OCEANOGRAPHY College of DYNAMICS

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z—
College of
OCEANOGRAPHY
NEWPORT.
DYNAMICS
UNH
THE CODE LARGE-SCALE
METEOROLOGICAL, SEA SURFACE
TEMPERATURE AND COASTAL SEA
LEVEL DATA SET, 1980-84
by
George R. Halliwell, Jr.
Henry L. Pittocic
Vicki M. Halliwell
J. S. AUen
OREGON STATE UNIVERSITY
College of Oceanography
Oregon State University
Reference 86-15
November 1986
DATA REPORT 12S
Reproduction in whole or part is permitted for any
purpose of the United States Government
College of Oceanography
Oregon State University
Corvallis, OR 97331
THE CODE LARGE—SCALE METEOROLOGICAL, SEA SURFACE
TEMPERATURE, AND COASTAL SEA LEVEL DATA SET, 1980—814
by
George R. Halliwell, Jr.
Henry L. Pittock
Vicki M. Halliwell
and
J. S. Allen
Data Report 125
Reference 86—15
December 1986
National Science Foundation
OCE—801 14939, OCE—8141 1613
ABSTRACT
Meteorological, sea surface temperature,
and coastal sea level data were
California
collected along the west coast of North America from northern Baja
to the Alaska/British Columbia border from 1980 to
for the
(CODE).
large—scale component of the Coastal Ocean Dynamics Experiment
This
meteorological
report presents statistical summaries and plots of selected
this data set.
variables, sea surface temperature, and coastal sea level from
TABLE OF CONTENTS
Page
List of Tables
List of Figures
1. Description of the CODE Large—Scale Data Set.
1.1 Introduction.
1.2 The CODE Large—Scale Data Set.
1.2.1 The Data.
1.2.2 Processing of Measured Meteorological and SST Data.
1.2.3 Processing of Calculated Meteorological Variables.
1.2.14 Processing of Coastal SeaLevel Data.
1.3 Statistical Summaries and Plots.
1.14 Acknowledgements.
1.5 References.
2. Statistical Tables for LLP Data.
3.
Monthly (y,t) Contours Plots of LLP Adjusted Sea Level
1.1
1.1
1.14
1.14
1.5
1.7
1.8
1.10
1.12
1.13
2.1
3.1
and LLP Alongshore Wind Stress (r).
14.
LLP Measured Wind Vector Plots.
14.1
5. LLP Measured Wind Major Axis Component Plots.
5.1
6. LLP Calculated Wind Vector Plots.
6.1
7. LLP Calculated Wind Major Axis Component Plots.
7.1
8. LLP Adjusted Sea Level Plots.
8.1
9. LLP Temperature Plots.
9.1
9.1 Air Temperature.
9.2 Sea Surface Temperature.
93
9.25
10. LLP Calculated Atmospheric Pressure Plots.
10.1
11. VLP Time Series Plots.
11.1
11.1 Calculated Alongshore Wind Stress.
11.2 Adjusted Sea Level.
11.3
11.5
List of Tables
Page
Table 1.1: Meteorological Station Information.
1.111
Table 1.2: Meteorological Data Source Information.
1.16
Table 1.3: CODE Coastal Analysis Grid Points.
1.20
Table 1.14: Sea Level Station Information.
1.21
Table 2.1: Statistical Summary of Measured Wind Data,
2.3
Table 2.2: Statistical Summary of Calculated Wind Data, 1980—814.
2.7
Table 2.3: Statistical Summary of Adjusted Coastal Sea Level, 1980—814.
2.8
Table 2.14: Statistical Summary of Calculated Alongshore Wind
2.9
Stress, 1980—814.
Table 2.5: Statistical Summary of Air Temperature, 1980—814.
2.10
Table 2.6: Statistical Summary of Sea Surface Temperature, 1980—814.
2.11
Table 2.7: Statistical Summary of Calculated Atmospheric Pressure,
2.12
1980—814.
Table 2.8: Seasonal Statistics of Measured Wind Data:
a) Major axis orientation.
b) Standard deviation of major axis component.
c) Standard deviation of minor axis component.
d) Mean of u—component.
e) Mean of v—component.
f) Standard deviation of u—component.
g) Standard deviation of v—component.
h) Percent good data.
Table 2.9: Seasonal Statistics of Calculated Wind Data:
a) Major axis orientation.
b) Standard deviation of major axis component.
c) Standard deviation of minor axis component.
d) Mean of u—component.
e) Mean of v—component.
f) Standard deviation of u—component.
g) Standard deviation of v—component.
2.13
2.15
2.17
2.19
2.21
2.23
2.25
2.27
2.29
2.30
2.31
2.32
2.33
2.314
2.35
Table 2.10: Seasonal Statistics of Adjusted Coastal Sea Level:
a) Mean.
b) Standard deviation.
c) Percent good data.
2.36
2.37
2.38
Table 2.11 :
Seasonal Statistics of AlongshOre Wind Stress:
a) Mean.
b) Standard deviation.
c) Percent good data.
2.39
Table 2.12: Seasonal Statistics of Air
a) Mean.
b) Standard deviation.
c) Percent good data.
Table 2.13: Seasonal Statistics of Sea Surface Temperature:
a) Mean.
b) Standard deviation.
c) Percent good data.
Table 2.114: Seasonal Statistics of Calculated Atmospheric Pressure:
a) Mean.
b) Standard deviation.
c) Percent good data.
2.146
2.147
2.148
2.149
2.50
List of Figures
Page
Figure 1.1: CODE Meteorological Stations.
1.22
Figure 1.2: The CODE Coastal Analysis Grid Points.
1.23
Figure 1.3: CODE Sea Level Stations.
Figure 1.11: Correction Factor for Wind Speed Adjustment to 10 in
as a Function of Anemometer Height and Wind Speed.
1.25
Figure 1.5: Chronograph of Measured Wind Data.
1.26
Figure 1.6: Chronograph of Air Temperature Data.
1.29
Figure 1.7: Chronograph of Sea Surface Temperature Data.
1.30
Figure 1.8: Chronograph of Sea Level Data.
1.31
1.1
1. DESCRIPTION OF THE CODE LARGE—SCALE DATA SET
1
.
1
Introduction
(CODE)
The large—scale component of the Coastal Ocean Dynamics Experiment
shelf circulation
is designed to study the large—scale response of continental
to atmospheric forcing.
Major efforts include testing models of wind—driven
roughly
shelf circulation, and relating currents measured at the CODE site, a
located
100 km segment of the continental shelf northwest of San Francisco
between Point Arena and Point Reyes (Winant, et al., 1986), to non—local
atmospheric forcing and the propagation of free coastally trapped waves
through the site.
We focus on the forcing and response that has periods
two days and two weeks, the dominant periods of large—scale wind
fluctuations driven by synoptic atmospheric systems (cyclones and
between
anticyclones).
These efforts require good meteorological and coastal sea
domain that
level data to be collected for a sufficiently large alongshore
contains the CODE site.
Coastal sea level is an important response variable
available
in large scale studies because current measurements are not
the
simultaneously over a sufficiently large alongshore domain to resolve
larger wavelengths present in the coastal current response.
wind stress
Since both theory and observations indicate that alongshore
coastal current
is the most important forcing mechanism for large—scale
to
fluctuations at periods between two days and two weeks, it is necessary
assemble the best possible wind set to execute these studies.
obtained two representations of the coastal wind field:
We therefore
The first is a set of
1.2
wtnd measurements from stations located at or near the coast and from buoys
moored on the adjacent continental shelf.
The second is a set of geostrophic
winds calculated from the six—hourly surface atmospheric pressure analyses of
the Fleet Numerical Oceanography Center (FNOC) (Bakun,
hereinafter referred to as calculated winds.
1975), which are
We also obtained measured air
and sea surface temperatures from the offshore buoys.
For the response
variable, we obtained coastal sea level from all tide gauge stations within
the CODE large—scale domain, and also obtained atmospheric pressure to correct
coastal sea level for the inverse barometer effect.
The data from which the FNOC pressure analyses are constructed are
sampled at both ships and fixed land and buoy stations.
This input data
consists of both surface pressure and equivalent pressure gradient calculated
from surface winds assuming geostrophic balance.
These data are blended with
an initial best—guess surface pressure field determined from previous analyses
to generate the new pressure analysis.
This procedure is described in detail
by Holl and Mendenhall (1972).
Measured winds should ideally be used to calculate the wind stress
forcing function for shelf currents, but they have numerous problems,
including topographic influence, data gaps, irregular sampling times, and
sometimes human subjectivity in reading fluctuating anemometer analog
displays.
The problems with calculated winds include a spatial sampling
resolution that restricts their use to studies of large—scale variability
only, decreasing accuracy in the geostrophic approximation with decreasing
latitude, variable spatial and temporal coverage with ship pressure and wind
observations, and an inaccurate boundary layer correction in coastal regions
(Section 1.2.3).
Since these wind sets have limitations, we use both to
1.3
determine properties of the coastal wind and wind stress fields (Halliwell and
Allen, 1986a, 1986b), and present statistics and plots of both sets.
In this report, we present statistical summaries and plots of measured
and calculated meteorological variables, plus sea surface temperature (SST)
and coastal sea level, over the time interval between 1 January 1980 to 30
June 198'4.
This large—scale data set has previously been summarized only
during the time intervals of the two CODE experiments,
spring/summer 1982 (1-lalliwell and Allen, 1983, 1985).
spring/summer 1981 and
1.4
1.2 The Code Large—Scale Data Set
1.2.1 The Data
To properly assess the impact of non—local atmospheric forcing on
currents at the CODE site, we extend the large—scale analysis domain
equatorward to central Baja California, 1800 km from the site.
We extend the
domain poleward to the Alaska border, more than 1800 km from the CODE site, to
at least marginally resolve the response with very large alongshore scales.
We collect data over a several—year time interval that includes the two CODE
experiments.
Calculated winds and FNOC atmospheric pressure, plus coastal sea
levels, have been obtained for
1
The most
January 1980 through 30 June
extensive set of measured meteorological data exists between 1
December 1980
and 30 November 1982, but data from some stations are available from the
entire
1/2 year time interval.
The CODE large—scale analysis domain extends from northern Baja
California (26°N) to the Alaska border (5J4°N).
The coastal alongshore
coordinate y is zero at the location of the CODE central line arid positive
poleward of that location.
The locations of the meteorological stations are
shown in Fig. 1.1, and information about these stations is summarized in
Table 1.1.
Meteorological measurements are obtained from several sources, and
information about these sources and the data obtained from each is summarized
in Table 1.2.
Calculated variables are interpolated to the locations of the
CODE analysis grid (Fig. 1.2, Table 1.3), with grid point 7 located at y
km.
0
The alongshore separation of the grid points is 180 km, and the grid
spans 3600 km of coastline.
Alongshore separations are estimated from coastal
1.5
charts
i.e., by
by measuring the distance following a smoothed shoreline,
less than about
ignoring deviations due to small bays and headlands that span
20 km of coast.
The CODE experimental site (Winant, et al., 1986)
approximately within the interval —50 < y < 50 kin (Fig. 1.2).
is
located
The locations
information about
of the coastal sea level stations are shown in Fig. 1.3, and
these stations is summarized in Table 1.14.
1 .2.2 Processing of Measured Meteorological and SST Data
sources.
The CODE large—scale data set is obtained from many diverse
Only winds are routinely processed at every
station.
meteorological measurement
measurement stations
Atmospheric pressure is processed at only some
time series, since
to check the quality of the calculated atmospheric pressure
level (Section
the calculated pressures are used to adjust coastal sea
only.
Air and sea surface temperatures are processed at offshore buoys
Some
and these
meteorological sources provided variables that we did not process,
are listed in Table 1.2.
The basic editorial procedure for
1.
meteorological data is as follows:
Transcribe manuscript data or teletype output onto computer coding
forms, then keypunch if required.
2.
time series
Read source magnetic tapes or computer cards, and store
on disk files.
Set sampling times to GMT where necessary.
For a
given sample
given time series, if no source data are available at a
time, a missing data spacer (the number
is stored for that
time.
3.
neutral
Adjust wind speed to anemometer height of 10 m, assuming
stability.
The correction factor is a function of wind speed and
1.6
anemometer height as contoured in Figure 1.4.
1L
Convert source winds to u and v components.
5.
Convert all variables to common units (nib for pressure, m/s for wind
and °C for temperature).
6.
Check for physically unrealistic data values for each variable.
If
any exist, replace these values by a missing data spacer.
7.
Search for unusual data jumps or spikes by flagging all points in a
time series that differ from either the previous or subsequent point
by more than three times the standard deviation of all first
differences.
Determination of whether these data jumps are due to
one or more bad data values is made by visual inspection of each
flagged point with nearby points in the series.
If a point is
determined to be bad, it is replaced by a missing data spacer.
8.
Fill all short data gaps
interpolation.
hrs in length) using linear
Replace the missing data spacers in these gaps by
interpolated data.
9.
Plot and check the time series.
10. Compute wind stress time series.
11. Filter the time series.
12. Compute the major and minor axis wind components using the filtered
data.
Vector wind stress in dy cm2 is computed from vector wind in m
using the
bulk aerodynamic formula with the drag coefficient determined from the
regression formula of Large and Pond (1981):
1.2
(1.1)
101v 10
=
with
/
1.2
d
\
11 m
101
Iv 101
+
(1.2)
>
11 m s
is the air density and Cd is the drag coefficient.
where
All wind stress
time series are calculated using unfiltered wind time series, and are then
filtered separately.
Two sets of low—passed time series are created.
half—amplitude period of
The first filter has a
hr, and these filtered time series are referred to
as LLP (low—low—passed) series.
The second filter has a half—amplitude period
of 25 days, and these filtered time series are referred to as VLP
(very—low—passed) series.
The LLP (VLP) time series have been shortened by
2.5 (25) days on each end, and all internal data gaps in the source data have
been widened by 2.5 (25) days on each end.
The availability of LLP wind (wind
stress), air temperature, and sea surface temperature data is summarized in
the chronographs in Figs. 1.5 through 1.7.
1.2.3 Processing of Calculated Meteorological Variables
Calculated variables are obtained on magnetic tape and are then subjected
to essentially the same editorial procedure as the measured meteorological
data.
Only wind and atmospheric pressure are routinely processed, although
wind stress curl and divergence, plus Ekman and Sverdrup transport, are also
available (Table 1.2).
1.8
A
simple boundary layer correction has been performed on the calculated
winds, consisting of a 30% reduction in speed and a 15° anticlockwise
rotation.
Several studies have determined that the 15° anticlockwise rotation
performed as part of the original boundary layer correction is not sufficient.
These include the study of Halliwell and Allen (198'O for the west coast of
North America, plus the wind analyses of Thomson (1983) for the British
Columbia coast and Hsueh and Romea (1983) for the East China Sea.
Because of
this, Halliwell and Allen (l98J4, 1986a, 1986b) rotated calculated winds to
align their fluctuations with those of measured winds prior to calculating the
alongshore components of wind and wind stress.
The determination of the
rotation correction is presented in Halliwell and Allen, 1986a), and the
correction angles, which are a function of alongshore location, are listed in
Table 1.3.
For the time series described in this report, the calculated winds
have not been rotated to correct for this problem.
However, calculated
alongshore wind stress (Sections 3 and 11.1) is computed using calculated
winds that have been corrected.
Processing of Coastal Sea Level Data
Coastal sea level data are obtained at several stations (Fig. 1.3 and
Table 1.2) for all eight seasons.
Sea level time series are checked for bad
values and datum shifts (Pittock, et.al., 1982), then filtered to create LLP
and VLP time series.
Sea level heights are adjusted to represent subsurface
pressure by adding FNOC surface atmospheric pressure in mb from the nearest
CODE grid point to sea level in cm if that point is within 30 km of the sea
level station.
If it is farther away, atmospheric pressure linearly
interpolated between the two nearest grid points is used.
The mean sea levels
1.9
are removed for each individual season.
The availability of LLP coastal sea
level data is summarized in the chronograph in Fig.
1.8.
1.10
1.3
Statistical Summaries And Plots
A statistical summary of the LLP data set is presented
in Section 2.
Statistics are presented for the entire record length and for six—month
"seasons", October to March and April to September, which are hereinafter
referred to as winter and summer.
These seasons are denoted by the vertical
dashed lines in the chronographs in Figs. 1.5 through 1.8.
The order and
contents of these tables is presented in the List of Tables at the
beginning
of this report.
LLP alongshore wind stress i and LLP coastal sea level
(y,t)—space in Section
3
for
are contoured in
individual months from January 1980 to June
These plots are useful to study the alongshore—time
dependence of individual
sea level events and the
r forcing events that generate them.
Each contour
plot begins two days before the start of the month, and each
plot spans 35
days, at least two days into the following month, to make the
time scale
constant.
used.
For T,
all
coastal grid points (32 through 35 and 1 through 17) are
The sea level stations used for each month are shown
on the right—hand
side of the plots.
If a station is not available for a given month, the
station name is not shown next to the tick mark.
Contour intervals for r are
0.6 (May—September) and 1.2 (October—April), with the
exception of April 1981
and April 1983 where 1.2 is also used.
5.
The contour interval for
is always
All sea levels have been demeaned over the entire record length.
contours are used for negative values of
Dashed
and
Time series plots for several LLP
variables (measured and calculated) are
presented in Sections
through 10 (see Table of Contents) for
1
January 1980
1.11
through 30 June
The plots are presented for the same six—month summer
and winter seasons as the statistics.
The plots ar..e in chronological order,
and within each season the series are plotted from north to south along the
coast.
Time series from the two NDBC buoys located offshore of the
continental shelf (B02, B05) are plotted first in each season.
Measured winds
from several stations judged to be of relatively poor quality are not plotted
to save space.
These deleted stations are shown in Table 1.1.
winds contain the mean wind for the
orientation.
The major axis
1/2 period along the major axis
Atmospheric pressure from FNOC is referred to as "calculated"
pressure.
Time series plots for VLP variables (measured and calculated) are
presented in Section 11 (see Table of Contents) for the entire time interval
January 1980 through 30 June 198'!, plotted from north to south along the
coast.
Since the VLP filter greatly enlarges data gaps (Section 1.2.2), VLP
measured meteorological and SST data are not plotted.
1
1.12
1
•1
Acknowlegements
The authors wish to thank the following people for their assistance
in
obtaining or precessing data:
Dr. Thomas M. Whittaker, University of
Wisconsin Space Science and Engineering Center;
Dr. Chuck Wash, U.S. Naval
Postgraduate School, who served as our initial contact to SSEC;
Mr. Andrew
Johnson, Mr. Lloyd Ladner, and Mr. Ray Canada of the National Data Buoy
Center;
Dr. John Wade and Mr. James R. Buckley, Atmopspheric Science
Department, OSU;
Mr. Dave Young, Pacific Power and Light Company, Portland,
OR, for obtaining permission to use the data at the OSU Atmospheric Science
Department;
Mr. Bob Anderson and Mr. Kent Short, National Weather Service,
Seattle Ocean Services Unit;
Mr. Karl K. Turner, National Weather Service
Forecast Office, Redwood City, CA;
Northwest Laboratories;
Newport, OR winds;
San Francisco;
Dr. William F. Sandusky, Battelle Pacific
Mr. W. E. Gilbert, OSU Oceanography, for processing
Ms. Margaret L. Mooney, Pacific Gas and Electric Company,
Dr. Tom Yao, University of British Columbia;
D. Stroucl, Compass Systems, Inc. (FNOC data).
of Washington, developed the plotting software.
Mr. Arthur
Dr. Donald W. Denbo, University
Mr. Lawrence C. Breaker is
also thanked for helpful discussions on California coastal winds.
has been supported by the National Science Foundation.
contribution number 143.
This work
This is CODE
1.13
1
.5 References
Bakun, A., Daily and weekly upwelling indices, west coast of' North America,
1967—73, NOAA Tech. Rep. NMFS SSRF—693, National Marine Fisheries
Service, Seattle, Washington, ilk pp., 1975.
Halliwell, Jr., G. R. and J. S. Allen, CODE—i: Large—scale wind and sea level
observations, In CODE—i: Moored array and large—scale data report, L. K.
Rosenfeld, Ed., WHOI Tech. Rep. 82—23, 139—185, 1983.
Halliwell, Jr., G. R. and J. S. Allen, Large—scale sea level response to
atmospheric forcing along the west coast of North America, summer 1973,
J. Phys. Oceanogr., 1k, 86k886, 198k.
Halliwell, Jr., G. R. and J. S. Allen, CODE—2: Large—scale wind and. sea level
observations, In CODE—2: Moored array and large—scale data report, R.
Limeburner, Ed., WHOI Tech. Rep. 85—35, 181-23k, 1985.
Halliwell, Jr., G. R. and J. S. Allen, The large—scale coastal wind field
along the west coast of North America, 1981—82, J. Geophys. Res., In
press, 1986a.
Halliwell, Jr., G. R. and J. S. Allen, Wavenumber-freqUeflcY domain properties
wind stress along the west
of' coastal sea level response to alongshore
coast of North America, 1980—814, Submitted to J. Geophys. Res., 1986b.
Holl, M. M. and B. R. Mendenhall, Fields by information blending, sea level
pressure version,Tech. Note. 72—2, Fleet Numerical Weather Central,
Monterey, CA, 66pp., 1972.
Hsueh, 1. and R. D. Romea, A comparison of observed and geostrophically
calculated wintertime surface winds over the East China Sea, J. Geophys.
Res., 88, 9588—95914.
Large, W. G. and S. Pond, Open ocean flux measurements in moderate to strong
winds, J. Phys. Oceanogr., 11, 3214-336, 1981.
Pittock, H. L., W. E. Gilbert, A. huyer, and R. L. Smith, 1982. Observations
of sea level, wind, and atmospheric pressure at Newport, Oregon,
1967—1980. Data Rep. 908, Oregon State University, Corvallis, OR, 158 pp.
Thomson, R. E., A comparison between computed and measured oceanic winds near
the British Columbia coast, J. Geophys. Res., 88, 2675—2683, 1983.
Winant, C. D., R. C. Beardsley, and R. E. Davis, Moored current, wind,
temperature, and current observations made during CODE—i and CODE—2 over
the northern California continental shelf and upper slope, Submitted to
J. Geophys. Res., CODE issue, 1986.
1.14
Table
1.1. Meteorological Station Information.
Coast orientation is measured
in degrees anticlockwjse from due east. Pr is atmospheric pressure,
AT is air temperature, WT is water temperature, El is station
elevation.
The
before a station name indicates that it is
not included in the time series plots. Latitude is in degrees
and minutes north; longitude is in degrees and minutes west.
A].ongsh
•
Station
NDBO '16002
NDBO 146005
Prinee Rupert, BC
Cape St James, BC
Mclnnes Island, BC
Cape Scott, BC
Nootka Lightstatjon, BC
Lennard Island, BC
Cape Flattery, WA
Neah Bay, WA
Quillayute, WA
Destruction Island, WA
Hoquiam, WA
Ocean Shores, WA
Grays Harbor, WA
Cape Dissappojntment, WA
NDBO '16029
Columbja River LNB
Astoria, OR
Bay, OR
Newport, OR
NDBO
Buoy (Newport, OR)
Siuslaw River, OR
North Bend, OR
Five Mile Point, OR
Cape Blanco Tower, OR
Cape Blanco, OR
*
*
*
Abb
Lat
Data Processed
Pr Wind AT WT
Lon
B02
30 130
B05 146 00 131
PRR 514 18 130
CSJ 51 56 131
00
00
27
(deg)
*
*
*
*
0
*
*
*
*
0
32
*
1883
01
*
MCI 52 16 128 113
CSC 50 47 128 26
NOO 149 36 126 37
LEN 149 07 125 55
*
1760
1630
1467
1286
CPF 148 23 1211 141!
