Bottle Retrieval Data Report
Metadata information for: AMT12
Data Title Listing Option BODC Code Units Code Description Document Ref Originator Name and Institute
ACALAE01 Individual ACALAE01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACALAE02 Individual ACALAE02 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACALAX01 Individual ACALAX01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACAMAE01 Individual ACAMAE01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACAMAE02 Individual ACAMAE02 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAAE01 Individual ACCAAE01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAAE02 Individual ACCAAE02 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAXX01 Individual ACCAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLAE01 Individual ACCLAE01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLAE02 Individual ACCLAE02 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLXX01 Individual ACCLXX01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKAER01 Individual ACKAER01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKAER02 Individual ACKAER02 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKXXX01 Individual ACKXXX01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGAE01 Individual ACMGAE01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGAE02 Individual ACMGAE02 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGXX01 Individual ACMGXX01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAE01 Individual ACMNAE01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAE02 Individual ACMNAE02 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAX01 Individual ACMNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAAE01 Individual ACNAAE01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAAE02 Individual ACNAAE02 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAXX01 Individual ACNAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNH4X01 Individual ACNH4X01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNITA01 Individual ACNITA01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNITA02 Individual ACNITA02 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNO3X01 Individual ACNO3X01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNTCX01 Individual ACNTCX01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER01 Individual ACPAER01 Picomoles per cubic metre
pmol/m^3
Concentration of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and colorimetric analysis 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER02 Individual ACPAER02 Picomoles per cubic metre
pmol/m^3
Concentration of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol >1um phase] by filtration and colorimetric analysis 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER03 Individual ACPAER03 Picomoles per cubic metre
pmol/m^3
Concentration of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEA01 Individual ACSFEA01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEA02 Individual ACSFEA02 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEX01 Individual ACSFEX01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSIAE01 Individual ACSIAE01 Picomoles per cubic metre
pmol/m^3
Concentration of silicate {SiO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and spectrophotometry 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSIAE02 Individual ACSIAE02 Picomoles per cubic metre
pmol/m^3
Concentration of silicate {SiO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and spectrophotometry 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSIAX01 Individual ACSIAX01 Picomoles per cubic metre
pmol/m^3
Concentration of silicate {SiO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSO4X01 Individual ACSO4X01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSUAE01 Individual ACSUAE01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSUAE02 Individual ACSUAE02 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACTNCO01 Individual ACTNCO01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol < 1um phase] by filtration and high temperature Pt catalytic oxidation 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACTNCO02 Individual ACTNCO02 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol >1um phase] by filtration and high temperature Pt catalytic oxidation 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAE01 Individual ACZNAE01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAE02 Individual ACZNAE02 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAX01 Individual ACZNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ALLOHPP1 Individual ALLOHPP1 Nanograms per litre
ng/l
Concentration of alloxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
AMONAATX Individual AMONAATX Micromoles per litre
umol/l
Concentration of ammonium {NH4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
AMONNAKA Individual AMONNAKA Micromoles per litre
umol/l
Concentration (nM sensitivity) of ammonium {NH4} per unit volume of the water body [dissolved plus reactive particulate phase] by nanomolar ammonium fluorometry after Kerouel and Aminot (1997) 202244
Mike Lucas, National Oceanography Centre, Southampton
AMONNATX Individual AMONNATX Micromoles per litre
umol/l
Concentration (nM sensitivity) of ammonium {NH4} per unit volume of the water body [dissolved plus reactive particulate phase] by nanomolar ammonium system after Jones (1991) 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
ASDALE01 Individual ASDALE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDALE02 Individual ASDALE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDALX01 Individual ASDALX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMA01 Individual ASDAMA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMA02 Individual ASDAMA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMX01 Individual ASDAMX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAI01 Individual ASDCAI01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAI02 Individual ASDCAI02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAX01 Individual ASDCAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLA01 Individual ASDCLA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLA02 Individual ASDCLA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLX01 Individual ASDCLX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDFEX01 Individual ASDFEX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIC01 Individual ASDKIC01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIC02 Individual ASDKIC02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIX01 Individual ASDKIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGA01 Individual ASDMGA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGA02 Individual ASDMGA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGX01 Individual ASDMGX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNE01 Individual ASDMNE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNE02 Individual ASDMNE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNX01 Individual ASDMNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAA01 Individual ASDNAA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAA02 Individual ASDNAA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAX01 Individual ASDNAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIT01 Individual ASDNIT01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIT02 Individual ASDNIT02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIX01 Individual ASDNIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE01 Individual ASDPAE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and colorimetric analysis 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE02 Individual ASDPAE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol >1um phase] by filtration and colorimetric analysis 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE03 Individual ASDPAE03 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSFE01 Individual ASDSFE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSFE02 Individual ASDSFE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSIA02 Individual