"
5
4
3 5
2 -^
1
0
26
PSDEV
21
10 Station D (R2851)
8
15
20
25
co
10
20
10
8
V)
K g
3 4
z 2
n
Station B (R2861)
New Bedford Wind Stress
a
6
4
2
I
, m lU , jitU
AjvAl'Uvu^M /VA.^A.A.K^U^ . ju_.^
8
6
4
/\
°21 26 31 5 10 15 20 25 30 5 10 15 20 "
AUG SEP OCT
1984
!3
Figure 36c. Hour-averaged PSDEV at stations B and D. beam attenuation at station
B. and wind stress amplitude at New Bedford during deployment 1.
-------�
Deployment I
• Temperature
30 Station B (R2861)
20
30
20
"21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 18
1984 1985
30 I Station D (R2851)
20 U~
30
20
1 26 31 5 10 15 20 25 30 5 10 15
G SEP OCT
20 25 30 4 9 14 19 24 29 _ 4 9 14 19 24 29 3 8 13 18
Station WHOI A. 5m (R8121)
21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 18
30 Station WHOI A. 10m (RBI22)
20 ;
olO
30
20
10oo
"21 26 31
5
SEP
10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 18
5
°CT
21 26 31
10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 18
oa
21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 B 13 18
AUG SEP OCT NOV DEC *jAN
1984 1985
30
20
olO
°2
Al
Station WHOI C.
1 26
,
SEP
5m
10
(R8141)
15
20 25
30 OC5T 10
15 20 25 30 4
NOV
— .
9 14 19 24 29 4 9 14 19 24 29 3 B 13 11
DEC JAN
30
20
lOo
i °
30
20
olO
Station WHOI C. 10m (R8142)
30
20
lOo
21 26 31 5 10 15 20 25 30 5 10 15 20 25 30 4 9 14 19 24 29 4 9 14 19 24 29 3 8 13 18
SEP OCT NOV DEC
Wb
Figure 36d. Hour-averaged temperature at stations B. D. WHOIA. WHOIB. and WHOIC
during deployment I.
-------�
Deployment I
Low-passed Data
3 Pressure Difference (B-D)
3 Cross bay Wind Stress at New Bedford
2
H o
1-'
-2
-3
ftf§4
27
1
11
16
21
26
1
OCT
11
-2
Along-bay Wind Stress at New Bedford
/V
y\ -
22
flfib
27
11
16
21
26
'l
OCT
11
16
16
16
21
21
21
23002
3
2
1
oft
-'1
-2
-3
-4
4
3
2
Figure 36e. Low-passed pressure at stations B and D, pressure difference (B-D) and
along-bay and cross-bay wind stress at New Bedford during deployment 1
-------�
Deployment II
Low-passed Data (North is up)
5
0
-5
0
10
0
-5
o'
1
10
0
-5
10o2
1
siaiion A (Ktatii)
5 30 4
CT NOV
984
Station B (R2B81)
'//•
5 30 4
:T NOV
984
Station C (RZ871)
^. ^Hnfff/ ,/$//^\
.\V,/. ,/^,,//^M///,^,w ,^,^vX\// *t Jfr
rr -,/,,'
9 14 19 24 29 '4 9 14 19 24 29 -3 '8
DEC JAN
1985
l/H/iV -^^X/A. J\//M\lllllL\\llk\\\\\l)Lv -^»*&\i, .lt//fts\/^\iA.\\%tw^!^^ ^lS^\\l^^,lt/
9 14 19 24 29 '4 '9 14 19 24 29 '3 '&
DEC JAN
1985
\//^. *=^ A .//.. .il, -^ . Jl///^//lM//L^,j//f4lAl/4toi\\i.2\ /& ^^,ml^t^\/^\
13
13
I/A
"'" *""" ~ ™^ *
5 30" 4
:T NOV
984
9 14 19 24 29-4 9 14 19 24 29 ?3 '8
DEC JAN
13
10
-5
-10
10
-10
10
-5
-10
New Bedford Wind Stress
-vl
o\
3
2
1
-2
ill
111 \ V\
"' """ ^ ***** " ^ ~ ^ "" r"" ' ' ' ""' ' T'^'^W
3
2
n
0
-2
25 30 '4 '9 14 19 24 29 4 9 14 19 24 29 '3 '8 13
OCT NOV DEC JAN
1984 1985
Figure 37a. Vector stickplot of low-passed current at stations A, B, and C and wind stress
at New Bedford during deployment 2. North is up. Data plotted every 6 hours.