NBA 148 22 1211 36
QUI 147 57 1214 32
DST 117
110
CPD
*
*
*
*
*
1101
*
1055
1022
*
CLB 116
9112
8
939
3
*
*
*
*
1214 11
*
*
123 53
*
*
TIL 145
314
123
*
NEW 1111
38 1211 03
*
11
BNE 1114 36 121! 06
SIU 1114 00 1211 07
NOB
25 1211 15
FM? 143 111 1214 23
*
CBT 142 50 1214 32
CBL 142 50 1211 31!
NDBO 116027
B27 111
118
1211 21!
Point St George, CA
Crescent City, CA
Arcata, CA
Humboldt Bay, CA
PSG 111
CCY Ill
147
1214 16
117
1214
11!
*
5117
5
*
525
*
1180
*
1180
55
361!
0
*
*
*
*
*
*
8514
*
*
362
362
270
246
*
ACA 110 59 1214 06
*
*
NDBO 146022
HUM 140
322 140
Point Cabrillo, CA
NDBO
Point Arena Light, CA
Point Arena Tower, CA
PCB 39 22 123 249
Bill 39 13 123 58
ARL 38 57 123 1414
ART 38 55 123 113
N3
N3 38 148 123 142
SRA 38 141 123 26
*
19
*
0
C2 38 38 123 25
C3 38 36 123 28
*
*
*
*
*
*
Sea Ranch, CA (cent, line)
C2
C3
116
1211
146
1214 31
111
*
*
*
*
*
*
8.8
6.1
0
0
3
*
*
865
856
850
786
683
680
612
*
6.7
5
*
AST 116 09
9.1
13.0
12.0
10.0
21
*
*
17 1211 03
15
56
*
*
B29 146 12 1214 12
17
10.0
10.0
10.0
13.0
11014
*
*
26
72
15
II
1214 29
HOQ 116 58 123 56
OSH '16 57 1214 06
GRH 116 55 121! 06
El Anem Coast
Mt Angle
Pos
2140
3
71
*
12.5
17
3
0
6.1
6.1
6.1
5.0
6.1
0
10.0
6.1
9.1
37
0
6.1
6.1
9.1
111
*
6.1
6.1
1314
1314
1314
120
120
110
110
95
95
95
90
90
90
90
814
82
0
87
*
10.0
10.0
120
115
115
73
73
90
90
103
103
103
75
75
75
90
100
110
0
0
133
133
1.15
Table 1.1. (continued)
Alongsh
Abb
Cl'
Cli 3833
C5 38 31
R3 38 22
BML 38 19
B13 38
C5
R3
Bodega Marine Lab (CODE), CA
•
Lat
Station
NDBO 116013
NDBO '16026
Pillar Point, CA
NDBO 116012
Pigeon Point, CA
Point Pinos, CA
* Monterey, CA
Point Sur, CA
NDBO 116028
Point Piedras Blancas, CA
* Morro Bay, CA
Diablo Canyon, CA
* Grover City, CA
NDBO
NDBO 146023
Santa Barbara, CA
NDBO 146025
Point Mugu, CA
San Nicholas Island, CA
NDBO 1160211
Los Angeles, CA
Long Beach, CA
San Clemente Island, CA
San Diego, CA
* Imperial Beach, CA
Lon
Data Processed
Pr Wind AT WT
*
0
0
*
*
0
0
123 13
*
*
123 011
*
123 110
*
0
7116
*
*
*
*
B26 37 118 122 112
*
*
*
*
37
37
37
36
36
36
30
22
11
38
35
18
(m)
*
123 32
123 18
PIL
B12
PIG
PIN
MRY
SUR
Pos
(km)
122 30
122 39
*
*
*
9
*
*
—278
50
*
—301
121 56
121 51
121 53
B28 35 118 121 112
PPB 35 110 121 17
MOR 35 22 120 118
DIA 35 111 120 50
GRO 35 08 120 38
Bil 314 53 120 52
*
*
0
110
—171
—191
—271
122 211
*
*
*
0
7116
7156
0
6
Ht
Angle
GT
(deg)
3.5
3.5
3.5
10.0
10.0
10.0
15.2
5.0
133
133
133
133
133
125
105
105
102
110
110
115
130
130
130
120
90
90
90
175
170
155
155
155
150
150
130
105
105
6.1
6.1
6.1
6.1
*
1155
15
0
18
18
*
—'16't
2
9.1
5
0
0
10.6
10.0
5.0
*
*
*
*
—370
—1101
*
—1i87
*
*
*
*
B23 314 15 120 110
SBA 311 26 119 50
*
*
*
*
*
*
B25 33 36 119 00
MUG 31! 07 119 07
SNI 33 15 119 27
B211 32 50 119 10
LOS 33 56 118 211
LBC 33 149 118 09
SCI 33 01 118 35
SDO 32 1414 117 10
IMP 32 314 117 07
*
*
*
*
*
*
*
*
*
*
*
*
*
*
785
*
*
*
*
—825
—936
*
*
9514
*
*
—506
—563
—623
—650
—678
—685
—750
10.0
6.1
1i.0
14
6.1
0
5.0
3
14.0
173
3.0
10.0
0
21
9.1
6.1
52
7.9
10
6
6.1
31!
6.1
-I
Table 1.2: Meteorological Data Source Informatton.
Source
1.
University of
Wisconsin SSEC
MeIDAS surface
obs.
Station
QUI
IIOQ
AST
NOB
cc!
3.
H.
OSU Atmospheric
Science Dept.
Marine circuit
reports — north
region (NWs SOSU,
Seattle)
Data Source
Format
magnetic tape
it.. 1
Source Units
Pressure
Winds
altimeter
setting
At—i
Other
Variables Received
speed — knots
direction—degrees
clockwise from N
At—i
At—i
air temperature
relative humidity
precipitation
visi bill ty
[i6]At—1
KR!
SBA
MUG
1
At.. I
500
(16)At..I
At—i
At—i
At—i
At—i
IMP
[16)At—1 hr (1) (H)
Sc'
NDBO buoy data
GMT
At..
LOS
LBC
I!!!?!
8t—i
ACA
SKI
2.
and Time
C,.,
802
805
At—i
At—i
CLB
At—i
Bil
At—i
812
813
822
823
B2H
At—i
At—i
At—i
At—i
At—I
825
At-i
B26
827
B28
829
BNE
At—i
At—i
At-i
At—i hr(i)
At-i hr(1)
FMP
CBL
At—i hr(i)(5)
CBT
At—i
At—i
CPF
NBA
OST
At—3
16]At—3
At—3
CPD
15]At—3 hrtU(3)(5)
Slu
[6Jat=3
CMI
magnetic tape sent
mb
speed — ni/s
direction—degrees
clockwise from N
air temperature
dew point, sea
surface temperature
wave statistics
by NCC in NDBO f or—
mat containing data
from all buoys
worldwide
PSI
disk file
(none)
speed — knots
direction—degrees
clockwise from N
(none)
CMI
teletype output
(coded and keypunched)
(none)
speed — knots
wave
pt.
air
temperature
Marine otruit
reports — south
region (NWS WSFO,
Redwood City)
ARL
PIG
SUR
PPB
At—i
At—i
At—i
At—i
ONT
teletype output
(coded and key—
punched)
(none)
speed — knots
direction—i6
(none)
5.
6.
Meteorological
data logna from
ORB
At—3
[5lAt—3
At-3 hr
PSI
marine coastal
weather log
(coded and key—
punched)
(not
digitized)
speed — knots
directton—16
sky conditions
visibility
sea state
air temperature
PSI
magnetto tape
(none)
speed — knots
direction—degrees
clockwise from N
(none)
CMI
disk
(none)
NCC (i980—i98'l)
7.
Battele NW Labs
wind tower data
IlL
HUM
PCB
PIL
'At—3 hr
PIN
At—3 hr
ART
At-i
At-i
hr(i)(5)
m/s
(none)
NEW
PSO
Ati hr
DIA
At—i
PSI
magnetic tape
(none)
speed — mph
direction—degrees
clockwise from N
dew point
air temperature
10. Scripps Institution
of Ooeanography
BML
SRA
At-i hr
At-i hr
PSI
magnetic tape
(none)
alongshore and
across—shore
(none)
ii. WHOI CODE buoys
N3
C2
C3
hr
hr
hr
hr
hr
hr
GMT
magnetic tape
mb
(C5 only)
speed — rn/s
direction—degrees
clockwise from N
air temperature
sea surface temp—
erature, insolation
C5
R3
At-i
At-i
At—i
At-i
At—i
At—i
At-i
At'1
At-i
At—i
At—i
hr(U
GMT
magnetic tape
(none)
speed — rn/s
(none)
PRR
MCI
CSC
NOD
LEN
8.
OSU Oceanography
9. Pacific Gas and
Electric
i2. Canada Climate
Center
At-i hr
clockwise from N
hr
GMT
magnetic
At-i hr
At-i hr
PSI
hardcopy data
forms (coded and
keypunched)
tape
(none)
speed — rn/s
direction—degrees
clockwise from N
(none)
(none)
speed — rn/s
direction—degrees
clockwise from N
(none)
British Columbia
1H. San huts Obispo Air
Pollutton Control
District
MOB
CR0
15. University of
Washington
OSH
16. FNOC/Compass
Systems, Inc.
Hakun Data
35—pt.
CODE
grid
At.1
hr
ONT
card—Image
magnetic tape
hr
CMI
card—Image
magnetic tape
(none)
speed — rn/s
direction—degrees
clockwise train N
(none)
mb
u,v
wind stress divergence
wind stress curl
Ekman transport
Sverdrup transport
rn/s
1.19
Table 1.2: Notes.
(1)
(2)
Occasional (<20%) mIssing data observations. For the SSEC University
of Wisconsin data set, most missing reports were due to down time of
the McIDAS computer at Wisconsin used for real—time data collection,
a problem that became more serious after April 1983.
After mid—July 1981, station did not record data at night. The
per day is given in brackets.
number of
station
did
not
record
data at night. The number of observations
The
per day is given in brackets.
The station did not record data at night or on weekends. The number
of observations per day during the week Is given in brackets.
Long data gaps (>10 days) occurred occasionally.
After 11/1/81.
N, NNE, NE, etc.
Not at all stations.
Frequent (>20%) missing data reports.
Prior to 11/1/81.
After 9/1/82.
36—pt. compass for PRR, MCI, CSC, CSJ; 8—pt. compass for NOO, LEN.
Prior to 9/1/82.
-
(3)
(II)
(5)
(6)
(7)
(8)
(9)
(10)
(11)
(12)
(13)
Important Abbreviations
FNOC
NCC
NDBO
NWS
OSU
SOSU
SSEC
WSFO
LFM—II
Fleet
Numerical Oceanography Center
National Climatic Center
= National Data Buoy Office
= National Weather Service
Oregon State University
Seattle Ocean Service Unit
= Space Science and Engineering Center, University of Wisconsin
= Weather Service Forecast Office
Limited Fine Mesh Model #2 (from 1*15)
=
1.20
Table 1.3. CODE Grid Points for Calculated Meteorological and Sea
Level Data.
Coast orientation is in degrees anticlock—
wise from due east.
Only data from odd points between
and 17 and from 314 are used in the time series plots.
Latitude is in degrees and minutes north; longitude is
in degrees and minutes west.
1
Station or Point
Number
Rotation
Coast Correction
Orient. for Winds
Lat
Lon
(km)
(deg)
20
19
13
06
1800
1620
120
115
22.7
111110
149 23
130
128
127
126
100
11.7
1260
13
12
118 11
1211 142
1080
11
1114
36
58
900
720
10
143
21
1211 05
1211 03
1211 20
128
120
95
141
116
121! 12
140
12
1211 18
360
180
38 142
123 27
0
122 214
—180
—360
—5110
03
37 18
35 59
314 35
31! 01
130
133
102
128
90
33
01
35
31 27
30 00
150
110
110
115
314
28
117
115 51!
1114 141
—720
—900
—1080
—1260
141.3
02
—114110
27 20
130
33
113 52
26 07
112 140
130
130
115.0
145.0
32
—1620
—1800
17
09
16
52 10
50 32
15
09
08
07
06
05
0i4
116
00
121 31
120 39
118 53
117 21
116 1414
5110
85
73
103
(deg)
211.2
21L1!
37.1
32.1
15.6
311.2
51.6
23.9
39.14
1411.6
38.2
13.6
146.1!
145.0
145.0
145.0
_______
1 .21
Latitude is in degrees and minutes
Table 1.11. Sea Level Station Information.
north; longitude is in degrees and minutes west.
Alongsh
Pos
Station
Abb
Prince Rupert, BC
Bella Bella, BC
Zeballos, BC
Tot mo, BC
PRR
BBL
ZBL
TOF
514
Bamfield, BC
BAM
118
Renfrew, BC
Neah Bay, WA
Toke Point, WA
Astoria, OR
South Beach, OR
Charleston, OR
Crescent City, CA
Trinidad Head, CA
North Spit, CA
Arena Cove, CA
Point Reyes, CA
San Francisco, CA
REN
NBA
Half Moon Bay, CA
Monterey, CA
HMB
San Luis, CA
Santa Barbara, CA
Rincon Island, CA
Santa Monica, CA
Los Angeles, CA
Port
Port
La
Jolla, CA
San Diego, CA
*
Lat
Lon
1883
117
13149
119 09 125 55
126
Stations Used for *
Adjustment
Barometric
(km)
19 130 20
52 10 128 08
50 01
Atmospheric Pressure
1608
149
125 06
33
22
121!
214
1214
37
1232
1164
1110
1100
142
123 58
911
CG17
CG16
CG111—CG15
CG111
CG13—CG114
46 10 123
116
41! 38
1214
03
852
683
CG13
CG13
CG12
CG11—CG12
CG1O—CG11
143 20
1214
19
538
CG1O
145
1214
11
359
03
40 145
1214
1214
09
14
277
CGO9
CG08—CGO9
38 55 123 143
38 00 122 58
37
TKP
AST
SBC
CHR
CCY
116
TRH
111
—126
MRY
37 145 122 28
37 30 122 29
36 36 121 53
—276
CGO8—CGO9
CGO7—CGO8
CGO6—CGO7
CGO6—CGO7
CGO6
CGO5—CGO6
PSL
35 10 120
115
—1173
CGO1I—CGO5
SBA
314 25 119
311 21
119
314 01
118
33 143 118
32 55 117
111
—6314
CGO3—CGO14
27
27
16
—650
—739
—780
—920
—938
C003—CGO1!
CGO3
CGO2—CGO3
CGO2
CGO1—CGO2
NSP
ARC
PRY
SF0
RIS
SMA
LOS
LAJ
11
SDO. 32 145 117 10
(two stations if interpolated alongshore)
2111!
—76
—1 63
1.22
56°N
48°N
40°N
32°N
24°N
1 36°W
128°W
120°W
Longitude (deg)
Figure 1.1.
CODE Meteorological Stations
11 2°W
1.23
56 °N
48°N
40°N
32°N
24°N
1 36°W
1 28°W
1 20°W
11 2°W
Longitude (deg)
Figure 1.2.
The CODE Coastal Analysis Grid Points.
(The
location of the CODE experimental site is shown.)
1 .24
56 °N
48°N
C,
C)
40°N
32 °N
24°N
1 36°W
128°W
120°W
Longitude (deg)
Figure 1.3.
CODE Sea Level Stations.
11 2°W
1.25
50
40
rn
30
a,
a,
20
10
0
0
10
20
30
40
50
60
70
80
90
100
Anemometer Height (m)
Figure 1.4.
Correction Factor for Wind Speed Adjustment to 10 m
a Function of Anemometer Height and.Wind Speed.
as
-I
I
B02
B05
I
I
I
I
I
I
I
a
PRR
D.
.
Cs'
t__
.
MCI
D
.
.
._
•Q
csc
:
NOO
I
:
•
SODS U
LEN
•o.
CPF
•
:
•DD
-•
I
NBA
QU!
I
I
I
-ai
I
•
DST
:
HOQ
I
:
:
;
I
•
OSH
GRH
.
I
.
I
I
CPD
B29
CLB
.
I
I
-I.
r_
AST
TIL
NEW
BNE
slu
I.
NOB
FMP
q
CBT
a
CBL
I.,,,1980
1981
a
V..,,. I•
1982
Measured Wind Data
Figure 1.5.
Chronograph of Measured Wind Data
:
-
V
1
I
•
I
I
1984
______________
I
.
.
•
•
n
I
•
•
•
a
a
a
a
a
a
a
a
a
I
a
a
a
a
a
a
a
a
a
a
a
a
I
a
'
a
a
a
B27
PSG
CCY
-.q.
ACA
HUM
B22
:
•1
PCB
B14
ARL
ART
:
N3
:
SRA
:
C2
:
C3
:
C4
:
C5
:
:
:
R3
:
:
:
B13
:
B26
PIL
B12
PIG
PIN
.0
ID
•
-
MRY
a
SUR
:
B28
I
I
I
I
I
I
I
I
1980
I
I
F
I
I
I
I
I
I
1981
I
I
a
u
I
I
I
I
I
I
I
a
I
a
I
1982
Measured Wind Data
Figure 1.5.
(continued)
I
•
I
•
I
i
•
1983
I
I
•
—
1984
-a
0,
I
I
I
I
I
I
I
.
a
OS ID
PPB
I
a
a
a
lu
.
1100
DIA
GRO
Bil
B23
SBA
B25
MUG
•
•
SN!
.05=0.
B24
LOS
.
•
•
:
:
LBC
-
•
.05
.
.0I
Sc'
SDO
I
I
I
I
1982
1981
1980
Measured Wind Data
Figure 1.5.
(continued)
1983
I
I
1984
_________________________________________ __________________________
_______
I
B02
B05
i
.
i
i
i
i
I
I
I
I
I
I
I
I
I
I
I
I
I
&
I
I
I
.
&
.
a
t
&
i
a
a
I
a
I
'C
:
:
•
1329
CLB
:
BNE
1327
1322
:
:
B14
N3
C2
•
C3
C4
:
•
C5
R3
-.
•:
:
:
I
1313
B26
B12
:
:
:
1328
Bli
B23
B25
B24
-.
:
.
:
•
,
,
,
,
,
•
•
•
1980
•
•
•
•
•
1981
•
,
•
•
•
•
.
.
•
•
•
•
1982
•
•
•
•
•
1983
•
•
•
•
•
•
•
•
•
1984
Air Temperature Data
'.O
Figure 1.6.
Chronograph of Air Temperature Data
______________
_______________________________________________________________
_______________________
____________________________________
—
I
.
I
I
I
I
I
I
I
802
B05
I
I
ii
I
I
I
I
:
829
CLB
•
827
822
814
:
•
N3
II
!DI
.
:
:
c2
I-.
C3
C4
cs
R3
:
:
813
826
812
:
•
:
B28
:
:
B 11
:
B23
:
825
B24
:
°
I
I
1980
I
I
1981
I
•
I
I
I
I
p
I
I
1982
Sea
Figure 1.7.
I
I
I
I
I
1983
Surface Temperature Data
Chronograph of Sea Surface Temperature
Data
I
I
•
I
p
i
I
1984
PRR
QCC
BBL
ZBL
TOF
•. ..
BAM
REN
NBA
TKP
AST
SBC
CHR
CcY
TRH
NSF
ARC
PRY
SF0
HUB
URY
PSL
SBA
a's
SMA
LOS
•
LAi
SDO
1981
1980
1982
Sea Level Data
Figure 1.8.
chronograph of Sea Level Data
1983
1984
2.1
for LIJP Data.
2.3
Table 2.1: Statistical summary of measured winds, 1980814.
All orientations are measured anticlockwise from due east.
Station
B02
B05
PRR
CSJ
Coast Pct
Orient Good
(km) (deg) Data
11113
0
1883
1760
———
———
120
115
70
55
Principal Axis
Std Dev
Orient
Mm
(deg)
82
39
(m/s)
—7
13
103
113
133
111
Mm
128
38
5.38
5.69
2.77
6.71
14.00
11.20
1.39
11.23
MCI
1630
115
29
102
12
14.33
2.33
CSC
11467
1311
37
106
16
3.25
1.39
N00
1286
1311
11
20
—69
3.19
Std
Dev
Wind Mean
Comp (m/s) (m/s)
u
V
u
v
u
v
u
v
u
v
u
v
2.61
v
LEN
1215
1311
23
18
—71
2.78
1.95
.
CPF
11011
120
21
26
—63
3.911
2.25
1.51
1.20
NBA
1101
120
38
168
78
2.93
QUI
1055
110
53
107
17
1.72
DST
1022
110
19
511
11411
3.57
1.70
.
HOQ
OSH
9'Il
95
53
9141
95
11
72
3.18
1.91
176
86
2.98
2.10
120
30
3.66
3.119
162
.
GRH
936
95
37
.
CPD
865
90
38
113
23
11.96
3.113
529
856
90
1!
97
7
14.65
2.11!
CLB
AST
8511
90
78
850
90
514
53
—11
11.52
3.78
—25
2.143
2.23
u
v
u
v
u
v
u
v
u
NEW
786
683
811
82
11
53
99
61!
9
—25
5.119
3.111
2.61
2.00
3.39
0.311
—0.98
1.35
—3.93
8.90
18.52
19.62
10.10
18.06
2.211
0.71
5.87 —111.714
—0.27
1.60
2.116 —13.02
14.25 —10.96
1.63 —8.22
1.37
—1.87
2.53
—1.67
9.141
14.1411
3.114
—6.141!
114.93
3.13
2.70
—9.13
7.96
9.66
5.56
9.36
13.26
13.90
11.88
8.65
—14.29
0.114
—8.19
2.05 —5.145
3.67 —11.112
2.67 —5.23
2.88 —7.25
—5.68
1.60
1.26 -11.23
0.66
1.67
—11.08
—9.26
—6.52
—7.92
—8.60
—6.95
11.140
0.211
3.06
2.50
3.09
2.06
2.98
0.16
2.11
—11.28
11.145
0.62
3.53 —10.77
3.62 —9.83
12.77
13.37
15.32
20.38
7.05
11.09
13.10
0.147
—0.73
1.60
0.65
0.88
0.211
u
v
u
V
u
v
u
v
u
v
u
V
u
0.51
u
v
u
v
16.58
15.86
18.10
18.79
5.33 —17.811
—0.147
Max
(m/s)
11.03 —13.06
5.36
14.30 —12.73
5.62 —16.514
2.114 —11.09
1.116
V
v
TIL
2.27
—0.146
Mm
(m/s)
0.58
0.115
0.07
2.03
1.58
0.29
—0.21!
2.71
3.72 —114.01
11.711
—8.114
2.20
—14.60
—8.33
3.81 —11.27
11.63
—10.22
5.614
7.147
8.81
8.63
10.25
9.83
1.141
14.50
0.29
0.90
0.18
2.27 —7.12
2.39 —5.116
2.72 —11.60
7.12
12.10
2.119
0.21!
