*2017/02/24 13:32:03.95 *IOS HEADER VERSION 2.0 2016/04/28 2016/06/13 IVF16 *FILE START TIME : UTC 2006/07/30 17:15:43.000 NUMBER OF RECORDS : 127 DATA DESCRIPTION : CTD FILE TYPE : ASCII CRC : 3FA207D5 NUMBER OF CHANNELS : 10 $TABLE: CHANNELS ! No Name Units Minimum Maximum !--- ---------------------------------- --------------- -------------- -------------- 1 Pressure decibar 3 129 2 Temperature:Primary 'deg C (ITS90)' -1.3287 0.3279 3 Transmissivity %/metre 52.3 62.7 4 Fluorescence:Calibrated:Seapoint mg/m^3 0.44E-01 0.406 5 Altimeter metres 4.1 98.5 6 Oxygen:Dissolved:SBE mL/L 6.276 9.358 7 Salinity:T0:C0 PSS-78 29.0481 32.7575 8 Number_of_bin_records n/a 27 219 9 Flag n/a 222 662 10 Oxygen:Dissolved:SBE umol/kg 272.99 408.26 $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 : BE3 EVENT NUMBER : 5 LATITUDE : 71 57.40000 N ! (deg min) LONGITUDE : 95 15.39000 W ! (deg min) WATER DEPTH : 131.729 ALTIMETER (M) : 5.15 ! 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 18:30:14 127 127 CHGUNITS 3.1 2015/03/15 18:56:38 127 127 HDREDIT2 3.0.2 2015/03/16 09:53:25 ? ? CLEAN 5.2.1 2015/03/18 19:53:37 127 127 CLEAN 5.2.1 2015/03/18 19:58:18 127 127 HDREDIT2 3.1.1 2017/02/24 13:32:03 ? ? $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 13:32:03 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_005.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 = Jul 30 2006 17:10:44 NMEA Latitude = 71 57.40 N NMEA Longitude = 095 15.39 W NMEA UTC (Time) = Jul 30 2006 17:15:43 Store Lat/Lon Data = Append to Every Scan Ship: Louis S. St. Laurent Cruise: 2006-18 Station: BE3 Depth: 131.729 # nquan = 9 # nvalues = 127 # 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 = 3.000, 129.000 # span 1 = -1.3287, 0.3279 # span 2 = 85.0294, 88.9885 # span 3 = 4.4165e-02, 4.0620e-01 # span 4 = 4.09, 98.53 # span 5 = 6.2760, 9.3580 # span 6 = 29.0481, 32.7575 # span 7 = 27, 219 # span 8 = 2.2200e+02, 6.6200e+02 # interval = decibars: 1 # start_time = Jul 30 2006 17:10:44 # 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 14:13:48, 5.31 # datcnv_in = c:\200618\ctdproc\200618_005.dat c:\200618\ctdproc\200618_DO_0820_ 0435_v2_remove0820.con # datcnv_skipover = 13800 # alignctd_date = Feb 29 2008 14:13:49, 5.31 # alignctd_in = c:\200618\ctdproc\200618_005-d.cnv # alignctd_adv = sbeox0V 8.000 # wildedit_date = Feb 29 2008 14:13:50, 5.31 # wildedit_in = c:\200618\ctdproc\200618_005-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 14:13:52, 5.31 # celltm_in = c:\200618\ctdproc\200618_005-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 14:13:53, 5.31 # filter_in = c:\200618\ctdproc\200618_005-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 14:13:56, 5.31 # loopedit_in = c:\200618\ctdproc\200618_005-d-a-w-c-f.cnv # loopedit_minVelocity = 0.000 # loopedit_excl_bad_scans = yes # Derive_date = Feb 29 2008 14:13:57, 5.31 # Derive_in = c:\200618\ctdproc\200618_005-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 14:13:59, 