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 400 • CGO7 0 ————S I, —400 - CGO4 F —800 CGO1 = —1200 0 CG33 —1600 PRR 2000 ..\ 1600 - ..''. / : .—' / S S _, _5J '.. / 400 - S F,'C_\e\. — --_ S ,. •• , • —— '_ ,' ,' I I I S S o •• __F .—_ / • •_ , • —1600 - I 30 2 I I I 4 6 I 8 I I 10 12 I I 14 16 I I 18 PSL R15 SDO ? ! —1200 - —2000 '' LOS j '• •' __) I 'S " —, I NSP ARC 2 f's_. ) —800 — SBC :> "--' * —400 - • I I 0' ' - I I AST • — — -' I S "_S,_...' __::; —' t__' SD I TOY I •..! 15Ø. , — .———.. . - 800 •;1— QCC - BSL •——S. 1200 - ..-- '-.5-. 20 Mct'y 1980 22 24 26 28 30 3.8 2000 I I I I I I I I I II II IIIIII I I I I I I I I -. IS S * 1600 — I I SI I SI I — II I 1200 - * I I I I'—-, *5/ — - CG16 I' 'S $ — II 11*11 gi tgg I I I S 800 - - CG13 I / '-S O• ,1 I I I - CG1O ,1 —"——F 400 - I IF — II S 5 0— — • %'S — -800 - / — —400 , ,, — — — ___ ___ / \/.— I T $ - CGO7 I I — / : : - CGO4 — ), - — — i——— — —s I •.' ":2:::::: -- — I —— S 1 S 1_S , _S__ . I f —— g ; -'-i: )g :::-- — — ——I I ) - /5, — - ' I I S * I —— I I SS 5 /1:'! I —— — — — — I -. I I ----- • I I I ::..-' F, I I . I . - / $ - cad I •.. -. - 1800:, — S —1 _/ — S / - 12001 -: 800 —, — , 400 — *5 0-.H — '/ 1 // - — / / / '":; . __' 1 15 — ___ '— NSP — 1 ARC ——— 7 'S — S , 1$ SF0 ';--' F _— 'a____.. i___ H S — I '.. —800 SBC — —— I — PSL 1$ _-' r— RIS LOS IS — .1 — •' * -SDO - —1200 — —1600 — 30 2 4 6 I 8 10 12 14 16 18 20 June 1980 I 22 24 26 28 30 2 ___________________________________ ______________________________________________________ 3.9 II III 1.11111 2000 I I I I I I I I I I -CG16 I) " , I S ,% I 5/ 5 I• I) ":V :: ,'js — ,")' ,' ,— -- I ,?-'- s 'C,! I - - CGO4 ---7 - I — IF — i• — ,,' — — T CGO7 — -- -- —800 - ,' —_ ,I —400 - - I , ,' — CG 10 ,' • I — 'f-—' ,' / / S \— I — 5 • SI S S..'• ," IS 0- — S * t i I — CG13 S S — I 400- I _: - I — 5 ---- — —— CGO1 —1200 - - —1600 — - — I' 2000 -0 I I 1600 - I' I, •I/ I I I 1200 — : $ , I / ,I/ I I I I — •1 — I I I : — ——— NBA / ; I —— —— I— — 55 *—t5.0' 400 - —.—',' _I ,' I 0 / — CHR — FRY SF0 ' — II _j.. ARC ,_— — , —400 SBC —— - / - — ——:——— ____ \ kS'F // — - I--S .- I -s •I — -. I ,_ —— I I J—BBL — II5 I I -- I 'I 800 - 0— I I I I I CG33 PSL ,1 —800 - / I i i-' "- LOS — —1200 — —1600 — —2000 I 30 2 4 I I 6 6 I I 10 12 I I I 14 16 18 20 Jul'y 1980 I I I I 22 24 26 I 28 30 SDO 3.10 I 2000 - I I I I I I I I I I I I I I I I I I I I I I I V 1600 - - CG16 tt$\ 1200 - - CG13 800 - ( - - CG1O 400 - -_ \ 0- I S _) •i gi - i I — '.' : —— I I - CGO7 ,i I S I , II 5_ II 5'S'S S5. —400 - , S ——12 -I T Si I I S. — s i ( - CGO4 —800 - .5 _ S I I pI I —1200 - Is s CGC1 I "——. ('\ I I I I I () - CG33 I I 1 • I ... I -. S S S - 1600 - - ' —— — ) : 1200 - PRR - — ," r , I \ °-' 5 — 15.01 ,_(-- —20.O——,,' — —— - - -Il_I —, __ — — I- - _ —— —, — — -- : - L -- b - —600 - —1200 - 30 IilIII1IIIIIIIIIIIIIIIIIIIIII 2 4 6 8 10 12 14 16 18 20 August 1980 22 24 AS? 26 28 CHR - —400 - —2000 — \j— SBC — —I ---:::---' 0— - — TOF I 800 - —1600 L.. —— — 400 — I II I —1600 2000 — I S III 30 3.11 2000 CG16 1800 CG13 1200 800 CG1O 400 T CGO7 0 —400 CGO4 —600 CGO1 —1200 CG33 —1800 PRR 2000 QCC 1600 — TOF NSA — 800 - • — ----::::::- - -. -'•' AST -- sSC CRR — 400 CCY — 0 • 0 NSP ••__, I, ARC ItI PRY SF0 URY PSL —400 RIS Los —BOO SDO —1200 —1600 —2000 30 2 4 6 8 10 12 14 16 September 18' 20 22 1980 24 26 28 30 2 3.12 2000 CG16 1600 1200 CG 13 800 CG1O 400 T CGO7 0 —400 CGO4 —800 CGO 1 —1200 —1600 CG33 2000 PRR QCC 1600 ZEL TOF 1200 NBA AST 800 SBC CHR 400 cCY NSP ARC PRY 0 SF0 MRY —400 PSL RIS LOS —800 500 —1200 —1600 —2000 30 2 4 6 8 October 1980 3.13 2000 1600 1200 800 400 T 0 —400 —800 —1200 —1600 2000 1600 1200 800 400 0 —400 —800 —1200 —1600 —2000 8 10 12 14 16 18 20 22 November 1980 24 3.14 CG16 CG 13 CG1O -T CGO7 CGO4 CGO 1 CG33 PRR ZBL TOF AST SBC ccY NS? PRY SF0 MRY PSL RIS LOS SDO 16 December 16 20 22 1980 24 26 3.15 2000 CG16 1600 CG 13 1200 800 CG1U T 400 CGU7 0 CGO4 —400 —800 CGO 1. —1200 CG33 —1600 PRR 2000 BBL 1600 ZBL TOF NBA 1200 AST Sac 800 CMR ccY 400 NSP ARC PRY SF0 0 ILRY PSI.. —400 RI.S LOS Sf0 —800 —1200 —1600 —2000 20 Januar7J 1981 3.16 2000 1600 CG16 1200 CG 13 800 CG 10 400 T 0 CGO7 —400 CGO4 —800 —1200 CGO 1 —1600 CG33 2000 PRR 1600 261 1200 ZEL TOF NBA 800 AST SBC CMR 400 CCY NSP ARC 0 PRY SF0 —400 PSI. RIS LOS —800 SDO —1200 —1600 —2000 February 1981 3.17 2000 CG16 1600 CG13 1200 800 CG1O T 400 CGO7 0 CGO4 —400 —800 CGUI. —1200 CG33 —1600 PRR 2000 QCC BBL 1600 ZBL TOF NBA 1200 AST 800 SBC CHR 400 CC? NSP ARC PRY SF0 0 PSL —400 RIS LOS —Boo SDO —1200 —1600 —2000 6 8 10 12 14 16 March 1981 3.18 2000 1600 CG 16 1200 CG 13 800 I CG 10 * 400 I —— Is I ' ;,/ ——S I' I 0 T CGO7 ,' I —400 -- II - - - -- —800 S — IS, CGO 1 I (/) —1600 CGO4 I———— co — ) ,,, —1200 CC I I — 0 CG33 2000 — ——: — — —— —. : 1600 I it — 0. — : I..I -- - I_ — — — .--- — 1200- — —. - _1 l'• 'O PER —— — — QCC BBL. I —. ,I _—' I \\ ,I —, —— 800— — — -: -- '-— —— —— C—) '_- - S —— —— — "s- - 400 4 j,--- ,1 /0 / --- '—'s I- AST • I, -- SBC II ' L_ARC PRY / —400 — NBA -' '----' I' •I • ) -- ::- —— I') — I- —800 — PSIS UI RIS I-Os 500 —1200 — —1600 —2000 2 6 8 1101 12 II 161 1181 Apr'il 1981 221 241 251 II 1301 3.19 2000 CG16 1600 1200 CG 13 800 CG 10 400 T CGO7 0 —400 CGO4 —800 CGO 1 —1200 CG33 —1600 2000 PRR -; BBL. ----- - 1600 - - 1200 — 800 — - 400 — II - -- - 's__/_ --S.- — 0— V _ — --, -- - PRY SF0 S——'. - I -IMRY --- PSL '_ i k RIS ',i— LOS s• - —1200 —1600 ARC I • - —800 - H CCY . — S - -- ,__S' —— ..' "--' - '—— — ._ — — — -, —400 - -- I sss__i - - —2000 I I 30 I I 2 4 6 I I I I 8 10 12 14 16 18 May 1981 I I 20 22 I I 24 26 I I 28 I 30 3.20 2000 1600 CG16 1200 CG13 800 - CG1O - 400 T 0 i N — - I I ____S —400 '1 I — — -: -- —800 I I '¼ I' , 7 I — —1200 — "_/' -1800 - o '— —" I — -CGO4 :: -- -- -- I I I — — IS__S__S I — — — I I I I S_I — — - CG33 - 2000— I I I I I I I I I I I I 1600: -— 1200 — -_- I - --k-- TOF -— I 800 j —' O.0—. I I ,I I' — IS I I_I — — — - 400 'I - — '—'/,',' 'i— NSP ' -, __ — — __. ARC PR'? s — -S. 5---- ) -- (__ - - --E SF0 MR? (\ '-----_-' - —800 - — •_'-_____; S — — 'S '—_ __S — —— — - — ' --- 400— r— I—. — L Los. — SDO —1200 —1600 r - —2000 I 30 I I I 2 4 6 i I 8 I 10 12 I I 14 i 16 18 20 June 1981 22 24 26 28 30 2 3.21 I I I 2000 I I I I I I I I I I I I I I I I I I I I I — CG16 1600 1200 CG13 800 - CG1O I_S_S I —— 400 I 5__ — —_ —— T ———_ 0 I $ —400 —— I ___ -_ 'I •.0 I S — I —- S 5% —— — S :\: —800 ———t " 'I CGO1 0 —1600 - 2000 "—:l —— • II. -CGO4 ..