-------�
Deployment II
Beam Attenuation
Station A (RZB91)
ft.
30 4
NOV
4 Station B (R38B1)
3
.2
1
14
19
24
29
DEC
14
19
24
29
13
30
NOV
4 Station C (RZ871)
3
.2
1
14
19
24
29
DEC
14
19
24
29
13
NOV
14
19
24
29 DE4C
14
19
24
29
13
PSDEV
10 Station A (RZ891)
8
I 2
0
30 4
NOV
8 Station C (RZ871)
in 6
S4
3-2.
j^.
14
19
24
14
19
24
29
JA..
1985
13
10
8
23
0
8
6 in
4S
25
30
4
NOV
14
19
24
29
DEC
14
19
24
29
13
New Bedford Wind Stress
a
s 6
iA4tx
B
6 3
30
4
NOV
14
19
24
29
4
DEC
14
19
29
13
Figure 37b. Hour-averaged PSDEV at stations A and C. beam attenuation at stations A,
B. and C, and wind stress amplitude at New Bedford during deployment 2.
-------�
Deployment II. Temperature
16 Station A (R2891)
12
16
12
8u
20
16
12
NOV
20 station B (R2881)
16
12
Ja
9 14 19 24
29
DEC
14 19 24 29
13
Deployment II. Salinity
0-30.5
30.0
Station A
^/~VtVV^NM^A>JVM/^^
31.5
31.0 j
30.5 '
30.0
25
%4
30
14 19 24 29
9 14 19 24
29
3
tifc
8 13
32.5
^32.0
0-31.5
31.0
Station B (R2881)
32.5
32.0 |
31.5 '
31.0
30
NOV
1984
32.0 station C (R2871)
31.5
30.5
30.0
"9 14
19
24 29
DEC
9 14
19
24 29
8 13
32.0
31.5
31.0 j
30.5
30.0
30 4
NOV
9 14
19
24 29
4
DEC
9 14 19 24
29
Figure 37c. Hour-averaged temperature and salinity at stations A, B, and C during
deployment 2.
3
tifc
8 13
-------�
Deployment II ,
_Low-passed Data
Pressure Difference (A-C)
3
2
1
ft 0
1-'
-2
-3
-4
Cross-bay Wind Stress at New Bedford
-
-------�
Deployment III
Low-passed Data (North is up)
00
o
10
in 5
2 °
° -5
Station A (R2911)
1°14. 19 24 29 '3
JAN FEB
1985
10
\ 5
o
-5
Station B (R2901)
^fe^^^J^S\\lli ;/JS^\l//lll//xJS^\\lltoll
y w, ^ .//^^i^J/////x^^s»^M. jt/s .\//^sM\,^
^/f
10
5
-5°
'8 13 18 23 28 5 10 15 20 25
MAR
.
//MI/»/ii\iv2s^^s^\ii^v^ ,x>,^^\/^^\&^&a»^^\/^/ \\llL A\\\I/
-
-------�
Deployment III
Beam Attenuation
4 Station A (R2911)
^2
1
14 19 24
Station C (R2921)
14 19 24
PSDEV
6 Station A (R2911)
4 I
2
14 19 24
JAN
1985
10 Station C (R2921)
8
oo
6
4
2 2
34
14
JAN
1985
A|l|iO^
29
3
'8 13 18 23
28
MAR
IT
15
IT
3
"*
'8 13 18 2328
5
MAR
TT
3
8 13 18 23
MAR
A
19 24 29
3
18 23 28
MAR
New Bedford Wind Stress
20 25
10 15 20 25
10 15 20 25
E
4 <
2 °
0 s
10
8
22
n
28 5 10 15 20 25
Figure 38b. Hour-averaged PSDEV and beam attenuation at stations A and C. and wind
stress amplitude at new Bedford during deployment 3.