5.31 # binavg_in = c:\200618\ctdproc\200618_005-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 14:14:01, 5.31 # Derive_in = c:\200618\ctdproc\200618_005-d-a-w-c-f-l-d-b.cnv c:\200618\ctdproc \200618_DO_0820_0435_v2_remove0820.con # strip_date = Feb 29 2008 14:14:01, 5.31 # strip_in = c:\200618\ctdproc\200618_005-d-a-w-c-f-l-d-b-d.cnv # split_date = Feb 29 2008 14:14:01, 5.31 # split_in = c:\200618\ctdproc\200618_005-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 8-0005.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 3.000 0.3279 53.0 0.069 98.5 9.358 29.0481 49. 0.222E+03 408.26 4.000 0.2915 53.4 0.077 98.5 9.284 29.0607 30. 0.222E+03 405.03 5.000 0.3048 53.3 0.090 98.5 9.252 29.0667 27. 0.222E+03 403.63 6.000 0.2657 53.4 0.121 98.5 9.225 29.0870 34. 0.222E+03 402.44 7.000 0.0799 53.1 0.155 98.5 9.212 29.1906 38. 0.222E+03 401.84 8.000 -0.4237 52.3 0.167 98.5 9.217 29.4858 42. 0.222E+03 401.96 9.000 -0.4321 52.3 0.182 98.5 9.075 29.5134 41. 0.222E+03 395.76 10.000 -0.4369 52.4 0.219 98.5 8.933 29.5351 41. 0.222E+03 389.56 11.000 -0.5108 52.7 0.226 98.5 8.814 29.7033 44. 0.222E+03 384.32 12.000 -0.6131 53.0 0.235 98.5 8.710 29.8866 50. 0.222E+03 379.73 13.000 -0.6386 53.1 0.279 98.5 8.614 29.9355 48. 0.222E+03 375.53 14.000 -0.6570 53.2 0.283 98.5 8.533 29.9789 48. 0.222E+03 371.98 15.000 -0.6639 53.3 0.261 98.5 8.432 29.9978 48. 0.222E+03 367.57 16.000 -0.6714 53.3 0.278 98.5 8.290 30.0217 47. 0.222E+03 361.38 17.000 -0.6814 53.6 0.257 98.5 8.131 30.0617 48. 0.222E+03 354.43 18.000 -0.7257 54.3 0.268 98.5 8.001 30.1662 47. 0.222E+03 348.74 19.000 -0.8491 55.4 0.275 98.5 7.915 30.4092 49. 0.222E+03 344.92 20.000 -0.8758 55.7 0.271 98.5 7.848 30.4648 49. 0.222E+03 341.99 21.000 -0.8789 55.8 0.259 98.5 7.798 30.4698 48. 0.222E+03 339.81 22.000 -0.8844 55.7 0.273 98.5 7.761 30.4774 49. 0.222E+03 338.19 23.000 -0.8976 55.9 0.271 98.5 7.736 30.5023 48. 0.222E+03 337.10 24.000 -0.9135 55.9 0.274 98.5 7.715 30.5348 48. 0.222E+03 336.17 25.000 -0.9148 56.1 0.275 98.5 7.693 30.5437 48. 0.222E+03 335.21 26.000 -0.9156 56.0 0.284 98.5 7.666 30.5555 48. 0.222E+03 334.03 27.000 -0.9216 56.1 0.272 98.5 7.624 30.5960 48. 0.222E+03 332.19 28.000 -0.9327 56.4 0.305 98.5 7.573 30.6552 48. 0.222E+03 329.95 29.000 -0.9525 56.9 0.273 98.5 7.526 30.7775 48. 0.222E+03 327.87 30.000 -0.9985 57.4 0.263 98.5 7.488 30.9868 49. 0.222E+03 326.16 31.000 -1.0343 57.9 0.263 98.5 7.459 31.0936 48. 0.222E+03 324.87 32.000 -1.0585 58.1 0.406 98.5 7.439 31.1602 48. 0.222E+03 323.98 33.000 -1.0924 58.7 0.232 98.5 7.417 31.2609 49. 0.222E+03 323.00 34.000 -1.1378 59.2 0.225 98.5 7.396 31.3859 48. 0.222E+03 322.05 35.000 -1.1702 59.7 0.196 98.5 7.388 31.4691 48. 0.222E+03 321.68 36.000 -1.2102 60.3 0.180 98.5 7.386 31.5915 47. 0.222E+03 321.57 37.000 -1.2519 60.9 0.178 98.5 7.385 31.6688 43. 0.222E+03 321.50 38.000 -1.2661 61.2 0.172 98.5 7.379 31.6959 44. 0.222E+03 321.23 39.000 -1.2657 60.7 0.170 97.9 7.367 31.6961 44. 