- - —1200 - CGO7 I I I - -EE: I I - I I - '—' \ S_I ,——. __, —' I - 1200 -—— 800 —f - -) 5 - — I • - 5 —— — ' " ,./ s j— .— , - - S — ' TOF - — - — ZBL /' \ - I QCC r—BB — --- PRR - ,I , -. --- : --—, —— — NBA — AST SBC CHE ::...__ - - I I I I I -- — __.j I I I -_ :;0t5.. - I I -400 —800 -, - —1200 - —1600 - —2000 I I 30 I 2 4 6 'i_Los op ) 8 I 10 12 I I 14 I I 16 I I 18 July 1981 I I 20 I 22 I 26 I I I I 24 p—SDO 28 30 3.22 2000 1600 - 1200 - 800 — I I I I I I I I I I I I I I I I I I I I I I I I — CG16 - CG13 - CG1O 400 - L. 0- : tà I I T : cco7 —400 - CGO4 - —800 o #S S.",, / I II I I_S —1200 - CGO1 ,! I' S 'I —1600 - — CG33 2000 I I I -- 1800 — I I ___ :_ —' — - LPRR ::::---- — I L._ — — * —— —————I • ,i''\ -- —, , — Ii —: — — ,.! b -- —— NBA -- —- - — — I' — , I — I — / --.-:: -- - I — I — BL. LIIOF --- 800 —f- 0-7 ,I ——— 5 \ ccy NSP •- , 4_ARC PRY -- —— — — —— —400 -— ) ( " —I —800 —.L —— — '— I '\ J / / r--.. > '. : — / •— — I I I 4 I 6 8 I 10 12 I 14 August I 16 18 I 20 1981 I I 22 24 26 PSL - LOS - SDO 1 • —1800 - 2 — f' — RIS —1200 - 30 j I I —,00 _--- -- -- I 1200 — .—{ ---- QCC — 400 I I .._ I 28 30 3.23 2000 CG16 1600 1200 CG13 800 CG1O 400 T CGO7 0 —400 CGO4 —800 I CGO1 —1200 I —1600 CG33 I S 2000 PRR I BBL 1600 ZEL 1200 ?OF — NBA I I 800 - ""--p i AST i _-::-:-::-".___lo.o--' ___ V SBC CHE I S 400 — CC? NSP ARC —— - I 0• - -- - I, —— s. 0 —400 —800 — -, ...' —. PRY ' S.—' — \ — — ILRY I -' — SDO —1200 — —1600 - —2000 I I 30 2 4 6 I I 8 10 I I 12 I I 14 I 18 I I I I 16 20 22 1981 I I 24 26 28 30 2 3.24 CG16 CG 13 CG 10 T CGO7 CGO4 CGO 1 CG33 PRR BBL ZBL TOF NBA AST SEC CHE CCY NSP ARC PRY SF0 HMB PSL RIS LOS October 1981 3.25 2000 CG 16 1600 1200 CG 13 800 CG 10 400 T CGO7 0 —400 CGO4 —800 CGO 1 —1200 CG33 —1600 2000 PRR QCC 1600 TOF NBA 1200 AST 500 SBC CHR 400 CCY NSP ARC PRY 0 SF0 HMB PSI- —400 RIS LOS —800 SDO —1200 —1600 —2000 6 8 10 12 14 16 18 20 November 1981 3.26 2000 1600 CG 16 1200 CG 13 800 CG1O 400 T 0 CGO7 —400 CGO4 —800 —1200 CGO 1 —1600 CG33 2000 1600 1200 AST 800 SBC CRR 400 cCY NSP ARC 0 PRY SF0 HItS URY —400 PSL RIS LOS —BOO SDO —1200 —1800 —2000 4 6 8 10 12 14 16 December 18 20 1981 22 24 26 28 30 0) N ('3 o o o ('3 00 .-. 0) 0 0 ('3 s- : —--I 0 0 0) I I "-' I ' '0 "3' * 0 0 I i I. II II ,I\ \ 0 I I 0 0 I I 0 0 CD 010 )*.-"1 0 0 N 0 0 0) I--. 00 0 N 0 0 0) C.) 0 0) C) 0 0 N .- 0 C) C) 0 0 I CD .4.- 0 o C) 00 I 0 -.1 0 C) C') 0 0 o O C) 0 0 CD C.) 0 C) 0 0 ('3 .- 0 0 0) s- 0) I—. o C_-) 0 0 o N —4 N) 0.) 3.28 2000 1600 CG16 1200 C013 800 CG 10 400 T 0 CGO7 —400 CGO4 —800 CGO 1 —1200 —1600 CG33 2000 PRR QCC 1600 EEL 1200 ZBL TOF NBA 800 AST SEC CHR 400 CC? NSP ARC PRY 0 SF0 HLLB MRY —400 PSL —800 LOS EDO —1200 —1600 —2000 2 4 6 8 10 12 14 16 18 February 1982 * 3.29 2000 CG16 1600 1200 CG 13 800 CG1O T 400 CGO7 0 —400 CGO4 —800 CGO 1 —1200 CG33 —1800 2000 1600 1200 800 400 0 —400 —BOO —1200 —1600 —2000 10 12 14 16 March 1982 3.30 2000 1600 CG16 1200 CC 13 800 CC 10 400 T 0 CGO7 —400 CGO4 —800 —1200 CCO1 —1600 CC33 2000 PRR 1600 s81_ ZBI.. 1200 -- 0-- NBA - '!,, 800 — AST —SBC ) 400 I / —. I '/ '-. --- 0 F ) •-•'! -- —400 j ...' rILEY —800 —1200 — —1800 — —2000——I 30 I I 2 I I 4 6 I 8 10 I I 12 I 14 I 16 I I 16 20 April 1982 22 24 NSP ARC —I — 26 I I 28 30 2 I— LOS - SDO 3.31 2000 CG 16 1600 CG13 1200 800 CG1O 400 -r CGO7 0 SI, I —— S II — —800 S, 5 ' ,I * —400 - : K I ,I__, s'Zt' —— b\ i ' s__I • I , I < • CGO4 * 4 4 S— S '—:' — S ——.' S ,f *5 —1200 —— — r'5'—' 5 - I,I, 4 , — I ,i __# I__ ,_1 I _____•SS__ 's —1600 nO - 2000- I I I - fl- I I I I I I _...