-------�
Deployment III, Temperature
6 Station A (R2911)
8 13 18 23 28
10 IS 20 25
MAR
10 15 20 25
Deployment III, Salinity
32.0 Station A (R2911)
S 30'5 14
33.0
32.5
32.0
^31.5
Q.
a-31.0
30.5
30.0
29.5
19
Station C (R2921)
14
JAN
1985
19 24
^^^v-^^^
24 29
FEE
8 13 18 23
28
MAR
10
15 20
29
8 13 18 23
28 5 10
MAR
15 20
25
25
32.0
31.5 ,_
31.0 "-
30.5
33.0
32.5
32.0
31.5
31.0
30.5
30.0
29.5
it
Figure 38c. Hour-averaged temperature at stations A, B, and C, and salinity at
stations A and C duringdeployment 3.
-------�
Deployment III
Low-passed Data
2 Pressure Difference (A-C)
i-2
-3
J
2200
§2180
§2160
22140
-A
14 19
24
IT
3
FEB
13
18
23
28 5
MAR
10
15
20
25
Pressure at Sta. A
14
2580
-------�
Deployment IV
Low-passed Data (North is up)
-5
-io
1985
10 Station B (R2931)
-5
biaiion A (KZUbij , . i
ll^C"^^*^ ^"V-^f-^fff>u'"^nv^. '™'**>jm-~&/i\]i''""" "t^^/^^^\^i^"j^s.*'"fffi™<*<*s'<>r yip> '• Jf\ -In- "*•>?/?''/ \^
9 '3 '8 13 J8 23 28 ?3 '8 13 18 23 28 2
AR APR MAY JUN
7 12 17
10
-5
-10
10
-5
-10
10
-5
-10
29 3
MAR APR
1985
10 Station C (R2941)
8 ' 13
-5
1'8
23 28
'3
MAY
'8 13 is 23
28
2
JUN
12 17
29
'8 13
is
23 28
'3
MAY
13 is 23 28
2
JUN
12 17
New Bedford Wind Stress
00
3
2
_°
-2
/// /f ^/
j/sm//& ^^L,^ M //_- /^> ^ .\//M, ,//, A ^M ~. ,/^ iillll/^,. ^.il// A jifi jii,
I
I
29 '3 '8 13 18 23 28 '1
MAR APR MA
1
1
3
2
-,£
-2
'8 13 18 23 28 2 7 12 17
Y JUN
1985
Figure 39a. Vector stickplot of low-passed current at stations A, B, and C and wind stress
at New Bedford during deployment 4. North is up. Data plotted every 6 hours.
-------�
Deployment IV
Beam Attenuation
Sta. A (R2951)
5
4
3 3
2 ^
1
0
4
3
2>
1
0
29
"fe
4 Sta.
3
MAR
198"
APR
C (R294|l)
13
18 23
MAY
13
18
23
JUN
12
17*
MAR
1985
APR
13
MAY
13
18
23
28
2
JUN
12
TT
PSDEV
^ 6 Sta. A (R2951)
§2
APR
00
Ol
MAR
1985
6 Sta. C (R2941)
32
2 0
13
.K.
18 23
17
0 2
29
MAR
1985
APR
13
18 23
28
MAY
13
18
23
28
JUN
New Bedford Wind Stress
12
17
18 23
28
3
MAY
13
18
23
28
JUN
12
17
Figure 39b. Hour-averaged PSDEV at stations A and C, beam attenuation at stations
A and C. and wind stress amplitude at New Bedford during deployment 4.
-------�
Deployment IV. Temperature
18 Station A (R2951)
16
14
12
~\2
18
16
14
12
ID-"
8
6
18
16
14
12
100
8
6
4
29
18
16
14
12
APR
Station B (R2931)
18
MAY
18
23
28
JUN
17
29
13
18
MAY
13
18
23
JUN
12
17
10
a
*> 6
V
Station C
. — •
9
$5
. — •
APR
(R2941)
^ '*f~' '
8 13 18 23 28 '3 8 13 18 23 28 2 7 12 17
MAY JUN
10
8
6,
4
Deployment IV, Salinity
32.0 Station A (RZ951)
31.5
30.5
30.0
32.0
31.5
31.0 £
30.5
30.0
33.0
32.5 ,.