ASDSIA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of silicate {SiO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and spectrophotometry 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSIX01 Individual ASDSIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of silicate {SiO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUA01 Individual ASDSUA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUA02 Individual ASDSUA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUX01 Individual ASDSUX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNC01 Individual ASDTNC01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol < 1um phase] by filtration and high temperature Pt catalytic oxidation 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNC02 Individual ASDTNC02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol >1um phase] by filtration and high temperature Pt catalytic oxidation 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNX01 Individual ASDTNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNE01 Individual ASDZNE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNE02 Individual ASDZNE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNX01 Individual ASDZNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202738
Tim Jickells, University of East Anglia School of Environmental Sciences
ATTNDR01 Individual ATTNDR01 per metre
/m
Attenuance (red light wavelength) per unit length of the water body by 25cm path length red light transmissometer 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
B4116767 Individual B4116767 Number per millilitre
#/ml
Abundance of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um Subgroup: heterotrophic] per unit volume of the water body by unspecified staining and epifluorescence microscopy 202445
Elaine Fileman, Plymouth Marine Laboratory
BCARHPP1 Individual BCARHPP1 Nanograms per litre
ng/l
Concentration of beta-carotene {beta,beta-carotene} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
BUTAHPP1 Individual BUTAHPP1 Nanograms per litre
ng/l
Concentration of 19'-butanoyloxyfucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
C1A61382 Individual C1A61382 Number per millilitre
#/ml
Abundance of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um] per unit volume of the water body by unspecified staining and epifluorescence microscopy 202445
Elaine Fileman, Plymouth Marine Laboratory
C400E00B Individual C400E00B Milligrams per cubic metre
mg/m^3
Carbon biomass of flagellate [Size: 2-20um Subgroup: heterotrophic] per unit volume of the water body by DAPI/proflavine staining and epifluorescence microscopy and abundance to carbon conversion by unspecified algorithm 206962
Elaine Fileman, Plymouth Marine Laboratory
CBDVHPP1 Individual CBDVHPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-b+divinyl chlorophyll-b per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
CH4CGCXX Individual CH4CGCXX Nanomoles per litre
nmol/l
Concentration of methane {CH4} per unit volume of the water body [dissolved plus reactive particulate phase] by gas chromatography 220382
Robert Upstill-Goddard, Newcastle University School of Marine Science and Technology
CH4SGCX1 Individual CH4SGCX1 Percent
%
Saturation of methane {CH4} in the water body [dissolved plus reactive particulate phase] by gas chromatography and computation from concentration 220382
Robert Upstill-Goddard, Newcastle University School of Marine Science and Technology
CLC2HPP1 Individual CLC2HPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-c2 {chl-c2} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
CLC3HPP1 Individual CLC3HPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-c3 {chl-c3} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
CONALAD1 Individual CONALAD1 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAD2 Individual CONALAD2 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAD3 Individual CONALAD3 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL1 Individual CONALAL1 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL2 Individual CONALAL2 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL3 Individual CONALAL3 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGD2 Individual CONARGD2 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGL2 Individual CONARGL2 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGL3 Individual CONARGL3 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONASPD3 Individual CONASPD3 Picomoles per cubic metre
pmol/m^3
Concentration of aspartic acid (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONASPL2 Individual CONASPL2 Picomoles per cubic metre
pmol/m^3
Concentration of aspartic acid (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONASPL3 Individual CONASPL3 Picomoles per cubic metre
pmol/m^3
Concentration of aspartic acid (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUD2 Individual CONGLUD2 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUD3 Individual CONGLUD3 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUL1 Individual CONGLUL1 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUL2 Individual CONGLUL2 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUL3 Individual CONGLUL3 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY01 Individual CONGLY01 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water soluble) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY02 Individual CONGLY02 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water soluble and hydrolysable) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY03 Individual CONGLY03 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water insoluble and hydrolysable) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOL2 Individual CONISOL2 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOL3 Individual CONISOL3 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUL2 Individual CONLEUL2 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUL3 Individual CONLEUL3 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONMETD2 Individual CONMETD2 Picomoles per cubic metre
pmol/m^3
Concentration of methionine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHED2 Individual CONPHED2 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHED3 Individual CONPHED3 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHEL2 Individual CONPHEL2 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHEL3 Individual CONPHEL3 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERD2 Individual CONSERD2 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERD3 Individual CONSERD3 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL1 Individual CONSERL1 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL2 Individual CONSERL2 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL3 Individual CONSERL3 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL1 Individual CONTHRL1 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL2 Individual CONTHRL2 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL3 Individual CONTHRL3 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL1 Individual CONVALL1 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL2 Individual CONVALL2 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL3 Individual CONVALL3 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202615
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CORGCAP1 Individual CORGCAP1 Micromoles per litre
umol/l
Concentration of carbon (organic) {POC} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 202319
Richard Sanders, National Oceanography Centre, Southampton
CPHLFLP1 Individual CPHLFLP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and fluorometry 213331
Alex Poulton, National Oceanography Centre, Southampton
CPHLHPP1 Individual CPHLHPP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
CPHLPM01 Individual CPHLPM01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and manufacturer's calibration applied 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
CPHLPS01 Individual CPHLPS01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and calibration against sample data 231142
Rob Thomas, British Oceanographic Data Centre Liverpool