5.1411 —12.71
21.85
11.62
0.01
2.33
3.20
—7.81
111.111
8.146
111.76
2.4
Table 2.1. (continued)
Station
BNE
Coast Pet
Orient Good
(km) (deg) Data
680
82
3
Principal Axis
Orient
Std Dev
Mm
(deg)
75
Mm
(m/s)
—iLl
11.08
1.112
SIU
612
81
311
90
0
14.75
2.82
NOB
5117
73
53
107
17
3.111
1.38
FMP
525
73
lii
75
—111
5.17
1.93
CBT
1180
90
36
97
7
6.11
1.88
CBLI
1180
90
111
80
—9 10.1111
2.62
B27
3611
103
6.03
1.811
PSG
362
103
CCY
362
103
ACA
270
75
9
111
97
106
7
16
11.72
1.36
110
103
13
3.92
1.37
51
1111
211
2.59
1.16
HUM
2115
75
37
101
B22
2110
75
148
92
ii
2
3.79
1.148
6.10
1.72
PCB
87
90
32
122
32
3.32
1.25
Bill
71
100
62
1114
214
6.011
1.72
ARL
111
110
39
100
10
11.88
1.51
ART
37
110
2
1111
214
2.97
0.60
Std
Wind Mean
Comp (m/s) (m/s)
u
v
u
v
u
v
u
v
u
v
u
19
133
6
115
25
5.26
0.78
SRA
0
133
22
118
28
11.15
1.21
C2
0
133
7
126
36
6.12
1.67
C3
0
133
12
132
142
5.89
1.20
CII
CS
0
0
133
133
7
13
129
113
39
23
5.52
5.60
1.08
1.314
0.02
0.12
0.32
0.00
0.16
0.77
—1.06
—0.19
—0.80
V
1.15
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
—0.35
0.15
v
N3
1.115
—0.111
u
v
u
v
u
V
u
v
u
v
u
v
—0.110
1.02
0.32
—0.11
0.15
—0.19
—0.02
—0.36
0.32
—0.77
0.32
—0.55
1.50
—2.014
—0.17
—1.99
2.55
—5.82
2.93
—6.23
1.111
—2.05
3.55
—3.60
5.112
—14.68
(m/s)
(m/s)
—1.62
3.98 —9.26
2.82 —111.96
7.01
1.71
11.75 —16.88
1.66 —5.82
3.28 —12.811
2.26
5.03
2.03
6.06
3.13
10.30
1.98
—5.30
—9.82
—15.79
—12.58
—11.91
—16.57
—8.11
6.00 —16.119
1.86 —7.53
11.511
—12.78
1.63 —11.16
3.82 —13.03
1.50 —5.63
2.111
—7.112
1.63
—8.55
3.73 —17.12
1.75 —8.119
6.10 —111.77
2.09 —6.78
2.87 —10.39
2.96 —11.37
5.55 —114.60
1.73
7.1111
14.80
8.33
13.65
20.211
6.20
9.99
10.28
17.63
5.70
21.37
16.73
314.117
8.02
111.26
8.211
111.56
7.33
12.03
11.35
8.03
7.38
12.31
9.10
18.95
10.68
10.88
11.12
19.77
10.61
17.614
1.311
—1.97
2.73
2.35
—9.06
5.00
3.93
6.85
14.78 —15.36
2.214
—7.71
10.311
3.70 —11.66
3.87
5.03 —16.07
9.81
8.611
—8.91
11.45 —12.93
15.32
10.20
13.37
9•57
10.114
11.05
11.39
3.59
—8.29
—11.82
14.314
—12.57
9.311
11.011
2.511
7.116
8.111
5.17 —17.311
11.88
—7.52
2.5
Table 2.1. (continued)
Station
Coast Pet
Orient Good
(km) (deg) Data
—35
133
13
Principal Axis
Std Dev
Orient
Mm
(deg)
137
117
Mm
(mis)
5.28
1.311
BML
—116
133
119
128
38
3.39
1.80
B13
—61
133
61
1110
50
5.63
1.97
B26
PIL
B12
PIG
PIN
MRY
—116
—156
—171
—191
—271
—278
125
105
105
102
110
110
27
135
115
311
139
149
11.511
26
14.77
62
36
37
52
116
139
158
158
119
68
68
11.61
14.87
2.87
1.51
SUR
—301
115
39
116
26
11.111
B28
—370
130
10
1314
1411
14.119
PPB
MOR
DIA
GRO
Bil
B23
—1401
—1155
—14611
—1487
130
130
120
90
21
37
82
9
1142
16
137
126
36
3.39
'-563
90
121
5.01
B25
—650
170
Ill
149
—678
—685
—750
155
53
13
2.29
0.79
0.95
0.92
1.05
1.011
0.89
1.112
141
163
1.611
1.30
1214
53
1.79
0.59
59
31
1.91
0.93
90
175
B214
147
1.68
—506
—623
SNI
—73
3.71
11.09
SBA
MUG
52
2.39
Std
Dev
Wind Mean
Comp (m/s) (m/s)
Mm
(m/s)
3.99
—8.113
u
v
u
v
u
v
5.35
—3.79
u
v
u
2.116
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
u
v
73
1.614
0.80
59
2.611
1.1414
u
1.31
v
u
—76
155
52
130
140
155
314
131
111
2.06
3.314
1.36
3.86
1.58
3.71 —12.211
Max
(mis)
13.31
9.56
12.75
12.23
—0.82
1.82
2.53 —7.78
2.88 —10.91
—10.57
3.86 —12.27
3.68 —8.98
—8.88
3.66
3.67 —15.13
3.28 —11.37
2.614
—7.50
—2.011
11.35 —15.611
15.98
1.77
—1.69
2.05
0.14
0.85
—0.06
1.02
—2.65
5.00
3.85 —114.00
—8.91
3.141
12.91
2.80
2.38
—6.39
12.09
—7.711
11.27
1.1111
—3.145
8.96
—14.30
3.27 —10.514
1.78
—1.78
0.26
—0.28
1.95
—2.22
1.00
—0.27
2.60
—3.31
3.82
3.00
3.1411 '-11.88
11.78
10.88
2.91 —13.16
12.141
'-5.63
11.31
10.311
0.32
0.60
2.23
—0.62
1.58
0.90
2.39
1.82
1.119
—1.28
3.68
—2.31
—1.00
2.011
0.914
v
'-021
u
v
u
v
2.20
—1.52
14.17
—3.92
2.17 —8.02
3.95 —11.19
3.22 —3.98
0.91
1'4.71
15.314
11.03
13.71
111.111
111.86
11.711
13.814
14.71
8.22
11.71
11.37
6.77
—9.52
—9.05
—7.98
11.814
2.58
2.37 —10.35
0.73 —0.92
0.83 —3.1411
2.56 —7.08
10.71
2.113
1.61!
5.09
5.76
1.11
—7.69
—8.73
—9.38
2.02 —11.05
1.36 —10.93
2.111
11.110
'-8.83
2.68
2.81 —10.80
3.08 —12.98
9.811
3.70
1.614
7.141
5.36
11.92
9.80
9.71!
6.29
11.514
8.142
13.08
12.149
2.6
Table 2.1. (continued)
Station
LOS
Coast Pct
Orient Good
(km) (deg) Data
'.757
LBC
150
53
Principal Axis
Orient
Std Dev
Mm
(deg)
172
82
!!!n
(m/s)
1.68
1.27
150
53
153
63
1.59
1.18
SCI
'.825
1 30
111
153
63
2.20
1.118
SDO
—936
105
53
121
31
2.20
1.25
Std
Wind Mean
Comp (m/s) (m/s)
u
v
u
v
u
V
u
v
Max
Mm
(m/s)
(m/s)
13.53
1.62
0.36
1 .68
'.5.51
1 .28
—6.'46
7.119
0.91
1 .52
11 .30
0.01
1 .65
1.82
1 .57
—7.02
—5.07
—6.37
'.912
—5.36
'.0.33
1 .99
—7.11
0.1114
1 .27
2.05
2.08
7. 514
10.90
7.51
10.90
9.90
2.7
Table 2.2: Statistical summary of calculated winds, 1980—814.
All orientations are measured antlc].ockwise from due east.
Station
CG17
Coast Pot
Orient Good
(km) (deg) Data
1800
Principal Axis
Std Dev
Orient
Mm
(deg)
(m/s)
Std
Wind Mean
Comp (m/s) (m/s)
1620
CG15
(m/s)
5.50 —27.66
111.67
"9147
115
100
125
35
6.26
11.27
u
V
—0.86
3.29
0.07
2.58
5.66 —10.26
25.89
15.83
23.05
100
100
110
20
6.22
11.11
u
0.1114
11.1114 —18.30
15.118
V
2.38
0.65
5.99 —11.75
23.27
15.59
23.56
15.09
23.35
16.02
22.93
17.68
120
99
132
112
6.80
'Lii
U
V
CG16
(m/s)
5.711
5.011 —23.77
14.142 —20.95
CG111
1260
128
100
113
23
6.19
3.97
U
V
1.911
5.88 —12.011
CG13
1080
120
100
110
20
6.33
3.88
u
0.88
14.27 —21.814
V
1.51
6.08 -111.09
3.81
u
3.99 —21.29
3.96
V
U.
1.07
0.90
0.911
0.118
3.96 —20.12
0.36
0.18
0.15
11.011
16.115
6.36 —1't.86
23.35
3.93 —15.98
—0.79
6.52 —114.81
15.26
22.39
13.20
22.27
11.99
21.67
CG12
CG11
900
720
95
85
100
100
103
13
90
0
6.25
6.20
V
CG1O
5'IO
73
100
77
'-12
6.116
3.89
U
V
CGO9
360
103
100
76
—13
6.65
3.71
U
V
CGO8
CGO7
180
0
130
133
100
100
81
—8
90
0
6.76
6.11
3.15
2.96
—180
102
100
103
13
5.31
3.02
.
CGO5
CGO11
—360
—5110
128
90
100
100
117
126
CGO3
—720
150
100
1115
CGO2
—900
110
100
1119
27
36
11.77
11.33
3.111
3.23
55
11.80
2.93
59
11.71
2.149
•
CGO1
CG3 5
—1080
—1260
110
115
100
100
1117
1148
57
58
14.02
3.115
2.22
2.31
CG311
—111110
130
100
163
73
3.10
2.16
CG33
'-1620
130
100
167
77
2.86
2.10
CG32
—1800
130
100
159
69
2.60
1.98
6.20 '15.89 23.00
u
1.07
3.28
6.70 —17.36
2.96
V
—2.82
6.11 —17.142
u
1.59
3.19
'-9.52
V
—3.31
5.21
—17.09
12.69
19.73
U
0.69
V
—2.02
.
CGO6
6.111
u
2.05
3.55 —11.15
114.111
V
—3.62
11.118 '-16.01
2.37
3.66 '-12.50
17.61
u
V
—3.89
u
2.25
V
—14.119
U
2.314
V
u
V
u
V
u
V
u
V
u
V
114.511
11.30 —16.62
16.72
15.98
3.63
3.97
—17.148
'-17.00
114.70
11.26 —16.147
16.38
—5.01
3.20
12.118
3.03
3.58
15.19
—5.76
3.67
'-5.36
11.19
—11.96
2.87 —13.08
3.19 '-9.93
2.66 —13.67
3.03
11.115
13.149
10.22
13.52
'-3.71
2.25
'-9.25
8.51
3.88
2.83
'-5.119
'-2.53
2.111
—9.26
12.93
10.05
3.10
2.53
'-7.11
12.147
2.8
Table 2.3: Statistical summary of adjusted coastal sea level,
Pot
PRR
QCC
BBL
ZBL
TOF
BAM
REN
NBA
TKP
AST
SBC
CHR
CCX
TRH
NSF
ARC
PRY
SF0
HMB
MRY
PSL
SBA
RIS
SMA
LOS.
LAJ
SDO
Std
Data
(cm)
89
82
82
72
85
90
9.811
7.62
10.72
13.33
12.62
88
90
82
86
90
88
90
76
90
60
90
90
114.05
33
90
90
20
90
79
90
90
90.
Mm
(cm)
Max
(cm)
'26.59
'27.21
38.93
'31.78
52.15
12.3i4
"214.36
52.147
11.95
'23.31
"27.35
57.85
58.17
18.65
15.29
'.35.50
102.914
114.20
'32.014
12.91
'28.90
12.39
11.50
'314.31
66.70
59.88
50.28
38.78
39.142
146.72
82.39
63.145
11.514
'32.149
112.53
10.39
10.65
10.62
9.211
8.75
8.22
5.53
7.93
7.30
7.73
7.95
8.02
'.211.72
119.67
-31.36
39.09
"26.82
113.99
'19.16
36.23
26.60
'19.57
'.20.16
'.13.21
'.22.1114
'.21.58
'.20.66
'.18.88
'.18.911
211.25
25.13
25.19
27.62
211.98
26.88
28.15
2.9
Table 2.4: Statistical summary of calculated alongshore wind stress,
Pct
Good
Data
Mean
Std
Dev
(cm)
(cm)
Mm
(cm)
Max
(cm)
CG17
CG16
89
90
0.99
0.68
2.40
1.66
"2.22
"2.00
31.45
18.85
CG15
CG14
90
90
0.66
0.58
1.67
1.70
"2.25
"2.84
15.63
CG13
90
0.53
1.57
"3.33
CG12
90
90
90
90
90
90
90
90
90
90
90
90
90
90
90
90
0.40
0.34
0.25
0.10
"0.21
"0.39
"0.27
"0)49
"0.43
"0.67
"0.36
"0.45
"0.43
"0.33
1.30
1)40
1)42
1)49
1)40
1.19
0.85
0.84
0.69
0.77
0.38
0.38
0.39
0.31
0.25
0.25
15.15
11.26
"4.61
"3.91
"5.32
14.51
18.11
17.69
"5.28
"5.39
"6.03
"6.07
"2.57
"2.20
"2.76
"2.05
"1.38
"2.03
11.78
10.67
9.27
6.45
6.05
3.78
3.39
2.89
2.97
1.70
2.44
2.22
CG11
CG1O
CGO9
CGO8
CGO7
CG06
CGO5
CGO4
CGO3
CGO2
CGO1
CG35
CG3J4
CG33
CG32
"0.23
17.21
2.10
Table 2.5: Statistical summary of
Pet
Good
Data
air temperature, 1980..811.
Mean
Std
Dev
("C)
(°C)
Mm
B02
505
529
71
12.311
66
10.69
2.76
2.96
5.76
2.73
10.71
1.61
7.51
CIJB
115
1o.61i
3
10
10.20
B27
B22
118
12.13
Bill
62
12.31
7
8
11.13
10.97
10.79
11.27
11.63
10.90
12.17
3.13
1.57
1.99
1.90
1.72
1.23
1.40
1.10
1.33
1.16
1.08
BNE
N3
C2
C3
5
12
CII
7
C5
R3
13
14
B13
B26
B12
B28
61
28
63
11.111
Max
(°C)
6.01
3.22
11.36
7.07
9.11
19.07
17.96
111.55
20.79
13.58
17.39
17.25
18.80
14.02
7.119
7.66
8.38
111.97
8.61
114.95
114.63
7.72
114.78
1.711
7.11
12.118
2.01
12.98
12.10
1.62
0.96
18.90
20.88
18.98
ii
Bil
60
13.71
1.711
523
B25
113
111.58
111
16.72
B211
35
15.67
1.97
2.13
2.03
6.87
8.06
9.59
9.28
10.09
11.19
11.211
111.71
20.21
22.76
23.115
23.16
2.11
Table 2.6: Statistical summary of sea surface temperature,
Pet
Good
Data
B02
B05
B29
CLB
B27
B22
71
B114
70
Mean
Std
Dev
(°C)
(°C)
13.36
12.06
2.68
2.65
1.20
145
11.51
12.05
10
11.86
1.214
118
12.110
63
12.63
7
10.149
1.55
1.72
1.32
1.55
5
N3
C2
C3
8
10.51
12
CII
7
9.92
10.73
13
11.111
114
28
10.29
11.92
13.10
63
13.110
11
C5
R3
Mm
(°C)
Max
(°C)
9.37
8.30
9.68
6.93
9.86
8.39
19.20
18.36
8.140
17.96
13.83
111.81
17.33
114.77
17.211
8.17
8.08
114.87
1.143
7.91
114.53
1.37
1.17
8.27
8.77
114.16
111.58
1.1414
8.014
1.92
1.88
1.55
1.25
1.88
8.15
17.142
8.714
17.63
18.18
B13
B26
812
B28
61
Bli
60
12.140
114.37
823
825
143
15.114
2.011
140
17.71!
B214
33
16.97
2.05
1.96
9.85
9.65
10.15
10.65
13.118
13.119
114.58
20.17
20.38
22.86
22.39
2.12
Table 2.7: Statistical summary of calculated atmospheric pressure,
Pet
Good
Data
CG17
CG16
CG15
CG14
CG13
CG12
CGO3
CGO2
89
90
90
90
90
90
90
90
90
90
90
90
90
90
90
90
CGO1
90
CG35
90
90
90
90
CG11
CG1O
CGO9
CGO8
CGO7
CGO6
CGO5
CGOII
CG311
CG33
CG32
Mean
Std
Dev
(mb)
(mb)
1013.01
10111.16
10111.60
1015.39
1015.911
1016.117
1017.07
1017.33
1017.27
1016.97
9.83
9.36
9.33
8.60
7.97
7.53
7.20
6.65
5.98
Mm
(mb)
Max
(mb)
963.67
965.29
970.19
975.12
980.19
1039.33
1037.58
1038.50
9814.33
1036.59
986.311
1036.119
988.02
990.26
1035.89
1037.711
10311.03
5.116
989.33
1032.116
1016.611
5.10
990.50
1016.38
1016.22
14.89
11.55
992.83
1016.014
11.03
993.55
1015.12
3.98
9911.01
10111.16
11.03
9911.60
1013.93
1013.51
1013.17
1013.95
1013.72
3.77
3.52
3.30
3.03
2.85
995.65
996.58
998.29
1001.65
1003.39
1032.93
1033.35
1032.78
1030.78
1029.07
1027.71
1026.59
992.111
1025.116
10211.38
1023.611
1022.79
2.13
Table 2.8: Seasonal statistics of measure winds:
Table 2.8a: Major axis orientation in degrees anticlOckwiSe from due east.
Summer
Winter
1980
B02
B05
PRR
CSJ
MCI
CSC
N00
LEN
CPF
NBA
QUI
DST
HOQ
OSH
GRH
CPD
B29
CLB
AST
TIL
NEW
BNE
1981
1982
1983
198't
112
76
95
130
66
87
61
1211
117
127
98
113
1119
121
111
103
98
105
118
14
15
26
10
172
89
1311
•92
172
95
0
1981
1982
1983
198k
77
99
137
135
99
113
66
98
132
112
107
62
92
98
27
16
514
176
116
137
110
1112
179
115
138
1
1117
1311
1116
166
87
112
150
2
22
115
17
911
91
120
1011
1011
33
57
714
110
911
60
62
91
88
56
16
19
113
97
51
111
811
88
120
102
121
51
67
92
99
79
89
86
100
814
71
121
76
78
102
62
SIU.
NOB
FMP
CBT
90
CBL
57
B27
PSG
CCY
ACA
100
98
106
HUM
B22
PCB
125
Bill
ARL
ART
99
814
95
67
100
67
98
75
97
1111
814
82
97
102
102
101
101
911
100
88
90
101
1214
101
86
123
108
100
95
136
914
1014
126
98
116
117
98
102
111
118
88
SRA
C2
C3
115
1114
98
111
127
3
135
157
133
129
C11
1113
110
135
112
1311
118
CS
R3
22
126
132
11411
127
911
914
119
125
119
115
116
93
82
95
111
1111
121
100
103
102
85
N3
BML
101
9
29
111
1119
1
1980
2.14
Table 2.8a. (continued)
Winter
1980
B13
B26
PIL
B12
PIG
PIN
MEY
1981
Summer
1982
1983
19811
135
136
145
132
914
129
1145
116
113
10)4
1119
1111
161
158
124
21
157
SUR
B28
119
116
117
PPB
MOR
DIA
GRO
151
139
1)43
811
118
77
27
28
42
1311
1311
1314
1982
1983
1981!
142
131
143
11114
127
129
1113
1111
122
111
125
11)4
132
132
1 35
1 32
179
112
115
1 63
155
138
1 110
2
138
133
131
96
111
171!
165
120
160
152
MUG
11
SNI
132
17
137
13)4
180
126
145
B211
LOS
LEC
SCI
SDO
115
1981
130
113
B23
SBA
B25
1980
1!
170
138
126
123
122
127
135
130
122
132
119
12)4
167
161
1511
1117
13)4
165
133
1 117
131!
129
177
138
109
152
1117
18
137
136
129
127
120
136
121
176
161!
0
128
156
115
160
136
1)47
148
106
107
1611
150
1112
135
136
2.15
Table 2.8b: Standard deviation of measured wind major axis component in rn/s.
Summer
Winter
1981
1982
1983
19811
B02
B05
PRR
CSJ
MCI
CSC
N00
6.10
9.17
?.99
7.37
3.27
3.68
5.80
5.80
2.53
6.53
5.78
6.17
5.00
5.82
3.1114
3.143
LEN
CPF
2.31
NBA
3.12
1.97
3.26
3.77
2.76
2.53
2.96
2.87
1.90
1980
HOQ
OSH
GRH
CPD
2.149
5.141
11.111
3.214
3.23
1982
1983
198'4
14.61
14.36
14.38
11.36
14.72
11.65
14.63
2.75
6.38
3.20
3.07
2.50
3.03
3.02
2.67
5.83
1981
2.83
2.69
1.83
2.611
1.146
1.117
2.911
3.36
14.30
3.111
3.18
2.39
3.99
11.30
3.33
3.1114
5.11
11.87
11.211
14.314
11.314
14.811
11.65
11.51
3.10
2.911
2.69
2.21
2.31
357
5.75
3.08
2.70
14.39
5.314
2.31
1.43
•
1.73
2.149
14.68
829
CLB
AST
TIL
14.89
14.20
NEW
14.01
3.146
3.511
3.118
2.014
14.08
BNE
SIU
NOB
FMP
CBT
CBL
B27
PSG
CCI
ACA
HUM
B22
PCB
.
14.31
14.76
2.22
2.55
5.27
2.71
3.89
8.26
14.37
3.93
3.11
3.32
3.05
2.36
3.88
3.79
ARL
ART
N3
SRA
14.26
3.00
3.90
14.20
5.88
14.66
14.08
5.146
5.55
10.06
10.140
10.93
6.88
7.16
8.31
5.12
11.73
14.18
3.07
5.113
Bill
14.86
14.28
3.91
3.117
11.141
2.143
1 .911
2.31
3.66
6.92
2.90
6.05
2.81
3.22
3.25
14.58
3.67
5.65
2.86
5.38
6.01
5.1411
2.58
11.30
14.09
3.65
1.91
5.01
11.81
5.18
3.09
5.32
5.29
3.61
11.25
.
2.97
6.20
C2
C3
11.51
5.26
3.00
6.15
6.09
5.52
6.17
11.69
5.61
3.06
3.06
14.511
5.01
14.20
2.77
3.83
3.03
5.17
CII
C5
R3
BML
B13
B26
11.79
3.66
2.50
2.39
11.33
QUI
DST
1980
3.93
3.26
3.35
3.27
5.17
2.90
5.20
5.114
14.20
11.111
11.81
3.51
11.27
3.82
2.16
Table 2.8b. (continued)
Winter
1980
PIL
B12
PIG
PIN
MRY
SUR
B28
PPB
MOR
DIA
GRO
811
1981
1982
1983
19811
5.77
11.116
3.55
5.20
5.12
'1.87
1981
1982
3.75
1.52
2.31
.11!
1.149
2.50
1.08
3.811
3.87
1.09
3.56
3.145
14.211
3.00
3.110
.99
2.81
1.03
2.79
3.142
1
11.73
3.97
3.89
2.66
.35
19811
3.115
3.56
1
1983
3.1414
5.08
2.143
11.214
1
.87
2.79
14.39
1
3.53
1.60
MUG
2.31
2.29
3.07
•
3.15
3.96
3.611
2.95
0.69
2.63
3.214
14.214
3.06
5.10
1.83
3.26
2.57
2.77
5.16
0.89
1.78
B214
LOS
LBC
Sd
SDO
1980
4.88
B23
SBA
B25
SNI
Summer
2.67
•
1.214
3.26
3.62
1.86
0.97
3.35
0.96
3.62
14.12
11.18
3.78
11.33
2.32
3.02
1.39
1.79
1.28
3.27
3.60
1.95
2.12
1.17
1.31
1.611
2.149
1.73
1.140
2.314
2.143
1.93
2.05
1.37
1.76
2.09
2.63
3.12
3.07
1.61
1.96
3.56
2.31
1.56
3.53
2.17
Table
2.8c: Standard deviation of measured wind minor axis component in m/s.
