*2017/02/24 13:32:04.52 *IOS HEADER VERSION 2.0 2016/04/28 2016/06/13 IVF16 *FILE START TIME : UTC 2006/08/02 07:47:21.000 NUMBER OF RECORDS : 113 DATA DESCRIPTION : CTD FILE TYPE : ASCII CRC : 3AD615AE NUMBER OF CHANNELS : 10 $TABLE: CHANNELS ! No Name Units Minimum Maximum !--- ---------------------------------- --------------- -------------- -------------- 1 Pressure decibar 1 113 2 Temperature:Primary 'deg C (ITS90)' -1.6093 3.0928 3 Transmissivity %/metre 12 63 4 Fluorescence:Calibrated:Seapoint mg/m^3 0.39E-01 1.979 5 Altimeter metres 8.4 98.5 6 Oxygen:Dissolved:SBE mL/L 7.796 9.113 7 Salinity:T0:C0 PSS-78 19.3707 29.8415 8 Number_of_bin_records n/a 25 50 9 Flag n/a 222 662 10 Oxygen:Dissolved:SBE umol/kg 339.88 398.4 $END $TABLE: CHANNEL DETAIL ! No Pad Start Width Format Type Decimal_Places !--- ---- ----- ----- ------ ---- -------------- 1 -99 ' ' 10 F ' ' 3 2 -99 ' ' 9 F ' ' 4 3 -99 ' ' 6 F ' ' 1 4 -99 ' ' 8 F ' ' 3 5 -99 ' ' 7 F ' ' 1 6 -99 ' ' 8 F ' ' 3 7 -99 ' ' 9 F ' ' 4 8 -99 ' ' 5 F ' ' 0 9 -99 ' ' 11 E ' ' 3 10 -99 ' ' 8 F ' ' 2 $END $REMARKS CTD Flag word has 3 columns: Temperature, Conductivity, and Oxygen. Data quality is expressed with the following flags: -------------------------------------------------------------------------------- 0 = No Quality Control. 2 = Good. 6 = Interpolated or replaced by dual sensor or upcast value. -------------------------------------------------------------------------------- This file converted from Sea-Bird file: C:\Users\zimmermanns\Documents\GArchi $END *ADMINISTRATION MISSION : 2006-18 AGENCY : IOS, Ocean Sciences Division, Sidney, B.C. COUNTRY : Canada PROJECT : Joint Ocean Ice Study (JOIS incl JWACS and BGOS) SCIENTIST : McLaughlin F. PLATFORM : Louis S. St. Laurent *LOCATION GEOGRAPHIC AREA : Arctic Ocean's Canada Basin STATION : QM2 EVENT NUMBER : 9 LATITUDE : 68 39.96000 N ! (deg min) LONGITUDE : 103 0.40000 W ! (deg min) WATER DEPTH : 120 ALTIMETER (M) : 8.43 ! custom item $REMARKS Altimeter value is distance from bottom and is calculated as the median of the deepest 2 metres of data. $END *INSTRUMENT TYPE : Sea-Bird CTD MODEL : SBE-911plus SERIAL NUMBER : 0724 $TABLE: SENSORS ! Name Abs Depth Serial No ! ------------------------- -------------- ---------- temperature:primary ' ' 4322 conductivity:primary ' ' 2809 pressure ' ' 90559 temperature:secondary ' ' 4239 conductivity:secondary ' ' 2810 Fluorometer:Seapoint ' ' 2569 transmissometer:primary ' ' CST-662DR altimeter:Datasonics ' ' 'PSA-916D SN 1161' Oxygen:SBE ' ' 0435 $END $REMARKS SOFTWARE VERSION SEASAVE WIN32 V 5.34 $END *HISTORY $TABLE: PROGRAMS ! Name Vers Date Time Recs In Recs Out ! -------- ------ ---------- -------- --------- --------- SBE_IOS 3.4.1 2015/03/15 18:30:14 113 113 CHGUNITS 3.1 2015/03/15 18:56:38 113 113 HDREDIT2 3.0.2 2015/03/16 09:53:25 ? ? CLEAN 5.2.1 2015/03/18 19:53:37 113 113 CLEAN 5.2.1 2015/03/18 19:58:18 113 113 HDREDIT2 3.1.1 2017/02/24 13:32:04 ? ? $END $REMARKS -CHANGE units: Temperature reference channel: Temperature:Primary [deg C (ITS90)] Salinity reference channel: Salinity:T0:C0 [PSS-78] 'Oxygen:Dissolved:SBE [mL/L]' changed from mL/L to umol/kg -HEADER EDITS: 2015/03/16 09:53:25 Applied edit header: C:\Users\zimmermanns\Documents\GArchiveProcess\CTD\6_Header\2006-18-HDR.TXT -CLEAN functions: 2015/03/18 19:53:36 20 Reset #RECS, MIN & MAX values in header. Set event to last 3 characters of file name -CLEAN functions: 2015/03/18 19:58:18 20 Reset #RECS, MIN & MAX values in header. Insert Pad Values in Channel: Transmissivity [%/metre] where channel Transmissivity [%/metre] is in the range -100 to 0.5 0 data records in pad range. -HEADER EDITS: 2017/02/24 13:32:04 Applied edit header: Z:\SHARE\DATA\Data Archive Process - 2017\Joe's work\2006-18\Headers\2006-18 CTD Header.txt Channel 4: Fluorescence:Calibrated:Seapoint [mg/m^3] Name: Fluorescence:URU:Seapoint ==> Fluorescence:Calibrated:Seapoint $END *COMMENTS SBE HEADER Sea-Bird SBE 9 Data File: FileName = C:\LSSL200618\acq\200618_009.DAT Software Version Seasave Win32 V 5.34 Temperature SN = 4322 Conductivity SN = 2809 Number of Bytes Per Scan = 37 Number of Voltage Words = 4 Number of Scans Averaged by the Deck Unit = 1 System UpLoad Time = Aug 02 2006 07:42:38 NMEA Latitude = 68 39.96 N NMEA Longitude = 103 00.40 W NMEA UTC (Time) = Aug 02 2006 07:47:21 Store Lat/Lon Data = Append to Every Scan Ship: Louis S. St. Laurent Cruise: 2006-18 Station: QM2 Depth: 120 # nquan = 9 # nvalues = 113 # units = specified # name 0 = prDM: Pressure, Digiquartz [db] # name 1 = t090C: Temperature [ITS-90, deg C] # name 2 = xmiss: Beam Transmission, Chelsea/Seatech [%] # name 3 = flSP: Fluorescence, Seapoint # name 4 = altM: Altimeter [m] # name 5 = sbeox0ML/L: Oxygen, SBE 43 [ml/l] # name 6 = sal00: Salinity, Practical [PSU] # name 7 = nbin: Scans Per Bin # name 8 = flag: # span 0 = 1.000, 113.000 # span 1 = -1.6093, 3.0928 # span 2 = 58.8961, 89.0802 # span 3 = 3.9074e-02, 1.9790e+00 # span 4 = 8.43, 98.54 # span 5 = 7.7960, 9.1130 # span 6 = 19.3707, 29.8415 # span 7 = 25, 50 # span 8 = 2.2200e+02, 6.6200e+02 # interval = decibars: 1 # start_time = Aug 02 2006 07:42:38 # bad_flag = -9.990e-29 # sensor 0 = Frequency 0 temperature, primary, 4322, 24-Feb-06 (IT90) # sensor 1 = Frequency 1 conductivity, primary, 2809, 10-Feb-06, cpcor = -9.57 00e-08 # sensor 2 = Frequency 2 pressure, 90559, 10/29/02 # sensor 3 = Frequency 3 temperature, secondary, 4239, 24-Feb-06 (IT90) # sensor 4 = Frequency 4 conductivity, secondary, 2810, 10-Feb-06, cpcor = -9. 