Narrative summary of dataset | Repeat hydrography, as organized through the GO-SHIP network, is fundamental for detecting trends and variability also in the Mediterranean Sea. The Mediterranean component of GO-SHIP is MedSHIP, and TAlPro is the western Mediterranean component. The TAlPro2022 cruise consisted of 26 full depth hydrographic stations crossing the Tyrrhenian Sea from north to south, then the Algero-Provencal Basin from south to north. Here the postcalibrated bottle file data are made availiable. Postcalibration has been done by measuring dissolved oxygen and salinity on water samples collected by the rosette. The dataset contains also all chemical variables, measured in the lab. |
Summary of processing methodology | The header of the cnv files created by the SBE PostProcessing Software is pasted below to show the steps of postprocessing. In addition the salinity and dissolved oxygen data have been postcalibrated by using the water samples analysis (salinometer and Winkler titration). The new coefficients that have been applied were: for salinity SLOPE=1.00018712757570; for dissolved oxygen SOC = 0.51092, Voffset = -0.49277, E = 0.0371. HEADER INFORMATION: * Sea-Bird SBE 9 Data File: * FileName = C:\CTD1\2022-12\ctd9.hex * Software Version Seasave V 7.26.7.121 * Temperature SN = 6483 * Conductivity SN = 4940 * Number of Bytes Per Scan = 32 * Number of Voltage Words = 3 * Number of Scans Averaged by the Deck Unit = 1 * System UpLoad Time = May 19 2022 06:41:31 * NMEA Latitude = 41 36.04 N * NMEA Longitude = 010 04.75 E * NMEA UTC (Time) = May 19 2022 06:36:05 * Store Lat/Lon Data = Append to Every Scan * SBE 11plus V 5.2 * number of scans to average = 1 * pressure baud rate = 9600 * NMEA baud rate = 4800 * GPIB address = 1 * advance primary conductivity 0.073 seconds * advance secondary conductivity 0.073 seconds * delete word 3 from scan * delete word 4 from scan * delete word 8 from scan * autorun on power up is disabled * S> ** Ship: Belgica ** Station: CTD9 ** Depth: 663 ** Operator: m * System UTC = May 19 2022 06:41:31 # interval = seconds: 0.0416667 # start_time = May 19 2022 06:41:31 [NMEA time, first data scan] # <Sensors count="9" > # <sensor Channel="1" > # <!-- Frequency 0, Temperature --> # <TemperatureSensor SensorID="55" > # <SerialNumber>6483</SerialNumber> # <CalibrationDate>04-Aug-20</CalibrationDate> # <UseG_J>1</UseG_J> # <A>0.00000000e+000</A> # <B>0.00000000e+000</B> # <C>0.00000000e+000</C> # <D>0.00000000e+000</D> # <F0_Old>0.000</F0_Old> # <G>4.37290371e-003</G> # <H>6.40995572e-004</H> # <I>2.22292592e-005</I> # <J>2.04772567e-006</J> # <F0>1000.000</F0> # <Slope>1.00000000</Slope> # <Offset>0.0000</Offset> # </TemperatureSensor> # </sensor> # <sensor Channel="2" > # <!-- Frequency 1, Conductivity --> # <ConductivitySensor SensorID="3" > # <SerialNumber>4940</SerialNumber> # <CalibrationDate>04-Aug-20</CalibrationDate> # <UseG_J>1</UseG_J> # <!-- Cell const and series R are applicable only for wide range sensors. --> # <SeriesR>0.0000</SeriesR> # <CellConst>2000.0000</CellConst> # <ConductivityType>0</ConductivityType> # <Coefficients equation="0" > # <A>0.00000000e+000</A> # <B>0.00000000e+000</B> # <C>0.00000000e+000</C> # <D>0.00000000e+000</D> # <M>0.0</M> # <CPcor>-9.57000000e-008</CPcor> # </Coefficients> # <Coefficients equation="1" > # <G>-1.00371807e+001</G> # <H>1.45552596e+000</H> # <I>-9.48339360e-004</I> # <J>1.54557934e-004</J> # <CPcor>-9.57000000e-008</CPcor> # <CTcor>3.2500e-006</CTcor> # <!