—•_ _• ', -1200 I — - I I I _ -::::::: :-- 400 - - - 0- " -- I -'' -- -' " F ' ' I — 3 -_ . -- I--— TOF NBA -' "4 --: -_ - I •,O - * - I j I —— — — I - I BBL - -..-I '' I S_1 1 ,' - I I QCC S s5 S - ,_t —i... *_) S__s — - CG33 0 5 —— _l 10.0' 1800 - I : .—:. SBC CMR - - 1— I— NSP ARc — • .4', "— ————— IPRY _/ 5. — S__S — SF0 MRY —400 I — - i* —, q,—— I '_ — RIS — LOS p — — — — •1 j ". / • .5 5, __,._' — SDO I —1200 —1600 - —2000 2 4 6 8 10 I I I I I 30 12 14 I I 16 18 20 May 1982 I I I I 22 24 26 I I 28 30 3.32 I 2000 I I I I I I I _I I I I I I I I I I I I I I I I — 1600 — 1200 I \ a' •: S/ —' I • a 0 I I , C 800 - 400 - - CG16 'I "S S—' 0 a': 0 as - CG13 1' - CG1O — I I 0- 5—— I ,' II I — T •' : /_• I ,S. - CGO7 —400 - - CGO4 —800 - * : —1200 - I: I I ,__ ,I s —_ _ —1600 — : I___ I - I I S _1 S_ 5 _I 5 I I I I I I I I I I : I I ' — • I I I — I S 2000 a a ,..•_ *5 ' —— I I I I I I I I I a I - CG33 •+ I I I PRR 1600 - c' I__ (a I t a Il I / --- I 800 — ————' ___ — ———S 0 / —— S_a — a a.. ,.-' _# _._— — ZBL TOF NBA 0 —_ -_ , I -AST ji I a — Sec - CHE ccY __l — / •' a _; _f _ S _, S a r BBL I ' —— S .... •.# V •1 400 — _ , ———_. • — S — — 1200 QcC a NSF ARC PRY __ 0 SF0 HM8 MRY —400 - a) - PSL 'ii ,__Ie___S,,_S —800 - 1—RIS 'a ii F—- - SDO —1200 —1600 — —2000 I 30 I I I 2 I I 4 I I 6 I 8 I I 10 12 I 14 I I 16 I 18 I I 20 June 1982 I I 22 24 I 26 I I 28 I I 30 I 2 3.33 S — CG1O 400 ,/ - L 0— ,' I--I II —' 5; T ,I —— CGO7 S__p 5— : — it565 —400- . —600 - -— -- ' —0.6 — — I - 'S — S__' S - —CGO4 — -- —1200- 5---- I -- - -- S)#._ t 's ', —— — — CGO1 —— CG33 —1600 2000—I I I I I I I I I I I I I -- r QCC _; 1600 - -'5 -----S ,-, " \ ,,' -- - — •: —400 - NBA .--' I55 400 "_5 --S 800 0 BBL I -- -------'-------S-------' - 5____ 1200 ._PRR S__i - LAST SBC ——— I rCHR - Sip.— CCY _l 8 —800 —1200 — —1600 —2000— I 30 2 I 4 I I I 6 8 I 10 I I I I 12 14 16 18 Jtd'y 1982 20 22 24 I I I 26 28 30 I 3.34 2000— I I I I I I I I I I I I I I I 1600 - CG16 a 1200 - - CG13 800 cc; 0 — I, CG 10 400 - T 0 CGO7 I I - —400 K:) ,) FIt — C; (') ) - -CGO4 -- —800 - —1200 - - I - I _06 —1600 - - ç) 5._S / • ECGO1 — 0 -- 1) CG33 2000 1600 — ' — — 1200 - , • ,I / BEL ds_ — I, .' \ ' /F — ZBL '— — — TOP I s_SI I 800 Is— 400 — - stIlt 'I 0 - - 1' -' I •- -s — • - ,_ _F — I —— AST —50 -:_:-—- S___I .