5700e-08 # sensor 5 = Extrnl Volt 0 Fluorometer, Seapoint, primary # sensor 6 = Extrnl Volt 2 transmissometer, primary, CST-662DR, 20-Mar-2003 # sensor 7 = Extrnl Volt 4 altimeter # sensor 8 = Extrnl Volt 7 Oxygen, SBE, primary, 0435, 06 Jun 2006 # datcnv_date = Feb 29 2008 14:14:43, 5.31 # datcnv_in = c:\200618\ctdproc\200618_009.dat c:\200618\ctdproc\200618_DO_0820_ 0435_v2_remove0820.con # datcnv_skipover = 6000 # alignctd_date = Feb 29 2008 14:14:43, 5.31 # alignctd_in = c:\200618\ctdproc\200618_009-d.cnv # alignctd_adv = sbeox0V 8.000 # wildedit_date = Feb 29 2008 14:14:44, 5.31 # wildedit_in = c:\200618\ctdproc\200618_009-d-a.cnv # wildedit_pass1_nstd = 10.0 # wildedit_pass2_nstd = 20.0 # wildedit_pass2_mindelta = 0.000e+000 # wildedit_npoint = 100 # wildedit_vars = prDM depSM t090C t190C c0mS/cm c1mS/cm sbeox0V xmiss flSP altM # wildedit_excl_bad_scans = yes # celltm_date = Feb 29 2008 14:14:45, 5.31 # celltm_in = c:\200618\ctdproc\200618_009-d-a-w.cnv # celltm_alpha = 0.0300, 0.0300 # celltm_tau = 7.0000, 7.0000 # celltm_temp_sensor_use_for_cond = primary, secondary # filter_date = Feb 29 2008 14:14:46, 5.31 # filter_in = c:\200618\ctdproc\200618_009-d-a-w-c.cnv # filter_low_pass_tc_A = 0.030 # filter_low_pass_tc_B = 0.150 # filter_low_pass_A_vars = c0mS/cm c1mS/cm # filter_low_pass_B_vars = prDM depSM # loopedit_date = Feb 29 2008 14:14:48, 5.31 # loopedit_in = c:\200618\ctdproc\200618_009-d-a-w-c-f.cnv # loopedit_minVelocity = 0.000 # loopedit_excl_bad_scans = yes # Derive_date = Feb 29 2008 14:14:49, 5.31 # Derive_in = c:\200618\ctdproc\200618_009-d-a-w-c-f-l.cnv c:\200618\ctdproc\200 618_DO_0820_0435_v2_remove0820.con # derive_time_window_docdt = seconds: 1 # binavg_date = Feb 29 2008 14:14:50, 5.31 # binavg_in = c:\200618\ctdproc\200618_009-d-a-w-c-f-l-d.cnv # binavg_bintype = decibars # binavg_binsize = 1 # binavg_excl_bad_scans = yes # binavg_skipover = 0 # binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000 # Derive_date = Feb 29 2008 14:14:51, 5.31 # Derive_in = c:\200618\ctdproc\200618_009-d-a-w-c-f-l-d-b.cnv c:\200618\ctdproc \200618_DO_0820_0435_v2_remove0820.con # strip_date = Feb 29 2008 14:14:51, 5.31 # strip_in = c:\200618\ctdproc\200618_009-d-a-w-c-f-l-d-b-d.cnv # split_date = Feb 29 2008 14:14:51, 5.31 # split_in = c:\200618\ctdproc\200618_009-d-a-w-c-f-l-d-b-d.cnv # split_excl_bad_scans = yes # strip_date = Mar 15 2015 18:25:17, 7.23.2 # strip_in = C:\Users\zimmermanns\Documents\GArchiveProcess\CTD\2_Renamed\2006-1 8-0009.cnv # file_type = ascii