D9948866 Individual D9948866 Milligrams per cubic metre
mg/m^3
Carbon biomass of nanoplankton [Size: 15-20um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 202322
Roger Harris, Plymouth Marine Laboratory
DIADHPP1 Individual DIADHPP1 Nanograms per litre
ng/l
Concentration of diadinoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
DIMSUM01 Individual DIMSUM01 Nanomoles per litre
nmol/l
Concentration of dimethylsulphoniopropionate {DMSP} per unit volume of the water body [particulate >GF/F phase] by filtration and gas chromatography 221301
219654
Gill Malin, University of East Anglia School of Environmental Sciences
DMSPGCD1 Individual DMSPGCD1 Nanomoles per litre
nmol/l
Concentration of dimethylsulphoniopropionate {DMSP} per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration and gas chromatography 221301
219654
Gill Malin, University of East Anglia School of Environmental Sciences
DMSXGCD1 Individual DMSXGCD1 Nanomoles per litre
nmol/l
Concentration of dimethyl sulphide {DMS} per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, purging, cryogenic trapping and gas chromatography 221301
219654
Gill Malin, University of East Anglia School of Environmental Sciences
DN2OGCTX Individual DN2OGCTX Nanomoles per litre
nmol/l
Concentration of nitrous oxide {N2O} per unit volume of the water body [dissolved plus reactive particulate phase] by gas chromatography 220382
Robert Upstill-Goddard, Newcastle University School of Marine Science and Technology
DOXYSC01 Individual DOXYSC01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
DOXYSU01 Individual DOXYSU01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and no calibration against sample data 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
DOXYWITX Individual DOXYWITX Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Winkler titration 202305
Carol Robinson, Plymouth Marine Laboratory
DVCAHPP1 Individual DVCAHPP1 Nanograms per litre
ng/l
Concentration of divinyl chlorophyll-a per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
E55BAB3A Individual E55BAB3A Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 20-30um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 202322
Roger Harris, Plymouth Marine Laboratory
E6207912 Individual E6207912 Milligrams per cubic metre
mg/m^3
Carbon biomass of nanoplankton [Size: 10-15um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 202322
Roger Harris, Plymouth Marine Laboratory
FUCXHPP1 Individual FUCXHPP1 Nanograms per litre
ng/l
Concentration of fucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
HBCCAFTX_Zubkov Individual HBCCAFTX Number per millilitre
#/ml
Abundance of Bacteria (ITIS: 202421: WoRMS 6) [Subgroup: heterotrophic] per unit volume of the water body by automated flow cytometry and subtraction of Synechococcus+Prochlorococcus from total bacteria 218751
Mike Zubkov, National Oceanography Centre, Southampton
HEXOHPP1 Individual HEXOHPP1 Nanograms per litre
ng/l
Concentration of 19'-hexanoyloxyfucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
K053A159 Individual K053A159 Number per millilitre
#/ml
Abundance of microplankton [Size: 50-100um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 202322
Roger Harris, Plymouth Marine Laboratory
K7511B0A Individual K7511B0A Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 30-50um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 202322
Roger Harris, Plymouth Marine Laboratory
M225B210 Individual M225B210 Milligrams per cubic metre
mg/m^3
Carbon biomass of Strombidium spp. (ITIS: 46608: WoRMS 101195) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202445
Elaine Fileman, Plymouth Marine Laboratory
MDMAP014 Individual MDMAP014 Micromoles per kilogram
umol/kg
Total alkalinity per unit mass of the water body 213468
Ludger Mintrop, Leibniz Institute for Baltic Sea Research
NTOTCAP1 Individual NTOTCAP1 Micromoles per litre
umol/l
Concentration of nitrogen (total) {'PON'} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 202319
Richard Sanders, National Oceanography Centre, Southampton
NTOTWCD1 Individual NTOTWCD1 Micromoles per litre
umol/l
Concentration of nitrogen (total) per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, oxidation and colorimetric autoanalysis 202258
Richard Sanders, National Oceanography Centre, Southampton
NTRIAATX Individual NTRIAATX Micromoles per litre
umol/l
Concentration of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRILWTX Individual NTRILWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZAATX Individual NTRZAATX Micromoles per litre
umol/l
Concentration of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZLWTX Individual NTRZLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
OXYSSC01 Individual OXYSSC01 Percent
%
Saturation of oxygen {O2} in the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data and computation from concentration using Benson and Krause algorithm 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
P400E00B Individual P400E00B Number per millilitre
#/ml
Abundance of flagellate [Size: 2-20um Subgroup: heterotrophic] per unit volume of the water body by DAPI/proflavine staining and epifluorescence microscopy 206962
Elaine Fileman, Plymouth Marine Laboratory
P500M17Z Individual P500M17Z Number per millilitre
#/ml
Abundance of Ciliatea (ITIS: 46212: WoRMS 238375) per unit volume of the water body by optical microscopy 202445
Elaine Fileman, Plymouth Marine Laboratory
P700A90Z_Zubkov Individual P700A90Z Number per millilitre
#/ml
Abundance of Synechococcus spp. (ITIS: 773: WoRMS 160572) per unit volume of the water body by automated flow cytometry 218751
Mike Zubkov, National Oceanography Centre, Southampton
P701A90Z_Zubkov Individual P701A90Z Number per millilitre
#/ml
Abundance of Prochlorococcus spp. (ITIS: 610076: WoRMS 345515) per unit volume of the water body by automated flow cytometry 218751
Mike Zubkov, National Oceanography Centre, Southampton
P861M00Z Individual P861M00Z Number per millilitre
#/ml
Abundance of Tintinnidae (ITIS: 46743: WoRMS 183533) per unit volume of the water body by optical microscopy 202445
Elaine Fileman, Plymouth Marine Laboratory
P968M00Z Individual P968M00Z Number per millilitre
#/ml
Abundance of Strobilidium spp. (ITIS: 46617: WoRMS 101185) per unit volume of the water body by optical microscopy 202445
Elaine Fileman, Plymouth Marine Laboratory
P985M00Z Individual P985M00Z Number per millilitre
#/ml
Abundance of Strombidium spp. (ITIS: 46608: WoRMS 101195) per unit volume of the water body by optical microscopy 202445
Elaine Fileman, Plymouth Marine Laboratory
PERIHPP1 Individual PERIHPP1 Nanograms per litre
ng/l
Concentration of peridinin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
PHOSAATX Individual PHOSAATX Micromoles per litre
umol/l
Concentration of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
PHOSLWTX Individual PHOSLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
POTMCV01 Individual POTMCV01 Degrees Celsius
degC
Potential temperature of the water body by computation using UNESCO 1983 algorithm 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
PRSXHPP1 Individual PRSXHPP1 Nanograms per litre
ng/l
Concentration of prasinoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
PSALBSTX Individual PSALBSTX Dimensionless
Dmnless
Practical salinity of the water body by bench salinometer and computation using UNESCO 1983 algorithm 221315
221145
Jeff Benson, National Marine Facilities Sea Systems
PSALCC01 Individual PSALCC01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSALCC02 Individual PSALCC02 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSALCU01 Individual PSALCU01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSALCU02 Individual PSALCU02 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSSDBSTX Individual PSSDBSTX Dimensionless
Dmnless
Practical salinity standard deviation of the water body by bench salinometer 221145
Jeff Benson, National Marine Facilities Sea Systems
PYEUA00A_Zubkov Individual PYEUA00A Number per millilitre
#/ml
Abundance of picoeukaryotic cells per unit volume of the water body by automated flow cytometry 218751
Mike Zubkov, National Oceanography Centre, Southampton
R8242273 Individual R8242273 Number per millilitre
#/ml