—CHR CC? NSF ARC -- i::::' PRY SF0 —400 fi — HUB URY PSL RIS —800 - LOS —1200 —1600 — —2000 30 141 2 161 181 10 12 1141 16 1181 20 August 1982 22 26 28 30 3.35 2000 CG16 1600 CG13 1200 800 CG 10 T 400 CGO7 0 —400 CGO4 —800 CGO1 —1200 CG33 —1600 PRR 2000 QCC EEL 1600 ZBL TOF NBA 1200 AST 800 — SEC CBR cCY NSP ARC 400 PRY SF0 0 mLB PSL —400 RIS LOS —800 500 —1200 —1600 —2000 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 —1200 CGO 1 —1600 CG33 2000 PRR QCC 1600 BBL ZBL TOF NBA 1200 800 AST 400 SBC CHR cCY NSF ARC 0 PRY SF0 HUB —400 PSL RIS LOS SDO —800 —1200 —1600 —2000 14 18 18 October 1982 3.37 2000 CG16 1600 1200 CG13 800 CG 10 400 T CGO7 0 —400 CGO4 —800 CGO 1 —1200 CG33 —1600 2000 PRE QCC BBL. 1600 ZBL TOF NBA 1200 AST 800 SBC 400 CCY NSP ARC PRY 0 SF0 HMB MEY —400 PSL RIS LOS —800 SDO —1200 —1600 —2000 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 LOS Sf0 —120a —1600 —2000 December 1982 3.39 2000 CG 16 1600 CG13 1200 800 CG 10 T 400 CGO7 0 —400 CGO4 —800 CGO 1 —1200 CG33 —1600 PRR QCC 2000 BEL 1600 TOT NBA 1200 800 SBC CHE cCY 400 NSF PRY SF0 0 HMB PSL —400 RIS LOS —800 SDO —1200 —1600 —2000 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 CG33 2000 PRR QCC 1600 BSL ZBL 1200 TOF NBA 800 AST Sac CHE 400 0 PRY SF0 HMB —400 PSL RIS —800 LOS 5130 —1200 —1600 —2000 10 12 Febructr'y 1983 3.41 2000 CG 16 1600 1200 CG13 800 CG1 0 400 T CGO7 0 —400 CGO4 —500 CGO1 —1200 CG33 —1600 2000 PRR QCC BBL 1800 ZBL TOP' NBA 1200 AST 800 SBC CER CCY 400 NSP PRY 0 SF0 HMB PSL —400 RIS LOS —800 SDO —1200 —1600 —2000 10 12 14 16 March 1983 I o 0 0 0 0 I 0) I N 0 0 0 I o0 I 00 0 0 0 0 0 0) 00) 0 0 N CE 03 0 0 0 00 N 0 0 0 I 0) I 0 0 0 N ..I 0 0 I 0 0 00 C-) 0 0 0 0 0 0 0 03 0 0 0 N 0) 0 I- 0 0 0) I-' N 0 00 3.43 2000 CG1S 1600 CG13 1200 800 CG1 0 T 400 CGQ7 0 CGO4 —400 CG0 1 —1200 CG33 —1600 PRR 2000 QCC BBL 1600 ZBL TOF NBA 12.00 AS? 800 SBC CMR 400 PRY SF0 0 ILRY PSL -400 RIS 1.05 —800 SDO —1200 —1600 —2000 May 1983 3.44 2000 CG 16 1600 1200 CG13 800 CG1O 400 T CGO7 0 I I —400 CGO4 —800 I —1200 I II s__s ,______ * / II _1 I I I 'I 1*0* CGO 1 ,\,._O.6 '5--- CG33 —1600 I I 2000 PRR QCC BBL 1600 SI ZBL. TOF NBA 1200 AST 800 I I SBC CHR * — 400 - II ccY I NSF - PRY 0 b SF0 1 —400 PSL RIS I-OS —600 SDO —1200 —1600 —2000 26 Jttne 1983 28 30 2 3.45 2000 CG 16 1600 1200 CG 13 800 CG1O 400 Is I CGO7 0 S__S —400 f ,I T s__ ,,#_•__ / I CGO4 • I —800 '—I IS I —1200 "Is C ,-' g I ' — I—— Os-, —1600 2000 CGO 1 CG33 PRR QCC BE!.. 1600 ZBL TOF NBA 1200 AST 800 SBC CRR 400 PRY 0 SF0 URY PSI.. —400 RIB LOS —800 SDO —1200 —1600 —2000 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 CGO 1 —1600 CG33 2000 PRR QCC 1600 BBL ZBL TOF NBA 1200 600 AST SBC CHR 400 0 PRY SF0 —400 PSL RIS —800 LOS SDO —1200 —1600 —2000 18 16 20 August 1983 22 24 ( 3.47 2000 CG16 1600 1200 CG 13 800 CG 10 400 T CGO7 0 —400 CGO4 —800 CGO 1 —1200 CG33 —1600 2000 PRR QCC BBL. 1600 ZBL. TOF 1200 NBA AST 800 SBC CMR 400 PRY 0 SF0 —400 PSL —800 RIS LOS SDO —1200 —1600 —2000 September 1983 3.48 CG16 CG 13 CG1O 1 CG33 PRR QCC BBL. ZBL 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 CGO 1 —1200 CG33 —1600 2000 PRR QCC BBL. 1600 ZBL TOF 1200 NBA AST 800 SBC 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 CG16 1200 CG1 3 800 CG 10 400 T 0 CCC? —400 CGO4 —800 —1200 CCC 1 —1600 CG33 2000 PRR QCC 1600 BBL ZBL TOF NBA 1200 800 A.ST SBC C1!R 400 ccY NSF' 0 PRY SF0 —400 PSL RIS LOS SDO —800 —1200 —1600 —2000 16 18 20 22 December 1983 24 26 3.51 2000 CG16 1600 1200 CG 13 800 CG 10 400 T CGO7 0 —400 CGO4 —800 CGO 1 —1200 CG33 —1600 2000 PRR QCC 1600 BBL 1200 TOF NBA AST 800 SBC CMR 400 ccY NSP 0 —400 PSL RI! —800 5Db —1200 —1600 —2000 