END* --------------------------------------------------------------------------------- CTD Data Processing Notes: -------------------------- For full details see report "Physical, chemical and zooplankton data from the Canada Basin and Canadian Arctic Archipelago, July 20 to September 14, 2006." cited below. Standard seabird processing steps were used. Temperature and conductivity were calibrated with the pre-cruise calibrations. Oxygen and Fluorescence were calibrated to water samples. Transmissometer and Altimeter are not calibrated. Fluorometer notes: Calibration with bottle data performed using bottle chlorophyll values between 0.025 and 0.6 mg/m3. The number of observations used were 36 out of 42 with a standard deviation of 0.02 in the residuals. Coefficients used: Slope: 0.402, Bias 0.0071. Alignment of -4 seconds was used. Oxygen Calibration: A lag of -8 seconds was applied to oxygen voltage in Seabird data processing step Align. The oxygen sensor membrane had attachment problems during cruise due to factory issues. Numerous calibrations were necessary. For the 64 casts, 9 calibrations were applied. See Table 7., page 25 in report "Physical, chemical and zooplankton data from the Canada Basin and Canadian Arctic Archipelago, July 20 to September 14, 2006." cited below. Data Notes: - Although three oxygen sensors were swapped in and out during the cruise, the one sensor that performed well throughout has been labelled primary and the others have been removed from the final data. - Two tranmsissometers were used for casts 49 to 75. They were repositioned on cast 64 changing the naming of which was called primary and which secondary. In summary: Casts 1-48, One Transmissometer, s/n 662 Casts 49-63, Two Transmissometers, s/n 662 is now secondary, s/n 993 is primary Casts 64-75, Two Transmissometers, s/n 662 is primary again, s/n 993 is secondary - Spikes in temperature, conductivity and oxygen have been linearly interpolated over and where needed secondary values (when available) have replaced the primary values. References: 1. McLaughlin, F., Proshutinsky, A., Carmack, E.C., Shimada, K., Brown, K., Corkum, M., Dempsey, M., Drost, H., Eert, J., Green, I., Guay, C., Hutchings, J., Illasiak, J., Jackson, J., Krishfield, R., Li, W.K.W., Maclean, H., Nelson, J., Newhall, K., Nishino, S., Ostrom, W., Smith, J., Steel, M., Sutherland, N., White, L., Yamamoto-Kawai, M., Zhao, J. and Zimmermann, S. 2012. Physical, chemical and zooplankton data from the Canada Basin and Canadian Arctic Archipelago, July 20 to September 14, 2006. Can. Data Rep. Hydrogr. Ocean Sci. 186: x + 373 p. 2. Owens, W. B., and R. C. Millard Jr., 1985, A new algorithm for CTD oxygen calibration. J. Physical Oceanography., 15, 621-631. *CALIBRATION $TABLE: CORRECTED CHANNELS ! Name Units Fmla Pad Coefficients ! --------------------------- -------- ---- ------ ------------ Fluorescence:URU:Seapoint mg/m^3 10 -99 () (0.71E-02 0.402) $END !