INVESTIGATORS:
Douglas W. R. Wallace
- Dalhousie University
Kenneth M. Johnson
- Brookhaven National Laboratory (BNL)
Ludger J. Mintrop
- Universität Bremen
Bernd Schneider
- Leibniz Institute for Baltic Sea Research (IOW)
Alex Kozyr
- NOAA National Centers for Environmental Information (NCEI)
PACKAGE DESCRIPTION: This dataset includes chemical, discrete sample, meteorological, physical, profile and underway - surface data collected from METEOR in the South Atlantic Ocean from 1992-12-27 to 1993-01-31 and retrieved during cruise 06MT22_5 and WOCE_A10. These data include ALKALINITY, BAROMETRIC PRESSURE, CARBON DIOXIDE - AIR, CHLOROFLUOROCARBON-11 (CFC-11), CHLOROFLUOROCARBON-12 (CFC-12), Carbon tetrachloride (CCL4), DELTA CARBON-14, DELTA HELIUM-3, DISSOLVED INORGANIC CARBON, DISSOLVED OXYGEN, Delta Oxygen - 18, HELIUM, HYDROSTATIC PRESSURE, NEON, NITRATE + NITRITE CONTENT (CONCENTRATION), PHOSPHATE, Partial pressure (or fugacity) of carbon dioxide, Potential temperature (theta), SALINITY, SEA SURFACE TEMPERATURE, SILICATE, Tritium (Hydrogen isotope), WATER TEMPERATURE and pH. The instruments used to collect these data include CTD, Carbon dioxide (CO2) gas analyzer, Shower head chamber equilibrator for autonomous carbon dioxide (CO2) measurement and bottle. These data were collected by Kenneth M. Johnson of Brookhaven National Laboratory (BNL) and Douglas W. R. Wallace of Dalhousie University; Institute of Oceanography as part of the WOCE A10 and WOCE_A10 dataset.
The World Ocean Circulation Experiment (WOCE) was a major component of the World Climate Research Program with the overall goal of better understanding the ocean's role in climate and climatic changes resulting from both natural and anthropogenic causes. The CO2 survey took advantage of the sampling opportunities provided by the WOCE Hydrographic Program (WHP) cruises during this period between 1990 and 1998. The final collection covers approximately 23,000 stations from 94 WOCE cruises.
CITE AS: Johnson, Kenneth M.; Schneider, Bernd; Mintrop, Ludger J.; Wallace, Douglas W. R.; Kozyr, Alex (ed.) (2013). Partial pressure (or fugacity) of carbon dioxide, dissolved inorganic carbon, pH, alkalinity, temperature, salinity and other variables collected from discrete sample, profile and underway - surface observations using CTD, Carbon dioxide (CO2) gas analyzer and other instruments from the METEOR in the South Atlantic Ocean from 1992-12-27 to 1993-01-31 (NCEI Accession 0115173). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://doi.org/10.3334/cdiac/otg.ndp066. Accessed [date].
