netcdf Parguera_C02/MAPCO2_historical.nc { dimensions: time = 34583; west_east = 1; south_north = 1; variables: float Time(time=34583); :Description = "Date and Time (UTC)"; :units = "days since 1970-01-01T00:00:00Z"; :_ChunkSizes = 34583; // int float Longitude(west_east=1); :Description = "Geographic longitude"; :units = "degrees_east"; :_ChunkSizes = 1; // int float Latitude(south_north=1); :Description = "Geographic latitude"; :units = "degrees_north"; :_ChunkSizes = 1; // int float xCO2_SW-wet(time=34583); :Description = "(umol/mol) Mole fraction of CO2 in air in equilibrium with the seawater at sea surface temperature and measured humidity."; :units = "(wet)umol/mol"; :_ChunkSizes = 34583; // int float CO2_SW_QF(time=34583); :Description = "Flag for xCO2 sw."; :units = ""; :_ChunkSizes = 34583; // int float H2O_SW(time=34583); :Description = "(mmol/mol) Mole fraction of H2O in air from equilibrator."; :units = "(mmol/mol)"; :_ChunkSizes = 34583; // int float xCO2_Air-wet(time=34583); :Description = "(umol/mol) Mole fraction of CO2 in air from airblock, 4 feet above the sea surface at measured humidity."; :units = "(wet)umol/mol"; :_ChunkSizes = 34583; // int float CO2_Air_QF(time=34583); :Description = "Quality Flag for xCO2 Air."; :units = ""; :_ChunkSizes = 34583; // int float H2O_Air(time=34583); :Description = "(mmol/mol) Mole fraction of H2O in air from airblock, 4 feet above the sea surface."; :units = "(mmol/mol)"; :_ChunkSizes = 34583; // int float Licor_Atm_Pressure(time=34583); :Description = "(hPa) Atmospheric pressure at the airblock, 4 feet above the sea surface."; :units = "(hPa)"; :_ChunkSizes = 34583; // int float Licor_Temp(time=34583); :Description = "(C) Temperature of the Infrared Licor 820 in degrees Celsius."; :units = "(C)"; :_ChunkSizes = 34583; // int float MAPCO2_Perc._O2(time=34583); :Description = "The percent oxygen of the surface seawater divided by the percent oxygen of the atmosphere at 4 feet above the sea surface. Disclaimer: The oxygen measurement is made in the equilibrated air. We have found that the oxygen does not come to complete equilibrium so any rapid changes in oxygen do not get properly captured using this system. Therefore, we tend to use the oxygen data only as a qualitative sense of the biology. It is not a quantitative measure."; :units = ""; :_ChunkSizes = 34583; // int float SST(time=34583); :Description = "(C) Sea Surface Temperature."; :units = "(C)"; :_ChunkSizes = 34583; // int float Salinity(time=34583); :Description = "(PSU) Sea Surface Salinity."; :units = "(PSU)"; :_ChunkSizes = 34583; // int float xCO2_SW-dry(time=34583); :Description = "(umol/mol) Mole fraction of CO2 in air in equilibrium with the seawater at sea surface temperature (dry air)"; :units = "(dry)umol/mol"; :_ChunkSizes = 34583; // int float xCO2_Air-dry(time=34583); :Description = "(umol/mol) Mole fraction of CO2 in air at the airblock, 4 feet above the sea surface (dry air)"; :units = "(dry)umol/mol"; :_ChunkSizes = 34583; // int float fCO2_SW(time=34583); :Description = "(uatm) Fugacity of CO2 in air in equilibrium with the seawater at sea surface temperature (100% humidity)"; :units = "(sat)uatm"; :_ChunkSizes = 34583; // int float fCO2_Air(time=34583); :Description = "(uatm) Fugacity of CO2 in air at the airblock, 4 feet above the sea surface (100% humidity)"; :units = "(sat)uatm"; :_ChunkSizes = 34583; // int float dfCO2(time=34583); :Description = "Difference of the fugacity of the CO2 in seawater and the fugacity of the CO2 in air (fCO2 SW - fCO2 Air)"; :units = ""; :_ChunkSizes = 34583; // int float pCO2_SW(time=34583); :Description = "(uatm) Partial Pressure of CO2 in air in equilibrium with the