Preliminary data report March 28, 1995 A. Cruise Narrative A.1 Highlights A.1.a WOCE Designation AR06, AR16 A.1.b Expedition Designation: EXPOCODE 06HF2092_1 06HF2092_2 06HF2092_3 A.1.c Chief Scientist: Leg 1-3: John Hans-Christian Biologische Anstalt Helgoland Martin-Luther-King-Platz 3 Hamburg, Germany 20146 A.1.d Ship: R/V Heincke A.1.e Ports of Call: Leg 1: Cuxhaven,Germany to Lisboa,Portugal Leg 2: Lisboa to Leixoes,Portugal Leg 3: Leixoes to Cuxhaven A.1.f Cruise Dates: Leg 1: January 3 to January 20, 1992 Leg 2: January 21 to January 29, 1992 Leg 3: January 31 to February 6, 1992 A.2 Cruise Summary A.2.a Text giving georgraphic boundaries A.2.b Total Number of Stations Occupied During the cruise a total of 114 CTD/rosette stations were occupied using a CTDO equipped with a 12 position rosette with 2.7 l Teflon-type water sampling bottles. o CTDO and Speed of Sound o Salinity and oxygen of water samples o Temperature and pressure by reverse deep sea thermometers A.2.c Floats and drifters deployed A.2.d Moorings deployed or recovered A.3 Principal Investigators Name Responsibility Institution E. Hagen CTDO,S,O2, IOW* *See table 1 for address of Institution A.4 Scientific Programme and Methods A.5 Major Problems and Goals not Achieved A.6 Other incidents of Note A.7 List of Cruise Participants Table 1: List of Cruise Participants Name Responsibility Institution ----------------------------------------------- Stefan Weinreben CTD-Software IOW Rainer Bahlo CTD Hardware IOW Wolfgang Hub Salts, Oxygen IOW ----------------------------------------------- IOW Institut fuer Ostseeforschung Warnemuende, Germany d-18119 B Underway Measurements B.1 Navigation and Bathymetry B.2 Acoustic Doppler Current Profiler (ADCP) B.3 Thermosalinograph and underway dissolved oxygen, fluorometer, etc. B.4 XBT and XCTD B.5 Meteorological Observations B.6 Atmospheric Chemistry C Measurement Techniques and Calibrations During the cruise one CDTO probe was used. Description of the CTDO (WLOST 1993): The CTDOs and the sensors are manufactured at the Institut fuer Meereskunde Warnemuende (IfMW), Germany. The CTDO is an OM-87 = Oceanolographic Measuring System, consisting of an expandable dividing CTDO-probe, interfaced through a special designed slave-computer, a meteorological subsystem interfaced by a second slave-computer and a master-PC. The IfMW began to develop oceanographic measuring systems in the 60s. The first computer controlled CTD-system, OM-75 (MOECKEL 1980) was taken into service in 1976. The new generation: OM-87 has been used since 1988. The CTD is equipped with frequency-analogous sensors at standard ports, developed and manufactured by IfMW; the oxygen sensor together with FSI "Kurt Schwabe", Meinsberg, Germany. Table 2: CTDO - Sensor Configuration List ------------------------------------------------------------- CTD Stat. No. Parameter sensor resolution precision ------------------------------------------------------------- 2 124 pressure p250 0.1 dbar 2 dbar temp t121 0.0015 K 0.01 K conductivity c884 0.0008mS/cm speed of sound v218 0.025 m/s 0.3 m/s 2 113 oxygen o020 0.01 ml/l 0.1 ml/l 114 124 oxygen o028 0.01 ml/l 0.1 ml/l ------------------------------------------------------------ C.1.b CTDO Sampling procedure and data processing Sampling procedure CTDO was recorded on hard disk during the down casts. sampling rate: 1 record in 1.2 s =0.83 Hz. integration time of sensors: 1s lowering speed of CTD: 1.0 m/s time constants: pressure and temperature sensors = 0.1 s conductivity sensor = 0.1 s at 1 m/s lowering speed The precalibration constants of pressure, temperature, conductivity, sound speed sensors and the recalibration constants of the oxygen sensors were used over the whole cruise. The check measurements of CTDO and water sample data (in situ comparisons) were used for calculating the post-cruise corrections. Post-Cruise Data Processing The raw data are digitized frequencies, which had been converted to physical units of pressure, temperature, conductivity, oxygen and sound speed. A validation routine was applied to the CTDO down cast data ( Lass et. al. 1983), to eliminate: o Data values, which are not physically realizable o Random errors by recursive low-pass filtering (Acheson 1975) o Systematic errors: Caused by the effect of the ship's rolling and pitching on the lowering rate of CTD. Records acquired while CTD is moving down too slowly have been discarded to enforce a strick monotonic sequence in pressure. The so called eddy-algorithm in connected view with the values of sensor integration time and lowering rate reduced the effect of different time lags of the sensors to minor importance. The calculation of salinity from conductivity and conversion of dissolved oxygen from volumetric to weight concentration were done last after correcting the data as described below. Dissolved oxygen was converted according to WOCE O.M. (1991). The data have not been averaged finally in 2 dbar increments because of the low sampling rate of the CTD and a great amount of discarded records in the course of data processing up to 50 pc on average. Post-Cruise CTD Data Corrections In order to get the CTDO to match the water sample data, following fits were applied to CTDO: Table 3: ----------------------------------------------------------------------- CTDO Stat. No. Sensor Fitting Param. Fitting Polynoms ----------------------------------------------------------------------- Pressure Linear fit Pres(fitted)=A0+A1*PRES A0 A1 2 124 P250 -1.5 