32.0 "-
31.5
29 3 8
MAR APR
1985
33.0 Station C (R2941)
£32.5
Q-32.0
31.5
13
18
23
28
3
MAY
13
18
28
JUN
17
APR
18
MAY
13
18
23
28
2
JUN
12
17
Figure 39c. Hour-averaged temperature and salinity at stations A, B. and C, during
deployment 4.
-------�
Deployment IV
Low-passed Data
5 Pressure Difference (A-C)
4
K. 2
i1
1 0
-1
-22
M
'
\
V /\ / \ A
^VYAX/ ^
5
4
3
to
OS
-1
9R Ap3R 8 ,3 18 23 28 ^ '8 13 18 23 28 ^ 7 12 17 '
2160
<*2140
§2120
£2100
Pressure at Station A
2560
§2540
§2520
22500
29
MAR
1985
APR
13
18
23
MAY
13
18
23
28
JUtv
12
Pressure at Station C
1985
APR
13
18
28
MAY
13
18
28
JUN
12
oo
-1
-2
-3
Along-bay Wind Stress at New Bedford
\y
1985
APR
13
18
23
28
MAY
13
18
23
28
JUN
12
Figure 39d. Low-passed pressure at stations A and C, pressure difference (A-C), and
along—bay and cross-bay wind stress at New Bedford during deployment 4.
2160
2140 <
17
17
2100
2560
-------�
Deployment V
Low-passed Data (North is up)
00
00
in •*
3" 0
° -5
-10.
Jl
15
10
s" 0
° -5
-10
-15
biauon A IKZUUIJ
'///' j**''/! \vyfF' yr^ yip f"~ ty/M/IV- ""' " ~^jc~ "/////l^
7/1
9 24 29 4 9 14 19 24 29 3
IN JUL AUG
385
Station B (1(3001)
%v Jit ,,,vmv^^^\L^\\,%\V^w vJfc, \lk^k
y , j?
9 24 29 4 9 14 19 24 29 ?3
N JUL AUG
IU
-5°
15
10
-5°
-10
19 24 29 4 9 14 19 24 29 3
JUN JUL AUG
.1985
10
o
-5
10i
Station E (R2981)
J//^^ -J!f ,rtWt ^.« •t*d!fe- ^\/£~- sZ^Z*
T/I\S " - ^. yjr "
9 24 29 4 9 14 19 24 29 3
10
5\
o
-5
JUN JUL AUG
1985
New Bedford Wind Stress
3
2
UJ
£_,
-2
I /
^ iiml//, 1 ...i///^\i/M^llll//,auai////sdl ,/// , ilKll//'*i,J^ ,.MtlK\\\\
f\ " V/||(/ "\ > ' W//
.
"19 24 29 4 '9 14 19 24 29 '3
JUN JUL AUG
3
2
'ul
_]s
-2
1985
Figure 40a. Vector stickplot of low-passed current at stations A, B, and C and wind stress
at New Bedford during deployment 5. North is up. Data plotted every 6 hours.
-------�
00
Deployment V
Beam Attenuation
Station A
19
24
29
4
JUL
14
19
24
29
4 Station B (R3001)
3
19
JUN
1985
24
29
4
JUL
14
19
24
29
6 Station E (R2981)
& 4
2 0
19
ffib
24
29
4
JUL
14
19
24
29
New Bedford Wind Stress
19 24
29 4
JUL
9 14
19
24 29
3
AUG
3
AUG
3
AUG
AUG
p
6
4
2
1
Jl
SDEV
Station A
9
24
(R2991)
29 4
JUL
^ ^^^ k(\^
9 14 19 24 29 3
AUG
6
4
0
6
2 D
Figure 40b. Hour-averaged PSDEV at stations A and E, beam attenuation at stations
A and B, and wind stress amplitude at New Bedford during deployment 5.
-------�
Deployment V, Temperature
vo
O
Deployment V, Salinity
32.5 Station A (R2991)
32.0
Figure 40c. Hour-averaged temperature at stations A, B, and E and salinity at
stations A and B during deployment 5.