0.222E+03 320.71 40.000 -1.2682 61.2 0.156 96.9 7.358 31.7072 45. 0.222E+03 320.32 41.000 -1.2736 61.4 0.163 95.8 7.351 31.7426 44. 0.222E+03 320.00 42.000 -1.2772 61.4 0.146 94.9 7.347 31.7566 45. 0.222E+03 319.83 43.000 -1.2829 61.5 0.149 93.9 7.346 31.7660 44. 0.222E+03 319.78 44.000 -1.2832 61.5 0.149 92.8 7.346 31.7659 47. 0.222E+03 319.78 45.000 -1.2866 61.6 0.167 91.7 7.348 31.7693 49. 0.222E+03 319.87 46.000 -1.2923 61.6 0.152 90.8 7.349 31.7681 49. 0.222E+03 319.91 47.000 -1.2910 61.6 0.157 89.7 7.347 31.7676 49. 0.222E+03 319.82 48.000 -1.2915 61.6 0.158 88.8 7.346 31.7737 50. 0.222E+03 319.78 49.000 -1.2943 61.7 0.138 87.7 7.346 31.7756 49. 0.222E+03 319.78 50.000 -1.2985 61.8 0.132 86.6 7.343 31.7894 50. 0.662E+03 319.64 51.000 -1.3016 61.6 0.134 85.5 7.339 31.7999 50. 0.662E+03 319.47 52.000 -1.3047 61.9 0.133 84.4 7.335 31.8105 49. 0.662E+03 319.29 53.000 -1.3069 62.0 0.136 83.3 7.330 31.8192 50. 0.222E+03 319.07 54.000 -1.3074 61.9 0.126 82.5 7.325 31.8219 50. 0.222E+03 318.85 55.000 -1.3081 62.0 0.110 81.4 7.321 31.8232 49. 0.222E+03 318.68 56.000 -1.3126 62.0 0.139 80.4 7.315 31.8455 50. 0.222E+03 318.41 57.000 -1.3123 62.2 0.135 79.3 7.307 31.8460 49. 0.222E+03 318.06 58.000 -1.3156 62.2 0.116 78.3 7.299 31.8640 50. 0.222E+03 317.71 59.000 -1.3192 62.3 0.118 77.3 7.289 31.8803 50. 0.222E+03 317.27 60.000 -1.3228 62.4 0.119 76.3 7.278 31.8996 49. 0.222E+03 316.79 61.000 -1.3246 62.4 0.106 75.3 7.259 31.9078 50. 0.222E+03 315.96 62.000 -1.3269 62.6 0.104 74.3 7.229 31.9284 49. 0.222E+03 314.65 63.000 -1.3287 62.6 0.084 73.2 7.197 31.9666 50. 0.222E+03 313.24 64.000 -1.3280 62.7 0.083 72.1 7.170 32.0251 49. 0.222E+03 312.05 65.000 -1.3265 62.7 0.078 71.2 7.135 32.0737 49. 0.222E+03 310.52 66.000 -1.3249 62.7 0.106 70.2 7.083 32.1065 49. 0.222E+03 308.25 67.000 -1.3216 62.5 0.088 69.1 7.029 32.1342 49. 0.222E+03 305.89 68.000 -1.3031 62.3 0.097 68.0 6.976 32.1832 50. 0.222E+03 303.57 69.000 -1.2929 62.2 0.080 67.0 6.932 32.2228 49. 0.222E+03 301.65 70.000 -1.2908 62.2 0.081 66.1 6.895 32.2522 49. 0.222E+03 300.03 71.000 -1.2840 62.1 0.084 65.0 6.867 32.2804 48. 0.222E+03 298.81 72.000 -1.2805 62.1 0.084 64.0 6.847 32.2944 49. 0.222E+03 297.93 73.000 -1.2779 62.1 0.091 62.9 6.829 32.3044 49. 0.222E+03 297.15 74.000 -1.2766 62.0 0.087 61.8 6.816 32.3103 48. 0.222E+03 296.58 75.000 -1.2752 62.0 0.093 60.8 6.802 32.3161 48. 0.222E+03 295.97 76.000 -1.2736 61.9 0.084 59.8 6.790 32.3213 49. 0.222E+03 295.45 77.000 -1.2720 62.0 0.077 58.8 6.782 32.3283 48. 0.222E+03 295.10 78.000 -1.2712 61.9 0.085 57.8 6.764 32.3322 48. 0.222E+03 294.31 79.000 -1.2710 61.8 0.075 56.7 6.739 32.3375 48. 0.222E+03 293.22 80.000 -1.2711 62.0 0.073 55.7 6.701 32.3638 49. 0.222E+03 291.56 81.000 -1.2702 62.0 0.072 54.7 6.655 32.4027 48. 0.222E+03 289.55 82.000 -1.2685 62.0 0.067 53.6 6.616 32.4415 48. 0.222E+03 287.85 83.000 -1.2658 62.0 0.064 52.6 6.580 32.5011 48. 0.222E+03 286.27 84.000 -1.2649 62.1 0.062 51.6 6.550 32.5312 49. 