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 CGO7 —400 CGO4 —800 —1200 CGO 1 —1600 CG33 2000 PRR QCC 1600 ZBL TOF 1200 NBA 800 AST SEC CHE 400 0 FRY SF0 —400 MRY PSL. RIS LOS SDO —800 —1200 —1600 —2000 Febructy7j 1984 3.53 2000 CG16 1600 1200 CG13 800 CG1O 400 CGO7 0 —400 CGO4 —800 CGO1 —1200 CG33 —1600 2000 1600 1200 800 400 0 —400 —BOO —1200 —1600 —2000 March 1984 3.54 CG16 CG 13 CG 10 T 0 CGO7 —400 CGO4 —800 —1200 CGO 1 —1600 CG33 2000 PRR • - 1600 • S I I * ZBL 1200 C NBA -o 800 /' / H 400 0 CHR PRY SF0 —400 MRY PSL P12 —800 LOS SDO —1200 —1600 —2000 4 6 8 10 12 14 Apr'il 1984 3.55 2000 CG16 1600 1200 CG13 800 CC 10 400 T CGO7 0 —400 CGO4 —800 CGO 1 —1200 CG33 —1600 2000 FRR QCC BBL 1600 — ZBL 1200 800 - NBA - 400 - • SBC '- -- - :. -- - —150 / S 0- — S S__IS SI - CCY 1"" — FRY I -NSF — 11 I' CHE 2 - —110 ___ —— — C I - 5 SF0 I —400 —800 — —1200 — —1600 - —2000 - I 30 I 2 I I I 4 6 8 12 14 I I I I 10 16 18 I I I 20 May 1984 22 24 I I I 26 28 I 30 — MRY — FSL — RIS — LOS — SDO 9s 0002 - IIIIIIIIIIIIIIIIIIIIIIIIIIIIIII_I_ 0091 0021 0 J) — 009 •o' H - - :11 — OOf' - / — — 5_ :' - \lj ,I/ ' S '-' $.__ .. I I I II i I 009— — II _I,,r5I0$ ( — s_S' — , S — I _ — I S -- ———:::- -1 --...— — $5 0091— - -, —' < — 0021— - I — — $ -: :-_ — / ____ - , 0103 S ,--. I c103 _'— -0 00$.— 9103 o I 5_F I —, '•) ' e'—' , I 7s_ _— ; c; — , I —, — I — — I 1003 : -— ,—— — 'S - I I I I I I --- - aozt — 009 - —• / $ — — 9 II I II; -- -' It I I - 3gs I / : - - - - dSN- e II 7 — - I I I -o I g' I I 00$1 ' -- II-- r ill — AWt 'ISd o ,—' 009— LI — - oas - 0091— oooa— I $. 9 I 1I ,' I ;1 00$. - I - .Iaz c_ I5 __—— — I -.:: —— —— ,1•0. -- : I ———— I I - ----P - 0091 I I 9 I fl I I I I I I fr&'Gl I I I I I 4.1 I I B02 B05 PRR csJ MCI •1 I I I I I I OCT NOV DEC JAN 1980 FEB 1981 MAR I 0 Measured Wind Velocity Fl 10 (m/sec) (i.) I -- I I I — csc NBA IL. Is -- QU! DST HOQ OCT NOV DEC 1980 JAN FEB 1981 MAR Ill 0 Measured Wind 10 (m/sec) I I I I — I OSH GRH. 4J —J CPD CLB AST I I NOV I I I DEC JAN -— MAR FEB 1981 1980 0 Measured Wind 10 (m/sec) I I I I I ix NEW slu NOB ,____, -t 'V Au 7- SA\ W CBT 'U 4 'II CBL I OCT -- I NOV I DEC JAN 1980 I FEB 1981 MAR I 0 Measured Wind Velocity — I I 10 (m/sec) ccY I I I I I I I J\ Li HUM ARL SRA BML •" -.. OCT / ft NOV DEC JAN FEB 1981 1980 MAR I 0 Measured Wind Velocity I I 10 (m/sec) —4 I I PIL \\& B12 PIG PIN SUR I OCT NOV DEC JAN 1980 FEB 1981 MAR r 0 Measured Wind Velocity 10 (m/sec) I I PPB DIA Bli .1 SBA MUG - OCT NOV DEC JAN FEB 1981 1980 MAR III 0 Measured Wind Velocity 10 (m/sec) I I I SNI I I I 'I — I "- LOS -ir -'-t• — LBC Sc' 1/ d SDO I I I I I I I OCT NOV DEC JAN FEB 1981 1980 MAR I 0 Measured Wind Velocity I I 10 (m/sec) cD B02 B05 PRR .' .' I V csJ J APR MAY I' JUL JUN 1981 AUG SEP [-II10 0 Measured Wind Velocity (m/sec) -J csc NBA QUI DST HOQ I APR I MAY I I • JUN JUL 1 AUG SEP 1981 0 Measured Wind Velocity 10 (m/sec) I I I I I I I I I OSH GRH CPD CLB AST I APR MAY I I JUL JUN 1981 SEP AUG I 0 Measured Wind Velocity I I 10 (m/sec) -J .