Summer
Winter
1981
1982
1983
19811
B02
B05
PRR
14.11
14.57
11.76
k.'49
CSJ
1980
1980
5.20
1981
1982
1983
19814
2.68
2.80
2.88
3.09
2.96
2.90
3.81
'1.85
5.211
1.31
1.62
1.17
1
.O)4
0.97
5.23
1.'I11
1.60
11.96
11.37
3.07
2.71
3.07
2.28
1 .50
1
1.31
1.10
2.114
1.60
2.73
0.91
1.69
1.711
CPF
2.57
1.67
NBA
QUI
DST
HOQ
OSH
GRH
CPD
1.611
1.1111
1.211
1.20
MCI
CSC
MOO
LEN
1.911
2.11
1.97
1 .97
1 .99
1 .90
2.31
2.21
1 .55
1.111
1 .113
1.16
1.19
0.78
0.76
1.73
1.59
1 .62
0.98
1 .57
1 .56
0.911
1.114
1 .79
2.19
3.33
3.99
3.116
3.26
11.08
2.95
3.95
2 25
2.51
1 .88
2.111
2.11
B29
CLB
AST
3.53
1.86
11.15
3.22
1.25
T IL
2.111
1.92
2.66
NEW
BNE
slu
NOB
FMP
2.27
1.86
1.93
3.62
2.911
1.36
1.06
1.15
1.11)4
2.92
2.10
3.147
1.113
1 .57
CBL
B27
PSG
CCY
ACA
HUM
1.13
0.97
0.87
1.38
PCB
1.37
Bill
ARL
ART
N3
SRA
1.71
1.10
3.01
1 .57
1 .72
1.67
0.86
0.73
1.01
1.06
2.30
0.119
2.011
3.07
3.119
0.61
1.13
1
2.61
1.12
2.21
1 .98
1.119
1 .0)4
0.92
0.90
1.113
1.119
1.211
1.11
1 .36
1.07
1.20
1.68
1.87
1.18
2.13
2.20
1.57
2.36
1.77
1.27
.119
0.69
0.57
1.17
0.72
0.99
1.22
1.12
1.25
1.111
1.10
0.78
1 .314
1.17
0.60
1 .55
0.814
1 .314
0.83
1.21
O
1 .90
1 .35
.52
1
0.60
1.27
C2
C3
1.16
1.39
2.20
2.00
0.61
0.78
0.86
1.32
1.18
1 .08
C1I
C5
R3
B26
1 •145
1.31
1 .96
B22
BML
1 .60
2.614
1 .112
CBT
B13
.98
1
2.63
1 .76
1 .65
0.77
2.51
2.52
3.12
3.80
1.78
1.914
0.80
0.68
1.22
0.98
1 .39
1.23
1
.60
1 .35
.87
2.18
Table 2.8c. (continued)
Winter
1980
PIL
B12
PIG
PIN
MRY
SUR
B28
PPB
MOR
DIA
GRO
Bi 1
823
SBA
825
MUG
SNI
52
LOS
LBC
Sc'
SDO
1981
2.60
2.2k
1.62
2.7k
0.85
1.31
Summer
1982
1983
1.82
2.3k
2.22
1.92
2.53
0.75
2.kl
198k
1980
1 .73
1.95
0.87
0.7k
0.88
0.80
1.17
1.11
0.6k
0.72
0.92
1.01
1981
1982
1.05
0.79
1.28
0.86
1.26
0.52
0.91
1983
198k
1.08
1.00
1 .50
1
.57
1 .59
0.59
0.79
0.89
0.97
1.k7
1.kO
0.8k
0.80
0. kO
1.7k
1.50
0.75
0.67
1.3k
1.26
1.21
1.56
0.81
0.99
0.96
1.k2
0.97
1.01
1.L6
1.00
1.90
2.0k
0.77
2.16
1.6k
1.76
2.k9
1.k9
1.k5
2.0k
1.51
0.70
0.71
0.k8
0.67
0.70
0.k6
0.61
0.6k
1.26
0.72
0.52
0.88
1.08
0.
1 .2k
0.56
1 .k3
0.82
1 .k7
0.72
0.90
1 .37
O.k8
0.62
0.98
0.80
0.63
0.89
0.59
0.63
0.79
0.92
0.75
0.51
0.8k
0.9k
0.87
0.67
0.8k
0.72
1.10
0.78
0.92
0.82
0.60
0.93
0.99
2.19
Table 2.8d: Mean of measured wind u component in rn/s.
Summer
Winter
1980
B02
B05
PRR
CSJ
MCI
CSC
MOO
LEN
CPF
NBA
QUI
DST
HOQ
OSH
GRH
CPD
B29
CLB
AST
TIL
1981
1982
1983
19814
1.11
2.58
2.145
0.97
"2.05
14.05
1.62
2.17
"0.55
1980
3.22
1.63
"1.19
"0.38
1.36
"0.86
"0.80
1983
19814
3.13
3.25
1.814
2.31
3.21
3.95
0.22
2.79
0.78
3.99
"2.05
'0.03
0.59
'0.70
"0.59
"1.18
'1.02
2.02
0.00
"0.26
"2.56
'2.39
0.32
1.68
0.77
"0.88
"0.37
"0.50
1982
"1.814
'1.149
"2.142
1981
'0.140
0.614
2.00
1.89
1.86
"1.09
0.19
1.142
''1.56
''2.01
0.31
1.50
0.85
0.85
0.62
2.014
1.35
1.87
1.26
1.63
.
'2.72
"1.19
0.03
NEW
BNE
SIU
NOB
"0.140
"0.03
''0.53
0.56
0.13
"1.25
"1.18
0.95
''0.33
0.78
0.18
1.142
1.51
1.68
0.22
0.56
0.18
1.09
1.145
.
.
"0.91
"0.55
FMP
CBT
CBL
B27
"1.214
"1.114
1.65
"0.39
0.20
"0.80
"0.30
"2.10
.0.01
"0.06
1.19
0.914
1.21
1.39
1.20
0.17
"0.33
"0.79
0.114
-3.314
"0.60
"1.36
0.67
"0.514
PSG
"0.68
CCy
ACA
HUM
B22
PCB
"0.69
"0.60
Bill
"1.18
ARL
ART
"0.76
"0.28
"0.39
"1.72
"0.58
"1.32
0.52
0.98
0.98
0.79
0.97
"0.81
0.06
"0.27
0.17
"0.53
0.28
"1.38
0.10
"0.76
1.08
3.07
0.50
0.53
1.36
1.27
0.51
0.39
1.13
2.75
0.37
1.10
0.56
1.114
2.53
0.98
14.50
7.014
5.314
2.55
.
2.93
N3
1.16
SRA
C2
C3
"0.26
2.82
1.214
6.110
3.53
14.56
14.00
14.140
14.39
CII
C5
R3
BML
B13
B26
"3.03
14.00
0.60
0.76
1.50
2.11
"0.22
"0.96
2.29
2.05
5.08
6.22
1.80
6.55
3.214
14.73
2.814
14.76
3.56
2.20
Table 2.8d. (continued)
Winter
1980
PIL
B12
PIG
PIN
MRY
SUR
B28
PPB
MOR
DIA
GRO
811
B23
SBA
B25
MUG
SNI
Summer
1981
1982
1983
19814
0.65
0.67
1 .53
'-0.33
'-0.01
0.26
0.16
0.53
0.38
0.57
0.12
0.20
'-0.114
1980
1981
1982
3.67
3.06
2.911
3.914
2.143
3.57
1.85
3.142
'-0.01
0.06
2.1414
1983
19811
2.112
3.614
2.69
1.27
1.80
1 .56
3.73
0.60
'0.80
0.59
0.60
'0.75
0.39
1.13
1.96
0.22
0.147
'-0.12
0.29
2.05
2.141
3.33
'-0.03
0.16
0.32
0.69
2.19
0.32
1 .88
LOS
LBC
Sc'
0.81
1 .07
0.67
0.87
1 .27
1.71
0.27
1.18
3.20
0.82
0.52
1.12
SDO
1.05
1.27
1 .149
B2 14
6.56
1.55
0.91
3.08
3.29
1.22
3.03
3.56
3.71
0.21
1
.93
1.38
2.90
1.10
2.99
1.13
3.29
3.96
0.32
3.01
14.147
3.
1 LI
3.93
11.20
6.147
0.36
2.111
2.39
1.145
2.31
3.16
1
14.148
14.38
2.38
2.116
1
1.014
1.014
1
3.28
2.814
2.53
2.18
2.32
2.78
.22
.98
2.148
5.711
2.21
Table 2.8e: Standard deviation of measured wind u component in rn/s.
Summer
Winter
1980
B02
B05
PRR
CSJ
MCI
CSC
N00
1982
1983
19811
4.61
2.81
3.18
3.31
2.93
5.52
2.86
3.13
1.92
3.30
2.24
1.0k
3.116
1982
1983
19811
11.116
11.65
1$ .9 14
6.03
1.80
6.11
1.50
LEN
2.05
2.80
2.28
CPF
11.011
NBA
3.10
1.24
2.97
QUI
DST
HOQ
1981
1981
3.78
11.86
5.211
2.05
6.17
3.15
1.65
1
1980
.614
2.114
11.53
'1.98
2.29
1
.57
1 .53
1
.56
2.149
3.113
2.811
2.52
2.52
2.85
2.611
2.97
2.65
1.21
1.20
0.93
3.57
2.61
2.26
3.36
3.14
2.18
2.34
1.96
2.26
2.65
1.88
2.32
OSH
2.76
GRH
11.29
3.90
11,22
CPD
B29
CLB
AST
11.07
11.29
14.21
4.12
2.30
11.21
11.12
2.112
2.22
2.72
1.68
TIL
NEW
3.09
2.49
3.118
1.19
BNE
3.66
2.96
NOB
FMP
1.41
1.115
2.95
0.76
1.63
1.15
5.17
CBT
CBL
B27
PSG
CCI
ACA
HUM
0.914
1.01
•
1.56
2.18
1.46
1.75
2.83
1.81
2.19
1.147
3.72
2.97
1.78
1.67
1.13
1.78
1.92
1.85
2.77
1.72
1.35
1.53
1.83
1.93
1.45
3.39
1.72
1.09
0.93
1.70
2.46
PCB
Bill
ARL
ART
N3
SRA
C2
C3
Ck
C5
1.58
0.97
3.17
1.69
2.13
3.23
B22
1.98
1.63
1.71
3.211
1.311
1.511
1.31
3.11
2.211
0.92
0.57
1.28
1.17
2.33
2.73
1.93
1.51
2.06
1.614
3.38
1.18
1.03
0.62
1.611
2.211
1.75
1.15
1.38
1.69
1.07
1.00
1.29
1.80
2.118
1.02
1.53
1.11
1.29
1.20
2.77
2.14
1.01
1.34
2.35
2.111
1.311
2.97
3.67
3.87
4.22
3.33
2.25
3.76
1.62
2.115
14.06
3.61
3.145
3.91
3.59
R3
B13
B26
2.39
.
SIU
BML
2.67
2.13
2.72
2.119
1.84
3.011
4.06
11.31
11.36
3.80
3.28
2.42
3.91
2.32
3.51
2.50
2.22
Table 2.8e. (continued)
Winter
1980
PIL
B12
PIG
PIN
MRY
Summer
1981
1982
1983
1981!
11.79
3.16
2.80
3.22
2.76
2.69
2.92
1980
1981
1982
2.82
3.21$
1 .93
1.62
3.31
11.25
3.31$
11.11
1.51
2.112
2.27
1.30
2.76
.95
1.11
1 .112
1
SUR
B28
2.20
1 .85
1
PPB
MOR
DIA
GRO
2.73
2.70
Bi 1
523
SBA
B25
MUG
SNI
.76
.09
1 .511
2.05
1.05
1
1981!
2.31
2.13
1.43
.92
2.81!
2.97
2.27
1 .78
1 .83
0.91
2.02
2.05
2.48
2.811
2.26
1 .88
0.69
0.86
1 .76
2.1114
2.23
2.20
2.26
3.09
2.59
1.110
2.23
2.25
1.33
2.01
1.01
1.63
1.25
2.113
2.311
1 .61
2.35
1.17
1.09
1.80
2.55
1.30
1.16
1.57
1.05
0.112
2.56
1.77
1.91$
1.55
2.11
2. 5)4
3.08
3.02
1 .711
3.05
2.28
2.28
2.22
2.31
1.73
1.38
2.23
1.27
3.20
1.82
2.12
2.39
2.17
1.85
1.62
2.08
1.39
1.88
2.38
2.50
2.118
5211
LOS
LBC
Sc'
SDO
1
1983
2.20
0.97
0.70
1 .99
1 .79
1
1
2.65
.118
.08
1.110
1 .75
2.65
2.23
Table 2.8f: Mean of measured wind v component in rn/s.
Summer
Winter
1980
1981
1982
2.53
B02
B05
PRR
CSJ
MCI
CSC
N00
LEN
CPF
NBA
QUI
DST
HOQ
OSH
11.15
0.62
1983
1984
2.09
2.82
1.50
1.18
1.27
2.11
1980
1981
1982
1983
198's
"2.12
"3.09
"2.78
"0.30
"0.9'l
1.46
1.75
1.29
11.02
1.011
1.98
3.90
1.53
1.70
2.68
0.116
0.111
1.26
1.80
0.76
"0.17
2.28
1.91
1.1111
1.611
0.88
0.20
0.77
0.10
"0.17
0.34
2.119
-
0.611
1.75
0.93
2.611
1.115
1.115
0.64
1.56
0.01
1.49
1.02
1.25
1.57
GRH
1.71
'P0.116
3.10
1.72
3.72
1.117
CPD
3.60
0.92
0.116
0.97
"1.86
0.82
0.65
1.75
1.59
0.08
0.26
"0.119
"0.59
0.20
•
"0.26
0.07
0.34
B29
CLB
AST
TIL
NEW
BNE
SIU
0.58
0.87
2.90
2.88
1.21
1.33
1.119
3.96
1.03
2.26
"'0.90
1.71
"1.06
1.119
1.08
2.35
0.159
"0.76
"1.12
"0.111
.
0.63
1
CBT
CBL
B27
PSG
CCY
HUM
B22
PCB
1.81
"032
2.61
4.99
10.33
"0.89
5.83
1.32
"1.31
"1 .80
1.811
3.39
0.65
0.65
1.20
1.04
0.76
1.00
1.19
1.11
0.911
1.119
3.158
0.25
"0.13
0.23
1.03
2.19
0.02
0.68
ARL
ART
N3
SRA
"0.70
1.77
.61
2.17
3.56
•ACA
0.29
"2.711
"2.116
"2.48
"1.47
"1.69
"2.25
•
1.09
"1.92
"5.01
"0.55
"0.99
"3.55
"6.33
1.10
"2.91
"1.11
"11.28
"0.52
"3.25
"5.82
"6.23
"1.67
C2
C3
"1.117
0.00
2.011
"6.12
2.56
"4.82
C's
C5
R3
BML
B13
B26
"0.96
0.26
"3.72
2.111
"0.55
"0.35
"1.71
"0.011
"0.53
"0.05
1.21
"1.19
"0.99
"2.93
"4.29
"1.21
"3.85
"2.63
.1.63
"3.68
"2.69
2.24
Table 2.8f. (continued)
Winter
1980
I'lL
B12
PIG
PIN
MRY
SUR
B28
PPB
MOR
DIA
GRO
Summer
1981
1982
1983
19811
0.08
0.03
'0.61
'0.35
0.07
'0.72
'0.15
'0.97
'1.88
0.27
0.112
'0.32
'0.36
0.07
1980
0.011
1981
1982
'2.38
'3.13
'3.15
0.27
'0.73
'3.27
'2.29
0.37
'0.32
'3.98
'0.81
.
'0.81i
'2.00
0.22
0.25
MUG
'0.611
'0.68
'1.70
'1.61
B211
LOS
LBC
SCI
SDO
0.17
0.05
'0.51
'0.58
'1.85
'5.27
"0.31
'0.97
'1.76
'5.58
'3.18
'2.91
'2.15
B23
SEA
B25
SNI
19811
'3.27
'0.99
'0.39
'1.27
•
Bil
1983
0.23
0.39
'0.1111
'3.17
0.22
'0.88
1.02
'1.23
•
•
'0.57
'2.52
0.05
'0.15
'0.07
'2.92
'2.79
'0.19
'2.83
'0.19
'3.68
0.97
0.00
'0.06
'2.96
'2.82
0.92
0.49
0.78
1.15
0.21
'2.87
'3.31
'1L17
'6.05
'11.29
'8.67
0.81
'0.56
0.57
1.22
'3.38
'0.10
0.00
2.25
Table 2.8g: Standard deviation of measured wind v componentin
Summer
Winter
1980
B02
B05
PRR
CSJ
MCI
CSC
NO0
LEN
CPF
NBA
QUI
DST
HOQ
OSH
GRH
CPD
B29
CLB
AST
TIL
NEW
BNE
SIU
NOB
FMP
CBT
CBL
B27
PSG
CCI
ACA
HUM
B22
PCB
1980
1981
1981
1982
1983
5.87
7.93
2;73
6.67
3.26
5.714
5.63
6.17
5.142
14.35
5.30
3.146
3.22
2.73
1.76
2.33
3.114
3.31
2.29
1.148
1.143
1.97
1.27
1.83
2.98
1.59
3.146
3.37
3.09
1.86
1.99
3.33
14.142
11.95
14.66
14.16
14.80
3.89
14.51
2.72
2.145
2.95
1.714
3.00
1.69
1.97
2.37
2.12
2.19
5.80
2.20
1.90
198'$
1982
11.53
5.514
2.21
11.95
14.69
14.62
2.03
5.03
3.17
2.86
1.99
2.09
5.52
2.214
3.19
2.03
1.17
1.37
2.12
1.98
1.37
2.145
1983
198's
11.12
14.35
14.63
14.63
2.79
1.38
1.35
3.1114
14.25
14.65
3.80
2.79
14.90
3.143
14.01
14.30
3.014
3.52
2.10
3.148
2.07
5.66
2.15
2.514
2.52
1.91
3.98
14.28
14.75
3.81
14.37
2.19
2.50
3.90
7.10
2.514
2.20
3.08
11.18
9.77
3.28
5.03
3.01
11.11
2.35
2.143
3.76
3.20
ARL
ART
14.22
3.62
6.92
2.53
5.79
11.52
2.96
3.814
14•914
5.85
10.37
11.50
14.09
5.142
555
10.85
6.85
6.83
8.25
14.86
5.110
B1ZI
14.63
14.19
3.85
3.142
1.914
3.03
2.15
2.78
3.143
14.07
1.72
2.17
3.25
5.00
14.81
5.17
2.30
5.86
2.37
3.85
11.90
14.66
2.97
3.61
11.05
14.22
3.11
2.59
3.02
5.614
3.23
5.38
2.73
14.78
N3
SRA
C2
C3
5.39
3.80
2.58
2.25
2.25
2.81
11.97
3.70
11.57
14.314
CII
14.00
CS
R3
BML
B13
B26
m/s.
2.81
3.35
2.68
279
11.07
2.37
11.27
3.27
3.53
2.90
2.87
2.92
5.814
11.06
2.148
3.89
2.90
2.26
Table 2.8g. (continued)
Winter
1980
PIL
B12
PIG
PIN
MRY
1981
1982
1983
1982
1983
198)4
2.79
5.09
2.06
2.26
2.95
2.97
2.75
3.65
3.15
11.311
2 • 00
1.96
O ;9 1
1 .00
0.52
3.22
2.15
0.65
3.86
0.67
2.110
0.811
11.15
3.65
11.66
.2.90
3.01
3.55
2.65
SUR
B28
3.112
3.118
3.21
PPB
MOR
DIA
GRO
1 .911
1.79
0.88
2.57
0.89
3.11
Bi 1
1980
1981
11.119
0.92
Summer
1.51
2.39
1.35
2.10
2.11
3.98
3.32
19811
2.06
3.63
2.73
2.00
2.01
2.118
0.77
0.78
MUG
SNI
1.39
2.50
1.38
2.39
0.82
0.99
0.99
1.05
1 .66
0.119
1 .115
1.98
1.66
1.611
1.911
2.09
2.13
1.30
1.39
2.06
SDO
11
0.96
2 115
0.86
1.91
1 .75
1.02
2.36
2.311
3.68
B2 11
LOS
LBC
Sc'
.55
1.
3.30
B23
SBA
B25
11
3.56
3.21
2.38
0.80
2.92
3.63
0.72
0.98
2.27
2.50
3..53
3. 1111
3.33
0.82
3.611
1.11)4
1 .62
0.811
2.117
1 .27
1 .36
2.65
2.83
2.20
0.51
1.11
1.23
2.13
0.91
1 .76
2.51!
2.27
Table 2.8h: Percent good data for measured wind in the
time
intervals.
Summer
Winter
B02
505
PRR
CSJ
MCI
CSC
N00
LEN
CPF
NBA
QUI
DST
HOQ
OSH
GRH
CPD
B29
CL8
AST
TIL
NEW
BNE
SIU
NOB
FMP
CBT
CBL
527
PSG
CCI
ACA
HUM
B22
PCB
514
ARL
ART
N3
SRA
C2
C3
Cl!
C5
R3
BML
B13
1980
1981
1982
1983
19811
1980
0
0
0
0
0
65
100
87
95
0
145
0
0
0
65
0
53
100
100
100
100
76
100
66
78
0
0
0
0
0
0
0
0
22
62
65
17
18
65
65
65
65
65
65
65
65
9
100
100
0
100
0
100
100
149
32
149
32
0
0
32
32
96
32
96
0
28
32
0
57
51!
0
0
0
0
0
0
91!
100
93
100
72
117
511
0
0
0
0
0
0
0
0
0
0
100
96
75
0
52
0
0
0
100
78
0
0
91!
93
0
0
0
0
0
0
0
118
0
86
65
33
100
100
100
96
0
32
0
0
0
0
0
0
0
65
65
91!
32
96
0
0
114
911
21!
67
60
0
'0
81!
61!
100
68
0
56
0
91
65
100
0
0
0
0
10
0
0
1
142
147
96
30
100
0
0
0
0
0
0
0
0
100
-88
97
38
82
0
0
0
0
0
0
0
0
0
65
65
65
58
148
0
8
0
3
100
100
80
100
100
100
100
79
100
32
97
85
29
26
0
0
100
100
100
100
77
0
0
0
100
77
19811
0
58
3
1983
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1982
0
0
0
0
0
0
0
1981
0
0
95
18
0
100
32
95
0
0
59
0
0
0
3
0
o
0
0
0
53
0
82
0
0
0
100
100
72
81
0
0
99
100
100
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
33
66
100
67
90
77
93
100
0
72
0
0
0
58
53
57
86
0
0
0
0
15
88
96
100
100
0
0
100
95
100
0
85
91!
0
0
0
91
0
0
0
0
100
80
100
100
100
148
0
0
0
0
0
0
0
1
72
0
0
100
118
0
96
23
0
0
0
69
0
80
714
0
0
0
0
714
3
0
0
0
0
0
63
73
0
0
0
0
75
0
0
0
0
0
0
0
0
0
57
0
58
58
0
0
0
0
0
714
0
110
85
0
0
100
714
95
0
95
100
0
0
0
100
99
0
0
78
100
100
148
0
0
0
0
0
0
0
3
0
0
0
0
0
2.28
Table 2.8h. (continued)
Winter
1980
B26
PIL
B12
PIG
PIN
MRY
SUR
B28
PPB
MOR
DIA
GRO
B11
B23
SBA
B25
MUG
SNI
5211
LOS
LBC
Sd
SDO
1981
1982
1983
19811
65
32
65
0
0
0
91
76
30
27
93
32
0
0
0
0
60
0
0
0
0
23
16
0
0
0
0
97
97
99
16
100
0
0
0
0
0
511
0
65
56
87
63
80
100
100
100
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
51
65
65
0
32
65
100
73
100
100
0
0
65
311
0
0
65
100
0
0
65
0
0
0
100
100
0
65
100
0
0
0
65
65
65
100
100
100
61
Summer
0
0
0
1980
1982
1983
0
0
100
86
100
91
0
0
86
100
100
118
0
0
97
0
96
100
68
0
0
0
0
118
1981
100
100
100
100
0
0
0
19811
0
100
96
100
95
76
0
0
0
0
O
96
96
0
0
0
0
100
16
0
0
96
96
0
0
0
0
100
100
83
100
100
82
100
76
100
88
100
96
91
100
100
115
0
0
100
100
0
0
96
0
0
100
100
73
0
Ilk
0
92
93
0
100
0
100
0
100
96
0
0
0
0
95
50
0
0
100
96
72
100
76
75
118
100
39
72
73
0
118
0
118
0
0
0
2.29
Table 2.9: Seasonal statistics of calculated winds:
Table 29a: Major axis orientation in degrees antic].ockwise from due east..
