*2013/12/16 15:17:55.78 *IOS HEADER VERSION 1.10 2011/10/26 2011/10/26 *FILE START TIME : UTC 1999/06/04 19:26:00.000 NUMBER OF RECORDS : 20 DATA DESCRIPTION : Bottle:Rosette:Up:Stop + CTD:Up FILE TYPE : ASCII NUMBER OF CHANNELS : 11 $TABLE: CHANNELS ! No Name Units Minimum Maximum !--- ----------------------- --------------- -------------- -------------- 1 Sample_Number n/a 182 201 2 Pressure decibar 2.9 2574.1 3 Temperature:Secondary 'deg C (ITS90)' 1.7747 10.0572 4 Salinity:T1:C1 PSS-78 32.8282 34.6257 5 Transmissivity %/metre 64.7 78.4 6 Bottle_Number n/a 1 20 7 Salinity:Bottle PSS-78 32.8235 34.6235 8 Oxygen:Dissolved mL/L 0.262 7.092 9 Phosphate umol/L 0.73 3.25 10 Nitrate_plus_Nitrite umol/L 5.6 45.1 11 Silicate umol/L 9.4 178.4 $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 ' ' 9 F ' ' 4 4 -99 ' ' 9 F ' ' 4 5 -99 ' ' 6 F ' ' 1 6 -99 ' ' 3 I I 0 7 -99 ' ' 9 F ' ' 4 8 -99 ' ' 8 F ' ' 3 9 -99 ' ' 7 F R4 2 10 -99 ' ' 6 F R4 1 11 -99 ' ' 6 F R4 1 $END $REMARKS Comments from secondary file: d:\data\1999\9910\99100013.oxy ------------------------------------------------------------ Raw data in file 9910 VI03 = 10.02 ! Volume of iodate standard (cm**3) NI03 = .0101285 ! Normality of iodate standard VREG = 2.0 ! Volume of sample displaced by reagents (cm**3) DOREG = 0.0017 ! Absolute amount of O2 added with reagents (ml) UFLAG = 0 ! 0|-1, -1 indicates DO_mass is valid $END *ADMINISTRATION MISSION : 1999-10 AGENCY : IOS, Ocean Science and Productivity, Sidney, BC COUNTRY : Canada PROJECT : Line P SCIENTIST : Perkin R. PLATFORM : John P. Tully *LOCATION GEOGRAPHIC AREA : Line P, P1E STATION : P1E107 EVENT NUMBER : 13 LATITUDE : 46 59.56000 N ! (deg min) LONGITUDE : 129 23.43000 W ! (deg min) WATER DEPTH : 2573 *HISTORY $TABLE: PROGRAMS ! Name Vers Date Time Recs In Recs Out ! ------------------------ ------ ---------- -------- --------- --------- SPRD2IS 2.1 1999/06/30 11:43:01 0 20 MERGE 2.3 1999/10/08 12:18:11 20 20 REMOVECH 5.0 2001/04/03 14:41:29 20 20 MERGE 2.6.1 2001/04/04 11:19:36 20 20 CALIB 10.0 2001/04/04 13:01:45 20 20 CALIB 10.0 2001/04/25 09:34:48 20 20 HDREDIT2 1.2 2001/12/24 11:41:58 ? ? HDREDIT2 1.6 2003/04/25 13:36:12 ? ? CLEAN 4.2 2003/04/25 13:40:41 20 20 SORT 3.4.1 2004/04/14 08:35:12 20 20 CHANGE_CTD_CHANNEL_NAMES 1.0 2013/12/16 15:17:55 20 20 $END $REMARKS -The following MERGE parameters were used: Merge Channel: Sample_Number Merge Scheme Used: Interweave Records from Both Files Overlap Scheme Used: Keep Primary Primary Channels to Include: Pressure, Temperature:primary, Temperature:secondar, Salinity:T0:C0, Salinity:T1:C1, Transmissivity, Irradiance_PAR, CHL_FLUORESCENCE, Bottle_Number, Salinity:Bottle Secondary Channels to Include: Dissolved_Oxygen:vol, Flask_Number Primary file : d:\data\1999\9910\99100013.ios Secondary file: d:\data\1999\9910\99100013.oxy Comments from secondary file: d:\data\1999\9910\99100013.oxy ------------------------------------------------------------ C.H. Culbertson's paper on Dissolved Oxygen in the 'Woce Hydrographic Program Operations and Methods - July 1991' OxyRedo fixes DO_mass and DO_volumne when incorrect values for VIO3, NIO3, blank, or standard had been entered. -The following CALIB parameters were used: Calibration type = C Pressure offset = 0.0 Calibration file = D:\DATA\1999\9910\OXYCOR -The following CHANNEL(S) were removed from file. TEMPERATURE:PRIMARY SALINITY:T0:C0 IRRADIANCE_PAR CHL_FLUORESCENCE Flask_Number -The following MERGE parameters were used: Merge Channel: Sample_Number Merge Scheme Used: Add Secondary to Primary Overlap Scheme Used: Keep Primary Primary Channels to Include: Pressure, TEMPERATURE:SECONDAR, SALINITY:T1:C1, TRANSMISSIVITY, Bottle_Number, SALINITY:BOTTLE, Dissolved_Oxygen:volume