Abundance of nanoplankton [Size: 15-20um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 202322
Roger Harris, Plymouth Marine Laboratory
RB6272A6 Individual RB6272A6 Milligrams per cubic metre
mg/m^3
Carbon biomass of Tintinnidae (ITIS: 46743: WoRMS 183533) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202445
Elaine Fileman, Plymouth Marine Laboratory
S7338A30 Individual S7338A30 Milligrams per cubic metre
mg/m^3
Carbon biomass of Ciliatea (ITIS: 46212: WoRMS 238375) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202445
Elaine Fileman, Plymouth Marine Laboratory
SDNTWCD1 Individual SDNTWCD1 Micromoles per litre
umol/l
Concentration standard deviation of nitrogen (total) per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, oxidation and colorimetric autoanalysis 202258
Richard Sanders, National Oceanography Centre, Southampton
SDTPWCD1 Individual SDTPWCD1 Micromoles per litre
umol/l
Concentration standard deviation of phosphorus (total) per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration 202258
Richard Sanders, National Oceanography Centre, Southampton
SIGTPR01 Individual SIGTPR01 Kilograms per cubic metre
kg/m^3
Sigma-theta of the water body by CTD and computation from salinity and potential temperature using UNESCO algorithm 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
SLCAAATX Individual SLCAAATX Micromoles per litre
umol/l
Concentration of silicate {SiO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212998
E Malcolm S Woodward, Plymouth Marine Laboratory
SN2OGCX1 Individual SN2OGCX1 Percent
%
Saturation of nitrous oxide {N2O} in the water body [dissolved plus reactive particulate phase] by gas chromatography and computation from concentration 220382
Robert Upstill-Goddard, Newcastle University School of Marine Science and Technology
T2BA7266 Individual T2BA7266 Number per millilitre
#/ml
Abundance of microplankton [Size: 30-50um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 202322
Roger Harris, Plymouth Marine Laboratory
T9710853 Individual T9710853 Milligrams per cubic metre
mg/m^3
Carbon biomass of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um] per unit volume of the water body by unspecified staining and epifluorescence microscopy and abundance to carbon conversion using the equations of Menden-Deuer & Lessard (2000) 202445
Elaine Fileman, Plymouth Marine Laboratory
TA016A49 Individual TA016A49 Milligrams per cubic metre
mg/m^3
Carbon biomass of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um Subgroup: heterotrophic] per unit volume of the water body by unspecified staining and epifluorescence microscopy and abundance to carbon conversion using the equations of Menden-Deuer & Lessard (2000) 202445
Elaine Fileman, Plymouth Marine Laboratory
TCO2MSXX Individual TCO2MSXX Micromoles per kilogram
umol/kg
Concentration of carbon (total inorganic) {TCO2} per unit mass of the water body [dissolved plus reactive particulate phase] 213468
Ludger Mintrop, Leibniz Institute for Baltic Sea Research
TEMPCU01 Individual TEMPCU01 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
TEMPCU02 Individual TEMPCU02 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231142
Alex Gardiner, British Oceanographic Data Centre Liverpool
TOKGPR01 Individual TOKGPR01 Litres per kilogram
l/kg
Conversion factor (volume to mass) for the water body by CTD and computation of density (in-situ potential temperature surface pressure) reciprocal from pressure, temperature and salinity 222838
Unknown, British Oceanographic Data Centre Liverpool
TPHSWCD1 Individual TPHSWCD1 Micromoles per litre
umol/l
Concentration of phosphorus (total) per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, oxidation and colorimetric autoanalysis 202258
Richard Sanders, National Oceanography Centre, Southampton
U7971392 Individual U7971392 Number per millilitre
#/ml
Abundance of nanoplankton [Size: 10-15um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 202322
Roger Harris, Plymouth Marine Laboratory
UREAMDTX Individual UREAMDTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of urea per unit volume of the water body [dissolved plus reactive particulate phase] by manual analysis using the diacetylmonoxime method 202244
Mike Lucas, National Oceanography Centre, Southampton
VILXHPP1 Individual VILXHPP1 Nanograms per litre
ng/l
Concentration of violaxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
XA901B43 Individual XA901B43 Number per millilitre
#/ml
Abundance of microplankton [Size: 20-30um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 202322
Roger Harris, Plymouth Marine Laboratory
XAA60639 Individual XAA60639 Milligrams per cubic metre
mg/m^3
Carbon biomass of Strobilidium spp. (ITIS: 46617: WoRMS 101185) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202445
Elaine Fileman, Plymouth Marine Laboratory
Y4B539A1 Individual Y4B539A1 Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 50-100um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 202322
Roger Harris, Plymouth Marine Laboratory
ZEOXHPP1 Individual ZEOXHPP1 Nanograms per litre
ng/l
Concentration of zeaxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 220583
Alex Poulton, National Oceanography Centre, Southampton
Metadata information for: AMT13
Data Title Listing Option BODC Code Units Code Description Document Ref Originator Name and Institute
ACALAE01 Individual ACALAE01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACALAE02 Individual ACALAE02 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACALAX01 Individual ACALAX01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACAMAE01 Individual ACAMAE01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACAMAE02 Individual ACAMAE02 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAAE01 Individual ACCAAE01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAAE02 Individual ACCAAE02 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAXX01 Individual ACCAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLAE01 Individual ACCLAE01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLAE02 Individual ACCLAE02 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLXX01 Individual ACCLXX01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACI2AE01 Individual ACI2AE01 Picomoles per cubic metre
pmol/m^3
Concentration of iodine (soluble) {I} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACI2AE02 Individual ACI2AE02 Picomoles per cubic metre
pmol/m^3
Concentration of iodine (soluble) {I} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACI2AX01 Individual ACI2AX01 Picomoles per cubic metre
pmol/m^3
Concentration of iodine (soluble) {I} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACIDAE01 Individual ACIDAE01 Picomoles per cubic metre
pmol/m^3
Concentration of iodide {I-} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and cathodic stripping voltammetry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACIDAE02 Individual ACIDAE02 Picomoles per cubic metre
pmol/m^3
Concentration of iodide {I-} per unit volume of the atmosphere [aerosol >1um phase] by filtration and cathodic stripping voltammetry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACIDXX01 Individual ACIDXX01 Picomoles per cubic metre
pmol/m^3
Concentration of iodide {I-} per unit volume of the atmosphere [aerosol phase] by filtration and cathodic stripping voltammetry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACITAE01 Individual ACITAE01 Picomoles per cubic metre
pmol/m^3
Concentration of iodate {IO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACITAE02 Individual ACITAE02 Picomoles per cubic metre
pmol/m^3
Concentration of iodate {IO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACITXX01 Individual ACITXX01 Picomoles per cubic metre
pmol/m^3