-------�
Deployment V ,
Low-passed Data
4 Pressure Difference (A-E)
3
2420
3
2
1
t/> n
Uj U
-2
-3
Cross bay Wind Stress at New Bedford
f\ A
^ [ \,- - ' /\ /\ /x ~/V_
9 24 29 4 9 14 19 24 29 '3
3
2
1
n"l
Ouj
-'1
-2
-3
— 4
JUN JUL AUG
4
3
2
S3 1
°-°
-2
T
J1
Along-bay Wind Stress at New Bedford
' A
A
\_y\ . /-^/^^/x^^x A ^ /^ \ ^ A x
\J "- ^ V
9 24 29 4 9 14 19 24 29 '3
4
3
2
O^
-1
-2
JUN JUL AUG
Figure 40d. Low-passed pressure at stations A and E. pressure difference (A-E). and
along-bay and cross-bay wind stress at New Bedford during deployment 5.
-------�
Deployment VI
Low-passed Data (North is up)
2
O
station
7 12
A (K3041)
A 4 Jt ^Hp-^
»• •*"Y^r*7
17 22 27 1
SEP
iikAjAjL* *i-s* +
/'"* ' r
'6 11 16 21 26 1 6 11
16 21 26 31 5 10 15 20 25 30 '5
NOV OE
-5
-10
1985
10 Station B (R3031)
5
to
02
-5°
-10
10
-5
-10
-5
-10
17 22
7 12
f&>
10 Station C (R3021)
, 5
f 0
-10
27 1
SEP
6 11 16 21
26 ocV
6 11 16 21 26 31
5 10
NOV
15 20 25
DEC
10
-5
-10
7 12 17 22 27
AUG
1985
1 6
SEP
11 16 21
26 1
OCT
6 11 16 21 26 31 5 10 15 20 25 30 5
NOV DEC
New Bedford and Buzzards Bay Wind Stress
6 11 16 21 26 31
10 15 20 25 30
Figure 4la. Vector stickplot of low-passed current at stations A, B. and C and wind stress
at New Bedford during deployment 2. foorth is up. Data plotted every 6 hours.
-------�
Dl
5
4
>'
2
fl
3
>2
1
o
Dloyment VI
earn Attenuation
vfAT
A" i
7 12 17 22 271 6 11 16 21 26 1 '6 11 16 21 26 3 1 5 10 15 20 25 30 '
185
i 1 fclr*^^
^**^jjLiiw^r
5
4
3
2
b
4
3
2
1
n
-flfc
4 Station C (R3j«tt-
. '3 i
L2 <
1
6 11 16 21
26 1
OCT
11
16 21 26
NOV
7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 5 10 15 20 25 30
?985 OCT .
PSDEV
8 Station A (R3041)
DE5C
vO
w
DEC
12 1? 22 " SE'P 6 11 16 21 26 oc\ 6
10 15 20 25 3°
16 21 26
8 Station C (R3031)
w 6
6 11 16 21 26 1 6 It 16 21 26 31
7 12 17 22 27
10 15 20 25 30
New Bedford and Buzzards Bay Wind Stress
Figure 41b. Hour-averaged PSDEV at stations A and C. beam attenuation at stations A. B. and C, and wind stress
at New Bedford (beginning - SeptlS) and Buzzards Bay Tower (Aug 1 - end) during deployment 6.
-------�
Deployment VI, Temperature
26 Station ^_{R3041)
22
pia
26
22
olB
14
f
26
22
26
22
18o
14
26
22
18tj
14
26
22
IBp
14
7 12 17 22 27 1
SEP
Station B (R3031)
6 It 16 21 26 1 6 11 16 21 26 31 5 10 IS 20 25 30
OCT
NOV
OE5C
7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 5 10 15 20 25 30 5
IJG SEP OCT NOV DEC
Station C (R3021)
14
7 12 17 22 27 1 6 11 16 21 26 1 6 11 16 21 26 31 5 10 15 20 25 30 >
AUG SEP OCT NOV DEC
Deployment VI. Salinity
32.5 Station B (R3031)
32.0
£31.5
31.0
30.5
'^\^{l^^
32.5
32.0
31.5 j
31.0
30.5
7 12 17 22 27 1 6 11 16 21 26 1
SEP OCT
16 21 26 31 5 10 15 20 25 30 5
7 12 17 22 27 1 6 11 16 21 26 1
16 21 26 31
10 15 20 25 30
31.0 !