Secondary Channels to Include: Phosphate, Nitrate, Silicate Primary file : e:\data\1999\9910\99100013.tab Secondary file: e:\data\1999\9910\99100013.nut -The following CALIB parameters were used: Calibration type = Correct Mode: ONLY - calibration specs from Cal File only. Calibration file = e:\data\1999\9910\ctd_cal.txt Calibrations applied: Ch Name Units Fmla Coefficents -- ----------------------------- --------- --- ----------------------------- 5 TRANSMISSIVITY % 10 0.0000000E+00 0.1035000E+01 -The following CALIB parameters were used: Calibration type = Calculate Mode: HEAD - calibration specs from header only. Transmissivity converted to %/metre WARNING: No calibration done on file L:\CTD\1999\1999-10\99100013.clc 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. -The following SORT parameters were used. Sorted by channel: Pressure Pressure channel sorted according to values in sort channel $END *CALIBRATION $TABLE: CORRECTED CHANNELS ! Name Units Fmla Pad Coefficients ! ---------------- ----- ---- ------ ------------ TRANSMISSIVITY % 10 -99 () (0 1.035) $END *INSTRUMENT TYPE : Bottle MODEL : Niskin 10 Litre $REMARKS Comments from secondary file: d:\data\1999\9910\99100013.oxy ------------------------------------------------------------ Dissolved oxygen concentration determined using an automated titration system consisting of a Brinkman Dosimat (model 665) and a PC 900 Colorimeter. $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. Nutrient samples are analyzed fresh on board using a Technicon AAII auto- analyzer following methods described in Barwell-Clarke and Whitney (1996). Chlorophyll was extracted with 90% acetone and analyzed fluorimetrically. References: 1. Carpenter, J.H. 1965. The Chesapeake Bay Institute Technique for the Winkler Dissolved Oxygen Method. Limmnol. & Oceanogr., 10: 141-143. 2. 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. 3. Minkley, B.G., and F.A. Whitney. 2001. Summary of Hydrographic/CTD Observations Made Along Line P and at Station P: 1991-1999. Canadian Data Report of Hydrography and Ocean Sciences 156: 45 pp. !-1-- --2--- ---3---- ---4---- --5-- 6- ---7---- ---8--- --9--- --10- --11- !Samp Pressu Temperat Salinity Trans Bo Salinity Oxygen: Phosph Nitra Silic !le_ re ure: :T1:C1 missi tt :Bottle Dissolv ate te_ ate !Numb Secondar vity ~u ed plus_ !er y mb Nitri ! er te !---- ------ -------- -------- ----- -- -------- ------- ------ ----- ----- *END OF HEADER 201 2.9 10.0572 32.8318 67.4 20 32.8300 6.722 0.73 5.6 9.6 200 10.4 10.0494 32.8308 68.0 19 -99.0000 6.717 0.75 5.6 9.4 199 25.1 9.9390 32.8396 68.3 18 32.8400 6.754 0.77 6.1 9.7 198 48.6 8.5781 32.8282 64.7 17 32.8235 7.092 0.77 5.9 9.7 197 73.6 7.5619 32.8698 72.3 16 32.8690 6.775 0.91 8.4 10.8 196 98.2 7.4135 33.1323 75.5 15 33.1320 5.840 1.20 14.1 17.0 195 151.2 7.4227 33.8878 76.4 14 33.8805 4.090 1.77 25.0 34.5 194 202.2 6.7043 33.9287 76.4 13 33.9255 3.117 2.14 30.1 46.5 193 300.5 5.5998 33.9294 76.8 12 33.9255 2.382 2.50 35.3 61.4 192 398.2 4.8028 33.9709 77.4 11 33.9670 1.521 2.83 40.2 77.3 191 599.1 4.1069 34.1495 77.7 10 34.1465 0.533 3.13 44.3 104.9 190 798.6 3.6115 34.2998 77.7 9 34.2965 0.262 3.23 44.8 124.6 189 999.9 3.1919 34.3837 77.7 8 34.3810 0.273 3.25 45.0 139.2 188 1249.5 2.7342 34.4568 78.1 7 34.4535 0.428 3.22 45.1 154.3 187 1499.2 2.2941 34.5269 78.1 6 34.5230 0.773 3.13 44.2 165.2 186 1750.0 2.0767 34.5642 78.4 5 34.5610 1.106 3.05 44.0 170.0 185 1998.3 1.9047 34.5973 78.4 4 34.5945 1.522 2.99 42.5 174.3 184 2249.0 1.8067 34.6166 78.4 3 34.6140 1.769 2.93 41.6 177.6 183 2498.5 1.7747 34.6248 78.1 2 34.6230 1.893 2.91 41.6 178.4 182 2574.1 1.7756 34.6257 77.7 1 34.6235 1.890 2.90 41.2 178.2