- I I -a I NEW 44 I' 17,77' '7, slu NOB CBT CBL APR MAY JUN JUL AUG SEP 1981 0 Measured Wind Velocity 10 (m/sec) I I I I I ccY HUM B14 ARL SRA I — APR MAY JUL JUN 1981 I I I SEP AUG I 0 Measured Wind Velocity I I 10 (m/sec) C3 C5 R3 BML B13 I APR I MAY I JUN JUL AUG SEP 1981 I 0 Measured Wind Velocity II 10 (m/sec) I I PIL - - B12 PIG PIN SUR I I APR MAY JUL JUN 1981 SEP AUG I 0 Measured Wind Velocity I I 10 (m/sec) I— 03 DIA Bli 1, SBA - ,A.JA - MUG SNI I - -r I JUN JUL 1981 AUG SEP Il-i 0 Measured Wind Velocity 10 (m/sec) LOS LBC I I I I - - — 4 14J'k Sc' SDO I— APR MAY I I I I JUL JUN I AUG SEP 1981 (m/sec) Measured Wind Velocity -J I OCT I NOV DEC JAN 1981 - I I -I FEB MAR 1982 0 Measured Wind Velocity 10 (m/sec) I I I I I I I I I csc NBA QUI HOQ GRH OCT I I I NOV DEC JAN FEB 1982 1981 MAR I 0 Measured Wind Velocity I I 10 (m/sec) N) -J I I I - CLB AST NEW Slu I I OCT NOV DEC JAN 1981 FEB 1982 MAR I 0 Measured Wind Velocity I I 10 (m/sec) a N) I I I I I NOB I CBT '/7 CBL PSG V - !\ ccY I OCT NOV I I I I I I DEC JAN FEB 1982 1981 MAR III 0 Measured Wind Velocity 10 (m/sec) HUM I, B22 B14 ARL SRA OCT NOV DEC JAN 1981 FEB 1982 MAR III 0 Measured Wind Velocity 10 (m/sec) I I I I "ii C2 C3 \/L R3 BML B13 OCT I I I NOV I DEC JAN FEB 1982 1981 III MAR 0 Measured Wind Velocity 10 (m/sec) PIL B12 PIG PIN SUR OCT NOV DEC JAN 1981 FEB 1982 MAR Iii 0 Measured Wind Velocity 10 (m/sec) I I I I I I I PPB DIA Bit SBA MUG —- ..—-. - 'V - OCT I I I I I NOV DEC JAN FEB 1982 1981 MAR I 0 Measured Wind Velocity I I 10 (m/sec) N) 03 SNI LOS LBC - Lj. a - — - Sc' - -. - s SDO 1 OCT 1981 1982 Ill 0 Measured Wind Velocity 10 (m/sec) I I I B02 B05 it" / PRR - csJ r APR MAY JUL JUN 1982 SEP AUG I 0 Measured Wind Velocfty I I 10 (m/sec) L I I csc k "I' ' I I ' % —V NBA - QUI DST HOQ APR MAY JUN • JUL 1982 AUG SEP Ill 0 Measured Wind Velocity 10 (m/sec) g (A) I I I I I I GRH CPD iJil "I AST r NEW srn I I I APR MAY I I JUL JUN 1982 U SEP AUG I 0 Measured Wind Velocity I I 10 (m/sec) I I CA) NOB V CBT CBL / It PSG ccY I APR MAY JUN JUL 1982 SEP I-il 0 Measured Wind Velocfty 1 - AUG 10 (m/sec) I I • I HUM 'II' B22 \411/i'4 B14 \IALU' ARL N3 I I APR MAY I 1 JUL JUN 1982 SEP AUG I 0 Measured Wind Velocity I I 10 (m/sec) __________ I I SRA I/__ H, C2 C3 \ C4 C5 I APR MAY I JUN JUL 1982 AUG SEP II—' o Measured Wind 10 (m/sec) R3 BML B13 PIL B12 APR I I I I MAY JUL JUN 1982 AUG SEP III 0 Measured Wind 10 (m/sec) I (A) PIG PIN SUR w PPB DIA I — I I APR MAY JUN JUL I AUG SEP 1982 I 0 Measured Wind Velocity I 10 (m/sec) I I I I I I Bli B23 SBA- I- 1 I.. I. - —a - t. t4n'.At ,&Ikt'JI !1.M h .,1.,I,.. I. .a,A B 25 -- MUG \/ A. -— Il - - - -- — • LI.. - J. L. I APR MAY JUL JUN 1982 U SEP AUG I 0 Measured Wind Velocity I I 10 (m/sec) CA) —I I I — SNI B24 LOS - I I APR I I I MAY 1982 I 'Ii 0 Measured Wind Velocity 10 (m/sec) I I I I I I SDO I I I APR MAY JUL JUN 1982 Measured Wind Velocit.y AUG U 0 (m/sec) I I 0 B02 B05 PRR CsJ MCI OCT I NOV DEC JAN 1982 FEB 1983 - MAR [Ii 0 Measured Wind Velocity 10 (m/sec) -I I I I I \\\ csc NBA QUI DST HOQ I I I OCT NOV I I I I DEC JAN FEB 1983 1982 MAR I 0 Measured Wind Velocity I I 10 (m/sec) L I I I I I N) GRH I CPD CLB AST NEW I, I I OCT I I NOV DEC JAN 1982 FEB 1983 Ill MAR 0 Measured Wind Velocfty 10 (m/sec) I I I slu NOB CBT I w I I I NOV DEC JAN FEB 1983 1982 MAR I 0 Measured Wind Velocity I I 10 (m/sec) (A) ccY