Figure 41c. Hour-averaged temperature at stations A, B, and C and salinity at
stations B and C during deployment 6.
-------�
Deployment VI
Low-passed Data
8
6
tn 4
3 o
— * u
3
-2
-4
Pressure Difference (A— C)
Wv^~-'M AA^/V, A
I / \/\r^>^y v \ /\
1 / x/^"^ ^^
V
/v
/^~\ _/ ^^^ \ A y~/\ /I
Ux/v' V,
8
6
4 oo
2S
nd
U— <
-4
2170
2150
SEP - ' - - " OC\ 6 " 16 21 26 31 NdV 10 15 2° " 3° DEC
32110
2550
OT2530
S2510
32490
Pressure at Station A
7 12 17 22 27 1 6
SEP
Pressure at Station C
11 16 21 26 1
OCT
6 11 16 21 26 31
NOV
10 15 20 25 30 5
DEC
2170
2150|
2130;
2110:
2470
7 12 17 22 27 1 6
^§5 SEP
11 16 21 26 1
OCI
6 11 16 21 26 31
5
NOV
10 15 20 25 30 5
DEC
<-n P.
Q-4
-6
-8
uross Day wind stress at new Bedford and Buzzards Hay Tower
A
j ' ' ^ ~~ r ~~ s=f\ /v v ~ /\s^^ -^ ,~, |V^^
. v-V- - V||-
/v/^ A r /\ A A
V vX \A/ v/ \; '
V vr y V y
A XSA /\ .A A A/^y^-
J V Vv y^
2550
2530 (
2510J
2490 j
2470"
4
2
7 12 17 22 27
6 11 16 21
26 1
OCT
6 11
21 26
NOV
10 15 20 25
6 _ Along-bay Wind Stress at New Bedford and Buzzards Bay Tower
4
2
-2
-4
V
xA
7 12 17 22 27 .1
'6 11 16 21 26 'l ..... 6
Tl ""16 57" 26 31
/X
-6
-8
-2
5
NOV
10 15 20 25 30 5
DEC
Figure 4 Id. Low-passed pressure at stations A and C, pressure difference (A-C), and
along-bay and cross-bay wind stress at New Bedford during deployment 6.
-------�
Station A.
30 , (I (R2891)
Current Speed
Figure 42a. Current speed at station A for deployments 2, 3, 4. 5. and 6.
-------�
Station A.
tO I) (R2891)
8
I'
I 2
0
PSDEV
NO
19
6 III (R2911)
4
MA'R
IV (R2951)
l>[^
10
8
DEC
16
21 26
9
APR
1985
14 19 24 29
2
V (R2991)
26
"UN.
1
JUL
4
MAY
14 19 24 29
6
JUN
w OD
J
6 11
16 21
26 31
'5
AUG
10
8 13
18
10
a
3 4
2 2
A
VI (R3041)
*k 19 24 29 ^ 8 13 i8 23 28 ^ 8 13 18
o rv) -c oi oo o
MILLIBARS
Figure 42b. PSDEV at station A for deployments 2, 3. 4. 5, and 8.
-------�
vo
00
Station A. Temperature
16
22
14
16
VI (
4
Wr
*®*&~~—^
19 24
^~ ,_
29 3 8 13 18 23 2
SEP
~~" " "~~~v wvu^__^___
8 o^T 8 U 1B.
26
22
18o
14
Figure 42c. Temperature at station A for deployments 2, 3. 4, 5. and 6.
-------�
Station A.
8 II (R2B9I)
Beam Attenuation
8 13
NOV
1984
8 HI (R3911)
IB 23 28
DEC
B 13
8
6
4^
^^A^hJ^^ -^
26
JUN
1985
8 VI (R3041)
. 4
2
14
AUG
1985
19 24 29
SEP
13 18 23 28
OCT
8 13 18
Figure 42d. Beam attenuation at station A for deployments 2, 3, 4. 5, and 6.