----1---- ---2---- --3-- ---4--- --5--- ---6--- ---7---- -8-- ----9----- ---10-- !Pressure Temperat Trans Fluores Altime Oxygen: Salinity Numb Flag Oxygen: ! ure: missi cence: ter Dissolv :T0:C0 er_o Dissolv ! Primary vity Calibra ed:SBE ~bin ed:SBE ! ted:Sea _rec ! point ords !--------- -------- ----- ------- ------ ------- -------- ---- ---------- ------- *END OF HEADER 1.000 3.0928 32.5 0.084 98.5 8.903 19.3710 25. 0.662E+03 391.42 2.000 3.0928 42.1 0.087 98.5 8.652 19.3707 50. 0.662E+03 380.38 3.000 1.9995 40.6 0.087 98.5 8.786 21.6513 40. 0.222E+03 385.56 4.000 1.4918 57.9 0.089 98.5 8.845 22.8225 35. 0.222E+03 387.79 5.000 1.1146 57.7 0.094 98.5 8.846 23.8917 35. 0.222E+03 387.50 6.000 1.0009 58.8 0.100 98.5 8.861 24.2157 35. 0.222E+03 388.06 7.000 0.9182 58.6 0.095 98.5 8.908 24.5971 35. 0.222E+03 390.00 8.000 0.9123 58.5 0.087 98.5 8.939 24.7134 29. 0.222E+03 391.32 9.000 0.8115 56.1 0.083 98.5 8.943 25.3020 27. 0.222E+03 391.31 10.000 0.6014 59.3 0.080 98.5 9.009 25.5593 28. 0.222E+03 394.12 11.000 0.4185 59.4 0.075 98.5 9.080 26.0107 29. 0.222E+03 397.08 12.000 0.3881 60.5 0.075 98.5 9.111 26.1317 28. 0.222E+03 398.40 13.000 0.4190 61.2 0.073 98.5 9.106 26.1659 29. 0.222E+03 398.17 14.000 0.2731 60.9 0.070 98.5 9.113 26.5663 30. 0.222E+03 398.35 15.000 0.2242 60.7 0.074 98.5 9.099 26.6968 29. 0.222E+03 397.69 16.000 0.2321 61.5 0.079 98.5 9.078 26.7027 30. 0.222E+03 396.77 17.000 0.3777 60.7 0.075 98.5 8.994 27.0631 29. 0.222E+03 392.99 18.000 0.1470 60.2 0.078 98.5 9.012 27.2621 30. 0.222E+03 393.71 19.000 -0.0190 61.1 0.082 98.5 9.023 27.4080 30. 0.222E+03 394.15 20.000 -0.1732 61.4 0.079 98.5 9.025 27.4986 31. 0.222E+03 394.21 21.000 -0.3390 62.7 0.076 98.5 9.036 27.5958 30. 0.222E+03 394.65 22.000 -0.4778 62.7 0.079 98.5 9.052 27.6938 30. 0.222E+03 395.32 23.000 -0.5648 62.9 0.083 98.5 9.061 27.7668 29. 0.222E+03 395.69 24.000 -0.5817 63.0 0.098 98.5 9.055 27.7837 26. 0.222E+03 395.42 25.000 -0.6196 62.9 0.106 98.5 9.045 27.8186 26. 0.222E+03 394.98 26.000 -0.7386 62.1 0.125 98.5 9.049 27.9155 25. 0.222E+03 395.12 27.000 -0.7588 62.0 0.150 98.5 9.042 27.9407 26. 0.222E+03 394.80 28.000 -0.8073 61.9 0.164 98.5 9.046 27.9782 25. 0.222E+03 394.97 29.000 -0.8598 61.3 0.203 98.5 9.051 28.0117 25. 0.222E+03 395.17 30.000 -0.8830 61.0 0.215 98.5 9.041 28.0332 26. 0.222E+03 394.73 31.000 -0.9113 61.0 0.238 98.5 9.029 28.0488 25. 0.222E+03 394.20 32.000 -0.9449 60.4 0.247 98.5 9.020 28.0948 26. 