seawater at sea surface temperature (100% humidity)"; :units = "(sat)uatm"; :_ChunkSizes = 34583; // int float pCO2_Air(time=34583); :Description = "(uatm) Partial Pressure of CO2 in air at the airblock, 4 feet above the sea surface (100% humidity)."; :units = "(sat)uatm"; :_ChunkSizes = 34583; // int float dpCO2(time=34583); :Description = "Difference of the partial pressure of CO2 in seawater and air (pCO2 SW - pCO2 Air)"; :units = ""; :_ChunkSizes = 34583; // int float pH_SW(time=34583); :Description = "pH of Seawater (total scale)"; :units = "(total scale)"; :_ChunkSizes = 34583; // int float pH_QF(time=34583); :Description = "Quality Flag for pH"; :units = ""; :_ChunkSizes = 34583; // int float CHL(time=34583); :Description = "Total Chlorophyll (ug/l)"; :units = "(ug/l)"; :_ChunkSizes = 34583; // int float CHL_QF(time=34583); :Description = "Quality Flag for CHL"; :units = ""; :_ChunkSizes = 34583; // int float NTU(time=34583); :Description = "Nephelometric Turbidity Unit (NTU Units)"; :units = "(NTU)"; :_ChunkSizes = 34583; // int float NTU_QF(time=34583); :Description = "Quality Flag for NTU"; :units = ""; :_ChunkSizes = 34583; // int float DOXY(time=34583); :Description = "Salinity-Compensated dissolved oxygen (umol/kg)"; :units = "(umol/kg)"; :_ChunkSizes = 34583; // int float DOXY_QF(time=34583); :Description = "Quality Flag for DOXY"; :units = ""; :_ChunkSizes = 34583; // int // global attributes: :Project_Title = "High-resolution ocean and atmosphere pCO2 time-series measurements from mooring La_Parguera_67W_18N in the Caribbean Sea"; :Institution = "Caribbean Coastal Ocean Observing System (CARICOOS IOOS)"; :Publisher_URL = "https://www.caricoos.org/"; :Source = "UNESCO International Ocean Carbon Coordination Project (IOCCP)"; :Investigators = "Adrienne J. Sutton - NOAA Pacific Marine Environmental Laboratory (PMEL), Sylvia Musielewicz - NOAA Pacific Marine Environmental Laboratory (PMEL),Jorge E. Corredor - University of Puerto Rico; Department of Marine Sciences - Mayaguez, Stacy Maenner Jones - NOAA Pacific Marine Environmental Laboratory (PMEL),Christopher L. Sabine - NOAA Pacific Marine Environmental Laboratory (PMEL), Julio M. Morell - University of Puerto Rico; Department of Marine Sciences - Mayaguez"; :Package_Description = "This dataset includes chemical, meteorological, physical and time series data collected from Mooring_La_Parguera_67W_18N in the Caribbean Sea from 2009-01-16 to 2021-10-23. These data include air-sea difference - partial pressure of carbon dioxide (pCO2), barometric pressure, oxygen, pCO2 - atmosphere, pCO2 - water, salinity, sea surface temperature, oxygen, pH on total scale, total chlorophyll, nephelometric turbidity unit and salinity-compensated dissolved oxygen. The Moored Autonomous pCO2 [MAPCO2 (trademark of NOAA)] instruments used to collect these data include Bubble type equilibrator for autonomous carbon dioxide (CO2) measurement, Carbon dioxide (CO2) gas analyzer, Humidity Sensor, and oxygen meter. The Global CO2 Time-series and Moorings Project involves international groups from 18 countries who have mounted sensors on moored buoys to provide high resolution time-series measurements of atmospheric boundary layer and surface ocean CO2 partial pressure (pCO2). The CO2 Time-series and Moorings Project is coordinated by UNESCO International Ocean Carbon Coordination Project (IOCCP)."; :Project_Web_Site = "https://www.ncei.noaa.gov/data/oceans/ncei/ocads/data/0117354/"; :Full_Metadata = "https://www.ncei.noaa.gov/access/metadata/landing-page/bin/iso?id=gov.noaa.nodc:0117354"; :Comment = "Implemented by Edward L. Cruz Garcia (edward.cruz1@upr.edu)"; :File_Date_Created = "01-Mar-2024"; }