-------�
ro
o
31.5
-31.0
Station A. Salinity
II (R2801)
'~~VlfVV^\M^A>''M/\/Vv^^
30.0
I
32.0
.31.5
0.31.0
30.5
I
32.0
31.5
I31'0
30.5
30.0
8
NOV
1984
13
18
23
DEC
13
31.5
31 -°
30.5
30.0
III (R2911)
19
24
MAR
11
16
21
26
32.0
31.5
31.0
30.5
IV (R2951)
14
APR
1985
32.5 V (R2991)
32.0
,31.5
n-31.0
, 30.5
30.0
19
29
MAY
14
19
24
26
JUN
1985
JUL
11
16
21
26
31
AUC
10
29
32.5
32.0
31.5
31.0
30.5
30.0
JUN
13
18
32.0
31.5
31. Ot
30.5
30.0
Figure 42e. Salinity at station A for deployments 2. 4, 5, and 6. The salinity
sensors fouled during most deployments. See Instrument Fouling
section for cautions on salinity data accuracy.
-------�
Station B. Current Speed
21
Figure 43a. Current speed at station B for deployments 1 (Imab), 2, 3. 4, 5. and 6 (4mab).
-------�
St£
24
20
o16
12
S
ition B.
I (R2861)
6 11
Temperature
16
21 26 1 6 11 16 21
OCT
24
20
16o
12
26
22
o"18
14
r
VI (R3031)
7 12 17
IP
~~" " ' — — s_^ __________
22 27 1 6 11 16 21 26 1 '6 11 16 21
bur OCT
26
22
18o
14
Figure 43b. Temperature at station B for deployments 1, 2, 3. 4, 5, and 6.
-------�
Station B.
5 I (RZ861)
Beam Attenuation
NJ
o
OJ
21
Figure 43c. Beam attenuation at station B for deployments 1. 2, 5. and 6.
-------�
Sti
32.0
31.5
|[31.0
30.5
30.0
325?
32.0
£31.5
31.0
33.0
32.5
£32.0
31.5
31.0
J
32.0
£31.5
31.0
30.5
Al
ition B. Salinity
1 (R2861)
4, t' <6 *'
)84
II (E2881)
(NYA'v»~v''N*^v-v/.vwwvvvvWv''in/
A ta N& 9
&4 "*
V (R3001)
L * s ^
VI (R3031)
7c <2 17 i2
v>^—
26 ocV 6
)Uu^«-^A^~Vwv-^^AA/VVto<~
14 19 24
•^^r^^v^f-^^r^r--^^^^
'9 14 19
"^Xv^v
» i «
32.0
31.5
30.5,
ii' \& ii M-°
32.5
•/1^>^^V^^^^^^^^ ";° t
31.0
29 4 9 14 19 24 ^^
DEC
33.0
32.5
~V"V**V^v-V»~v^_^_, 32.0 |
^^ VV' ' 31.5
32.5
Y
-------�
Station C.
30 I (R2851)
Current Speed
to
o
Ul
10 15 20 25 30
Figure 44a. Current speed at station C for deployments 1 (D), 2. 3. 4, 5 (E). and 6.
-------�
Station C. PSDEV
10
8
i/)
S? 6
3 4
2 2
Q
I (R28S1) 10
1 &
1 M
1 1 , 'I
, . | \ A 4i
_A>^__>v-~^^ -^A_JV>wA^ i" \i_^~S VA^. 22
21 26 31 5 10 15 20 25 30 '5 10 15 20
8
in 6
£ 4
3.2
2
II (R2871)
1
-^_-^__j<__-^-_T-->t*V-j\JL_T_/^^^
5 30 4 9 14 19 24 29 4 9 14 19 24 29 3
OCT NOV DEC JAN
1984 198
6
Q£ 4
32
III (R2921) 6
4 |j
A hlAi A ^
8
6 ^
4 S
--/vj*"^.^^ „ 2
' ' ' '8 ' 13 °
5
2 °28 2 '7 12 17 22 27 '4 '9 14 " *
IAKI F"FR UAR
JAIN r LD MAn
1985
6
? 4
32
IV (R2941) 6
4 I
^-A. ^ ^ ^ | 2 3
3 °29 '3 '8 13 18 23 28 '3 " "*
MAR APR MAY
1985
6
ILLIBAR!