Summer
Winter
1980
CG17
CG16
CG15
CG14
CG13
CG12
CG11
CG1O
CGO9
CGO8
CGO7
C006
CGO5
CGOII
CGO3
CGO2
CGO1
CG35
CG311
CG33
CG32
152
122
130
126
121
110
85
80
82
85
88
92
93
106
165
57
62
57
73
1981
1113
1982
1983
19814
1980
1981
1982
1983
19811
1148
136
133
112
112
108
107
93
155
111
iii
109
127
107
103
106
106
99
79
66
70
82
98
120
135
136
150
156
106
102
98
95
90
101
1214
122
109
1140
1141
95
106
110
110
107
109
101
711
1014
99
161
111
131
1214
1111
•83
58
88
86
86
63
70
71
711
91
714
76
81
714
88
90
89
135
155
153
157
172
100
119
128
156
161
163
171
121
178
180
125
1145
61
72
66
58
170
170
170
172
173
169
115
71
69
68
172
167
160
158
178
26
138
711
61
914
1011
1114
105
73
56
55
67
109
116
120
108
79
1014
105
106
98
81
51
611
55
1143
1114
92
105
107
211
119
101
59
66
75
90
98
89
1143
121
1311
1145
111
1714
155
5
153
1
166
171
178
166
136
127
123
126
135
151
120
158
160
158
163
1141
1143
35
614
73
151
59
70
77
93
79
95
133
131
'78
1141
131
168
31
2.30
Table 2.9b: Standard deviation of calculated wind major axis component in rn/s.
Winter
CGI7
CG16
CG15
CG1LI
CG13
CG12
CG11
CG1O
CGO9
CGO8
CGO7
C006
CGO5
Summer
1980
1981
1982
1983
1984
1980
1981
1982
7.02
6.58
6.83
7.03
6.78
6.28
6.30
6.88
6.86
6.20
6.55
6.07
6.08
6.02
5.89
5.99
6.16
6.28
5.59
7.88
6.70
6.76
6.13
6.06
5.78
5.98
6.37
6.16
5.60
5.78
6.07
5.78
5.37
5.63
5.70
5.10
14.814
14.69
14.59
5.15
14.58
7.145
7.07
6.27
5.86
6.21
6.09
6.11
5.79
5.75
6.18
6.27
5.814
5.60
5.80
5.96
6.14
5.60
1983
198k
14.69
11.014
5.37
14.14
3.814
5.51
14.98
14.50
11.09
6.06
11.111
3.69
5.41
3.60
3.66
3.63
3.93
3.84
3.87
3.59
3.61
3.814
3.611
11.112
3.89
3.711
4.66
3.88
4.89
14.09
5.10
5.05
5.36
5.52
5.35
14.32
14.30
3.148
14.40
14.28
14.38
11.61
14.39
14.39
3.77
3.20
14.72
5.23
4.66
4.37
3.89
3.38
2.56
3.01
2.314
2.95
3.89
3.60
3.50
14.66
5.56
4.60
14.97
14.27
14.04
5.71
5.214
3.27
2.92
CGOII
5.65
4.68
4.07
3.85
4.60
14.10
2.37
2.61
3•144
2.814
4.26
3.70
11.84
4.53
2.75
CGO3
CGO2
14.50
3.92
3.11
2.91
2.92
4.86
14.66
11•514
14.19
CG35
2.92
2.85
2.25
3.147
CG3II
2.84
2.26
2.06
3.53
3.15
2.58
2.32
3.16
2.73
2.26
2.15
2.96
2.49
2.18
2.06
1.85
1.78
3.33
3.20
3.81
3.86
2.99
2.81
CGO1
14.01
3.28
2.92
CG33
CG32
3.70
3.22
3.02
2.71
2.814
2.141
2.89
2.29
2.148
2.39
1.92
2.86
2.13
2.1414
2.26
1.97
1.95
1.96
2.92
2.87
2.66
2.514
2.62
2.01
1.69
1.90
1.87
2.31
Table
2.9c: Standard deviation of calculated wind minor axis component in rn/s.
Summer
Winter
1983
19814
1980
1981
1982
1983
19811
14.113
11.117
2.61
5.00
11.58
14.514
11.116
14.143
11.89
11.85
11.92
11.30
11.28
14.67
14.63
11.83
14.63
11.39
3.73
2.65
2.66
2.70
2.82
3.06
2.95
2.97
2.50
2.17
1.89
2.53
2.83
2.92
2.65
14.614
2.97
2.85
2.83
2.90
2.98
2.77
2.59
2.89
3.03
14.81
2.97
2.98
2.86
2.83
2.79
2.514
14.93
11.75
11.89
1980
1981
CG17
CG16
CG15
5.32
11.96
5.51
5.61
14.93
5.114
CG114
14.51
CG13
CG12
11.30
14.66
CG11
11.614
CG1O
14.30
CGO9
CGO8
3.69
CGO7
CGO6
CGO5
CGOII
CGO3
CGO2
CGO1
CG35
CG314
CG33
CG32
3.140
14.25
11.38
11.32
14.00
3.31
3.55
3.72
3.65
3.08
11.09
3.38
2.90
2.26
2.06
3.72
3.68
3.17
2.77
2112
2.07
1.91
3.33
3.143
2.114
2.22
2.25
1.98
1982
11.118
5.29
5.02
14.514
11.35
3.85
3.65
3.143
3.65
3.214
3.51
3.59
3.75
3.83
3.62
3.98
3.19
3.01
3.116
3.18
2.146
2.07
1.98
1.92
1.99
1.93
2.814
2.76
2.78
2.78
2.78
2.76
2.20
1.89
1.80
3.10
1.811
2.814
2.13
1.77
1.69
1.69
2.10
1.78
1.82
1.70
3.16
2.39
1.86
1.85
1.97
2.014
2.52
2.611
1.96
2.75
2.71
2.113
2.68
2.88
2.83
2.30
2.81
1.811
2.36
2.13
2.06
1.93
2.03
1.89
1.55
1.30
1.83
2.07
2.12
2.26
1.82
1.111
1.28
1.36
1.1411
1.60
1.62
2.61
1.91
1.99
2.18
1.88
1.51
1.145
1.141
1.70
1.78
1.66
1.85
1.73
1.611
2.116
2.53
2.80
2.95
2.85
2.29
2.07
2.03
2.18
2.28
2.18
1.53
1.38
1.35
1.'47
1.141
1.50
2.32
Table 2.9d; Mean of calculated wind
u component In rn/s.
Winter
1980
CG17
CG16
CG15
CG14
CG13
CG12
CG11
CG1O
CGO9
CGO8
CGO7
CGO6
CGO5
CGO4
CGO3
CGO2
CGO1
CG35
CG34
CG33
CG32
'1.52
'1;67
'1.34
'0.64
'0.26
'0.13
'0.01
0.29
0.37
0.53
0.70
0.74
0.53
0.71
1.42
1.99
2.44
2.94
2.70
1.90
1981
'3.00
'2.04
'1.43
'1.31
'0.89
'0.19
0.09
'0.17
0.16
'0.17
1982
'0.22
'0.02
0.59
1.41
1.68
1.44
1.24
1.31
1.02
0.81
'0.50
'0.48
'1.38
'1.37
'0.24
0.85
1.62
2.15
1.56
0.63
0.55
0.31
0.33
1.09
1.72
2.16
2.43
1.60
Summer
1983
198'i
1980
'3.39
'2.19
'1.40
'1.37
'0.97
'0.17
0.48
0.83
'2.75
'1.59
'0.77
'0.56
'0.32
0.15
0.45
0.44
0.45
0.77
1.37
1.98
2.10
2.32
2.25
1.92
1.23
0.13
'0.04
1.23
2.55
3.79
4.82
1.11
1.33
0.80
0.30
0.13
0.34
0.16
0.55
1.72
2.58
2.98
3.15
2.15
0.61
0.55
0.39
0.59
0.26
0.55
1.64
2.52
2.90
2.87
1.86
5.11
5.10
5.16
4.62
5.22
2.53
3.70
1981
1982
1983
1984
1.01
1.77
2.18
2.00
1.95
1.76
1.50
1.06
0.09
'0.38
0.32
1.116
0.59
1.86
1.96
2.76
3.12
2.83
2.05
0.93
0.39
0.97
1.75
1.72
1.83
2.22
2.35
2.26
1.70
0.34
'0.39
0.35
1.32
2.75
4.10
4.46
4.14
3.92
1.28
2.47
3.57
4.35
4.85
4.67
4.41
11.79
5.29
5.96
5.72
4.59
5.32
5.79
5.70
4.29
1.92
1.73
1.93
1.90
1.51
0.77
'0.41
0.04
1.04
2.29
3.19
3.96
4.14
4.24
4.77
5.56
6.13
5.81
4.48
2.91
3.51
4.29
11.63
5.18
5.95
6.71
7.04
6.53
5.36
2.33
Table 2.9e: Standard deviation of calculated wind u
component in rn/S.
Summer
Winter
CG17
CG16
CG15
CG114
CG13
CGI2
coil
CG1O
CGO9
CGO8
CGO7
CGO6
CGO5
COOk
C003
CGO2
COOl
1980
1981
1982
1983
19811
1980
1981
1982
1983
19814
6.68
6.23
5.97
5.16
5.09
7.09
6.06
5.68
5.29
6.13
6.0k
3.31
3.28
3.111
3.17
3.03
3.01
2.914
2.99
2.77
3.08
2.62
2.82
2.88
2.75
2.97
3.18
3.05
2.85
2.88
2.97
355
3.01
5.811
5.81
5.50
5.09
14.89
14.66
5.33
5.37
14.95
14.711
11.76
14.714
14.814
14.58
11.81
5.29
2.911
14.50
14.147
14.75
5.02
14.145
14.140
14.32
3.81
11.01
3.115
14.15
3.33
3.09
3.39
3.65
3.65
14.80
14.75
14.78
11.87
2.70
2.85
3.16
11.58
14.65
3.01
14.13
14.07
3.87
3.30
3.01
2.26
1.95
2.22
3.10
2814
2.149
2.117
14.60
14.814
14.93
3.65
3.63
3.68
3.57
3.80
3.85
3.96
3.78
14.23
14.57
14.50
14.149
3.69
11.66
14.61
11.148
3.56
3.77
2.83
2.82
3.61
3.011
2.31
3.16
3.02
2.83
2.78
2.70
2.714
2.27
2.18
1.79
2.68
2.12
3.56
3.73
3.66
3.32 '
CG35
3.00
CG3II
2.146
CG33
CG32
2.12
1.96
14.05
3.50
3.15
2.58
2.21
3.82
3.114
2.73
2.25
1.97
2.141
2.95
2.71
2.82
2.76
2.18
1.914
2.07
2.27
2.35
2.79
2.82
2.36
2.12
2.06
1.86
1.77
2.91
1.92
1.85
1.93
1.95
3.08
3.35
3.30
2.60
2.17
2.05
2.09
2.06
2.53
2.66
2.12
1.95
2.06
2.23
1.814
2.314
3.141
3.53
2.88
2.25
2.08
2.13
2.18
2.60
2.117
3.2k
3.21
2.93
2.77
2.60
2.87
3.55
3.76
3.01
2.28
2.03
2.21
2.28
2.57
2.60
1.96
1.67
1.68
1.79
1.76
2.34
Table 2.9f: Mean of calculated wind v component in m/s.
Winter
CG17
CG16
CG15
CG11I
CG13
CG12
CG11
1980
1981
1982
1983
19811
5.67
5.38
5.17
11.92
11.58
11.111
7.27
5.25
3.09
3.68
3.99
3.58
2.90
2.28
6.25
5.62
11.18
3.38
6.22
5.55
5.18
5.611
3.71
5.116
5.60
5.10
3.82
3.115
5.68
5.69
11.711
3.21
5.81
3.75
3.08
2.26
1.35
0.62
"0.12
"1.11
"2.17
"2.78
6.05
3.111
5.113
2.117
0.06
"1.12
"1.77
"3.211
"11.112
"11.80
"3.116
CG1O
CGO9
1.111
11.51
0.511
C008
0.00
3.52
1.99
CGO7
CGO6
CGO5
0.57
"0.98
"0.62
"1.67
"1.117
"1.98
"2.03
"2.57
"2.21
CGO3
CGO2
CGO1
"2.83
CGOJ4
"2.75
"3.37
CG35
"2.67
CG3II
CG33
CG32
Summer
"3.00
"3.57
"1.93
"2.17
"2.70
11.13
11.311
1.08
2.911
"0.03
"1.03
1.119
"2.17
1980
1981
1982
1983
19811
0.117
1.20
"0.22
"0.31
"0.51
0.118
'0.80
0.60
0.12
0.116
"0.87
"1.90
"2.70
1.82
1.59
2.07
0.88
"0.08
"1.07
"2.02
"2.66
"1.311
"2.12
"3.15
"3.87
"5.18
"6.27
"327
"2.711
"3.51
"3.58
"3.68
"7.00
"7.67
"5.M5
"5.91
"3.211
0.111
"1.08
"2.10
"2.83
"3.12
"3.19
"5.21
"6.18
"5.22
"5.52
"5.28
'5.39
"5.93
"6.73
"7.27
"11.80
"11.81
"5.51
"5.53
'7.89
"6.911
"5.113
"7.02
"3.28
"2.30
'7.77
"7.88
"5.05
"3.02
"3.22
"6.88
"2.115
"3.56
"3.75
"3.89
"11.70
"5.29
"3.51
"3.811
"3.30
"2.33
"2.62
"2.88
"2.11
"3.18
"2.58
"0.31
"0.91
"1.91
"11.116
"2.79
"3.1111
"6.08
"7.55
"7.65
"7.69
"7.10
"7.32
"7.25
"5.16
"3.56
2.35
Table 2.9g: Standard deviation of calculated wind u componentin rn/s.
Summer
Winter
CG17
CG16
CG15
CG1LI
CG13
CG12
CG11
CG1O
CGO9
CGO8
CGO7
CGO6
CGO5
CGOI4
1980
1981
1982
1983
19814
1980
1981
1982
1983
19814
5.76
6.30
6.12
6.30
6.23
6.13
6.30
6.83
5.73
5.86
6.55
6.00
5.93
5.85
5.85
6.00
6.16
6.27
5.59
5.71
5.71
6.11
5.61
5.07
5.05
5.57
14.89
14.614
14.514
357
14.76
14.149
14.10
3.51
5.06
14.92
3.96
5.147
14.147
4.39
14.50
3.614
3.149
5.29
5.92
5.28
14.30
14.13
3147
3.i43
5.10
3.514
5.07
14.00
3.55
3.62
3.56
14.95
7.140
7.06
6.28
5.86
5.66
14.65
CGO3
CGO2
3.76
3.70
CGO1
3.68
CG35
3.28
CG3I4
2.81
CG33
CG32
2.22
2.02
5.96
6.02
5.77
5.66
5.141
5.86
5.62
5.87
5.75
5.61
5.73
5.614
14.25
5.37
5.36
14.33
14.37
3.93
3.76
3.60
5.147
14.23
3.142
14.114
3.61
5.57
5.20
14.36
3.72
3.33
2.56
2.20
2.28
14.61
14.03
2.01
2.31
1.68
1.50
2.05
2.00
1.95
1.76
1.78
1.78
5.142
5.69
5.82
5.99
5.50
14.63
14.51
14.89
14.67
14.09
3.97
3.75
3.23
2.56
2.15
14.62
14.37
14.148
14.10
3.57
2.75
2.22
2.05
1.99
2.05
1.98
3.83
3.32
2.67
2.33
2.19
2.22
2.25
2.10
5.81
5.92
6.10
2.01
1.93
2.01
2.12
3.99
3.28
2.95
2.83
2.78
2.79
2.69
14.57
3.714
2.92
2.50
2.145
2.19
1.97
1.91
2.32
1.90
2.09
1.71
1.145
1.145
1.60
1.63
3.77
5.01
5.00
14.26
3.89
14.19
3447
3.51
3.27
2.81
3.140
2.91
2.149
3.141
3.07
2.60
2.52
2.53
2.36
2.22
2.10
2.85
2.59
1.914
1.78
1.76
1.148
1.55
1.63
2.3.6
Table 2.10: Seasonal statistics of adjusted coastal sea level:
Table 2.lOa: Mean in cm.
Winter
1980
PRR
QCC
BBL
ZBL
TOF
BAM
1981
1982
1983
19811
1980
0.53
7.111
5.86
"0.60
11.66
2.28
3.65
3.57
3.13
1.98
0.64
9.91
2.1111
8.15
13.40
16.99
17.87
18.68
17.70
18.96
23.08
18.35
20.04
4.61
"10.63
'7.09
"11.54
"1.42
5.35
4.143
REN
11.97
NBA
TKP
AST
SBC
6.18
7.96
3.33
5.78
2.30
CCY
TRH
11.71
NSP
ARC
PRY
SF0
5.64
11.52
'11.05
"0.07
3.36
3.30
1.64
3.16
1.51
1.211
8.06
2.88
5.25
2.81
1.89
1.86
2.58
0.37
'0.111
0.26
0.33
0.88
11.76
4.90
4.76
5.76
5.20
6.86
10.30
7.58
6.85
6.71
14.11
11.80
19.39
17.87
16.85
16.92
5.70
7.13
5.77
6.36
6.02
7.58
7.67
6.12
8.37
6.70
6.83
6.88
7.72
1981
"11.97
"15.20
"11.81 "12.79
"10.61 "11.51
'8.88
'7.87 "10.43
"10.07 "11.11
'0.143
1.81
111.10
6.00
'3.12
0.16
"1.45
"1.39
'1.73
15.70
9.94
6.110
12.81
9.31
3.511
"8.57
3.56
'5.71
10.11
2.56
2.93
3.07
2.18
3.73
'1.71
"0.18
"0.15
'1.30
'2.19
"8.24 '10.32
"11.66
19814
"0.31
'3.42
0.99
"1.29
"2.91
"7.36
"11.19
"6.69
"2.149
"8.56
"3.23 "8.39
"3.49
"9.86
"5.72
"9.43
"6.69
'5.39
"4.07
'2.22
"3.01
'2.39
"6.06
.
1983
"4.05
"5.76
"12.39
16.118
0.16
1982
"12.04
"12.72 "11.05
"12.32 "10.95
3.98
3.12
HMB
MRY
PSL
SBA
RIS
SMA
LOS
LAJ
SDO
Summer
"3.21
'9.113
"5.28
"0.74
"2.59
'3.85
2.16
"9.67
0.011 "13.40
3.11 "11.00
0.52 '12.00
14.82 '12.66
7.19 '11.60
'9.36
6.41
'8.71
'6.71
6.70
11.85
'5.25
'4.28
5.81
'4.116
'3.02
"2.03
'3.33
'2.12
"3.28
12.55
8.60
9.35
9.79
'3.06
'5.76
,14.115
'2.15
'2.26
6.56
2.37
Table
2.lOb: Standard deviation of adjusted coastal sea level in cm.
Summer
Winter
PRR
QCC
BBL
ZBL
TOF
BAM
REN
NBA
TKP
AST
SBC
CHR
CCY
TRH
NSF
ARC
PRY
SF0
HMB
MRY
PSL
SBA
RIS
1980
1981
1982
1983
19811
1980
1981
1982
1983
19811
9.146
8.118
8.56
5.111
7.96
11.02
5.32
5.93
8.111
5.01
5.112
5.91
2.07
5.96
8.111
9.15
5.111
11.611
8.15
6.88
6.30
9.51
9.31
11.56
3.99
7.66
5•145
6.66
5.07
6.57
7.55
3.53
5.67
8.63
10.09
9.18
9.79
9.07
9.19
9.21
11.02
6.11
8.19
9.51
14.12
6.62
5.35
6.19
7.011
8.37
8.03
9.79
12.89
11.13
10.95
7.25
11.914
11.38
3.811
7.811
5.91
11.112
16.314
7,25
10.13
12.96
13.73
10.70
5.97
9.76
9.03
5.68
9.83
10.66
12.18
10.96
10.21
12.31
15.76
13.11
12.63
12.1114
111.67
12.90
13.13
12.20
11.01
8.51
9.61
9.07
8.59
8.90
8.18
8.36
6.19
5.27
9.119
8.81
9.116
6.98
5.614
5.78
5.16
9.014
5.65
5.70
12.66
11.37
19.31
15.11
15.113
12.75
10.81
9.88
9.18
8.28
8.52
8.143
'1.92
3.70
8.33
7.78
7.36
5.30
3.90
3.147
8.32
6.140
3.32
14.714
11.29
8.30
11.01
12.37
10.39
•9.65
9.00
8.72
8.31
8.90
8.07
6.57
6.116
6.19
10.65
8.28
6.32
5.22
111.67
11.80
7.78
7.73
8.01
5.81
7.65
7.85
14.93
9.53
10.211
5.014
•9.22
5.35
11.91
8.28
13.53
11.25
7.35
6.96
5.19
5.26
11.92
5.110
5.112
5.71
5.76
8.38
7.63
7.65
7.27
6.82
8.140
5.62
11.18
J4.16
5.117
5.98
11.70
3.33
6.20
6.66
6.77
2.711
5.1111
5.03
11.39
14.19
14.87
14.10
5.26
7.09
11.112
8.28
5.09
7.60
7.69
7.88
3.82
14•514
7.98
8.16
8.27
8.55
3.63
8.61
11.114
8.37
3.67
11.29
SMA
5.51
6.10
LOS
6.18
5.142
14.00
LAJ
SDO
11.714
11.99
5.72
5.08
3.98
3.87
8.17
8.26
8.97
8.53
5.79
11.30
3.73
5.146
3.119
6.08
14.30
14•73
6.111
14.55
3.66
5.76
14.87
3.30
3.31
11.36
238
Table 2.lOc: Percent good data for adjusted coastal sea level in the six'month
time intervals.
Winter
1980
PRR
1981
1982
1983
100
100
100
118
100
118
59
211
95
100
95
93
0
93
914
118
100
BAM
REN
NBA
118
100
100
148
100
TKP
118
39
AST
SBC
CHR
CCI
148
118
100
100
29
100
118
100
TRH
148
100
NSP
ARC
PRY
148
148
100
100
48
100
SF0
148
100
HMB
0
0
118
100
100
100
100
100
100
100
100
100
100
27
100
100
100
100
100
100
100
QCC
BBL
ZBL
TOF
MRY
PSL
118
Summer
100
100
100
100
100
100
100
100
100
100
19811
100
100
100
95
100
100
100
100
100
100
100
100
100
100
914
100
100
too
100
100
100
100
100
100
100
100
100
100
100
100
100
22
100
100
100
100
100
100
100
100
100
84
91
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
0
0
100
100
100
100
100
100
100
100
100
100
0
RIS
148
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
148
911
0
0
SDO
1
100
100
100
100
100
100
100
100
100
100
100
100
100
100
0
148
100
100
100
149
148
LIAJ
100
87
100
100
100
118
95
95
92
100
148
118
1982
614
118
LOS
1981
100
100
100
84
100
100
100
100
100
100
100
100
100
SBA
SMA
1980
51
100
.100
100
1983
19811
48
32
21
118
11
48
34
118
118
15
118
118
118
48
48
0
0
100
100
148
148
5
0
100
100
48
118
0
0
0
0
100
100
100
100
100
100
100
100
100
100
100
148
lii
100
100
100
118
148
148
2.39
Table 2.11: Seasonal statistics of calculated alongshore wind stress:
Table 2.lla: Mean in dyn/cm2.