0.99768 Temp. Linear Fit Temp(fitted)=A0+A1*TEMP A0 A1 2 124 T121 0.01156 0.997985 Conductivity time depended correction Cond(corr)=COND+A0+A1*time Time/hours=beginning time of cast (in continuously counted hours of the year: Jan 1; 0 o'clock:Time=0hrs) A0 A1 2 11 C884 0.07203 -6.08E-4 12 36 -0.27562 6.59E-4 40 118 0.13979 -3.53E-4 Conductivity: Linear Fit: Cond(fitted)=A0+A1*cond 119 124 C884 -5.77E-2 1.0 Oxygen Linear Fit Oxyg(fitted)=A0+A1*oxyg (ml/l) A0 A1 2 112 o020 0.0 0.1677 Oxygen pressure correction ml/l Oxyg(corr)=Oxyg(fitted)+A0+A1*pres A0 A1 2 112 o022 -0.66 0.1677 114 118 o028 -0.6926 4.1E-4 Oxygen: data discarded 113 o020 119 124 o028 Speed of sound: no fit 2 124 V218 -------------------------------------------------------------------------- C.1.d Errors and Noise During the cruise located faulty sensors were replaced as listed above in the CTD sensor configuration list. Station 113 o020 sensor failed and was changed. Station 119-124 o028 sensor also failed. C.2 Water Sampling for In Situ Comparisions C.2.ab Techniques and sampling procedures After finishing the down cast (CTDO-recording), the CTD was lifted and stopped within well mixed layers. After 10 minutes waiting to let the deep-sea thermometers adapt to the surrounding temperature two water bottles were tripped while a short time CTDO recording. The deep sea thermometers (2 protected and 2 unprotected) were reversed simultaneously with the first bottle tripping. When the first bottle of each sampling depth tripped correctly the water samples ( 2 dissolved oxygen and 2 salinity) were drawn from these bottles, otherwise from the second ones. The S and O data of the water samples so as the reverse temperature and -pressure data were used for the post-cruise corrections of the CTDO data. Salinity The water sample salinity were measured with a Guildline Autosal Modell 8400A salinometer, manufactured by Guildline Instruments Ltd., Smiths Falls, Canada. The salinometer was standardized weekly with I.A.P.S.O. Standard Seawater (SSW) Batch P 115. Differences in standardization readings were less than 3. The salinometer manufacturer claims a precision 0.002 and an accuracy of better than 0.003; better than 0.001 when the laboratory temperature is constant (+/- K) and about 1-2 K below the bath temperature of the salinometer. Oxygen The dissolved oxygen samples were analyzed by the Winkler Titration Method modified by Carritt and Carpenter (1966). Temperature (reverse thermometers) The following reverse thermometers were used VEB Thermometerwerk Geraberg, Germany Scale Graduated in pressure protected -2...+30degC 0.1K unprotected -2...+30degC 0.1K ---------------------------------------------- Gohla-precision, Kiel, Germany Scale Graduated in pressure protected -1...+35degC 0.1K ---------------------------------------------- Duplicate Water Samples Two or three duplicate salinity and oxygen samples were drawn from bottle. The differences between the salinity and oxygen measurements of the duplicate water samples and the standard deviation of the differences are shown in the table 4. Table 4: average differences max diff std. dev between samples of all differences ---------------------------------------------------- salinity 0.0019 psu 0.014 psu 0.0022 oxygen 0.027 ml/l 0.1 ml/l 0.0228 ---------------------------------------------------- C.2.f Laboratory and Sample Temperatures The laboratory was temperature controlled: 19...22 deg C. The bath temperature of the Autosal salinometer was set to 24 degC. Salinity and oxygen samples had been tempered at room temperature when measured. C.2.I Standards used I.A.P.S.O Standard Seawater, Batch p115, 6.2.91 during the cruise this was the only batch used. D. Acknowledgments E. References Acheson, D.T., 1975. Data Editing--Subroutine EDITQ. NOAA Technical Memorandum EDS CEDDA-6. Lass, H.U., Wulff, C., Schwabe, R., 1983. Methoden und Programme zur automatischen Erkennung und Korrektur von Messfehlern in ozeanologischen Vertikalprofilen. Beitrage zur Meereskunde, Heft 48, pp 95-111, Berlin. Moeckel, F., 1980. Die ozeanologische Messkette OM 75, eine universelle Datenerfassungsanlage fuer Forschungsschiffee. Beitraege zur Meereskunde, Heft 43, pp 5-14, Berlin. Unesco, 1983. International Oceanographic tables. Unesco Technical Papers in Marine Science, No. 44. Unesco, 1991. Processing of Oceanographic Station Data, 1991. By JPOTS editorial panel. Wlost, K.-P., 1993. The OM-87-System: a brief description. Institut of Baltic Reasearch Warnemnde, Germany. unpublished paper. WOCE Operations Manual, Vol. 3, Sec.3.1, Part 3.1.2, 1991. WHP Office Report WHPO 90-1, WOCE Report No. 67/91, Woods Hole, Mass., USA. WOCE Operations Manual, Vol. 3, Sec 3.1, Part 3.1.3: WHP Operations and Methods; C.H. Culberson: Dissolved Oxygen, WHP Office Report WHPO 91-1, WOCE Report No. 68/91,1991, Woods Hole, Mass., USA. F. WHPO Summary Several data files are associated with this report. They are the ebc4.sum, ebc4.hyd, ebc4.csl and *.wct files. The ebc4.sum file contains a summary of the location, time, type of parameters sampled, and other pertient information regarding each hydrographic station. The ebc4.hyd file contains the bottle data. The *.wct files are the ctd data for each station. The *.wct files are zipped into one file called ebc4.wct.zip. The ebc4.csl file is a listing of ctd and calculated values at standard levels. **NOTE** The preliminary *.csl files were not created due to the CTD data being provided in non-uniform levels G. Data Quality Evaulation