) M 4-
a°1
V (R2981) 6
^^^^^^^^^
9 24 29 '4 '9 14 19 24 29 '3 ° *
Jl^^ JUL AUG
10'
8
in
3 4
2 2
0
VI (R3021) 1
ft
. 7 V
7 12 17 22 27 '1 '6 11 16 21 26 'i '6 11 16
10
8
6i
i A A 43
^.^^J^^^-J^ Q5
21 26 31 5 10 15 20 25 30 5
AU§r SEP OCT
Figure 44b. PSDEV at station C for deployments 1 (D). Z. 3. 4. 5 (E). and 6.
-------�
Stc
24
20
p16
122
%
16
12
8
° 4
°2
?
a
4
p 0
-4,
12
8
£> 4
°2
s "
22
o18
O
M1
Jl
. 1
26
22
18
p14
10
R
ition C. Temperature
I (R2851) 24
~"~"~^ — . . 16o
1 26 31 5 10 15 20 25 30 5 10 15 20 12
IG SEP OCT
I84
II (R2fl7l)_
~ S ^^A"-*^^^
5 30 4 9 14 19 24 29 4 9 14 l'9 24 29 '3
ilU N°V DEC 1985
III (R2921) 8
j___ 4
8 '2 7 12 17 22 27 4 9 14 ' ~"
&S FEB "*•*
IV (R3941) 12
^____ - — 8
^~ 4p
9 '3 8 13 18 23 28 3 "
*R APR MAY
985
V (R2981) 26
_J— A^_ -«* 22
j^ f**- -*• ' "**•* *^^' " JJ
9 24 29 4 9 14 19 24 29 3
IN JU\- AUG
VI (R3021)
^^-** — ,i**~-*- ^ ,- „ ,
~- ^^
16
12
8
'8 13 °
26
22
18
•*- ^_^^^_^ 14o
'1
SEP OCT
'5
NOV
10 15 20 25 30
5
DEC
Figure 44c. Temperature at station C for deployments 1 (D), 2, 3. 4, 5 (E). and 6.
-------�
NJ
O
00
Station C.
4 II (R2871)
3
Beam Attenuation
30 4 9 14 19 24 29 _4 9 V4 19 24 29 3 8 13
7 12 17 22 27 4 9 14
3 8 13 18 23 28 3
Figure 44d. Beam attenuation at station C for deployments 2. 3. 4, and 6.
-------�
30
Station C.
32.0 II (R2B71)
31.5
30.5
30.0
(
33.0
32.5
32.0
31.5
tjl.0
30.5
30.0
29.5
29.0
Salinity
184
III (R3921)
NOV
14
19
24
29
DEC
14
19
24
29
28
JAN
1985
33.0 IV (R294\)
32.5
12
17
22
27
MAR
14
33.0
32.5
32.0
31.5
31.0 t
30.5
30.0
29.5
29.0
•\*L
13
32.0
31.5
31.0 t
30.5
30.0
Figure 44e. Salinity at station C for deployments 2, 3. 4, and 6. The salinity
sensors fouled during most deployments. See Instrument Fouling
section for cautions on salinity data accuracy.
-------�
New Bedford Wind Stress
a I
6
NJ
M
O
10 15 20 25
Figure 45a. Wind stress amplitude at New Bedford for deployments 1. 2. 3. 4. 5. and 6.
(Note For deployment 6, wind stress from Buzzards Bay Tower was used
from Aug 20 - end).
-------�
Low-passed New Bedford Wind Stress (North is up)
21 26 31
AUG
1984
10 15 20
25
OC5T
.dill..- Jlllx Ml.
10 15 20
All*.
-,
i
-2°
-4
24 29
1984
NOV
8 13 18 23 28
DEC
8 13
18
111
-» ^ « -HT~
&\i
jlito^a, _ Jit •&!, .H//^ ML A. ^.^ /•.-
T \ ^(f "Y ^ ^^^ W^V ''IIP
-4
16 21
12
-6
Figure 45b. Low-'-passed wind stressat New Bedford for deployments 1. 2. 3, 4. 5, and 6.
(Note For deployment 6. wind stress from Buzzards Bay Tower was used
from Aug 20 - end).
-------� |