Summer
Winter
CG17
CG16
CG15
CG1k
CG13
CG12
CG11
CG1O
CGO9
CGO8
CGO7
CGO6
CGO5
CGOk
CGO3
CGO2
CGO1
CG35
CG3k
CG33
CG32
1980
1981
1982
1983
198k
1980
1981
1982
1983
198k
1.21
2.28
1.59
1.50
1.k5
1.29
0.99
0.99
0.76
0.65
1.98
1.38
1.30
1.35
1.3k
1.18
1.29
1.22
1.23
0.90
0.55
0.32
0.09
1.k7
1.19
1.18
1.19
1.08
0.83
0.77
0.60
0.53
0.25
0.08
0.01
'0.19
0.1k
0.0k
0.06
"0.13
0.21
0.85
0.95
1.1k
0.87
0.66
0.62
0.39
1.90
1.16
0.98
1.05
1.05
0.88
0.88
0.87
0.70
0.35
0.18
0.1k
0.02
'0.03
0.06
0.0k
0.08
0.37
0.39
0.57
0.19
0.1k
0.08
"0.11
'0.15
'0.50
'1.00
'0.0k
'0.17
'0.15
"0.2k
"0.36
"0.29
'0.32
0.25
0.02
'0.05
'0.22
0.k3
0.15
0.00
'0.22
'0.21
'0.10
"0.10
'0.08
'0.16
"0.23
"0.28
'0.37
"0.32
'0.13
'0.15
'0.29
p0.2k
'0.33
"0.37
"0.27
'0.17
"0.20
'0.58
'0.9k
'1.03
'0.98
'0.69
'1.21
'0.29
"0.32
'0.57
'O.kl
"0.2k
"0.27
"0.15
'0.2k
"0.32
'0.21
0.12
0.13
'0.03
0.00
'0.05
'0.29
'0.59
'0.21
'0.22
p0.30
'0.29
"0.'47
'0.72
'0.80
'0.53
p1.02
'0.69
'1.09
"0.56
"0.53
"0.35
"0.27
"0.15
'0.19
'0.16
'0.71
'0.k8
'0.89
'0.38
'0.69
'0.5k
'0.27
'0.76
'0.50
'0.69
'0.55
'0.91
'1.29
p1.13
'0.91
"0.58
"0.k8
"0.22
"0.30
"0.55
"0.6k
"0.57
"0.29
"0.32
2.40
Table 2.11.b: Standard deviation of calculated alongshore wind stress in
dyn/cm2
Winter
CG17
CG16
CG15
CG1II
CG13
CG12
CG11
CG1O
CGO9
CGO8
C007
C006
COOS
Summer
1980
1981
1982
1983
198'l
1980
2.011
3.22
2.29
2.30
3.1114
3.77
2.36
2.17
2.05
1.97
1.76
1.90
2.02
1.90
1.52
0.85
0.70
1.614
0.91
1.87
1.81
0.70
0.58
0.73
0.80
0.63
0.55
1.113
0.119
1.311
2.11
1.77
1.32
1.29
1.31
1.16
1.03
0.87
0.85
0.83
1.014
0.811
0.117
0.511
0.91
0.614
1.80
1.90
2.17
1.78
1.59
1.69
1.55
1.62
2.211
2.02
1.59
1.73
1.53
1.59
2.15
2.10
2.23
2.07
1.60
1.71
1.93
1.81
1981
1982
1983
19811
0.81
0.65
0.52
0.65
0.50
0.511
0.118
1.01
0.117
1.13
1.52
1.05
0.119
o.14o
0.82
0.116
0.118
0.38
0.60
0.118
0.61
0.145
0.65
0.53
0.71
0.91
0.71
0.80
0.98
0.55
0.62
0.67
0.69
1.110
1.57
1.27
1.09
COOlI
1.07
0.72
1.09
0.81
0.69
0.58
1.35
1.02
0.79
0.53
0.53
0.88
0.79
0.69
CGO3
0.55
0.511
0.118
0.68
0.61
C002
0.116
0.110
0.51
0.33
0.71
0.31
COOl
0.51
0.31
0.211
0.37
CG35
0.115
0.30
0.39
0.38
0.26
0.30
CG3II
0.32
0.23
0.23
0.33
0.28
0.29
0.26
0.62
0.55
0.66
0.26
0.23
0.20
0.211
0.37
0.211
0.211
0.20
0.211
0.21
0.37
0.21
0.20
0.211
0.21
0.211
0.311
0.21
0.21
0.19
0.18
CG33
CG32
0.50
1.01
0.95
0.62
0.52
0.36
0.55
0.25
0.36
0.59
0.119
0.66
0.68
0.82
0.68
0.75
0.83
1.01
1.07
1.09
0.80
0.88
0.78
0.811
0.37
0.28
0.29
0.113
0.141
0.311
0.31
0.36
0.26
0.26
0.27
0.23
0.23
0.25
0.311
2.41
Table 2.llc: Percent good data for calculated alongshOre wind stress in the
six'month time intervals.
Summer
Winter
1980
1981
1982
1983
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
CG17
CG16
CG15
118
100
118
1.00
CG111
118
CG13
CG12
118
CG11
'18
CG1O
118
CGO9
CGO8
CGO7
CGO6
CGO5
118
'18
118
118
100
100
100
100
100
100
100
100
CGO3
118
100
100
100
100
100
CGO2
'18
100
COOl
118
CG35
1t8
100
100
CG311
118
100
CG33
CG32
148
100
100
148
'18
118
COO1!
118
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
1980
1981
1982
1983
95
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
19811
118
118
118
118
118
118
118
118
118
118
118
118
118
118
118
118
148
148
118
148
2.42
Table 2.12: Seasonal statistics of air temperature:
Table 2.12a:
Mean in
Winter
1980
B02
BO 5
B29
CLB
1981
1982
1983
19811
11.38
9.67
11.01
11.51
9.011
9.60
9.11
9.111
10.13
11.78
N3
C2
C3
dl
C5
1983
11.9'l
13.90
10.01
12.119
13.38
11.57
13.59
12.25
9.36
9 .35
12.30
12.79
10.76
11.76
12.16
12.78
10.81
7.82
10.72
111.05
13.25
11.65
-
12.110
1 3.29
11 .05
12.52
13.51
11 .19
13 .112
13 .112
10.77
10.70
11 .90
11.13
11.01
10.68
10.92
11.55
11.69
11.00
12.19
11 .27
10.20
11.63
10.81
12.118
12.57
12.56
11.73
13.38
13. 118
13 .119
111
12.68
13.15
13.57
12.58
11.36
12.111
13.18
13.95
.113
111.113
13.19
111.57
15.20
13.55
11 .80
111.73
111.06
15.35
12.55
16.05
15.68
16.89
17.01
15.19
17.52
16.25
15.61
19 .211
B28
B211
1982
9.95
9.89
R3
B23
B25
1981
10.20
Bill
Bi 1
1980
9.82
BNE
B27
B22
B13
B26
B12
Summer
11.51
•
13.92
2.43
Table 2.12.b: Standard deviation of air temperature in
OC.
Summer
Winter
1980
802
805
B29
CLB
BNE
B27
B22
1981
1982
1983
198'I
2.27
2.30
0.57
2.52
2.80
3.145
2.78
3.39
2.91
1.36
0.62
1.62
2.50
1981
1982
1983
198'I
1.61
2.65
1.511
2.71
2.05
2.13
2.07
2.911
1.60
2.115
1.113
1.83
1.83
1.78
1980
1.57
1.116
8111
1.81
N3
C2
C3
0.75
0.80
1.37
1.111
1.85
1.09
C5
R3
811
B23
B25
8211
1.97
0.990.911
1.811
1.23
1.111
0.83
1.32
1.33
1.36
0.75
CII
813
B26
B12
B28
2.116
0.79
1.59
1.01
1.60
1.21
1.115
1.67
1.56
1.32
1.36
1.39
1.89
1.66
0.7'i4
1.28
1.87
2.17
1.17
1.55
1.91
1.21
1.113
1.86
0.61
0.71
1.29
1.57
1.98
2.06
0.89
0.87
2.39
2.23
2.30
1.31
1.75
1.81
1.611
1.63
1.52
0.62
0.69
2.51
1.01
1.21
2.211
1.00
2.44
Table 2.12c: Percent good data for air temperature in the
time
interva is.
Winter
1980
1981
Summer
1982
1983
19814
1981
1982
1983
100
100
100
100
148
0
100
100
0
0
0
0
0
148
1980
B02
0
B05
0
65
65
100
100
100
87
B29
CLB
0
0
0
0
0
0
0
65
85
65
86
0
78
SNE
B27
B22
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
814
0
0
37
100
100
100
92
95
89
0
0
0
0
0
0
0
0
3
0
0
0
0
0
0
3
57
0
0
0
0
3
0
0
0
0
0
0
0
0
0
0
0
B13
0
0
0
0
0
0
0
0
100
714
95
0
58
58
99
B26
0
0
0
65
0
0
0
0
65
63
91
0
100
86
97
100
118
812
B28
0
0
0
0
65
76
60
0
0
0
0
148
0
65
143
1414
0
100
0
0
91
0
0
0
0
76
16
0
B214
0
0
0
0
0
0
0
100
95
88
96
96
100
100
118
B23
B25
100
100
100
100
B114
N3
C2
C3
Cu
C5
R3
Bli
95
95
1
0
0
0
0
99
100
•69
13
714
0
0
33
15
0
100
93
0
0
714
0
0
63
73
75
0
0
0
0
0
0
714
0
96
148
100
91
0
118
148
148
39
2.45
Table 2.13: Seasonal statistics of sea surface temperature:
Table 2.13a: Mean in
Summer
Winter
1980
B02
B05
B29
CLB
B27
B22
Blk
1981
1982
1983
198k
13.08
11.27
15.00
12.8k
1)4.149
1)4.60
13.97
13.k8
11.73
10.23
11.5k
10.66
13.57
1981
1982
1983
198k
12.12
10.08
12.55
12.0k
11.51
11.31
10.15
12.10
1980
•
.
11.01
1)4.53
12.11
11.81
N3
C2
11.140
C3
11.k6
9.19
11.68
12.30
13.61
12.85
13.10
13.95
10.68
9.68
10.03
11.97
12.23
10.k9
10.47
10.52
10.73
11.50
10.71
11.39
12.96
13.09
1)4.16
1)4.28
12.21
13.68
1)4.014
1)4.11
15.69
13.k7
13.96
10.87
13.01
12.9k
13.89
12.75
13.22
10.83
.
CS
R3
B13
B26
B12
B28
B11
B23
B25
B214
15.9)4
16.61
16.71
13.23
15.22
15.35
18.15
20.36
114.2)4
17.67
16.50
13.17
13.32
11.13
10.93
12.7k
13.95
9.56
10.62
11.55
11.36
12.08
13.30
15.91
18.81
17.140
17.3)4
1)4.55
2.46
Table 2.13.b: Standard deviation of sea surface temperature in OC.
Summer
Winter
1980
B02
B05
1981
1982
1983
0.70
2.142
0.76
1.58
2.29
2.76
0.73
1.73
0.63
B29
CLB
B27
B22
1.37
1982
1983
19814
3.214
2.11
2.56
2.62
2.89
2.67
2.73
0.05
1.59
1.00
1.03
1.19
2.11
1 .66
0.86
.53
1
1 .00
1.5)4
1 .57
1.10
2.03
0.80
.62
0.81
0.71
2.18
1.29
1.51
0.140
BilL
1981
1980
0.97
1.51
1.2)4
1 .99
1.32
N3
C2
C3
0.21
0.21
1 .57
0.814
1.55
.37
1
0.96
C5
R3
0.15
0.92
B1 3
B26
B12
0.37
0.92
0.83
0.79
0.614
B2 3
B25
B2 14
0.62
1
.67
.89
1
1 .09
1.16
1.147
1
1.1)4
1.20
1.78
1.69
2.00
2.32
0.99
0.66
B 28
Bi 1
1
1 .19
1 .52
0.91
-
0.89
2.51
1.01
1 .26
2.014
1
2.13
0.19
1 .62
1 .36
1
. 39
1.61
.85
1.141
1 .148
2.55
1.18
2.38
0.90
2.47
Table 2.13c: Percent good data for sea surface temperature in the
time intervals.
Sunhifler
Winter
1980
B02
0
B05
0
B29
CLB
B27
0
0
0
0
0
0
0
0
0
0
0
B22
B114
N3
C2
C3
C'4
C5
R3
B13
B26
812
B28
811
B23
B25
B214
0
1982
1983
65
65
100
100
100
87
0
0
1981
198'4
95
95
0
1
65
85
65
86
0
0
0
814
0
0
0
0
0
0
0
0
0
38
100
100
100
3
0
0
3
0
0
0
3
0
0
0
100
711
0
0
0
0
65
0
0
0
0
0
0
65
63
91
0
0
65
143
0
0
0
0
0
0
o
100
100
100
100
91
95
0
0
0
0
0
0
95
65
76
60
1414
91
71
16
1981
1982
1983
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
100
100
100
100
100
100
0
0
0
0
714
15
0
100
100
100
93
'48
0
69
0
0
0
714
0
0
63
0
0
73
75
0
0
0
0
0
0
0
0
0
0
0
1980
0
78
0
0
90
57
0
198'I
148
'48
0
148
58
58
99
714
0
100
96
148
0
0
148
100
86
97
100
0
0
0
148
100
95
88
96
96
100
100
148
100
0
0
0
91
148
148
39
11
2.48
Table 2.114: Seasonal statistics of calculated atmospheric pressure:
Table 2.114a: Mean in mb.
Winter
1980
1981
CG17 1013.14 1012.2
CG16 1013.14 10114.0
CG15
101)4.0
CG1J4
CG13
CG12
CG11
CG1O
CGO9
CGO8
CGO7
CGO6
CGO5
CGO)4
CGO3
CGO2
CGO1
CG35
CG3)4
CG33
CG32
1982
1010.3
1011.3
1011.5
1015.1 1015.7 1012.7
1015.5 1016.9 1013.9
1015.8 1017.7 101)4.9
1016.0 1018.3 1015.9
1016.1 1018.7 1016.6
1016.0 1019.0 1017.2
1016.2 1018.8 1017.5
1016.3 1019.1 1018.0
1016.14 1019.1 1018.14
1016.3 1018.8 1018.14
1015.8 1018.14 1018.1
1015.3 1017.9 1017.5
1015.2 1017.0 1016.7
1015.0 1016.2 1016.14
101)4.8 1015.5 1015.8
1015.0 1015.1 1015.2
1015.0 1015.3 1015.5
1015.0 1015.3 1015.14
Summer
198)4
1980
1007.1 1012.3
1015.2
1016.3
1017.0
1017.0
1016.9
1017.3
1017.8
1017.7
1017.0
1016.3
1983
1008.14 1013.5
1008.5 1013.8
1010.2 1015.5
1011.14 1016.6
1012.0 1017.3
1012.7 1017.9
1013.3 1018.3
10114.2 1018.7
10114.7 1018.8
1015.8 1019.0
1019.0
1016.5 1018.9
1016.3 1018.5
1015.9 1017.6
1015.14 1016.8
1015.3 1016.5
101)4.9 1016.0
10114.5 1015.5
101)4.9 1016.0
10114.9 1015.8
1982
1983
10114.7 1016.5
1015.9 1017.14
1016.14 1018.0
1016.5 1017.8
1016.8 1017.14
1015.6
1016.6
1017.2
1017.3
1981
10114.8
1015.5
1016.)4
1017.2 1017.0
1017.)4 1017.14 1017.14 1017.9
1018.1 1017.8
1018.3 1017.8
1017.9 1017.3
1016.8 1016.5
1015.14 1015.3 1015.14
1017.8
1017.6
1016.9
1016.1
1015.0
101)4.9 10114.3 10114.7 101)4.3
10114.8 1013.9 10114.5 101)4.2
101)4.0 10114.5 101)4.2
1013.6
1012.2
1012.1
1011.5
1011.6
1013.3
1012.7
1011.3
1010.8
1010.7
1010.6
10114.2 1011.5
1011.7 1011.7
1013.5
1012.5
1012.5
1011.9
1011.2
1012.0
1012.2
1013.1
1012.0
1012.1
1011.8
1011.14
1012.3
1012.5
1018.8
1019.2
1018.8
1018.3
1017.1
1016.0
1015.6
1015.1
1013.3
1012.0
1012.3
1012.2
1011.8
1012.8
1012.9
2.49
atmospheric pressure in mb.
Table 2.11t.b: Standard deviation of calculated
Summer
Winter
1980
CG17
CG16
CG15
CG114
CG13
CG12
12.51
11.69
11.05
10.50
10.16
9.58
8.69
7.85
1981
10.12
9.77
9.23
8.714
19814
1980
1981
1982
11.61
11.86
11.91
6.28
5.69
5.62
6.07
8.28
6.140
6.01
7.149
6.148
6.07
5.70
5.35
5.09
7.52
6.66
6.10
5.78
5.49
4.80
11.18
11.27
10.57
9.87
9.32
8.88
8.20
7.28
11.148
11.02
6.63
6.03
11.149
10.714
5.91
10.85
10.22
9.72
9.96
5.10
14.99
9.21
14.57
14.51
8.52
7.99
7.30
14.22
14.31
6.18
5.82
5.52
3•93
3.49
3.32
3.39
14.28
5.21
3.95
3.65
3.37
14.56
5.66
14.95
14.59
14.72
CGOI4
14.45
14.014
14.05
5.21
C003
CGO2
14.08
3.98
3.86
14.80
3.76
3.58
14.51
3.53
CG1O
CGO9
C008
CGO7
cG06
CGO5
CGO1
CG35
CG314
CG33
CG32
6.95
6.26
3.54
2.93
3.914
2.50
2.32
2.23
3.00
2.68
2.40
2.25
2.11
3.51
19814
1983
8.28
7.89
7.39
6.76
6.12
5.49
5.03
CG11
1983
1982
9.146
9.07
8.143
7.83
5.67
5.18
7.19
5.85
5.22
6.514
11.71
5.91
14.26
6.141
3.73
3.37
4.17
3.82
3.31
3.05
2.81
3.143
2.82
2.62
2.55
3.00
2.65
2.50
2.30
3.06
3.147
3.25
3.50
3.30
2.90
3.17
2.95
2.62
2.55
2.71
2.68
2.63
2.53
2.24
3.21
2.52
2.614
2.67
2.63
2.55
2.40
2.24
3.80
3.28
2.99
2.96
2.82
2.58
2.50
2.53
2.51
2.43
2.35
2.17
2.10
14.90
14.52
3.96
3.71
3.47
3.30
3.27
3.414
3.03
3.07
2.82
2.79
2.77
2.69
2.59
2.72
3.99
3.84
2.71
2.79
2.76
2.74
2.66
2.35
2.23
2.10
2.50
Table 2.1LIc: Percent good data for calculated atmospheric pressure in the
time intervals.
Winter
CG17
CG16
CG15
148
CG1I4
118
CG13
CGI2
CG11
CG1O
CGC9
CGO8
CGO7
CG06
148
100
100
100
100
100
100
100
100
100
100
148
ioo
ioo
'48
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
148
100
100
100
148
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
'48
148
'48
148
CG35
148
CG3)4
148
CG33
CG32
148
100
100
100
100
100
100
100
100
'48
100
CGO5
CGO'I
CGO3
CGO2
CGO1
Summer
'48
148
148
100
100
100
95
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
148
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
'48
100
100
100
100
100
100
148
'48
148
148
148
148
148
148
148
148
148
148
148
148
148
148
148
148.
3.1
3.
Monthly Space (y,t) Contour Plots of LLP Adjusted Sea Level (c)
and LLP Alongshore Wind Stress (r).
3.3
2000
CG 16
1600
CG13
1200
600
CG 10
T
400
CGO7
0
—400
CGO4
—800
CGO 1
—1200
CG33
—1600
PRR
2000
QCC
1600
TOF
1200
AS?
800
SBC
CHR
400
NSP
ccY
PRY
SF0
0
hEY
PSI.
—400
RIS
LOS
SDO
—800
—1200
—1600
—2000
6
8
10
12
14
16
18
20
January 1980
3.4
2000
CG16
1600
1200
CG13
800
CG 10
400
T
CGO7
0
—400
CGO4
—800
CGO 1
—1200
—1600
CG33
2000
1600
1200
800
400
0
—400
—800
—1200
—1600
—2000
8
10
12
14
16
Februar'y 1980
3.5
2000
CG16
1600
CG13
1200
800
CG1O
T
400
CGO7
0
CGO4
—400
—800
CGO 1
—1200
CG33
—1600
PRR
;:.'
2000
/
J
1600
if —.
—
——
5-
5—;.
'F
——
*
'
II
120.0
BBL
,/'i
\
AST
— ,/,,—;
SBC
F—.
800
TOF
,_4— NBA
'-F
400
-
*.5_
S—
-S
?
—400
.11
/
Ii
/
—
S
—__,
.,
*.
— 1.200
—1600
—2000
March 198.0
I
:
MRY
h PSL
"s)
—'
—800
S_F
I_
NSP
PRY
SF0
t_i
5
——
I'
::r
ss 20.0•i
--
—'
RIS
LOS
i—SDO
3.6
2000
1600
CG16
1200
CG 13
800
CG 10
400
T
0
CGO7
—400
CGO4
—800
—1200
CGO1
—1600
CG33
2000
Z
1600
_,1200 —f.
:
—
-
_,i..
800
S
—— _
—
I/
— ,t
——
AST
._ _#
e
——
—
SBC
400
::
-
::
-
-'
-Il,
-
—1200 —
—1600 —
—2000
I
30
2
I
4
I
I
6
8
10
I
12
14
16
18
I
20
1980
I
I
22
24
I
I
26
I
28
I
I
30
I
2
3,17
2000
CG 16
1600
CG13
1200
800
CG1O
41
T
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14
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November 1981
3.26
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22
26
28
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1200
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400
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1600
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1200
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400
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6
10
12
14
16
18
September 1982
3.36
2000
1800
CG 16
1200
CG 13
800
CG1O
400
T
0
CGO7
—400
CGO4
—800
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—1600
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2000
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1600
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NBA
1200
800
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400
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0
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14
18
18
October 1982
3.37
2000
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1600
1200
CG13
800
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400
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0
—400
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—1600
2000
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QCC
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1600
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NBA
1200
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800
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400
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0
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RIS
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8
10
12
14
16
November 1982
3.38
2000
1600
CG 16
1200
CG 13
800
CG1 0
400
T
0
CGO7
—400
CGO4
—800
—1200
CGO 1
—1600
CG33
2000
PRR
QCC
1800
BBL
ZBL
1200
TOF
NBA
800
AST
SBC
400
ccY
NSF
ARC
PRY
0
SF0
HMB
MRY
—400
PSL
RIS
—800
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Sf0
—120a
—1600
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December 1982
3.39
2000
CG 16
1600
CG13
1200
800
CG 10
T
400
CGO7
0
—400
CGO4
—800
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—1600
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2000
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1600
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1200
800
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0
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PSL
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—800
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12
14
16
18
January 1983
3.40
2000
1600
CG 16
1200
CG 13
800
CG 10
400
T
0
CGO7
—400
CGO4
—800
CGO 1
—1200
—1800
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2000
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1600
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1200
TOF
NBA
800
AST
Sac
CHE
400
0
PRY
SF0
HMB
—400
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RIS
—800
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5130
—1200
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10
12
Febructr'y
1983
3.41
2000
CG 16
1600
1200
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800
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400
T
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0
—400
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—500
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—1200
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—1600
2000
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1800
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1200
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800
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400
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0
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10
12
14
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March 1983
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400
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1600
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NBA
12.00
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800
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400
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May 1983
3.44
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1600
1200
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800
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1200
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800
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26
Jttne 1983
28
30
2
3.45
2000
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1600
1200
CG 13
800
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400
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1600
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NBA
1200
AST
800
SBC
CRR
400
PRY
0
SF0
URY
PSI..