Concentration of iodate {IO3} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKAER01 Individual ACKAER01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKAER02 Individual ACKAER02 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKXXX01 Individual ACKXXX01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGAE01 Individual ACMGAE01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGAE02 Individual ACMGAE02 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGXX01 Individual ACMGXX01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAE01 Individual ACMNAE01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAE02 Individual ACMNAE02 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAX01 Individual ACMNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAAE01 Individual ACNAAE01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAAE02 Individual ACNAAE02 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAXX01 Individual ACNAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNH4X01 Individual ACNH4X01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNITA01 Individual ACNITA01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNITA02 Individual ACNITA02 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNO3X01 Individual ACNO3X01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNTCX01 Individual ACNTCX01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACOXAE01 Individual ACOXAE01 Picomoles per cubic metre
pmol/m^3
Concentration of oxalate {C2O4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACOXAE02 Individual ACOXAE02 Picomoles per cubic metre
pmol/m^3
Concentration of oxalate {C2O4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACOXAX01 Individual ACOXAX01 Picomoles per cubic metre
pmol/m^3
Concentration of oxalate {C2O4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER01 Individual ACPAER01 Picomoles per cubic metre
pmol/m^3
Concentration of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and colorimetric analysis 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER02 Individual ACPAER02 Picomoles per cubic metre
pmol/m^3
Concentration of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol >1um phase] by filtration and colorimetric analysis 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER03 Individual ACPAER03 Picomoles per cubic metre
pmol/m^3
Concentration of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEA01 Individual ACSFEA01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEA02 Individual ACSFEA02 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEX01 Individual ACSFEX01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSIAE01 Individual ACSIAE01 Picomoles per cubic metre
pmol/m^3
Concentration of silicate {SiO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSIAE02 Individual ACSIAE02 Picomoles per cubic metre
pmol/m^3
Concentration of silicate {SiO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSIAX01 Individual ACSIAX01 Picomoles per cubic metre
pmol/m^3
Concentration of silicate {SiO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSO4X01 Individual ACSO4X01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSUAE01 Individual ACSUAE01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSUAE02 Individual ACSUAE02 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACTNCO01 Individual ACTNCO01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol < 1um phase] by filtration and high temperature Pt catalytic oxidation 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACTNCO02 Individual ACTNCO02 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol >1um phase] by filtration and high temperature Pt catalytic oxidation 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAE01 Individual ACZNAE01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAE02 Individual ACZNAE02 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAX01 Individual ACZNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ALLOHPP1 Individual ALLOHPP1 Nanograms per litre
ng/l
Concentration of alloxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
AMONAATX Individual AMONAATX Micromoles per litre
umol/l
Concentration of ammonium {NH4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
AMONNATX Individual AMONNATX Micromoles per litre
umol/l
Concentration (nM sensitivity) of ammonium {NH4} per unit volume of the water body [dissolved plus reactive particulate phase] by nanomolar ammonium system after Jones (1991) 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
ASDALE01 Individual ASDALE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDALE02 Individual ASDALE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDALX01 Individual ASDALX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMA01 Individual ASDAMA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMA02 Individual ASDAMA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMX01 Individual ASDAMX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAI01 Individual ASDCAI01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAI02 Individual ASDCAI02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAX01 Individual ASDCAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLA01 Individual ASDCLA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLA02 Individual ASDCLA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLX01 Individual ASDCLX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDFEX01 Individual ASDFEX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDI2A01 Individual ASDI2A01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodine (soluble) {I} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDI2A02 Individual ASDI2A02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodine (soluble) {I} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDI2X01 Individual ASDI2X01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodine (soluble) {I} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDIDA01 Individual ASDIDA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodide {I-} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and cathodic stripping voltammetry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDIDA02 Individual ASDIDA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodide {I-} per unit volume of the atmosphere [aerosol >1um phase] by filtration and cathodic stripping voltammetry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDIDX01 Individual ASDIDX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodide {I-} per unit volume of the atmosphere [aerosol phase] by filtration and cathodic stripping voltammetry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDITA01 Individual ASDITA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodate {IO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDITA02 Individual ASDITA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodate {IO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDITX01 Individual ASDITX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iodate {IO3} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIC01 Individual ASDKIC01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIC02 Individual ASDKIC02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIX01 Individual ASDKIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGA01 Individual ASDMGA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGA02 Individual ASDMGA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGX01 Individual ASDMGX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNE01 Individual ASDMNE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNE02 Individual ASDMNE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNX01 Individual ASDMNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAA01 Individual ASDNAA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAA02 Individual ASDNAA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAX01 Individual ASDNAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIT01 Individual ASDNIT01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIT02 Individual ASDNIT02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIX01 Individual ASDNIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDOXA01 Individual ASDOXA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of oxalate {C2O4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDOXA02 Individual ASDOXA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of oxalate {C2O4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDOXX01 Individual ASDOXX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of oxalate {C2O4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE01 Individual