*2017/03/10 10:48:56.17 *IOS HEADER VERSION 2.0 2016/04/28 2016/06/13 IVF16 *FILE START TIME : UTC 2006/08/08 20:55:00.000 NUMBER OF RECORDS : 24 DATA DESCRIPTION : 'Bottle:Rosette:Up:NoStop and Stop as specified in' CONTINUED : ' SAMPLE METHOD' FILE TYPE : ASCII NUMBER OF CHANNELS : 42 CTD : Up except for oxygen which is from the down-cast. $TABLE: CHANNELS ! No Name Units Minimum Maximum !--- -------------------------------------- --------------- -------------- -------------- 1 Sample_Number n/a 110 133 2 Sample_Method n/a 3 Bottle_Number n/a 1 24 4 Pressure decibar 5.1 1102.8 5 Temperature 'deg C (ITS90)' -1.5177 0.568 6 Salinity PSS-78 29.4372 34.8884 7 Oxygen:Dissolved:SBE mL/L 6.11 9.27 8 Fluorescence:Calibrated:Seapoint mg/m^3 0.22E-01 0.156 9 Transmissivity %/metre 63.36 65.38 10 Salinity:Bottle PSS-78 29.8253 34.8916 11 Flag:Salinity:Bottle ' ' 12 Oxygen:Dissolved mL/L 6.13 9.3 13 Flag:Oxygen:Dissolved ' ' 14 Nitrate_plus_Nitrite umol/L 0 15.9 15 Flag:Nitrate_plus_Nitrite ' ' 16 Silicate umol/L 3.3 34.7 17 Flag:Silicate ' ' 18 Phosphate umol/L 0.7 1.82 19 Flag:Phosphate ' ' 20 Ammonium umol/L 0 0.6E-01 21 Flag:Ammonium ' ' 22 Alkalinity:Total:Potentiometric umol/kg 2150.24 2293.86 23 Flag:Alkalinity:Total:Potentiometric ' ' 24 Chlorofluorocarbon_12 pmol/L 1.76 4.11 25 Flag:Chlorofluorocarbon_12 ' ' 26 Chlorofluorocarbon_11 pmol/L 3.37 7.18 27 Flag:Chlorofluorocarbon_11 ' ' 28 Chlorofluorocarbon_113 pmol/L 0.15 0.54 29 Flag:Chlorofluorocarbon_113 ' ' 30 Carbontetrachloride pmol/L 2.95 4.88 31 Flag:Carbontetrachloride ' ' 32 Oxygen:Isotope:18 /mille -2.87 -2.81 33 Flag:Oxygen:Isotope:18 ' ' 34 Barium:Dissolved nmol/L 72 87 35 Flag:Barium:Dissolved ' ' 36 Carbon:Particulate:Organic umol/L 4.27 4.27 37 Flag:Carbon:Particulate:Organic ' ' 38 Total_Suspended_Solids ug/L 576.23 576.23 39 Flag:Total_Suspended_Solids ' ' 40 Bacteria /mL 70416 260988 41 Picophytoplankton /mL 26 6434 42 Nanophytoplankton /mL 22 448 $END $TABLE: CHANNEL DETAIL ! No Pad Start Width Format Type Decimal_Places !--- ---- ----- ----- ------ ---- -------------- 1 -99 ' ' ' ' I5 I ' ' 2 ' ' ' ' 8 NQ C ' ' 3 -99 ' ' ' ' I5 I ' ' 4 -99 ' ' ' ' F7.1 R4 ' ' 5 -99 ' ' ' ' F9.4 R4 ' ' 6 -99 ' ' ' ' F9.4 R4 ' ' 7 -99 ' ' ' ' F7.2 R4 ' ' 8 -99 ' ' 8 F R4 3 9 -99 ' ' ' ' F7.2 R4 ' ' 10 -99 ' ' ' ' F9.4 R4 ' ' 11 ' ' ' ' 3 NQ C ' ' 12 -99 ' ' ' ' F8.3 R4 ' ' 13 ' ' ' ' 3 NQ C ' ' 14 -99 ' ' ' ' F7.2 R4 ' ' 15 ' ' ' ' 3 NQ C ' ' 16 -99 ' ' ' ' F7.2 R4 ' ' 17 ' ' ' ' 3 NQ C ' ' 18 -99 ' ' ' ' F8.3 R4 ' ' 19 ' ' ' ' 3 NQ C ' ' 20 -99 ' ' ' ' F7.2 R4 ' ' 21 ' ' ' ' 3 NQ C ' ' 22 -99 ' ' ' ' F8.2 R4 ' ' 23 ' ' ' ' 3 NQ C ' ' 24 -99 ' ' ' ' f7.2 R4 ' ' 25 ' ' ' ' 3 NQ C ' ' 26 -99 ' ' ' ' f7.2 R4 ' ' 27 ' ' ' ' 3 NQ C ' ' 28 -99 ' ' ' ' f7.2 R4 ' ' 29 ' ' ' ' 3 NQ C ' ' 30 -99 ' ' ' ' f7.2 R4 ' ' 31 ' ' ' ' 3 NQ C ' ' 32 -99 ' ' ' ' F7.2 R4 ' ' 33 ' ' ' ' 3 NQ C ' ' 34 -99 ' ' ' ' F7.1 R4 ' ' 35 ' ' ' ' 3 NQ C ' ' 36 -99 ' ' ' ' F8.2 R4 ' ' 37 ' ' ' ' 3 NQ C ' ' 38 -99 ' ' ' ' F8.2 R4 ' ' 39 ' ' ' ' 3 NQ C ' ' 40 -99 ' ' ' ' f11.2 R4 ' ' 41 -99 ' ' ' ' f10.2 R4 ' ' 42 -99 ' ' ' ' f10.2 R4 ' ' $END $REMARKS Flag channels were initialized with zeros. Non-zero values have the following significance: ------------------------------------------------------------------------------------------- 1 = Sample for this measurement was collected but not analyzed. Sample lost. 2 = Acceptable Measurement 3 = Questionable Measurement (Probably Good) 4 = Poor Measurement (Probably Bad) 5 = Measurement Not Reported (Bad) 6 = Mean of replicate measurements 7 = Manual chromatographic peak measurement 8 = Irregular digital chromatographic peak integration 9 = Sample was planned for this measurement from this bottle but was not collected ------------------------------------------------------------------------------------------- Sampling Methods are expressed with the following codes: ------------------------------------------------------------------------------- ROS:UN - No Stop ROS:US - Stop for 30 seconds ROS:USM - Up Stop Mix (Stop 30s, up 1m, down 2m, up 1m, wait 30s, close bottle) ------------------------------------------------------------------------------- $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 : CABOS EVENT NUMBER : 13 LATITUDE : 71 48.48000 N ! (deg min) LONGITUDE : 131 46.62000 W ! (deg min) WATER DEPTH : 1105 *INSTRUMENT TYPE : Sea-Bird CTD MODEL : SBE-911plus SERIAL NUMBER : 0724 $REMARKS A rosette, holding 24 ten-litre Niskin Bottles, with a CTD was used. $END *HISTORY $TABLE: PROGRAMS ! Name Vers Date Time Recs In Recs Out ! -------- ------ ---------- -------- --------- --------- SPRD2IS 5.0 2015/03/18 12:41:32 24 24 CLEAN 5.2.1 2015/03/18 12:54:13 24 24 HDREDIT2 3.0.2 2015/03/18 13:26:25 ? ? CALIB 11.8.1 2015/03/18 13:53:54 24 24 HDREDIT2 3.0.2 2015/03/18 14:09:49 ? ? CALIB 11.8.1 2015/03/18 14:22:23 24 24 HDREDIT2 3.0.2 2015/03/18 14:34:05 ? ? CLEAN 5.2.2 2017/03/02 10:35:23 24 24 HDREDIT2 3.1.1 2017/03/03 14:32:14 ? ? HDREDIT2 3.1.1 2017/03/10 10:40:57 ? ? SORT 3.6 2017/03/10 10:48:56 24 24 $END $REMARKS -CLEAN functions: 2015/03/18 12:54:12 20 Reset #RECS, MIN & MAX values in header. Change character data from " " to "0" in channels Flag:* -HEADER EDITS: 2015/03/18 13:26:25 Applied edit header: C:\Users\zimmermanns\Documents\GArchiveProcess\Chem\3_header\2006-18-HDRChem. TXT -CALIB parameters: 2015/03/18 13:53:54 Calibration type = Calculate Mode: HEAD - calibration specs from header only. Transmissivity converted to %/metre Calibration limited to records where Transmissivity [%] between: 1 and 1000 24 records, in 1 block, were within the limits. 0 records were outside the limits. WARNING: No calibration done on file C:\Users\zimmermanns\Documents\GArchiveProcess\Chem\4_ TransUnits\2006-18-0013.trn -HEADER EDITS: 2015/03/18 14:09:49 Channel 9: THold [%/metre] Name: Transmissivity ==> THold Channel 10: Transmissivity [%] Name: Transmissivity2 ==> Transmissivity -CALIB parameters: 2015/03/18 14:22:23 Calibration type = Calculate Mode: HEAD - calibration specs from header only. Transmissivity converted to %/metre WARNING: No calibration done on file C:\Users\zimmermanns\Documents\GArchiveProcess\Chem\6_ TransUnits2\2006-18-0013.tr3 -HEADER EDITS: 2015/03/18 14:34:05 Channel 10: Transmissivity2 [%/metre] Name: Transmissivity ==> Transmissivity2 Channel 9: Transmissivity [%/metre] Name: THold ==> Transmissivity -CLEAN functions: 2017/03/02 10:35:23 20 Reset #RECS, MIN & MAX values in header. Delete Empty Channels: 13 deleted. -HEADER EDITS: 2017/03/03 14:32:14 Applied edit header: Z:\SHARE\DATA\Data Archive Process - 2017\Joe's work\2006-18\Headers\2006-18 CHE Header.txt Channel 8: Fluorescence:Calibrated:Seapoint [mg/m^3] Name: Fluorescence:URU:Seapoint ==> Fluorescence:Calibrated:Seapoint -HEADER EDITS: 2017/03/10 10:40:57 Applied edit header: Z:\SHARE\DATA\Data Archive Process - 2017\Joe's work\Headers\Niskin Bottles. txt -SORT parameters: 2017/03/10 10:48:56 Sorted in ascending order of channel Pressure [decibar] $END *COMMENTS