*2013/12/16 15:14:35.42 *IOS HEADER VERSION 1.10 2011/10/26 2011/10/26 *FILE START TIME : UTC 1998/05/10 05:36:33.000 TIME INCREMENT : 0 0 0 0.416667E-01 0 ! (day hr min sec ms) NUMBER OF RECORDS : 21 DATA DESCRIPTION : Bottle:Rosette:Up:Stop + CTD:Up FILE TYPE : ASCII NUMBER OF CHANNELS : 5 $TABLE: CHANNELS ! No Name Units Minimum Maximum !--- -------------------------- --------- -------------- -------------- 1 Sample_Number n/a 70 90 2 Pressure decibar 1.5 1921.4 3 Fluorescence:URU:Wetlabs mg/m^3 -1.115 10.201 4 Oxygen:Dissolved mL/L 0.255 6.787 5 Salinity:Bottle PSS-78 32.4093 34.5304 $END $TABLE: CHANNEL DETAIL ! No Pad Start Width Format Type Decimal_Places !--- ---- ----- ----- ------ ---- -------------- 1 -99 ' ' 5 I I 0 2 -99 ' ' 7 F ' ' 1 3 -99 ' ' 8 F ' ' 3 4 -99 ' ' 8 F ' ' 3 5 -99 ' ' 9 F ' ' 4 $END $REMARKS This file converted from Sea-Bird file: d:\data\9809\98090030.ros $END *ADMINISTRATION MISSION : 1998-09 AGENCY : IOS, Ocean Science and Productivity, Sidney, B.C. COUNTRY : Canada PROJECT : Laperouse, GLOBEC, CRD SCIENTIST : Juhasz T. PLATFORM : John P. Tully *LOCATION GEOGRAPHIC AREA : STATION : LB16 EVENT NUMBER : 30 LATITUDE : 48 0.32000 N ! (deg min) LONGITUDE : 126 16.90000 W ! (deg min) *INSTRUMENT TYPE : Bottle MODEL : Niskin 10 Litre SERIAL NUMBER : 0443 $TABLE: SENSORS ! Name Abs Depth Serial No ! ------------------------ -------------- ---------- temperature:primary ' ' 2095 conductivity:primary ' ' 1763 pressure ' ' 63507 temperature:secondary ' ' 2142 conductivity:secondary ' ' 1766 userpoly ' ' FPK-018 transmissometer ' ' 182D $END $REMARKS SOFTWARE VERSION 4.229 $END *HISTORY $TABLE: PROGRAMS ! Name Vers Date Time Recs In Recs Out ! ------------------------ ------ ---------- -------- --------- --------- SBE_IOS 1.1 1998/05/11 20:10:08 2541 2541 BINAVE2 1.0 1998/05/11 20:13:21 2541 21 MERGE 1.0 1998/05/11 14:52:03 21 21 CALIB 7.5 1999/04/21 10:02:34 21 21 REMOVECH 3.2 2000/01/11 12:23:37 21 21 HDREDIT2 1.8 2004/01/12 10:56:15 ? ? REVERSE 2.0 2004/01/12 10:57:41 21 21 CLEAN 4.5 2004/01/12 10:57:54 21 21 HDREDIT2 2.2 2004/09/22 13:51:52 ? ? CHANGE_CTD_CHANNEL_NAMES 1.0 2013/12/16 15:14:35 21 21 $END $REMARKS -The following BINAVE2 parameters were used: Bin channel = Sample_number Averaging interval = 1.0 Minimum bin value = .000 Bin value was used Interpolated values were NOT used for empty bins Channel 'NUMBER_OF_BIN_RECORDS' was added to file. -The following MERGE parameters were used: Primary File Extension: avg Secondary File Extension: tab Merge Channel: Sample_Number Merge Scheme Used: Interweave Records from Both Files Overlap Scheme Used: Keep Primary Primary Channels to Include: Sample_Number,Pressure,Temperature:primary,Salinity:T0:C0,Salinity:T1:C1,Transm Secondary Channels to Include: Sample_Number,Dissolved_Oxygen:vol,Flask_Number,Salinity:bottle -The following CALIB parameters were used: Calibration type = C Pressure offset = 0.0 Calibration file = d:\data\1998\9809\9809oxy.cor -The following CHANNEL(S) were removed from file. SALINITY:PRIMARY SALINITY:SECONDARY TEMPERATURE:SECONDARY Temperature:Primary Salinity:T0:C0 Salinity:T1:C1 TEMPERATURE:SAMPLE DISSOLVED_OXYGEN:MASS THIOSULFATE_TITER FLASK_NUMBER FLASK_VOLUME BLANK STANDARD Transmissivity SALINITY:CTD TEMPERATURE:CTD Temperature CLEAN functions: - Reset #RECS, MIN & MAX values in header. - Change Pad Value to -99 in All Channels. - Delete Empty Channels: 0 deleted. - Set channel name post-colon letters to upper case. - Remove Sea-Bird comments from the header. -HEADER EDITS: Channel 3: Fluorescence:URU [mg/m^3] Name ==> Fluorescence:URU:Wetlabs $END *COMMENTS Collection method: ------------------ A rosette, holding 24 ten-litre water samplers, with a CTD was used. Analysis methods: ----------------- Salinity samples are collected in glass bottles and analyzed on Guildline model 8410 Portasal Salinometers which are standardized with IAPSO standard seawater. Oxygen samples are analyzed on an automated Winkler titration system following the procedures of Carpenter (1965). A Brinkmann model 665 Dosimat and model PC910 Colorimeter is controlled by Visual-Basic program to titrate the oxygen samples. References: 1. Carpenter, J.H. 1965. The Chesapeake Bay Institute Technique for the Winkler Dissolved Oxygen Method. Limmnol. & Oceanogr., 10: 141-143. *CALIBRATION $TABLE: CORRECTED CHANNELS ! Name Units Fmla Pad Coefficients ! ------------------------- ------ ---- ------ ------------ Dissolved_Oxygen:volume ml/l 10 -99 () (0 0.9988) $END !-1-- --2--- ---3--- ---4--- ---5---- !Samp Pressu Fluores Oxygen: Salinity !le_ re cence: Dissolv :Bottle !Numb URU: ed !er Wetlabs !---- ------ ------- ------- -------- *END OF HEADER 90 1.5 10.201 6.781 34.4094 89 9.9 10.080 6.787 32.4093 88 19.6 8.006 -99.000 -99.0000 87 30.6 7.627 -99.000 -99.0000 86 51.4 7.527 -99.000 -99.0000 85 76.3 7.334 -99.000 -99.0000 84 99.0 7.937 2.915 33.7706 83 124.7 7.515 2.536 33.9271 82 150.0 7.233 2.545 33.9265 81 173.3 7.358 -99.000 -99.0000 80 200.3 7.838 -99.000 -99.0000 79 249.5 8.279 -99.000 -99.0000 78 299.6 8.409 0.589 34.1260 77 398.8 8.243 -99.000 34.2972 76 503.5 8.082 0.255 34.2965 75 599.1 -0.784 0.277 34.4005 74 799.1 -0.959 -99.000 -99.0000 73 1003.3 -1.115 -99.000 -99.0000 72 1199.8 -1.080 0.450 34.4664 71 1501.3 -1.062 0.887 34.5304 70 1921.4 -0.565 -99.000 -99.0000