0.222E+03 393.79 33.000 -0.9662 60.4 0.262 98.5 9.017 28.1222 25. 0.222E+03 393.66 34.000 -1.0036 59.8 0.311 98.5 9.023 28.1528 25. 0.222E+03 393.91 35.000 -1.0276 59.7 0.353 98.5 9.029 28.1750 26. 0.222E+03 394.16 36.000 -1.0719 58.4 0.408 98.5 9.031 28.2263 26. 0.222E+03 394.23 37.000 -1.1154 58.9 0.470 98.5 9.026 28.2869 25. 0.222E+03 394.00 38.000 -1.1566 58.5 0.485 98.5 9.013 28.3481 25. 0.222E+03 393.41 39.000 -1.1829 57.2 0.490 98.5 8.997 28.3867 26. 0.222E+03 392.70 40.000 -1.2037 56.5 0.447 98.5 8.979 28.4216 25. 0.222E+03 391.90 41.000 -1.2246 56.6 0.397 98.5 8.961 28.4539 25. 0.222E+03 391.11 42.000 -1.2764 57.1 0.465 98.5 8.951 28.5307 26. 0.222E+03 390.65 43.000 -1.3300 57.1 0.566 98.5 8.914 28.6025 25. 0.222E+03 389.01 44.000 -1.3702 58.7 1.066 98.5 8.822 28.6601 25. 0.222E+03 384.98 45.000 -1.4037 58.7 1.806 98.5 8.701 28.7099 25. 0.222E+03 379.68 46.000 -1.4327 58.2 1.975 98.5 8.586 28.7591 25. 0.222E+03 374.65 47.000 -1.4542 53.7 1.979 98.5 8.486 28.8100 26. 0.222E+03 370.27 48.000 -1.4766 34.5 1.979 98.5 8.403 28.8468 25. 0.222E+03 366.64 49.000 -1.5018 12.0 1.975 98.5 8.337 28.8751 25. 0.222E+03 363.75 50.000 -1.5158 19.4 1.605 98.5 8.282 28.9239 26. 0.222E+03 361.33 51.000 -1.5238 38.0 1.058 98.5 8.233 28.9673 25. 0.222E+03 359.18 52.000 -1.5278 50.6 0.650 98.5 8.195 28.9986 26. 0.222E+03 357.52 53.000 -1.5339 57.7 0.414 98.5 8.165 29.0424 25. 0.222E+03 356.20 54.000 -1.5387 60.2 0.340 98.5 8.139 29.0896 25. 0.222E+03 355.05 55.000 -1.5421 61.0 0.222 98.5 8.117 29.1290 26. 0.222E+03 354.08 56.000 -1.5472 61.4 0.177 98.5 8.098 29.1871 25. 0.222E+03 353.23 57.000 -1.5538 61.2 0.140 98.5 8.082 29.2419 26. 0.222E+03 352.52 58.000 -1.5607 61.6 0.106 98.5 8.070 29.2952 25. 0.222E+03 351.98 59.000 -1.5647 62.4 0.098 98.5 8.059 29.3302 26. 0.222E+03 351.49 60.000 -1.5657 62.0 0.081 73.0 8.049 29.3391 25. 0.222E+03 351.05 61.000 -1.5690 62.3 0.067 61.0 8.041 29.3652 26. 0.222E+03 350.70 62.000 -1.5723 62.1 0.067 79.5 8.033 29.3883 26. 0.222E+03 350.34 63.000 -1.5754 61.9 0.077 84.9 8.027 29.4116 25. 0.222E+03 350.07 64.000 -1.5765 61.9 0.082 75.3 8.021 29.4237 26. 0.222E+03 349.81 65.000 -1.5768 61.8 0.073 57.2 8.017 29.4342 26. 0.222E+03 349.63 66.000 -1.5771 62.0 0.081 56.3 8.013 29.4394 25. 0.222E+03 349.46 67.000 -1.5774 62.0 0.074 76.8 8.008 29.4437 26. 0.222E+03 349.24 68.000 -1.5795 62.0 0.062 54.5 8.000 29.4656 26. 0.222E+03 348.88 69.000 -1.5824 62.1 0.064 53.2 7.992 29.4948 25. 0.222E+03 348.52 70.000 -1.5835 62.0 0.129 52.4 7.983 29.5046 26. 0.222E+03 348.13 71.000 -1.5861 62.0 0.107 51.1 7.973 29.5272 26. 0.222E+03 347.69 72.000 -1.5881 61.5 0.173 50.1 7.963 29.5472 25. 0.222E+03 347.25 73.000 -1.5906 61.4 0.172 49.1 7.955 29.5745 25. 