Sample_Number 111: SAL: 3, too high Sample_Number 112: SAL: 4, too low Sample_Number 118: SAL: 4, too low Sample_Number 131: OXY: *sample 131 bubbles on probewhen finished titration Sample_Number 133: OXY: *sample133 bubbles on probewhen finished titration 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. Chemistry Sampling and Analysis Methods: --------------------------------------- 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. Salinity samples were collected in 200 mL type II glass bottles with disposable plastic inserts and screw caps. On board, samples were analyzed in a temperature-controlled lab on a Guildline AutoSalinometer Model 8400A (SN: 49463), which was standardized with IAPSO standard seawater. Onshore, samples were analyzed January 2007 on the Guildline AutoSalinometer Model 8400B (SN: 68572), which was standardized with IAPSO standard seawater. Oxygen samples were collected in glass flasks and analyzed on board on an automated Micro-Winkler titration system following the procedures of Carpenter (1965). The titration was performed with a Metrohn Dosimat 665 and the end point was detected using a Brinkmann probe Colorimeter PC910 (SN: 910-358). Software written at the Institute of Ocean Sciences, NewAutoOxy.exe, was used to calculate dissolved oxygen (ml/L). Nutrient samples (nitrate plus nitrite, silicate and orthophosphate) were collected in glass and polystyrene test tubes. If analysis could be performed within 24 hours the samples were stored at 4 degree C, if not they were frozen at -20 degree C. Note that frozen nutrient samples from casts 1 to 9, except a few samples from within casts 4, 5 and 7, thawed when the freezer was accidentally turned off. The freezer had been off between 24 and 36 hours. The samples were refrozen and analyzed later during the cruise, except the last 3 casts (73-75) run at the Institute of Ocean Sciences, February 2008, from frozen samples. Samples were analyzed fresh on board. Samples were not filtered. Samples were analyzed using a Technicon auto-analyzer following methods described in Barwell-Clarke and Whitney (1996). Total Chlorophyll-a (>0.7um) samples were collected into 2 L brown Nalgene sample bottles, immediately placed in dark bags and stored in a fridge. Samples were filtered onto 25mm GF/F filters using low vacuum filtration. The filters were put in scintillation vials and stored at -20 degree C until analysis at the Institute of Ocean Sciences, December 2006. For analysis, 10 ml of 90% acetone was added to the scintillation vial which was then put into a -20 degree C freezer for 24 hours. The samples were allowed to adjust to room temperature for an hour before being read with the fluorometer. Chlorophyll-a and phaeo-pigment levels were measured with a Turner Designs fluorometer (model 10-000R, s/n 0329R). The sample was acidified with 2 drops of 1N hydrochloric acid to obtain the phaeo-pigment reading. Oxygen Isotopes Samples were collected into 30 ml glass vials. Once at room temperature, the caps were retightened and wrapped with parafilm for storage. Samples were analyzed January to April 2007 at the Japan Agency for Marine-Earth Science Technology using the H2O-CO2 equilibration method on a Finnigan MAT 252 mass spectrometer. Barium samples were collected in ~20 ml plastic vials. Once at room temperature the caps were retightened for storage. Barium concentrations were determined at Oregon State University, using isotope-dilution and a VG Thermo Excel Inductively coupled