ASDPAE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and colorimetric analysis 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE02 Individual ASDPAE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol >1um phase] by filtration and colorimetric analysis 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE03 Individual ASDPAE03 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSFE01 Individual ASDSFE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSFE02 Individual ASDSFE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSIA01 Individual ASDSIA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of silicate {SiO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSIA02 Individual ASDSIA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of silicate {SiO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSIX01 Individual ASDSIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of silicate {SiO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUA01 Individual ASDSUA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUA02 Individual ASDSUA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUX01 Individual ASDSUX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNC01 Individual ASDTNC01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol < 1um phase] by filtration and high temperature Pt catalytic oxidation 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNC02 Individual ASDTNC02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol >1um phase] by filtration and high temperature Pt catalytic oxidation 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNX01 Individual ASDTNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNE01 Individual ASDZNE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNE02 Individual ASDZNE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNX01 Individual ASDZNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202724
Tim Jickells, University of East Anglia School of Environmental Sciences
ATTNDR01 Individual ATTNDR01 per metre
/m
Attenuance (red light wavelength) per unit length of the water body by 25cm path length red light transmissometer 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
B4116767 Individual B4116767 Number per millilitre
#/ml
Abundance of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um Subgroup: heterotrophic] per unit volume of the water body by unspecified staining and epifluorescence microscopy 202459
Elaine Fileman, Plymouth Marine Laboratory
BCARHPP1 Individual BCARHPP1 Nanograms per litre
ng/l
Concentration of beta-carotene {beta,beta-carotene} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
BUTAHPP1 Individual BUTAHPP1 Nanograms per litre
ng/l
Concentration of 19'-butanoyloxyfucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
C1A61382 Individual C1A61382 Number per millilitre
#/ml
Abundance of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um] per unit volume of the water body by unspecified staining and epifluorescence microscopy 202459
Elaine Fileman, Plymouth Marine Laboratory
C400E00B Individual C400E00B Milligrams per cubic metre
mg/m^3
Carbon biomass of flagellate [Size: 2-20um Subgroup: heterotrophic] per unit volume of the water body by DAPI/proflavine staining and epifluorescence microscopy and abundance to carbon conversion by unspecified algorithm 206993
Elaine Fileman, Plymouth Marine Laboratory
CH4CGCXX Individual CH4CGCXX Nanomoles per litre
nmol/l
Concentration of methane {CH4} per unit volume of the water body [dissolved plus reactive particulate phase] by gas chromatography 231064
Robert Upstill-Goddard, Newcastle University School of Marine Science and Technology
CH4SGCX1 Individual CH4SGCX1 Percent
%
Saturation of methane {CH4} in the water body [dissolved plus reactive particulate phase] by gas chromatography and computation from concentration 231064
Robert Upstill-Goddard, Newcastle University School of Marine Science and Technology
CHLBHPP1 Individual CHLBHPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-b {chl-b} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
CLC2HPP1 Individual CLC2HPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-c2 {chl-c2} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
CLC3HPP1 Individual CLC3HPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-c3 {chl-c3} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
CONALAD1 Individual CONALAD1 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAD2 Individual CONALAD2 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAD3 Individual CONALAD3 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL1 Individual CONALAL1 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL2 Individual CONALAL2 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL3 Individual CONALAL3 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGD1 Individual CONARGD1 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGD2 Individual CONARGD2 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGL1 Individual CONARGL1 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGL2 Individual CONARGL2 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGL3 Individual CONARGL3 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONASPD2 Individual CONASPD2 Picomoles per cubic metre
pmol/m^3
Concentration of aspartic acid (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONASPD3 Individual CONASPD3 Picomoles per cubic metre
pmol/m^3
Concentration of aspartic acid (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONASPL2 Individual CONASPL2 Picomoles per cubic metre
pmol/m^3
Concentration of aspartic acid (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONASPL3 Individual CONASPL3 Picomoles per cubic metre
pmol/m^3
Concentration of aspartic acid (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUD2 Individual CONGLUD2 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUD3 Individual CONGLUD3 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUL1 Individual CONGLUL1 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUL2 Individual CONGLUL2 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUL3 Individual CONGLUL3 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY01 Individual CONGLY01 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water soluble) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY02 Individual CONGLY02 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water soluble and hydrolysable) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY03 Individual CONGLY03 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water insoluble and hydrolysable) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOD1 Individual CONISOD1 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOD2 Individual CONISOD2 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOL1 Individual CONISOL1 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOL2 Individual CONISOL2 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOL3 Individual CONISOL3 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUD2 Individual CONLEUD2 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUD3 Individual CONLEUD3 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUL1 Individual CONLEUL1 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUL2 Individual CONLEUL2 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUL3 Individual CONLEUL3 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONMETD3 Individual CONMETD3 Picomoles per cubic metre
pmol/m^3
Concentration of methionine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONMETL2 Individual CONMETL2 Picomoles per cubic metre
pmol/m^3