-- WBOTC not applicable unless ConductivityType = 1. --> # <WBOTC>0.00000000e+000</WBOTC> # </Coefficients> # <Slope>1.00018713</Slope> # <Offset>0.00000</Offset> # </ConductivitySensor> # </sensor> # <sensor Channel="3" > # <!-- Frequency 2, Pressure, Digiquartz with TC --> # <PressureSensor SensorID="45" > # <SerialNumber>1432</SerialNumber> # <CalibrationDate>05-May-22</CalibrationDate> # <C1>-4.934648e+004</C1> # <C2>5.421371e-001</C2> # <C3>1.360500e-002</C3> # <D1>3.922500e-002</D1> # <D2>0.000000e+000</D2> # <T1>3.011804e+001</T1> # <T2>-1.330020e-004</T2> # <T3>3.907890e-006</T3> # <T4>2.387590e-009</T4> # <Slope>1.00013520</Slope> # <Offset>-0.40504</Offset> # <T5>0.000000e+000</T5> # <AD590M>1.279770e-002</AD590M> # <AD590B>-9.194870e+000</AD590B> # </PressureSensor> # </sensor> # <sensor Channel="4" > # <!-- A/D voltage 0, Oxygen, SBE 43 --> # <OxygenSensor SensorID="38" > # <SerialNumber>3930</SerialNumber> # <CalibrationDate>04-Sep-20</CalibrationDate> # <Use2007Equation>1</Use2007Equation> # <CalibrationCoefficients equation="0" > # <!-- Coefficients for Owens-Millard equation. --> # <Boc>0.0000</Boc> # <Soc>0.0000e+000</Soc> # <offset>0.0000</offset> # <Pcor>0.00e+000</Pcor> # <Tcor>0.0000</Tcor> # <Tau>0.0</Tau> # </CalibrationCoefficients> # <CalibrationCoefficients equation="1" > # <!-- Coefficients for Sea-Bird equation - SBE calibration in 2007 and later. --> # <Soc>5.1092e-001</Soc> # <offset>-0.4928</offset> # <A>-4.4216e-003</A> # <B> 1.9958e-004</B> # <C>-3.1583e-006</C> # <D0> 2.5826e+000</D0> # <D1> 1.92634e-004</D1> # <D2>-4.64803e-002</D2> # <E> 3.7100e-002</E> # <Tau20> 1.4200</Tau20> # <H1>-3.3000e-002</H1> # <H2> 5.0000e+003</H2> # <H3> 1.4500e+003</H3> # </CalibrationCoefficients> # </OxygenSensor> # </sensor> # <sensor Channel="5" > # <!-- A/D voltage 1, Free --> # </sensor> # <sensor Channel="6" > # <!-- A/D voltage 2, Turbidity Meter, WET Labs, ECO-NTU --> # <TurbidityMeter SensorID="67" > # <SerialNumber>6117</SerialNumber> # <CalibrationDate>JAN-30-2020</CalibrationDate> # <ScaleFactor>25.000000</ScaleFactor> # <!-- Dark output --> # <DarkVoltage>0.023000</DarkVoltage> # </TurbidityMeter> # </sensor> # <sensor Channel="7" > # <!-- A/D voltage 3, Free --> # </sensor> # <sensor Channel="8" > # <!-- A/D voltage 4, Altimeter --> # <AltimeterSensor SensorID="0" > # <SerialNumber>77989</SerialNumber> # <CalibrationDate>2020</CalibrationDate> # <ScaleFactor>15.000</ScaleFactor> # <Offset>0.000</Offset> # </AltimeterSensor> # </sensor> # <sensor Channel="9" > # <!-- A/D voltage 5, Free --> # </sensor> # </Sensors> # datcnv_date = Jun 06 2022 13:32:05, 7.26.7.129 # datcnv_in = C:\TaiPromaggio22\ctd\ctd9.hex C:\TaiPromaggio22\ctd\TaIPRO_postcal_salt_oxy.xmlcon # datcnv_ox_hysteresis_correction = yes # datcnv_ox_tau_correction = yes # datcnv_bottle_scan_range_source = scans marked with bottle confirm bit, 0, 2 # datcnv_scans_per_bottle = 49 # bottlesum_date = Jun 06 2022 13:58:42, 7.26.7.129 # bottlesum_in = C:\TaiPromaggio22\ctd\cnv\ctd9.ros C:\TaiPromaggio22\ctd\TaIPRO_postcal_salt_oxy.xmlcon |