HUM B22 B14 ARL OCT NOV DEC 1982 JAN FEB 1983 [ii MAR 0 Measured Wind 10 (m/sec) I I I I I B13 B26 PIL I. B12 PIG " OCT NOV I I I I I I DEC JAN FEB 1983 1982 Measured Wind Velocity MAR I I I io o (m/sec) (11 I___ I I I I I 0•i PIN SUR PPB DIA Bli I OCT I- NOV DEC JAN 1982 FEB 1983 MAR II 0 Measured Wind Velocity I 10 (m/sec) I I I I I I B23 SBA - F— 'N — N - N B25 - MUG 71' - /—-- - SNI I- — OCT I I I NOV DEC JAN FEB 1983 1982 MAR III 0 Measured Wind Velocity 10 (m/sec) L - I I I B24 LOS r. LBC A •y Sc' SDO r OCT NOV DEC JAN 1982 FEB 1983 MAR Ei1 0 Measured Wind Velocfty 10 (m/sec) I I I I I I I B02 B05 QUI HOQ I I I I JUL JUN 1983 I SEP AUG I 0 Measured Wind Velocfty I I 10 (m/sec) I I I AST I U, ' NOB I dl CBT CBL \// Ii / 1/pp B27 r APR MAY JUN JUL 1983 AUG SEP Ill 0 Measured Wind Velocity 10 (m/sec) -- I I U I I I PSG ccY B22 B14 B13 I APR I I JUL MAY 1983 —— - I SEP AUG I 0 Measured Wind Velocity I I 10 (m/sec) 0, -J I I — - N) B26 B12 DIA Bil B23 I -I- I APR MAY JUN JUL AUG SEP 1983 0 Measured Wind Velocity 10 (m/sec) I I I I I I SBA . B25 - MUG SNI I B24 I APR I I JUL MAY 1983 Measured Wind Velocity — I I SEP AUG I I I (rn/sec) JL.. LOS LBC k/,1fi , - - J4 SDO - - APR 1983 Ill SEP 0 Measured Wind Velocity 10 (m/sec) I I I I B02 B05 B29 CLB 11 CBT I —- OCT NOV I I DEC U JAN 1984 1983 MAR FEB I 0 Measured Wind Velocity I I 10 (m/sec) U, CBL I tI 711/7 B27 PSG áxdLAL B22 B14 OCT I NOV DEC IAN 1983 FEB 1984 MAR II 0 Measured Wind Velocity I 10 (m/sec) I I I I I I B13 B26 B12 B28 \\I I DIA I I I I OCT NOV DEC JAN FEB 1984 1983 MAR III 0 Measured Wind Velocity 10 (m/sec) U, I I I B 11 B23 \\ B25 L ill ,&'v — B24 I p OCT -I I NOV DEC JAN 1983 FEB 1984 Measured Wind Velocity Ill MAR 0 10 (m/sec) I I I I I I I I B02 B29 BNE B22 B14 APR MAY I JUL JUN 1984 SEP AUG I 0 Measured Wind Velocity 1 I 10 (m/sec) I I I B14 B26 B12 DIA I I I APR 1984 Ill 0 Measured Wind Velocit.y 10 (m/sec) I I I I I I I I I DIA B23 B25 B24 APR I MAY I I JUL JUN 1984 I SEP AUG I 0 Measured Wind Velocity I I 10 (m/sec) a., -a 5.1 5. I — I I B02 12 B051 C.) i'll U V PRR I N 1 4) rn - —12 MA CsJ MCI I I OCT NOV 1980 I I DEC JAN I FEB MAR 1981 (IT Major Axis Wind Component. CA) 01 csc 12 NBA 0 V —12 QU! DST HOQ OCT NOV 1980 DEC JAN FEB 1981 Major Axis Wind Component MAR OSH 12 0 GRH a) 'I —12 CPD CLB AST OCT NOV 1980 DEC JAN FEB MAR 1981 Ui Major Axis Wind Component Ui NEW 12 slu 0 ID U —12 NOB CBT CBL OCT NOV 1980 DEC JAN FEB 1981 Major Axis Wind Component. MAR ccY 12 0 HUM U —12 ARL SHA BML OCT NOV 1980 DEC JAN FEB 1981 Major Axis Wind Component MAR PIL 12 B12 V °i —12 PIG PIN SUR OCT NOV 1980 DEC JAN FEB 1981 Major Axis Wind Component MAR PPB 12 C.) DIA q) U —12 Bli SBA MUG OCT NOV 1980 DEC JAN FEB 1981 Major Axis Wind Component MAR 01 D SN! 12 LOS a A U —12 LBC SDO 1980 1981 Major Axis Wind Component a, B02 12 0 B05 V —12 PRR CsJ MCI APR MAY JUL JUN AUG SEP 1981 U, Major Axis Wind Component csc 12 NBA 0 A 'I —12 'QUI DST HOQ APR MAY JUN JUL AUG 1981 Major Axis Wind Component SEP rn OSH 12 C) GRH 'I —12 CPD CLB AST APR MAY JUL JUN AUG 1981 Major Axis Wind Component SEP U, -a NEW 12 slu —S C) 'a) 'I —12 NOB CDT 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