quadrupole mass spectrometer as previously described with minor modifications (Falkner et al., 1994). Phytoplankton and bacterioplankton were collected in 2 ml capacity cryogenic vial and fixed with 0.2 ml of 10% paraformaldehyde by vortex mixing. Samples were maintained for at least 15 min at laboratory temperature to allow fixation, and then stored at -80 degree C until analysis at the Bedford Institute of Oceanography. Cell concentrations of picophytoplankton, nanophytoplankton, and bacterioplankton (i.e. non-autofluorescent picoplankton) in thawed samples were analyzed by flow cytometry (Becton Dickinson FACSort) following protocols in routine use (Li and Dickie, 2001). Dissolved Inorganic Carbon (DIC) and Alkalinity: DIC and Alkalinity were collected into 250 or 500 mL glass bottles. Samples were kept at 4 degree C until analysis and preserved with HGCL2 (except for the alkalinity being run on board). Alkalinity ("Alkalinity:Total") and DIC ("Carbon:Dissolved:Inorganic") were measured from the same sample bottle at select stations. In addition, more frequent samples of Alkalinity were collected at most stations and have been labelled "Alkalinity:Total:Potentiometric" to distinguish this set of separate samples, even though both sets of Alkalinity samples were measured using potentiometric titration. DIC was analyzed at the Institute of Ocean Sciences using a SOMMA (Single-Operator Multi-Metabolic Analyzer) - Coulometer system to determine DIC. Alkalinity samples were analyzed using an automated potentiometric titration system to determine the total alkalinity. Alkalinity samples paired with DIC were sampled at the Institute of Ocean Sciences. The samples not paired with DIC were analyzed on board within 48 hours of collection. Iodine 129 samples were collected into 1 L PVC bottles Samples and returned to the Laboratory of the Atlantic Environmental Radioactivity Unit (AERU) at the Bedford Institute of Oceanography (BIO). In the laboratory, a NaI carrier was added to a 200 mL aliquot of the seawater sample, it was slightly acidified, purified using multiple hexane extractions and iodine was precipitated as NaI. The NaI precipitate was shipped to the IsoTrace Laboratory at the University of Toronto where 129I analyses were performed by accelerator mass spectrometry (Smith et al. 1998; 1999; 2005). Cesium 137 samples were collected into 10 L plastic carboys. The water samples were passed through a potassium ferrocyanide (KCFC) packed resin column in the laboratory (AERU) which quantitatively extracts 137Cs from seawater (Smith et al. 1990; Smith & Ellis 1995). The KCFC resin was deployed in a standard geometry and measured using a hyperpure Ge detector having an efficiency of 25%. Halocarbons: CFC-11, CFC-12, CFC-113 and CCl4: Halocarbon samples were collected in a Perfektum 250 mL glass syringe (Popper & Sons Inc.). CFC-12, CFC-11, CFC-113, and CCl4 were analyzed at sea on the Institute of Ocean Sciences automated purge and trap system. Separation and detection of the components was achieved using a 60 m, 0.32 mm GasPro G fused silica column and a Hewlett Packard GC/Electron Capture Detector, respectively. Particulate organic carbon (POC) samples were collected into 2 L Nalgene bottles. Onboard ship, 4 L samples were filtered onto 47 mm GF75 filters that had been pre-combusted at 500 degree C for 4 hours. The filtration was performed within 4 hours of sampling unless otherwise noted. Samples were analyzed at the University of British Columbia. The