0.222E+03 284.96 85.000 -1.2643 62.1 0.055 50.6 6.525 32.5465 48. 0.222E+03 283.87 86.000 -1.2625 62.1 0.056 49.5 6.502 32.5749 48. 0.222E+03 282.86 87.000 -1.2613 62.1 0.057 48.5 6.482 32.5924 48. 0.222E+03 281.98 88.000 -1.2602 62.0 0.056 47.5 6.468 32.6045 48. 0.222E+03 281.37 89.000 -1.2593 62.0 0.054 46.5 6.456 32.6222 48. 0.222E+03 280.85 90.000 -1.2592 62.1 0.061 45.5 6.447 32.6251 47. 0.222E+03 280.45 91.000 -1.2591 62.1 0.051 44.4 6.438 32.6315 48. 0.222E+03 280.06 92.000 -1.2588 62.0 0.054 43.4 6.427 32.6406 48. 0.222E+03 279.58 93.000 -1.2585 62.0 0.055 42.4 6.419 32.6468 47. 0.222E+03 279.23 94.000 -1.2584 62.1 0.051 41.3 6.409 32.6486 48. 0.222E+03 278.80 95.000 -1.2577 62.1 0.052 40.3 6.400 32.6579 47. 0.222E+03 278.40 96.000 -1.2571 62.0 0.050 39.3 6.393 32.6650 48. 0.222E+03 278.10 97.000 -1.2567 62.0 0.052 38.3 6.389 32.6707 48. 0.222E+03 277.92 98.000 -1.2567 62.0 0.051 37.3 6.385 32.6720 47. 0.222E+03 277.75 99.000 -1.2567 62.0 0.057 36.2 6.379 32.6730 47. 0.222E+03 277.49 100.000 -1.2568 62.0 0.053 35.2 6.373 32.6747 48. 0.222E+03 277.22 101.000 -1.2563 62.0 0.054 34.2 6.365 32.6811 47. 0.222E+03 276.87 102.000 -1.2558 62.0 0.049 33.1 6.361 32.6876 48. 0.222E+03 276.70 103.000 -1.2551 62.1 0.048 32.1 6.358 32.6921 48. 0.222E+03 276.57 104.000 -1.2550 62.0 0.049 31.0 6.354 32.6929 47. 0.222E+03 276.39 105.000 -1.2549 62.0 0.049 30.0 6.350 32.6942 48. 0.222E+03 276.22 106.000 -1.2543 62.0 0.060 29.0 6.345 32.6967 48. 0.222E+03 276.00 107.000 -1.2542 62.0 0.047 28.0 6.342 32.6985 48. 0.222E+03 275.87 108.000 -1.2541 62.0 0.052 27.0 6.340 32.7016 48. 0.222E+03 275.78 109.000 -1.2540 62.0 0.052 26.0 6.338 32.7021 48. 0.222E+03 275.70 110.000 -1.2537 62.0 0.048 25.0 6.333 32.7050 48. 0.222E+03 275.48 111.000 -1.2528 61.9 0.051 23.9 6.326 32.7115 47. 0.222E+03 275.17 112.000 -1.2523 62.0 0.051 22.9 6.321 32.7161 48. 0.222E+03 274.95 113.000 -1.2521 62.0 0.044 21.9 6.317 32.7225 48. 0.222E+03 274.78 114.000 -1.2517 62.0 0.048 20.9 6.314 32.7283 48. 0.222E+03 274.65 115.000 -1.2515 62.0 0.049 19.8 6.309 32.7286 48. 0.222E+03 274.43 116.000 -1.2514 62.0 0.050 18.8 6.308 32.7289 48. 0.222E+03 274.39 117.000 -1.2516 62.0 0.051 17.8 6.307 32.7316 48. 0.222E+03 274.34 118.000 -1.2515 62.0 0.046 16.8 6.305 32.7321 48. 0.222E+03 274.25 119.000 -1.2515 61.9 0.045 15.7 6.305 32.7314 48. 0.222E+03 274.25 120.000 -1.2514 62.0 0.051 14.7 6.304 32.7308 48. 0.222E+03 274.21 121.000 -1.2514 62.0 0.046 13.7 6.303 32.7313 47. 0.222E+03 274.17 122.000 -1.2514 61.9 0.045 12.6 6.301 32.7324 48. 0.222E+03 274.08 123.000 -1.2519 62.0 0.044 11.6 6.298 32.7342 48. 0.222E+03 273.95 124.000 -1.2525 62.0 0.048 10.6 6.299 32.7357 48. 0.222E+03 273.99 125.000 -1.2532 62.0 0.047 9.6 6.299 32.7380 48. 0.222E+03 273.99 126.000 -1.2535 61.9 0.047 8.6 6.299 32.7397 47. 0.222E+03 273.99 127.000 -1.2535 62.0 0.046 7.6 6.300 32.7396 48. 0.222E+03 274.03 128.000 -1.2536 62.0 0.046 6.2 6.298 32.7399 219. 0.222E+03 273.95 129.000 -1.2551 62.0 0.048 4.1 6.276 32.7575 71. 0.222E+03 272.99