DATA PACKAGES RELATED TO THIS ONE:
none;
IDENTIFICATION INFORMATION FOR THIS DATA PACKAGE:
NCEI ACCESSION: 0115173
NCEI DOI: https://doi.org/10.3334/cdiac/otg.ndp066
EXPOCODE: 06MT19921227;
06MT22_5;
CRUISE ID: 06MT22_5;
WOCE_A10;
SECTION/LEG: A10;
TYPES OF STUDY: Discrete measurement;Profile;Surface underway;TEMPORAL COVERAGE:
START DATE: 1992-12-27
END DATE: 1993-01-31
SPATIAL COVERAGE:
WEST: -47.385
EAST: 14.97
GEOGRAPHIC NAMES: Atlantic Ocean;
PLATFORMS: Meteor (ID: 06MT);
RESEARCH PROJECT(S):
none;
VARIABLES / PARAMETERS:
Dissolved Inorganic Carbon |
Abbreviation: |
DIC |
Observation type: |
discrete |
In-situ / Manipulation / Response variable: |
In-situ observation |
Measured or calculated: |
Calculated |
Replicate information: |
The system precision data are given in Table 2. For these data, within-sample precision is the average absolute difference between two replicates analyzed from the same sample bottle, between-sample precision is the average absolute difference between duplicate sample bottles taken from the same Niskin bottle, and between-Niskin precision is the average absolute difference of analyses of samples taken from two Niskin bottles that were closed at the same depth. The IfMK group assessed instrument-specific precision by periodically running two replicates from the same bottle (within-sample), whereas precision on the BNL system was assessed by running one replicate from each of two sample bottles filled from the same Niskin bottle (between-sample). The pooled standard deviation (Sp2) is the square root of the pooled variance from the between-samples replicates (n = 2) according to Youden (1951): |
CRM batch number: |
7 11 |
Total alkalinity |
Abbreviation: |
TA |
Observation type: |
discrete |
In-situ / Manipulation / Response variable: |
In-situ observation |
Measured or calculated: |
Measured |
Type of titration: |
Gran |
Cell type (open or closed): |
Closed |
Curve fitting method: |
The titration cell was based on the systems described by Bradshaw and Brewer (1988) and Millero et al. (1993). The potential was followed with an electrode pair consisting of a ROSS (Orion Inc.) glass pH electrode and a ROSS AgCl reference electrode connected to a high precision digital voltmeter. The titration was controlled by a computer that waited for stable emf-readings before adding the next acid increment |
Uncertainty: |
The precision of the method was ±2.0 μmol/kg as determined by replicate analyses of samples. |
Method reference: |
Millero, F. J., J.-Z. Zhang, K. Lee, and D. M. Campbell. 1993. Titration alkalinity of seawater. Mar. Chem. 44:153-65. Bradshaw A. L., and P. G. Brewer. 1988. High precision measurements of alkalinity and total carbon dioxide in seawater by potentiometric titration-1. Presence of unknown protolyte (s)? Mar. Chem. 23:69-86. Goyet, C., and A. Poisson. 1989. New determination of carbonic acid dissociation constants in seawater as a function of temperature and salinity. Deep-Sea Res. 36:1635-54. Stoll, M. H. C., J. W. Rommets, and H. J. W. de Baar. 1993. Effect of selected calculation routines and dissociation constants on the determination of total carbon dioxide in seawater. Deep-Sea Res. 40:1307-22. |
CTDTMP |
Abbreviation: |
CTDTMP |
Unit: |
DEG_C |
Controlled vocabulary name: |
WATER TEMPERATURE |
In-situ / Manipulation / Response variable: |
in-situ |
CTDSAL |
Abbreviation: |
CTDSAL |
Controlled vocabulary name: |
SALINITY |
In-situ / Manipulation / Response variable: |
in-situ |
SALNTY |
Abbreviation: |
SALNTY |
Controlled vocabulary name: |
SALINITY |
In-situ / Manipulation / Response variable: |
in-situ |
OXYGEN |
Abbreviation: |
OXYGEN |
Unit: |
UMOL/KG |
Controlled vocabulary name: |
DISSOLVED OXYGEN |