filters were first dried for 24 hours at 50 degree C, then fumed with HCl for 48 hours, dried again at 50 degree C for 24 hours, and then wrapped in aluminum foil and pressed into pellets. The pellets were run through the CN analyzer where the POC was determined. Ammonium samples were collected in 50 mL glass tubes, and analysed onboard following the Holmes et al. (1999) fluorometric protocol. Samples were kept in the dark for 5 to 8 hours at room temperature. Samples were then measured using a Turner Designs TD-700 fluorometer. 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. 3. Carpenter, J.H., 1965. The Chesapeake Bay Institute technique for the Winkler dissolved oxygen method, Limnol. Oceanogr., 10, 141-3. 4. J. Barwell-Clarke and F. Whitney. 1996. Institute of Ocean Sciences Nutrient Methods and Analysis. Canadian Technical Report of Hydrography and Ocean Sciences, No. 182, 43 pp. 5. Falkner, K.K., MacDonald, R.W., Carmack, E.C., and Weingartner, T. 1994. The potential of barium as a tracer of Arctic water masses, p. 63-76. In: O.M. Johannessen, R.D. Muench and J.E. Overland [eds.]. The Polar Oceans and Their Role in Shaping the Global Environment: The Nansen Centennial Volume, AGU Geophys. Monograph Series, AGU Books, Washington, DC. 6. Li, W.K.W., and Dickie, P.M. 2001. Monitoring phytoplankton, bacterioplankton, and virioplankton in a coastal inlet (Bedford Basin) by flow cytometry. Cytometry 44: 236-246. 7. Smith, J.N., Ellis, K.M. and Kilius, L.R. 1998. 129I and 137Cs tracer measurementsin the Arctic Ocean. Deep-Sea Research I. 45(6):959-984. 8. Smith, J.N., Ellis, K.M. and Boyd, T.M. 1999. Circulation features in the Central Arctic Ocean revealed by nuclear fuel reprocessing tracers from SCICEX 95 and 96, 1999. Journal of Geophysical Research. 104(C12):29,663-29,677. 9. Smith, J.N., Jones, E.P., Moran, S.B., Smethie Jr., W.M. and Kieser, W.E. 2005. 129I/CFC-11 Transit times for Denmark Strait Overflow Water in the Labrador and Irminger Seas. Journal of Geophysical Research. 110, C05006, doi:10.1029/2004JC002516. 10. Holmes, R.M., Aminot, A., Kérouel, R., Hooker, B.A. and Peterson, B.J. (1999). A simple and precise method for measuring ammonium in marine and freshwater ecosystems. Can. J. Fish. Aquat. Sci., 56: 1801-1808. *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--- 11 ---12-- 13 --14-- 15 --16-- 17 ---18-- 19 --20-- 21 ---22-- 23 --24-- 25 --26-- 27 --28-- 29 --30-- 31 --32-- 33 --34-- 35 ---36-- 37 ---38-- 39 ----40---- ----41--- ----42--- !Samp Sample_ Bott Pressu Temperat Salinity Oxygen Fluores Transm Salinity Fl Oxygen: Fl Nitrat Fl Silica Fl Phospha Fl Ammoni Fl Alkalin Fl Chloro Fl Chloro Fl Chloro Fl Carbon Fl Oxygen Fl Barium Fl Carbon: Fl Total_ Fl Bacteria Picophyto Nanophyto !le_ Method le_ re ure : cence: issivi :Bottle ag Dissolv ag e_ ag te ag te ag um ag ity: ag fluoro ag fluoro ag fluoro ag tetrac ag : ag : ag Particu ag Suspend ag plankton plankton !Numb Numb Dissol Calibra ty ~o ed ~o plus_ ~t ~i ~p ~o Total: ~e carbon ~o carbon ~o carbon ~n hlorid ~o Isotop ~p Dissol ~o late: ~g ed_ ~o !er er ved: ted:Sea tt lv Nitrit ri ca ha ni Potenti tr _12 n_ _11 n_ _113 _1 e ri e:18 e: ved lv Organic an Solids li ! SBE point le ed e te te te um ometric ic 12 11 13 de 18 ed ic ds !