0.222E+03 346.89 74.000 -1.5922 61.1 0.111 48.0 7.949 29.5930 26. 0.222E+03 346.62 75.000 -1.5933 60.9 0.071 47.1 7.944 29.6064 26. 0.222E+03 346.40 76.000 -1.5946 60.5 0.060 46.1 7.942 29.6218 25. 0.222E+03 346.31 77.000 -1.5958 60.2 0.055 44.9 7.940 29.6367 26. 0.222E+03 346.22 78.000 -1.5968 60.0 0.053 43.7 7.940 29.6488 25. 0.222E+03 346.21 79.000 -1.5971 59.9 0.052 42.7 7.940 29.6523 26. 0.222E+03 346.21 80.000 -1.5982 59.8 0.051 41.7 7.938 29.6645 25. 0.222E+03 346.12 81.000 -1.5994 60.0 0.048 40.7 7.936 29.6790 26. 0.222E+03 346.03 82.000 -1.6001 60.0 0.044 39.5 7.931 29.6868 26. 0.222E+03 345.81 83.000 -1.6008 59.9 0.042 38.5 7.926 29.6938 25. 0.222E+03 345.59 84.000 -1.6014 59.9 0.040 37.5 7.919 29.7003 26. 0.222E+03 345.28 85.000 -1.6032 60.0 0.039 36.6 7.913 29.7225 25. 0.222E+03 345.02 86.000 -1.6050 59.7 0.045 35.5 7.906 29.7482 26. 0.222E+03 344.70 87.000 -1.6058 59.6 0.050 34.4 7.899 29.7595 26. 0.222E+03 344.40 88.000 -1.6059 59.4 0.043 33.4 7.894 29.7620 25. 0.222E+03 344.18 89.000 -1.6064 59.2 0.043 32.3 7.888 29.7697 26. 0.222E+03 343.91 90.000 -1.6071 59.0 0.042 31.3 7.882 29.7796 26. 0.222E+03 343.65 91.000 -1.6074 58.7 0.043 30.3 7.875 29.7859 26. 0.222E+03 343.34 92.000 -1.6075 58.5 0.051 29.2 7.867 29.7877 25. 0.222E+03 342.99 93.000 -1.6081 58.3 0.050 28.2 7.862 29.7971 26. 0.222E+03 342.77 94.000 -1.6083 57.7 0.049 27.1 7.857 29.8027 26. 0.222E+03 342.55 95.000 -1.6086 57.4 0.046 26.1 7.853 29.8109 26. 0.222E+03 342.38 96.000 -1.6087 56.9 0.046 25.1 7.845 29.8137 26. 0.222E+03 342.03 97.000 -1.6087 56.6 0.044 24.1 7.839 29.8141 26. 0.222E+03 341.77 98.000 -1.6088 56.3 0.045 23.0 7.834 29.8166 26. 0.222E+03 341.55 99.000 -1.6088 55.9 0.044 22.0 7.830 29.8207 25. 0.222E+03 341.37 100.000 -1.6089 55.4 0.042 21.0 7.827 29.8231 26. 0.222E+03 341.24 101.000 -1.6089 55.0 0.046 20.0 7.823 29.8252 26. 0.222E+03 341.07 102.000 -1.6090 54.5 0.050 18.9 7.821 29.8276 26. 0.222E+03 340.98 103.000 -1.6090 54.0 0.050 17.9 7.819 29.8282 26. 0.222E+03 340.89 104.000 -1.6091 53.8 0.050 16.8 7.818 29.8288 29. 0.222E+03 340.85 105.000 -1.6092 53.6 0.044 15.6 7.815 29.8306 34. 0.222E+03 340.71 106.000 -1.6092 53.1 0.052 14.5 7.811 29.8338 33. 0.222E+03 340.54 107.000 -1.6093 52.9 0.052 13.5 7.809 29.8362 34. 0.222E+03 340.45 108.000 -1.6093 52.5 0.049 12.4 7.805 29.8377 33. 0.222E+03 340.28 109.000 -1.6092 51.9 0.045 11.3 7.801 29.8397 40. 0.222E+03 340.10 110.000 -1.6093 51.3 0.046 10.2 7.798 29.8406 38. 0.222E+03 339.97 111.000 -1.6093 50.3 0.048 9.3 7.796 29.8412 39. 0.222E+03 339.88 112.000 -1.6092 50.7 0.050 8.4 7.796 29.8415 39. 0.222E+03 339.88 113.000 -1.6084 50.6 0.052 66.5 7.797 29.8408 47. 0.222E+03 339.93