Concentration of methionine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHED1 Individual CONPHED1 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHED3 Individual CONPHED3 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHEL1 Individual CONPHEL1 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHEL2 Individual CONPHEL2 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHEL3 Individual CONPHEL3 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERD1 Individual CONSERD1 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERD2 Individual CONSERD2 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERD3 Individual CONSERD3 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL1 Individual CONSERL1 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL2 Individual CONSERL2 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL3 Individual CONSERL3 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL1 Individual CONTHRL1 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL2 Individual CONTHRL2 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL3 Individual CONTHRL3 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALD1 Individual CONVALD1 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALD3 Individual CONVALD3 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL1 Individual CONVALL1 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL2 Individual CONVALL2 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL3 Individual CONVALL3 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202629
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CORGCAP1 Individual CORGCAP1 Micromoles per litre
umol/l
Concentration of carbon (organic) {POC} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 213376
Alex Poulton, National Oceanography Centre, Southampton
CPHLFLP1 Individual CPHLFLP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and fluorometry 213328
Alex Poulton, National Oceanography Centre, Southampton
CPHLFLP4 Individual CPHLFLP4 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >0.2um phase] by filtration, acetone extraction and fluorometry and summation of size-fractionated values 213328
Alex Poulton, National Oceanography Centre, Southampton
CPHLHPP1 Individual CPHLHPP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
CPHLPM01 Individual CPHLPM01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and manufacturer's calibration applied 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
CPHLPS01 Individual CPHLPS01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and calibration against sample data 231156
Rob Thomas, British Oceanographic Data Centre Liverpool
D9948866 Individual D9948866 Milligrams per cubic metre
mg/m^3
Carbon biomass of nanoplankton [Size: 15-20um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213423
Roger Harris, Plymouth Marine Laboratory
DIADHPP1 Individual DIADHPP1 Nanograms per litre
ng/l
Concentration of diadinoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
DIMSUM01 Individual DIMSUM01 Nanomoles per litre
nmol/l
Concentration of dimethylsulphoniopropionate {DMSP} per unit volume of the water body [particulate >GF/F phase] by filtration and gas chromatography 226442
226858
Gill Malin, University of East Anglia School of Environmental Sciences
DMSPGCD1 Individual DMSPGCD1 Nanomoles per litre
nmol/l
Concentration of dimethylsulphoniopropionate {DMSP} per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration and gas chromatography 226442
226858
Gill Malin, University of East Anglia School of Environmental Sciences
DMSXGCD1 Individual DMSXGCD1 Nanomoles per litre
nmol/l
Concentration of dimethyl sulphide {DMS} per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, purging, cryogenic trapping and gas chromatography 226442
226858
Gill Malin, University of East Anglia School of Environmental Sciences
DN2OGCTX Individual DN2OGCTX Nanomoles per litre
nmol/l
Concentration of nitrous oxide {N2O} per unit volume of the water body [dissolved plus reactive particulate phase] by gas chromatography 231064
Robert Upstill-Goddard, Newcastle University School of Marine Science and Technology
DOXYSC01 Individual DOXYSC01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data 231156
Rob Thomas, British Oceanographic Data Centre Liverpool
DOXYSU01 Individual DOXYSU01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and no calibration against sample data 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
DOXYWITX Individual DOXYWITX Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Winkler titration 213655
Nicola Gist, Plymouth Marine Laboratory
DVCAHPP1 Individual DVCAHPP1 Nanograms per litre
ng/l
Concentration of divinyl chlorophyll-a per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
DVCBHPP1 Individual DVCBHPP1 Nanograms per litre
ng/l
Concentration of divinyl chlorophyll-b per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
E55BAB3A Individual E55BAB3A Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 20-30um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213423
Roger Harris, Plymouth Marine Laboratory
E6207912 Individual E6207912 Milligrams per cubic metre
mg/m^3
Carbon biomass of nanoplankton [Size: 10-15um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213423
Roger Harris, Plymouth Marine Laboratory
FUCXHPP1 Individual FUCXHPP1 Nanograms per litre
ng/l
Concentration of fucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
HBCCAFTX_Tarran Individual HBCCAFTX Number per millilitre
#/ml
Abundance of Bacteria (ITIS: 202421: WoRMS 6) [Subgroup: heterotrophic] per unit volume of the water body by automated flow cytometry and subtraction of Synechococcus+Prochlorococcus from total bacteria 231326
Glen Tarran, Plymouth Marine Laboratory
HBCCAFTX_Zubkov Individual HBCCAFTX Number per millilitre
#/ml
Abundance of Bacteria (ITIS: 202421: WoRMS 6) [Subgroup: heterotrophic] per unit volume of the water body by automated flow cytometry and subtraction of Synechococcus+Prochlorococcus from total bacteria 207167
Mike Zubkov, National Oceanography Centre, Southampton
HEXOHPP1 Individual HEXOHPP1 Nanograms per litre
ng/l
Concentration of 19'-hexanoyloxyfucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
IRRDPP01 Individual IRRDPP01 MicroEinsteins per square metre per second
uE/m^2/s
Downwelling 2-pi scalar irradiance as photons (PAR wavelengths) in the water body by 2-pi scalar radiometer 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
IRRUPP01 Individual IRRUPP01 MicroEinsteins per square metre per second
uE/m^2/s
Upwelling 2-pi scalar irradiance as photons (PAR wavelengths) in the water body by 2-pi scalar radiometer 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
J79A0596 Individual J79A0596 Number per millilitre
#/ml
Abundance of Cryptophyceae (ITIS: 10598: WoRMS 17639) per unit volume of the water body by automated flow cytometry 231326
Glen Tarran, Plymouth Marine Laboratory
K053A159 Individual K053A159 Number per millilitre
#/ml
Abundance of microplankton [Size: 50-100um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213423
Roger Harris, Plymouth Marine Laboratory
K7511B0A Individual K7511B0A Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 30-50um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213423
Roger Harris, Plymouth Marine Laboratory
LVLTPD01 Individual LVLTPD01 Volts
V
Instrument output (voltage) by PML/Chelsea Instruments 2-pi PAR downwelling light meter 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
LVLTPU01 Individual LVLTPU01 Volts
V
Instrument output (voltage) by PML/Chelsea Instruments 2-pi PAR upwelling light meter 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
M225B210 Individual M225B210 Milligrams per cubic metre
mg/m^3
Carbon biomass of Strombidium spp. (ITIS: 46608: WoRMS 101195) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202459
Elaine Fileman, Plymouth Marine Laboratory
NTOTCAP1 Individual NTOTCAP1 Micromoles per litre
umol/l
Concentration of nitrogen (total) {'PON'} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 213376
Alex Poulton, National Oceanography Centre, Southampton
NTRIAATX Individual NTRIAATX Micromoles per litre
umol/l
Concentration of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRILWTX Individual NTRILWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZAATX Individual NTRZAATX Micromoles per litre
umol/l
Concentration of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZLWTX Individual NTRZLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
NVLTST01 Individual NVLTST01 Volts
V
Instrument output (voltage) by SeaTech light backscatter nephelometer (LBSS) 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
OXYSSC01 Individual OXYSSC01 Percent
%