—400
RIB
LOS
—800
SDO
—1200
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4
6
8
10
12
14
July 1983
3.46
2000
1600
CC16
1200
CC 13
800
CC 10
400
T
0
C007
—400
CGO4
—800
—1200
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2000
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1600
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TOF
NBA
1200
600
AST
SBC
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400
0
PRY
SF0
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RIS
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18
16
20
August 1983
22
24
(
3.47
2000
CG16
1600
1200
CG 13
800
CG 10
400
T
CGO7
0
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—800
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—1600
2000
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1600
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1200
NBA
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800
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CMR
400
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0
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SDO
—1200
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September 1983
3.48
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1
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TOF
NBA
AST
SEC
CHR
CCY
NSP
PRY
SF0
MRY
PSL
RIS
LOS
SDO
30
2
4
6
8
10
12
October 1983
3.49
2000
CG 16
1800
1200
CG13
800
CG 10
400
T
CGO7
0
—400
CGO4
—800
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—1200
CG33
—1600
2000
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BBL.
1600
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TOF
1200
NBA
AST
800
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CER
400
PRY
0
SF0
MRY
—400
PSL
RIS
LOS
SDO
—800
—1200
—1600
—2000
8
10
12
14
20
22
November 1983
24
26
28
30
2
3.50
2000
1600
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1200
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800
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400
T
0
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—800
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2000
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1600
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1200
800
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400
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0
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16
18
20
22
December 1983
24
26
3.51
2000
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1600
1200
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800
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400
T
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0
—400
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2000
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1600
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1200
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AST
800
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400
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30
2
4
6
8
10
12
14
16
18
20
22
24
January 1984
26
28
30
3.52
2000
1600
CG 16
1200
CG 13
800
CG 10
400
T
0
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—400
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—800
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2000
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1600
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1200
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800
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SEC
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400
0
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RIS
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Febructy7j 1984
3.53
2000
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1600
1200
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800
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400
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0
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—1600
2000
1600
1200
800
400
0
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March 1984
3.54
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0
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2000
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400
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4
6
8
10
12
14
Apr'il 1984
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1981
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1982
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Measured Wind Velocity
10
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JAN
1981
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1982
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Measured Wind Velocity
10
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I
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1982
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Measured Wind Velocity
10
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1981
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1982
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Measured Wind Velocity
10
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1982
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Measured Wind Velocity
I
I
10
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1981
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10
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1982
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10
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1982
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Measured Wind Velocity
I
I
10
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1982
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I
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10
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I
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1982
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I
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I
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I
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1982
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I
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I
I
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APR
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1982
Measured Wind Velocit.y
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I
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I
NOV
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1982
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1983
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I
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Measured Wind Velocity
I
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I
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DEC
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1982
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1983
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MAR
0
Measured Wind Velocfty
10
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I
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I
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JAN
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1983
1982
MAR
I
0
Measured Wind Velocity
I
I
10
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1982
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1983
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I
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I
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I
I
I
I
I
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I
I
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1982
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1983
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I
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1983
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10
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I
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I
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I
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I
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I
I
I
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OCT
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10
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I
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CBL
APR
MAY
JUN
JUL
AUG
1981
Major Axis Wind Component
SEP
ccY
12
HUM
n
'I
0
Ii)
Ui
—12
B14
ARL
SRA
APR
MAY
JUL
JUN
AUG
SEP
1981
f-fl
Major Axis Wind Component
u-I
U,
-a
C3
12
C5
0
U
—12
R3
BML
B13
1981
Major Axis Wind Component
PIL
12
C,
B12
U
—12
PIG
PIN
SUR
APR
MAY
JUL
JUN
AUG
1981
Major Axis Wind Component
SEP
DIA
12
C)
Bil
n
LI
—12
SBA
MUG
SN!
APR
MAY
JUN
JUL
AUG
1981
Major Axis Wind Component
SEP
w
LOS
12
C)
LBC
V
—12
Sc'
SDO
APR
MAY
AUG
JUN
SEP
1981
Major Axis Wind Component
U,
'.0
C,)
D
B02
12
B05
C)
0
—12
PRR
CsJ
MCI
1981
1982
Major Axis Wind Component
csC
12
C)
a,
NBA
V.3
—12
QU!
HOQ
GRH
OCT
NOV
1981
DEC
JAN
.
FEB
1982
Major Axis Wind Component
MAR
01
N)
N)
CPD
12
CLB
C)
a)
—12
AST
NEW
Slu
OCT
NOV
1981
DEC
JAN
FEB
1982
Major Axis Wind Component
MAR
NOB
12
0
CDT
—12
CBL
PSG
CCY
NOV
1981
DEC
JAN
FEB
1982
Major Axis Wind Component
MAR
HUM
12
B22
C)
0
nrl)
'I
—12
B14
ARL
SRA
1981
1982
Major Axis Wind Component
C2
12
0
C3
U
—12
R3
BML
B13
OCT
NOV
1981
DEC
JAN
FEB
1982
Major Axis Wind Component
MAR
PIL
12
B12
C)
—12
PIG
PIN
SUR
OCT
NOV
1981
DEC
JAN
FEB
1982
Major Axis Wind Component
MAR
PPB
12
C.,
a)
DIA
U
—12
Bli
SBA
MUG
OCT
NOV
1981
DEC
JAN
FEB
1982
Major Axis Wind Component
MAR
Cl)
SNI
12
LOS
C.)
LBC
Sc'
SDO
1981
MAR
1982
Major Axis Wind Component
B02
12
C)
B05
Q)
—12
PRR
CsJ
MCI
APR
MAY
JUL
JUN
AUG
SEP
1982
U,
Major Axis Wind Component
01
0
csc
12
NBA
0
0
U
—12
QUI
DST
HOQ
1982
Major Axis Wind Component
GRH
12
0
CPD
—12
AST
NEW
Slu
APR
MAY
JUL
JUN
AUG
SEP
1982
('1
Major Axis Wind Component
—a
ci,
(A)
N)
NOB
12
CBT
a
'I
—12
CBL
PsG
ccY
APR
MAY
JUN
JUL
AUG
1982
Major Axis Wind Component
SEP
HUM
12
0
1322
'I
—12
B14
ARL
N3
APR
MAY
JUL
JUN
AUG
1982
Major Axis Wind Component
SEP
(71
(&)
SRA
12
C2
C)
a)
—12
C3
C4
C5
APR
MAY
JUN
JUL
AUG
1982
Major Axis Wind Component
SEP
R3
12
0
BML
a)
U
—12
813
PIL
812
APR
MAY
JUL
J1.JN
AUG
1982
Major Axis Wind Component
SEP
U,
(4
PIG
12
PIN
C)
a)
—12
SUR
PPB
DIA
1982
Major Axis Wind Component
Bil
12
C)
B23
n
a,
—12
SBA
1325
MUG
APR
MAY
JUL
JUN
AUG
SEP
1982
(n
Major Axis Wind Component
Ui
-
SM
12
B24
C)
a)
'I
--12
LOS
LBC
Sc'
APR
MAY
JUN
JUL
AUG
1982
Major Axis Wind Component
SEP
I
a
24
I
12
C,
SDO
A
-
\J\J W
A
VV
'J V \/ V
A
\4
0
AA A
V \,J \/%4v
V
—
I
I
APR
MAY
JUL
JUN
1982
Major Axis Wind
——24
I
I
AUG
—12
SEP
U,
B02
12
B05
0
nO)
'I
—12
PRR
CsJ
MCI
OCT
NOV
1982
DEC
JAN
FEB
1983
Major Axis Wind Component
MAR
csc
12
0
NBA
U
—12
QUI
DST
HOQ
OCT
NOV
1982
DEC
JAN
FEB
1983
Major Axis Wind Component
MAR
N)
GRH
12
CPD
C)
Q)
—12
CLB
AST
NEW
OCT
NOV
1982
DEC
JAN
FEB
1983
Major Axis Wind Component
MAR
ccY
12
C)
HUM
C)
B22
B14
ARL
OCT
NOV
1982
DEC
JAN
FEB
MAR
1983
u-I
Major Axis Wind Component
Sm
12
NOB
0
a,
'I
—12
CBT
CBL
PSG
OCT
NOV
1982
DEC
JAN
FEB
1983
Major Axis Wind Component
MAR
B13
12
C)
B26
a)
U
—12
PIL
B12
PIG
OCT
NOV
1982
DEC
JAN
FEB
1983
Major Axis Wind Component
MAR
(71
PIN
12
SUR
C)
0
U
—12
PPB
DIA
Bli
1982
1983
Major Axis Wind Component
B23
12
C,
a)
SBA
'J
—12
B25
MUG
SNI
OCT
NOV
DEC
1982
JAN
FEB
MAR
1983
U,
Major Axis Wind
B24
12
LOS
a
0
—12
LBC
Sc'
SDO
ocT
NOV
1982
DEC
JAN
FEB
1983
Major Axis Wind Component
MAR
B02
12
0
B05
U
—12
QUI
HOQ
CLB
APR
MAY
JUL
JUN
AUG
1983
Major Axis Wind Component
SEP
(n
('1
AST
12
NOB
C)
0)
"S.....-
—12
CBT
CBL
B27
APR
MAY
JUN
JUL
AUG
1983
Major Axis Wind Component
SEP
PSG
12
U
a,
ccY
U
V3
—12
1322
B14
1313
APR
MAY
JUL
JUN
AUG
SEP
1983
01
Major Axis Wind Component
(n
(31
B26
12
B12
C)
U
—12
DIA
Bil
B23
1983
Major Axis Wind Component
SEP
SBA
12
C.)
a)
n
B25
—12
MUG
SNI
B24
APR
MAY
JUL
JUN
AUG
1983
Major Axis Win.d Component.
SEP
(71
I
I
—
Los
U.'
I
,
12
C)
.
LBC
0
—12
SDO
'
—
=
APR
MAY
JUN
JUL
AUG
1983
Major Axis Wind Component
SEP
B02
12
0
B05
a)
0
—12
B29
CLB
CDT
OCT
NOV
1983
DEC
JAN
FEB
1984
Major Axis Wind Component
MAR
01
01
CBL
12
C)
B27
a,
'I
11
—12
PSG
B22
B14
OCT
NOV
1983
DEC
JAN
FEB
1984
Major Axis Wind Component
MAR
B13
12
0
1326
U
—12
B12
1328
DIA
OCT
NOV
1983
DEC
SIAN
FEB
MAR
1984
U,
Major Axis Wind Component
01
I
I
0,
—
I
Bil
12
0
B23
',
—12
B25
B24
-
—
OCT
NOV
1983
DEC
JAN
FEB
1984
Major Axis Wind Component
MAR
B02
12
C)
B29
q)
U
—12
BNE
B22
B14
APR
MAY
JUL
JUN
AUG
1984
Major Axis Wind Component
SEP
I
I
01
——
I
0
B13
12
B26
C.)
'I
— —12
812
B28
DIA
—
APR
MAY
JUL
AUG
1984
Major Axis Wind Component
SEP
Bil
12
C.)
A
U
B23
—12
B25
B24
APR
MAY
JUL
JUN
AUG
1984
Major Axis Wind Component
SEP
6.1
6. LLP Calculated Wind Vector Plots.
CG17
I
.
CG15
CG13
CG11
CGO9
U
OCT
NOV
I
DEC
JAN
FEB
MAR
1980
1979
I
0
Calculated Wind Velocity
I
I
10
(m/sec)
I
I
I
I
CGO7
CGO5
'i1"/("
CGO3
CGO1
CG34
OCT
NOV
DEC
JAN
1979
FEB
MAR
1980
Calculat.ed Wind Velocity
0
10
(rn/see)
I
I
CG17
CG15
CG 13
CG11
CGO9
I
I
APR
MAY
I
-
JUL
JUN
-
SEP
AUG
1980
I
0
Wind
I
I
10
01
CGO7
CGO5
CGO3
CGO1
CG34
APR
--I
MAY
JUN
JUL
1980
AUG
SEP
fli
0
Wind Velocity
10
(m/sec)
w/
-I
OCT
NOV
DEC
JAN
FEB
MAR
1981
1980
I
0
Calculat.ed Wind
I
I
10
(m/sec)
-I-
Id
CGO7
CGO5
CGO3
CGO1
I
CG34
I\\7I
I
I
I
OCT
I
JAN
1980
FEB
1981
Calculated Wind Velocity
MAR
Il-i
0
10
(m/sec)
I
APR
MAY
JUL
JUN
SEP
AUG
1981
I
0
Calculated Wind Velocity
I
I
10
(rn/see)
'.0
I
I
_I
I
CGO7
.11'
CGO5
CGO3
CGO1
CG34
4"
APR
MAY
JUN
JUL
AUG
SEP
1981
0
Calculated Wind Velocity
10
(rn/see)
-J
CG
OCT
NOV
JAN
DEC
FEB
MAR
1982
1981
I
0
Wind
I
I
10
(m/sec)
I--I
—
CGQ7
CGO5
CGO3
CGO1
I—
CG34
I
OCT
NOV
DEC
JAN
1981
I
FEB
MAR
1982
I
0
Wind Velocity
I
I
10
(m/sec)
___________________
I
I
I
I
CG
CG
CG13
CG11
CGO9
--
APR
IAAY
JUL
JUN
I
I
SEP
AUG
1982
I
0
Calculated Wind Velocity
I
I
10
(m/sec)
-J
(A)
-I
I
CGO7
CGO5
CGO3
CGO1
CG34
APR
MAY
JUN
JUL
1982
Calculated .Wind Velocity
AUG
SEP
Ill
0
10
(m/sec)
CG17
CG15
CG13
CG11
/.
I
I
I
OCT
NOV
DEC
JAN
MAR
FEB
1983
1982
I
0
CalculaI.ed
Wind Velocit.y
I
I
10
(m/sec)
'I
I
CGO7
CGO5
CGO3
CGO1
CG34
OcT
NOV
DEC
JAN
1982
FEB
MAR
1983
I
Calculated Wind Velocity
0
I
I
10
(rn/see)
___
CG
CG15
CG13
CG11
CGO9
APR
JUL
JUN
1983
SEP
AUG
Eli
0
Calculated Wind Velocity
10
(m/sec)
L
-J
I
CGO7
CGO5
CGO3
CGO1
.________
CG34
t
I
APR
I
MAY
I
JUN
I
JUL
I
AUG
SEP
1983
I
0
Calculaf,ed Wind Velocit,y
Ii
10
(rn/see)
CG17
CG15
CG13
CG11
CGO9
Wk
OCT
NOV
DEC
JAN
FEB
MAR
1984
1983
I
0
Calculated Wind Velocity
I
I
10
(rn/see)
CGO7
I
I
CGO5
CGO3
CGO1
.17
V1
CG34
OCT
NOV
DEC
JAN
1983
FEB
1984
Calculated Wind Velocity
MAR
Ill
0
10
(m/sec)
_____________________________
I
I
I ——
CG17
/
"It'
CG15
CG13
Lkiz 1JiI/
CG11
CGO9
I
APR
MAY
JUL
JUN
I
SEP
AUG
1984
I
0
Calculat.ed Wind Velocit.y
I
I
10
(m/sec)
a.'
I
CGO7
CGO5
CGO3
CGO1
CG34
I
I----
I
APR
MAY
JUN
JUL
AUG
SEP
1984
I
Calculated Wind Velocity
0
I
I
10
(rn/see)
7.1
CG17
12.0
C)
fin
u.u
CG15
a)
—12.0
CG13
CG11
CGO9
OCT
NOV
1979
DEC
JAN
FEB
MAR
1980
—I
(A)
Calculat.ed Major Axis Wind Component.
CGO7
12.0
CGO5
0.01
—12.0
CGO3
CGO1
CG34
1979
1980
Calculat.ed Major Axis Wind Component
CG17
12.0
C)
nfl
'J.u
CG15
w
—12.0
CG13
call
CGO9
APR
MAY
JUL
JUN
AUG
SEP
1980
(Il
Calculat.ed Major Axis Wind Component.
CGO7
12.0
C)
CGO5
An
—12.0
CGO3
CGO1
CG34
APR
MAY
JUN
JUL
AUG
1980
Calculated Major Axis Wind Component
SEP
a,
U3
CG17
12.0
C)
(In
U.'.,
CG15
a)
—12.0
CG13
CG11
CGO9
OCT
NOV
DEC
JAN
FEB
MAR
1981
1980
—4
Major Axis Wind
'.4
03
CGO7
12.0
0
CGO5
nfl
"U
—12.0
CGO3
CGO1
CG34
1980
1981
Calculated Major Axis Wind Component
a)
UI
CG17
12.0
U
nn
CG15
—12.0
CG13
CG11
CGO9
APR
MAY
JUL
JUN
AUG
1981
Calculat.ed Major Axis Wind Component.
SEP
a)
V3
D
CGO7
12.0
0
CGO5
An
"U
—12.0
CGO3
CGO1
CG34
APR
MAY
JUN
JUL
AUG
1981
Calculated Major Axis Wind Component
SEP
U)
CG17
12.0
U
nn
u.u
CG15
—12.0
CG13
CG11
CGO9
OCT
NOV
1981
Calculat.ed
DEC
JAN
FEB
1982
Major Axis Wind Component.
MAR
a,
U)
N.)
CGO7
12.0
CGO5
nn
IJ.u
—12.0
CGO3
CGO1
CG34
OCT
NOV
1981
DEC
JAN
FEB
1982
Calculated Major Axis Wind Component
MAR
C)
Q)
CG17
12.0
C)
nn
u.u
CG15
a)
U)
—12.0
CG13
CG11
CGO9
APR
MAY
JUL
JUN
AUG
SEP
1982
Major Axis Wind Component.
c.&)
-
CGO7
12.0
C)
CGO5
nfl
',.u
—12.0
CGO3
CGO1
CG34
APR
MAY
JUN
JUL
AUG
1982
Calculated Major Axis Wind Component
SEP
__1
CG17
/
A
12.0
fr\)
a,.
C)
CG15
IJ.u
—12.0
CG13
CG11
CGO9
E
I
OCT
NOV
1982
I
DEC
I
JAN
I
FEB
1983
Calculat.ed Major Axis Wind Component.
MAR
CGO7
12.0
U
CGO5
An
'I.',
—12.0
CGO3
CGO1
CG34
1982
MAR
1983
Calculated Major Axis Wind Component
U)
CG17
12.0
C)
An
u.u
CG15
—12.0
CG13
CG11
CGO9
APR
MAY
JUL
JUN
AUG
1983
Calculated Major Axis Wind Component
SEP
a)
-J
co
CGO7
12.0
CGO5
C-)
nn
"U
—12.0
CGO3
cG01
CG34
1983
Calculated Major Axis Wind Component
0,
CG17
12.0
C.)
fin
IJ.u
CG15
—12.0
CG13
CG11
CGO9
OCT
NOV
1983
DEC
JAN
FEB
1984
Calculat.ed Major Axis Wind Component.
MAR
a)
U)
N)
CGO7
12.0
0
CGO5
An
'I.',
—12.0
CGO3
CGO1
CG34
OCT
NOv
1983
DEC
JAN
FEB
1984
Calculated Major Axis Wind Component
MAR
w
ri,
CG17
12.0
nfl
u.u
CG15
0)
U)
—12.0
CG13
CG11
CGO9
APR
JUL
JUN
AUG
SEP
1984
N)
Calculaled Major Axis Wind
-.4
N)
N)
CGO7
12.0
C)
CGO5
nfl
',.u
—12.0
CGO3
CGO1
CG34
APR
hAY
JUN
.JUL
1984
Major Axis Wind
AUG
SEP
'1,
8.1
8.
Plots.
PRR
25.
QCC
0.
—25.
BBL
ZBL
TOF
OCT
NOV
DEC
JAN
FEB
MAR
1980
1979
03
(A)
Adjust.ed Sea Level
[
co
I
.
BAM
REN
I
I
NBA
TKP
AST
OCT
NOV
DEC
JAN
1979
FEB
1980
Adjust.ed Sea Level
MAR
25.
sac
25.
a.
CHR
—25.
ccY
TRH
NSP
OCT
NOV
DEC
JAN
FEB
MAR
1950
1979
a,
Adjust.ed Sea Level
ARC
25.
PRY
—25.
SF0
HMB
MRY
DEC
1979
JAN
FEB
1980
Adjust,ed Sea Level
MAR
PSL
25.
RIS
—25.
SMA
LOS
SDO
OCT
NOV
DEC
JAN
FEB
1980
1979
Adjust.ed Sea Level
MAR
03
PRR
25.
QCC
—25.
BBL
ZBL
TOF
APR
MAY
JUN
JUL
1980
Adjust.ed Sea Level
AUG
SEP
BAM
25.
REN
—25.
NBA
TKP
AST
APR
MAY
JUL
JUN
1980
Adjusted Sea Level
AUG
SEP
cD
SBC
25.
CHR
—25.
ccY
TRH
NSF
APR
}AAY
JUN
JUL
1980
Sea Level
AUG
SEP
ARC
25.
PRY
—25.
SF0
HMB
MRY
APR
MAY
JUL
JUN
AUG
SEP
1980
03
Sea Level
03
PSL
E
E
25.
RIS
—25.
SMA
LOS
I
SDO
I
-
I
.
—
I
APR
MAY
JUN
JUL
1980
Adjusted Sea Level
AUG
SEP
PRR
25.
0.
QCC
—25.
BBL
ZBL
TOF
OCT
NOV
DEC
JAN
FEB
MAR
1981
1980
..a
Adjust.ed Sea Level
(A)
-a
DAM
25.
REN
—25.
NBA
TKP
AST
OCT
NOV
DEC
JAN
1980
FEB
1981
Adjusted Sea Level
MAR
SBC
25.
CHR
0.
—25.
ccY
TRH
NSP
OCT
NOV
DEC
JAN
FEB
MAR
1981
1980
Adjust.ed Sea Level
-I
Ui
03
ARC
25.
PRY
0.
—25.
SF0
HMB
k4RY
OCT
NOV
DEC
JAN
1980
FEB
1981
Sea Level
MAR
PSL
25.
RIS
—25.
SMA
LOS
SDO
OCT
NOV
DEC
JAN
FEB
1981
1980
Adjust.ed Sea Level
MAR
co
-4
03
PRR
25.
QCC
0.
E
E
—25.
BBL
—
A
V
ZBL
..
A
TOF
ft
APR
MAY
JUN
JUL
1981
Adjust.ed Sea Level
AUG
SEP
—
HAM
25.
REN
—25.
NBA
TKP
AST
APR
MAY
JUL
JUN
AUG
SEP
1981
-a
Adjust.ed Sea Level
—
SBC
—
I
—
25.
—
—25.
CHR
ccY
TRH
NSP
APR
MAY
JUN
JUL
1981
Adjusted Sea Level
AUG
SEP
ARC
25.
PRY
—25.
SF0
HMB
MRY
APR
MAY
JUL
JUN
1981
Sea Level
AUG
SEP
N)
N)
PSL
E
25.
RIS
0.
—25.
SMA
-
LOS
I
-
SDO
-
APR
MAY
JUN
JUL
1981
Adjust.ed Sea Level
AUG
SEP
I
PRR
25.
QCC
0.
—25.
BBL
ZI3L
TOF
OCT
NOV
DEC
JAN
FEB
MAR
1982
1981
03
Adjust.ed Sea Level
N)
(A)
N)
BAM
25.
REN
o.
—25.
NBA
TKP
AST
1981
1982
Sea Level
SBC
25.
0.1
CHR
—25.
ccY
TRH
NSP
OCT
NOV
DEC
JAN
FEB
1982
1981
Adjusted Sea Level
MAR
ARC
25.
PRY
—25.
SF0
HMB
MRY
OCT
NOV
DEC
JAN
1981
FEB
1982
Sea Level
MAR
PSL
25.
a.
RIS
—25.
SMA
LOS
SDO
—
—
I
OCT
NOV
DEC
JAN
FEB
1982
1981
Adjust.ed Sea Level
MAR
co
PRR
25.
QCC
—25.
BBL
ZI3L
TOF
APR
MAY
JUN
JUL
1982
Adjusted Sea Level
AUG
SEP
DAM
25.
0.
—25.
NBA
TKP
AST
APR
MAY
JUL
JUN
1982
Adjusted Sea Level
AUG
SEP
(A)
SBC
25.