---- ------- ---- ------ -------- -------- ------ ------- ------ -------- -- ------- -- ------ -- ------ -- ------- -- ------ -- ------- -- ------ -- ------ -- ------ -- ------ -- ------ -- ------ -- ------- -- ------- -- ---------- --------- --------- *END OF HEADER 133 ROS:UN 24 5.1 -1.3336 29.4372 9.09 0.041 63.36 29.8253 3 9.240 0 0.00 0 3.30 0 0.700 0 0.06 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -2.87 0 81.0 0 -99.00 0 -99.00 0 197101.00 2015.00 324.00 132 ROS:UN 23 20.2 -1.1358 30.3935 9.27 0.054 64.54 30.3705 0 9.300 0 0.00 0 3.40 0 0.710 0 0.02 0 2150.24 0 4.11 0 7.18 0 0.54 0 4.88 0 -2.87 0 72.0 0 -99.00 0 -99.00 0 227060.00 2504.00 189.00 131 ROS:UN 22 35.6 -1.5091 30.6015 9.27 0.094 63.85 30.6076 0 9.230 0 0.00 0 3.50 0 0.730 0 0.03 0 2165.26 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -2.81 0 -99.0 3 -99.00 0 -99.00 0 260988.00 6434.00 206.00 130 ROS:UN 21 62.5 -1.3816 31.4634 8.25 0.156 63.88 31.4339 0 8.260 0 4.20 0 9.70 0 1.060 0 0.03 0 2193.55 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 81.0 0 -99.00 0 -99.00 0 169831.00 2410.00 448.00 129 ROS:UN 20 88.9 -1.2659 32.3537 6.91 0.052 64.83 32.3378 0 6.940 0 11.30 0 23.40 0 1.580 0 0.00 0 2232.02 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 83.0 0 -99.00 0 -99.00 0 113914.00 57.00 37.00 128 ROS:UN 19 107.1 -1.3626 32.6276 6.55 0.036 65.06 32.5926 0 6.560 0 13.50 0 28.40 0 1.740 0 0.02 0 2248.63 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 77.0 0 -99.00 0 -99.00 0 101623.00 26.00 22.00 127 ROS:UN 18 130.9 -1.5094 32.9093 6.46 0.030 65.12 32.8989 0 6.470 0 15.10 0 33.40 0 1.820 0 -99.00 0 2265.55 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 84.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 126 ROS:UN 17 149.6 -1.5177 33.1339 6.34 0.030 64.94 33.1051 0 6.400 0 15.60 0 34.50 0 1.820 0 -99.00 0 2271.90 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 82.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 125 ROS:UN 16 169.7 -1.3655 33.4967 6.11 0.029 65.23 33.4621 0 6.130 0 15.90 0 34.70 0 1.770 0 -99.00 0 2279.61 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 87.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 124 ROS:UN 15 185.6 -1.2434 33.7945 6.16 0.029 65.38 33.7839 0 6.140 0 14.60 0 27.80 0 1.490 0 -99.00 0 2280.55 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 123 ROS:UN 14 200.5 -1.0369 34.0535 6.26 0.028 65.38 34.0344 0 6.250 0 13.60 0 21.70 0 1.280 0 -99.00 0 2280.03 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 122 ROS:UN 13 234.7 -0.3579 34.4321 6.29 0.026 64.83 34.4228 0 6.280 0 13.30 0 15.60 0 1.080 0 -99.00 0 2287.28 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 121 ROS:UN 12 270.3 0.0757 34.6180 6.32 0.025 64.97 34.6124 0 6.340 0 13.40 0 13.30 0 1.020 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 120 ROS:UN 11 304.4 0.2932 34.7053 6.41 0.024 65.17 34.7011 0 6.410 0 13.40 0 11.40 0 0.970 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 119 ROS:UN 10 337.6 0.4478 34.7561 6.49 0.024 65.12 34.7549 0 6.520 0 13.30 0 10.40 0 0.940 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 70416.00 -99.00 -99.00 118 ROS:UN 9 404.3 0.5680 34.8055 6.62 0.023 65.00 -99.0000 5 6.620 0 13.10 0 9.10 0 0.920 0 -99.00 0 2293.86 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 117 ROS:UN 8 407.7 0.5653 34.8072 6.63 0.023 65.03 34.8066 0 6.620 0 13.10 0 9.10 0 0.910 0 -99.00 0 -99.00 0 2.09 0 4.04 0 0.19 0 2.96 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 116 ROS:UN 7 456.4 0.5350 34.8199 6.68 0.022 65.20 34.8208 0 6.720 0 13.10 0 8.70 0 0.910 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.00 0 -99.0 0 -99.00 0 -99.00 0 -99.00 -99.00 -99.00 115 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