In-situ / Manipulation / Response variable: |
in-situ |
SILCAT |
Abbreviation: |
SILCAT |
Unit: |
UMOL/KG |
Controlled vocabulary name: |
silicate |
In-situ / Manipulation / Response variable: |
in-situ |
NO2+NO3 |
Abbreviation: |
NO2+NO3 |
Unit: |
UMOL/KG |
Controlled vocabulary name: |
nitrate + nitrite content (concentration) |
In-situ / Manipulation / Response variable: |
in-situ |
PHSPHT |
Abbreviation: |
PHSPHT |
Unit: |
UMOL/KG |
Controlled vocabulary name: |
phosphate |
In-situ / Manipulation / Response variable: |
in-situ |
CFC-11 |
Abbreviation: |
CFC-11 |
Unit: |
PMOL/KG |
Controlled vocabulary name: |
CHLOROFLUOROCARBON-11 (CFC-11) |
In-situ / Manipulation / Response variable: |
in-situ |
CFC-12 |
Abbreviation: |
CFC-12 |
Unit: |
PMOL/KG |
Controlled vocabulary name: |
CHLOROFLUOROCARBON-12 (CFC-12) |
In-situ / Manipulation / Response variable: |
in-situ |
CCL4 |
Abbreviation: |
CCL4 |
Unit: |
PMOL/KG |
Controlled vocabulary name: |
Carbon tetrachloride (CCL4) |
In-situ / Manipulation / Response variable: |
in-situ |
TRITUM |
Abbreviation: |
TRITUM |
Unit: |
TU |
Controlled vocabulary name: |
Tritium (Hydrogen isotope) |
In-situ / Manipulation / Response variable: |
in-situ |
HELIUM |
Abbreviation: |
HELIUM |
Unit: |
NMOL/KG |
Controlled vocabulary name: |
HELIUM |
In-situ / Manipulation / Response variable: |
in-situ |
DELHE3 |
Abbreviation: |
DELHE3 |
Unit: |
PERCNT |
Controlled vocabulary name: |
DELTA HELIUM-3 |
In-situ / Manipulation / Response variable: |
in-situ |
DELC14 |
Abbreviation: |
DELC14 |
Unit: |
/MILLE |
Controlled vocabulary name: |
DELTA CARBON-14 |
In-situ / Manipulation / Response variable: |
in-situ |
NEON |
Abbreviation: |
NEON |
Unit: |
NMOL/KG |
Controlled vocabulary name: |
NEON |
In-situ / Manipulation / Response variable: |
in-situ |
TCARBN |
Abbreviation: |
TCARBN |
Unit: |
UMOL/KG |
Controlled vocabulary name: |
DISSOLVED INORGANIC CARBON (DIC) |
In-situ / Manipulation / Response variable: |
in-situ |
PCO2 |
Abbreviation: |
PCO2 |
Unit: |
UATM |
Controlled vocabulary name: |
partial pressure of carbon dioxide - water |
In-situ / Manipulation / Response variable: |
in-situ |
ALKALI |
Abbreviation: |
ALKALI |
Unit: |
UMOL/KG |
Controlled vocabulary name: |
total alkalinity |
In-situ / Manipulation / Response variable: |
in-situ |
PH |
Abbreviation: |
PH |
Controlled vocabulary name: |
pH |
In-situ / Manipulation / Response variable: |
in-situ |
C14ERR |
Abbreviation: |
C14ERR |
Unit: |
/MILLE |
In-situ / Manipulation / Response variable: |
in-situ |
ATM_PRE |
Abbreviation: |
ATM_PRE |
Unit: |
ATM |
Controlled vocabulary name: |
BAROMETRIC PRESSURE |
In-situ / Manipulation / Response variable: |
in-situ |
XCO2_AIR |
Abbreviation: |
XCO2_AIR |
Unit: |
PPM |
Controlled vocabulary name: |
Partial pressure (or fugacity) of carbon dioxide - atmosphere |
In-situ / Manipulation / Response variable: |
in-situ |
PCO2_AIR |
Abbreviation: |
PCO2_AIR |
Unit: |
UATM |
Controlled vocabulary name: |
Partial pressure (or fugacity) of carbon dioxide - atmosphere |
In-situ / Manipulation / Response variable: |
in-situ |
PCO2_WAT |
Abbreviation: |
PCO2_WAT |
Unit: |
UATM |
Controlled vocabulary name: |
partial pressure of carbon dioxide - water |
In-situ / Manipulation / Response variable: |
in-situ |
SSS |
Abbreviation: |
SSS |
Controlled vocabulary name: |
SALINITY |
In-situ / Manipulation / Response variable: |
in-situ |
SST |
Abbreviation: |
SST |
Unit: |
DEG_C |
Controlled vocabulary name: |
SEA SURFACE TEMPERATURE |
In-situ / Manipulation / Response variable: |
in-situ |
PUBLICATIONS DESCRIBING THIS DATASET: none;
ADDITIONAL INFORMATION: none;
FUNDING:
SUBMITTED BY: Alex Kozyr (Alex.Kozyr@noaa.gov)
SUBMISSION DATE: 2013-12-19