CHR
0.
—25.
ccY
TRH
NSP
APR
hAY
JUN
JUL
1982
Adjust.ed Sea Level
AUG
SEP
ARC
25.
PRYI
\J
-\-,J
01
-'F
—
SFO_
HMB
-
A
MRY
I
APR
I
MAY
I
I
JUN
JUL
1982
Sea Level
I
AUG
SEP
—25.
03
(A)
N)
PSL
25.
RIS
-25.
SMA
LOS
SDO
APR
MAY
JUN
JUL
1982
Adjust.ed Sea Level
AUG
SEP
PRR
25.
QCC
—25.
BBL
ZBL
TOF
OCT
NOV
DEC
JAN
FEB
1983
1982
Adjusted Sea Level
MAR
03
(A)
BAM
25.
REN
0.1
—25.
NBA
TKP
AST
OCT
NOV
DEC
JAN
1982
FEB
1983
Sea Level
)LAR
SBC
25.
CHR•
0.
—25.
ccY
TRH
NSP
OCT
NOV
DEC
JAN
FEB
1983
1982
Adjusted Sea Level
MAR
Co
ARC
25.
PRY
0.
—25.
SF0
HMB
MRY
OCr
NOV
DEC
JAN
1982
FEB
1983
Adjusted Sea Level
MAR
PSL
25.
0.
RIS
—25.
SMA
LOS
SDO
OCT
NOV
DEC
MAR
JAN
1983
1982
Adjusted Sea Level
03
(A)
03
PRR
25.
QCC
0.
—25.
BBL
ZBL
TOF
APR
MAY
JUN
JUL
1983
Adjust.ed Sea Level
AUG
SEP
BAM
25.
0.
REN
—25.
NBA
TKP
AST
)LAY
JUL
JUN
AUG
SEP
1983
OD
Sea Level
0
SBC
25.
CHR
—25.
ccY
TRH
NSP
1983
Adjust.ecj Sea Level
ARC
25.
PRY
—25.
SF0
HMB
MRY
APR
MAY
JUL
JUN
AUG
SEP
1983
03
Sea Level
—I
03
N)
PSL
25.
RIS
01
—25.
SMA
LOS
SDO
APR
MAY
JUN
JUL
1983
Adjusted Sea Level
AUG
SEP
PRR
25.
QCC
—25.
flBL
ZBL
TOF
OCT
NOV
DEC
JAN
FEB
MAR
1984
1983
03
Sea Level
(A)
0,
DAM
25.
REN
0.
—25.
NBA
TKP
AST
DEC
JAN
1983
FEB
1984
Adjusted Sea Level
MAR
SBC
25.
CHR
0.
—25.
ccY
TRH
NSP
OCT
NOV
DEC
JAN
FEB
1984
1983
Adjusted Sea Level
MAR
03
0•.
ARC
25.
PRY
0.
—25.
SF0
HMB
MRY
OCT
NOV
DEC
JAN
1983
FEB
1984
Adjust.ed Sea Level
MAR
PSL
25.
RIS
—25.
SMA
LOS
SDO
OCT
NOV
DEC
JAN
FEB
1984
1983
Adjust.ed Sea Level
MAR
PRR
25.
QCC
—25.
BBL
ZBL
TOF
APR
MAY
IJUN
JUL
1984
Adjusted Sea Level
AUG
SEP
HAM
25.
o.
REM
—25.
NBA
TKP
AST
APR
MAY
JUL
JUN
1984
Adjust.ed Sea Level
AUG
SEP
—
I
I
01
—
I
SBC
25.
CUR
0.
5 —25.
CCY
TRH
NSP
—
I
APR
MAY
JUN
JUL
1984
Adjust.ed Sea Level
AUG
SEP
—
I
I
I
I
ARC
25.
PRY
—25.
SF0
HMB
MRY
—
APR
MAY
JUL
JUN
1984
Adjust.ed Sea Level.
—
I
I
AUG
SEP
I
I
I
—
I
U,
PSL
25.
RIS
0.
—25.
SMA
LOS
I
SDO
I
-—
APR
MAY
JUN
JUL
1984
Adjusted Sea Level
AUG
SEP
9.1
9.
I
I
24.0
18.0 —
B02
pd1
12.0
SIAA
V
-
— 18.0
6.0 -
:
18.0
19fl
£. U
0
— 6.0
12.0
6.0
— 18.0
B12
-
18.0 —
—
B 11
-' J/
12.0
6.0 0.0
I
—
OCT
NOV
DEC
JAN
FEB
1981
1980
Air Temperature
MAR
12.0
6.0
24.0—
I
I
I
I
I
:::
6.0
—
B05
18.0
12.0
18.0
6.0
12.0
6.0
B14
—
18.0
- 12.0
18.0
—
C3
-
12.0 6.0
—
0.0
—
I
APR
I
MAY
I
I
1
JUN
JUL
1981
Air Temperature
AUG
SEP
6.0
__
24.0
—-
18.0 -
I
I
I
C5
12.0 6.0 —
18.0
R3
12.0
18.0
—
12.0
—
6.0
—
6.0
B13
B12
-
18.0
A
A
-
Bli
—
18.0
—
12.0
—
6.0
12.0
6.0
0.0
APR
MAY
JUL
JUN
AUG
SEP
1981
Air Temperature
(TI
24.0
—
I
I
I
18.0
.-
12.0
-
6.0
-
I
B02
-
A
-
B05
18.0
12.0
18.0
—
6.0
12.0
6.0
18.0
12.0
18.0 12.0
B14
6.0
-
6.0 —
0.0
—
OCT
NOV
DEC
JAN
1981
FEB
1982
Air Temperature
MAR
.)
____________________________________________
24.0
I
18.0 -
C2
12.0
6.0 -
18.0
C3
'I
18.0
-
12.0
—
6.0 —
12.0
6.0
R3
18.0
B13
12.0
18.0
6.0
B12
12.0
6.0
I
0.0
—
OCT
NOV
DEC
JAN
FEB
1982
1981
Air Temperature
MAR
24.0
18.0
12.0
6.0
OCT
NOV
DEC
0.0
JAN
1981
FEB
1982
Air Temperature
MAR
18.0 -
B02
6.0
—
18.0
B05
C)
0
18.0
—
—
6.0-
-
B22
18.0
B14
6.0
N3
12.0 -
0.0
6.0
—
I
APR
MAY
JUL
JUN
I
I
I
I
1982
Air Temperature
AUG
SEP
24.0
—
'.0
I
I
-J
18.0 -
-
12.0
6.0 —
— 18.0
12.0
18.0
—
6.0
12.0
6.0
18.0
12.0
18.0
6.0
12.0
6.0
0.0
—
I
APR
MAY
JUN
JUL
1982
Air Temperature
AUG
SEP
18.0 -
B13
V
6.0 —
— 18.0
B 12
18.0
Bli
6.0
B23
C)
w
A
0
6.0
B25
-
18.0
—
6.0
12.0
0.0
APR
MAY
JUL
JUN
AUG
SEP
1982
-I
Air Temperat.ure
—24.0
B24
18.0
-12.0?
- 6.0
I
I
MAY
JUN
JUL
1982
Air Temperature
—
I
•
APR
AUG
SEP
0.0
24.0
—
I
B02
18.0
12.0
6.0
-
18.0
B05
n
- 120
-
0
— 6.0
18.0
12.0
18.0
6.0
12.0
18.0 —
12.0
6.0
B14
A
-
-
-
-v -
-
V
A
AA
- --
V
yV
6.0
0.0
—
OCT
NOV
I
I
I
I
I
I
DEC
JAN
FEB
MAR
1983
1982
Air Temperature
'.O
-a
(A)
I
18.0 -
B13
6.0
B26
—
I
—a
18.0
0
0
18.0
B12
6.0
I-'
A
V
— 18.0
B23
6.0
12.0
0.0
OCT
I
NOV
DEC
JAN
1982
FEB
1983
Air Temperature
MAR
OCT
NOV
DEC
JAN
FEB
MAR
1983
1982
Air Temperat.ure
a,
24.0
'.O
18.0
12.0
6.0
18.0
12.0
18.0
6.0
12.0
6.0
18.0
B27
12.0
18.0 —
B22
6.0
12.0
6.0
0.0
—
APR
MAY
JUN
JUL
1983
Air Temperature
AUG
SEP
24.0
18.0
12.0
6.0
18.0
-
- 120
18.0
12.0
-
6.0 —
0
6.0
B26
'—\_./ wA
V
-
V
18.0
B12
12.0
6.0
18.0
12.0
6.0
0.0
APR
MAY
JUL
JUN
AUG
SEP
1983
Air Temperature
-.3
'.0
-I
03
24.0
18.0
12.0
6.0
18.0
B24
12.0
6.0
0.0
APR
MAY
JUN
JUL
1983
Air Temperature
AUG
SEP
24.0
18.0
12.0
6.0
— 18.0
B05
-
18.0
-
12.0
A
6.0
B29
12.0
6.0 —
18.0
CLB
12.0
6.0
18.0
12.0
6.0
0.0
OCT
NOV
DEC
JAN
FEB
1984
1983
Air Temperature
MAR
24.0
'.0
18.0
12.0
B14
8.0
— 18.0
V
B13
18.0
-
12.0
—
6.0
12.0
6.0
18.0
12.0
B12
18.0 —
12.0
6.0
-
6.0 0.0
—
I
OCT
I
I
NOV
DEC
JAN
1983
I
FEB
1984
Air Temperature
MAR
24.0 -
18.0 —
B28
12.0 —
— 18.0
—
19A 00
— 6.0
18.0
6.0
12.0
6.0
18.0
12.0
6.0
0.0
OCT
NOV
DEC
JAN
1983
FEB
MAR
1984
Air Temperature
N.)
-a
24.0
I
18.0
-
12.0
-
6.0
-
a
I
-
B02
B05
— 18.0
—
18.0
B29
12.0
— 6.0
12.0
6.0
18.0
12.0
18.0
B22
6.0
12.0
6.0 =
0.0
APR
MAY
JUN
JUL
1984
Air Temperature
AUG
SEP
g
12.0 -
B14
-
B13
18.0
6.0
I
I
24.0
.
— 18.0
-
12.0
6.0
-
B26
6.0
-
B12
- 18.0
- 12.0
18.0
-
B28
-
18.0
—
12.0
12.0
6.0
6.0
0.0
I-
APR
I
I
MAY
JUL
JUN
I
AUG
SEP
1984
Air Temperature
N)
(A)
24.0
—
18.0
-
12.0
-
6.0
I
I
I
I
I
I
Bil
—'---.'. C
B23
18.0
12.0
B25
18.0
6.0
12.0
6.0
-
fl24
18.0
: 12.0
6.0
r
APR
MAY
0.0
JUN
JUL
1984
Air Temperature
AUG
SEP
22.0—
18.0 —
-
B02
14.0 —
-
10.0
— 18.0
—
-
1305
- 14.0
- 10.0
18.0
CLB
14.0 —
10.0
18.0
B 12
14.0
10.0
18.0 —
-
140 —
10.0
Bli
—
6.0—
OCT
NOV
1980
DEC
FEB
JAN
MAR
1981
Sea Surface Temperat.ure
(Ji
22.0 —
18.0
—
B02
14.0
10.0 —
— 18.0
B 05
•
18.0 —
14.0
- 10.0
14.0
10.0 —
-
18.0
1314
14.0
18.0
- 10.0
14.0
10.0
6.0
APR
MAY
JUN
JUL
1981
Sea Surface Temperature
AUG
SEP
I
22.0 —
18.0
I
I
4
I
-
— 10.0
18.0
14.0
18.0
10.0
14.0
10.0
18.0 —
14.0
Bli
—
10.0 —
6.0
—
I
I
APR
MAY
JUL
JUN
1981
Sea Surface
I
I
•
AUG
SEP
I'D
22.0
18.0
14.0
10.0
- 18.0
B05
U
a
18.0
14.0
10.0
— 18.0
14.0
18.0
—
14.0
10.0
6.0
—
OCT
NOV
1981
DEC
JAN
I"EB
1982
Sea Surface Temperature
MAR
10.0
I
I
I
--
22.0
18.0
C2
14.0
— 18.0
10.0
C3
14.0
—
18.0 —
14.0
10.0
R3
-. 18.0
10.0 —
B13
18.0
-
14.0
-
-
.
-—
B12
J_'_\
10.0 -
6.0
I
OCT
I
NOV
1981
I
DEC
FEB
JAN
1982
Sea Surface Temperature
MAR
14.0
10.0
22.0
18.0
14.0
10.0
OCT
NOV
1981
DEC
6.0
JAN
FEB
1982
Sea Surface Temperature
MAR
(A)
22.0
18.0 —
-
B02
- 18.0
B05
—
•
— 10.0
18.0
14.0
18.0
10.0
B14
14.0
10.0
18.0 —
N3
14.0
—
10.0
—
6.0
—
APR
MAY
JUL
JUN
1982
Sea Surface Temperature
AUG
SEP
0
22.0
18.0
14.0
10.0 —
— 18.0
A
—
18.0
14.0
- 10.0
14.0 —
10.0
—
18.0
C5
14.0
18.0
—
10.0
R3
14.0
—
10.0
—
6.0
—
A
APR
A
MAY
JUN
JUL
1982
Sea Surface Temperat.ure
AUG
SEP
g
22.0
18.0
14.0
18.0
10.0
B 12
14.0
10.0
18.0
Dli
14.0
-A
v\-/
A
18.0
10.0 —
B23
14.0
10.0
18.0 —
B 25
14.0
—
10.0
—
6.0
—
I
APR
I
I
MAY
JUN
U
JUL
I
U
AUG
SEP
1982
to
Sea Surface Temperature
(A)
22.0
18.0
14.0
10.0
'
APR
hAY
I
JUN
6.0
I
JUL
1982
Sea Surface TemperaLure
AUG
SEP
I
22.0
16.0 —
I
I
1302
14.0
10.0 —
18.0
B05
18.0
-
14.0
10.0
CLB
14.0
10.0
I
18.0
14.0
18.0
14.0
I
10.0
B14
I
10.0
6.0
OCT
DEC
NOV
I
I
I
FEB
JAN
1983
1982
Sea
Surface TemperaLure
k(AR
22.0
-
I
18.0
14.0
I
10.0
-
B26
18.0
14.0
18.0
-
-
10.0
14.0
18.0
18.0
— 14.0
B23
— 10.0
14.0
10.0
6.0
OCT
NOV
1982
DEC
JAN
FEB
1983
Sea Surface Temperature
MAR
I
I
22.0
18.0 —
14.0
- 18.0
10.0 —
14.0
C-)
0
10.0
I
J
OCT
NOV
DEC
I
I
I
—
6.0
liAR
JAN
1983
1982
Sea Surface
'.0
-.4
to
22.0 —
(A)
18.0 -
B 02
14.0
10.0 —
— 18.0
14.0
18.0
—
-
10.0
—
18.0
14.0
10.0 —
-
B27
14.0
18.0
- 10.0
14.0
10.0
6.0
APR
MAY
JUN
JUL
1983
Sea Surface Temperature
AUG
SEP
22.0
18.0
14.0
14.0 10.0
10.0
10.0 —
6.0—
APR
hAY
JUL
JUN
1983
Sea Surface
AUG
SEP
'.0
220
18.0
I
-
I
I
0
B23
14.0
10.0
APR
1
MAY
JUN
JUL
1983
Sea Surface Temperature
AUG
SEP
I
I
I
22.0
18.0
-
14.0 -
-
10.0
-
18.0
1305
1k
4W. fl
-
10.0
-
0
10.0
18.0 —
14.0
I-.
B29
18.0
CLB
14.0
10.0
18.0
1327
14.0
yf
10.0
6.0
OCT
I
I
I
—
NOV
DEC
iAN
FEB
MAR
1984
1983
Sea Surface
-J
22.0
18.0
14.0
E
10.0
-
B 14
180
I 14.0
-
.
B13
18.0
14.0
10.0
B26
10.0
18.0
-
B12
18.0
10.0
14.0
10.0 -
6.0
14.0
I
—
OCT
NOV
DEC
1983
SIAN
FEB
1984
Sea Surface
lIAR
I
22.0
18.0
B 28
14.0
- ,/\1311
10.0
-r
— 18.0
14.0
18.0
—
10.0
-
18.0
14.0
10.0
I
B25
14.0
18.0
B24
—
14.0
10.0
6.0
OCT
NOV
DEC
JAN
FEB
1984
1983
Sea Surface
MAR
10.0
22.0
I
.
I
18.0
B02
14.0
10.0
— 18.0
1305
14.0
18.0
- 10.0
14.0
10.0
— 18.0
B22
14.0
18.0
—
-
B14
14.0
10.0
—
6.0
—
APR
I
hAY
JUN
JUL
1984
Sea Surface
AUG
•1
SEP
10.0
(1
I
a
22.0
18.0
B13
14.0
18.0
10.0 —
- IAfl
£W.
B26
- 10.0
18.0
14.0
-
10.0
B28
14.0
—
18.0
14.0
10.0
'I
6.0
APR
18.0
MAY
JUL
JUN
1984
Sea Surface
AUG
SEP
10.0
C.)
22.0
I
—
I
18.0
-
B23
.-
14.0
10.0
- 18.0
14.0
18.0
14.0
- 10.0
-
—
B24
10.0
6.0
I
—
APR
MAY
JUN
JUL
1984
Sea Surface
AUG
SEP
10.1
10. LLP Calculated Atmospheric Pressure Plots.
1040
1020
CG17
1000
980
CG15
1020
CG13
1000
980
CG11
V
1020
CGO9
1000
980
OCT
I
I
I
I
NOV
1979
—
I
I
DEC
JAN
FEB
1980
Calculated Atmospheric Pressure
MAR
960
I
I
I
I
1040
1020
CGO7
1000
I
980
CGO5
1020
CGO3
1000
—
980
CGO1
1020
CG34
1000
980
OCT
NOV
1979
DEC
960
JAN
FEB
1980
Calculat.ed At.rnospheric Pressure
MAR
1040
1020
CG17
1000
980
CG15
1020
CG13
1000
980
CG11
1020
CGO9
1000
—
—
980
—960
APR
MAY
JUL
JUN
AUG
1980
Calculat.ed Mmospheric Pressure
SEP
I
I
— 1040
C GO?
1020
- 1000
—
960
CGO5
1020
CGO3
1000
980
CGO1
1020
CG34
1000
960
I
I
APR
I
hAY
I
JUN
JUL
I
AUG
1980
Calculated Atmospheric Pressure
—
SEP
960
1040
1020
CG17
1000
980
CGI5
1020
CG13
1000
980
CG11
1020
CGO9
1000
V
980
OCT
NOV
1980
—
I
I
I
I
DEC
JAN
FEB
1981
Calculat.ed At.mospheric Pressure
MAR
960
1040
1020
CGO7
1000
980
CGO5
1020
C GO 3
1000
980
CGO1
- 1020
CG34
-
1000
- 980
960
—-——I
OCT
NOV
1980
DEC
JAN
FEB
1981
Atmospheric Pressure
MAR
1040
1020
CG17
1000
980
CG15
1020
CG13
CG11
- 1020
CGO9
I
1000
—
980
— 960
•
APR
—
tLAY
JUL
JUN
AUG
SEP
1981
Calculated Atmospheric Pressure
F
— 1040
— 1020
CGO7
- 1000
980
CGO5
- 1020
CGO3
—
1000
980
CGO1
CG34
- 980
•
I
APR
MAY
JUN
—
JUL
AUG
1981
Calculated Atmospheric Pressure
SEP
960
1040
1020
1000
CG17
980
CG15
1020
CG13
1000
980
CG1 1
1020
1000
CGO9
980
960
OCT
NOV
1981
DEC
JAN
FEB
MAR
1982
Calculated Atmospheric Pressure
F
1040
-t
—I
1020
CGO7
1000
980
CGO5
—
1020
—
1000
C GO 3
980
CGO1
1020
CG34
1000
980
r
I
OCT
I
NOV
1981
DEC
I
JAN
—
I
FEB
1982
Calculat.ed Atmospheric Pressure
MAR
960
N)
1040
I
1020
V
1000
CG17
980
CG15
— 1020
CG13
1000
980
CG 11
CGO9
-
980
960
APR
MAY
JUL
JUN
AUG
1982
Calculated Atmospheric Pressure
SEP
______________
1040
-4
1020
CGO7
1000
980
CGO5
— 1020
CGO3
1000
-
980
CGO1
- 1020
C G3 4
APR
MAY
JUN
JUL
AUG
1982
Calculat.ed Atmospheric Pressure
SEP
-
1000
-
980
-
960
1040
1020
1000
CG17
980
CG15
1020
CG13
1000
980
CG11
- 1020
CGO9
U
\jV
-.
V
• 1000
980
OCT
I
I
I
I—
NOV
1982
DEC
JAN
—
1
I
FEB
960
MAR
1983
Calculat.ed Mmospheric Pressure
-a
I
— 1040
980
CGO5
1020
CGO3
—
1000
980
CGO1
—
1020
—
1000
—
980
CG34
OCT
NOV
1982
DEC
960
JAN
FEB
1983
Calculated Atmospheric Pressure
lIAR
1040
1020
1000
CG17
980
CG15
1020
CG13
1000
980
CG11
1020
1000
CGO9
980
960
APR
MAY
JUL
JUN
AUG
1983
Calculated Atmospheric Pressure
SEP
1040
CGO7
CGO5
- 1020
CGO3
— 1000
980
CGO1
- 1020
C G34
-1000
- 980
APR
MAY
JUN
JUL
AUG
1983
Calculat.ed Mmospheric Pressure
SEP
960
E
1040
1020
1000
CG17
980
CG15
1020
CG13
1000
980
CG11
1020
1000
CGO9
980
960
OCT
NOV
1983
DEC
JAN
FEB
1984
Calculated Atmospheric Pressure
MAR
1040
1020
CGO7
1000
980
CGO5
1020
CGO3
1000
980
CGO1
—
1020
—
1000
-
980
CG34
OCT
NOV
1983
960
DEC
JAN
FEB
1984
Calculat.ed Atmospheric Pressure
MAR
— 1040
CG17
—
1020
—
1000
—
980
V
CG15
1020
CG13
1000
980
CG11
—
1020
- 1000
CGO9
I
APR
I
-
MAY
JUL
JUN
AUG
-
980
—
960
SEP
1984
Calculat.ed
Aimospheric Pressure
-a
I
—J
0
-
- 1020
CGO7
CGO5
-
1000
—
980
1020
1
CGO3
1000
II
—
CGO1
980
- 1020
CG34
MAY
1000
-
980
- 960
I
APR
-
JUN
JUL
AUG
1984
Calculat.ed Atmospheric Pressure
SEP
11.1
CG17
5.0
2.5
CG15
0.0
CG13
CG11
CGO9
1980
1981
1982
1983
VLP Calculated Alongshore Wind Stress
1984
-a
—
CGO7
I
I
I
I
I
I
I
I
I
I
I
I
- I A\
I
I
I
I
I
I
II
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
-
- 5.0
CGO5
CGO3
C GO 1
-
CG34
I
I
I
I
I
I
I
I
I
I
I
1980
I
I
I
I
I
I
I
1981
VLP
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
J
1982
1983
Calculated Alongshore Wind Stress
1984
PRR
25.
QCC
0.
—25.
BBL
ZBL
TOF'
1980
1981
1982
VLP Adjusted Sea Level
1983
1984
BAM
25.
REN
0.
—25.
NBA
TKP
AST
1980
1981
1982
VLF Adjusted Sea Level
1983
1984
SBC
25.
0.
CHR
—25.
ccY
TRH
NSF
1980
1981
1982
VLP Adjusted Sea Level
1983
1984
-a
a,
ARC
25.
PRY
0.
—25.
SF0
HMB
MRY
1980
1981
1982
VLP Adjusted Sea Level
1983
1984
PSL
25.
0.
RIS
—25.
SMA
LOS
SDO
1980
1981
1982
VLP Adjusted Sea Level.
1983
1984
-J
-J
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