Saturation of oxygen {O2} in the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data and computation from concentration using Benson and Krause algorithm 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
P400E00B Individual P400E00B Number per millilitre
#/ml
Abundance of flagellate [Size: 2-20um Subgroup: heterotrophic] per unit volume of the water body by DAPI/proflavine staining and epifluorescence microscopy 206993
Elaine Fileman, Plymouth Marine Laboratory
P490A00Z Individual P490A00Z Number per millilitre
#/ml
Abundance of Coccosphaerales (ITIS: 610061: WoRMS 115059) [Subgroup: coccolithophore] per unit volume of the water body by automated flow cytometry 231326
Glen Tarran, Plymouth Marine Laboratory
P500M17Z Individual P500M17Z Number per millilitre
#/ml
Abundance of Ciliatea (ITIS: 46212: WoRMS 238375) per unit volume of the water body by optical microscopy 202459
Elaine Fileman, Plymouth Marine Laboratory
P700A90Z_Tarran Individual P700A90Z Number per millilitre
#/ml
Abundance of Synechococcus spp. (ITIS: 773: WoRMS 160572) per unit volume of the water body by automated flow cytometry 231326
Glen Tarran, Plymouth Marine Laboratory
P700A90Z_Zubkov Individual P700A90Z Number per millilitre
#/ml
Abundance of Synechococcus spp. (ITIS: 773: WoRMS 160572) per unit volume of the water body by automated flow cytometry 207167
Mike Zubkov, National Oceanography Centre, Southampton
P701A90Z_Tarran Individual P701A90Z Number per millilitre
#/ml
Abundance of Prochlorococcus spp. (ITIS: 610076: WoRMS 345515) per unit volume of the water body by automated flow cytometry 231326
Glen Tarran, Plymouth Marine Laboratory
P701A90Z_Zubkov Individual P701A90Z Number per millilitre
#/ml
Abundance of Prochlorococcus spp. (ITIS: 610076: WoRMS 345515) per unit volume of the water body by automated flow cytometry 207167
Mike Zubkov, National Oceanography Centre, Southampton
P861M00Z Individual P861M00Z Number per millilitre
#/ml
Abundance of Tintinnidae (ITIS: 46743: WoRMS 183533) per unit volume of the water body by optical microscopy 202459
Elaine Fileman, Plymouth Marine Laboratory
P968M00Z Individual P968M00Z Number per millilitre
#/ml
Abundance of Strobilidium spp. (ITIS: 46617: WoRMS 101185) per unit volume of the water body by optical microscopy 202459
Elaine Fileman, Plymouth Marine Laboratory
P985M00Z Individual P985M00Z Number per millilitre
#/ml
Abundance of Strombidium spp. (ITIS: 46608: WoRMS 101195) per unit volume of the water body by optical microscopy 202459
Elaine Fileman, Plymouth Marine Laboratory
PERIHPP1 Individual PERIHPP1 Nanograms per litre
ng/l
Concentration of peridinin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
PHOSAATX Individual PHOSAATX Micromoles per litre
umol/l
Concentration of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
PHOSLWTX Individual PHOSLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
POTMCV01 Individual POTMCV01 Degrees Celsius
degC
Potential temperature of the water body by computation using UNESCO 1983 algorithm 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSALBSTX Individual PSALBSTX Dimensionless
Dmnless
Practical salinity of the water body by bench salinometer and computation using UNESCO 1983 algorithm 227393
Jonathan Short, National Marine Facilities Sea Systems
PSALCC01 Individual PSALCC01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSALCC02 Individual PSALCC02 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSALCU01 Individual PSALCU01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSALCU02 Individual PSALCU02 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSSDBSTX Individual PSSDBSTX Dimensionless
Dmnless
Practical salinity standard deviation of the water body by bench salinometer 227393
Jonathan Short, National Marine Facilities Sea Systems
PYEUA00A_Tarran Individual PYEUA00A Number per millilitre
#/ml
Abundance of picoeukaryotic cells per unit volume of the water body by automated flow cytometry 231326
Glen Tarran, Plymouth Marine Laboratory
PYEUA00A_Zubkov Individual PYEUA00A Number per millilitre
#/ml
Abundance of picoeukaryotic cells per unit volume of the water body by automated flow cytometry 207167
Mike Zubkov, National Oceanography Centre, Southampton
R8242273 Individual R8242273 Number per millilitre
#/ml
Abundance of nanoplankton [Size: 15-20um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213423
Roger Harris, Plymouth Marine Laboratory
RB6272A6 Individual RB6272A6 Milligrams per cubic metre
mg/m^3
Carbon biomass of Tintinnidae (ITIS: 46743: WoRMS 183533) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202459
Elaine Fileman, Plymouth Marine Laboratory
S7338A30 Individual S7338A30 Milligrams per cubic metre
mg/m^3
Carbon biomass of Ciliatea (ITIS: 46212: WoRMS 238375) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202459
Elaine Fileman, Plymouth Marine Laboratory
SCHLFLPA Individual SCHLFLPA Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >5um phase] by filtration, acetone extraction and fluorometry 213328
Alex Poulton, National Oceanography Centre, Southampton
SCHLFLPC Individual SCHLFLPC Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate 2-5um phase] by filtration, acetone extraction and fluorometry 213328
Alex Poulton, National Oceanography Centre, Southampton
SCHLFLPF Individual SCHLFLPF Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate 0.2-2um phase] by filtration, acetone extraction and fluorometry 213328
Alex Poulton, National Oceanography Centre, Southampton
SCHLFLPO Individual SCHLFLPO Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >10um phase] by filtration, acetone extraction and fluorometry 213328
Alex Poulton, National Oceanography Centre, Southampton
SCHLFLPX Individual SCHLFLPX Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate 5-10um phase] by filtration, acetone extraction and fluorometry 213328
Alex Poulton, National Oceanography Centre, Southampton
SIGTPR01 Individual SIGTPR01 Kilograms per cubic metre
kg/m^3
Sigma-theta of the water body by CTD and computation from salinity and potential temperature using UNESCO algorithm 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
SLCAAATX Individual SLCAAATX Micromoles per litre
umol/l
Concentration of silicate {SiO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212953
E Malcolm S Woodward, Plymouth Marine Laboratory
SN2OGCX1 Individual SN2OGCX1 Percent
%
Saturation of nitrous oxide {N2O} in the water body [dissolved plus reactive particulate phase] by gas chromatography and computation from concentration 231064
Robert Upstill-Goddard, Newcastle University School of Marine Science and Technology
T2BA7266 Individual T2BA7266 Number per millilitre
#/ml
Abundance of microplankton [Size: 30-50um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213423
Roger Harris, Plymouth Marine Laboratory
T9710853 Individual T9710853 Milligrams per cubic metre
mg/m^3
Carbon biomass of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um] per unit volume of the water body by unspecified staining and epifluorescence microscopy and abundance to carbon conversion using the equations of Menden-Deuer & Lessard (2000) 202459
Elaine Fileman, Plymouth Marine Laboratory
TA016A49 Individual TA016A49 Milligrams per cubic metre
mg/m^3
Carbon biomass of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um Subgroup: heterotrophic] per unit volume of the water body by unspecified staining and epifluorescence microscopy and abundance to carbon conversion using the equations of Menden-Deuer & Lessard (2000) 202459
Elaine Fileman, Plymouth Marine Laboratory
TBCCAFTX Individual TBCCAFTX Number per millilitre
#/ml
Abundance of Bacteria (ITIS: 202421: WoRMS 6) per unit volume of the water body by automated flow cytometry 231326
Glen Tarran, Plymouth Marine Laboratory
TEMPCU01 Individual TEMPCU01 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
TEMPCU02 Individual TEMPCU02 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
TOKGPR01 Individual TOKGPR01 Litres per kilogram
l/kg
Conversion factor (volume to mass) for the water body by CTD and computation of density (in-situ potential temperature surface pressure) reciprocal from pressure, temperature and salinity 222838
Unknown, British Oceanographic Data Centre Liverpool
TVLTDR01 Individual TVLTDR01 Volts
V
Instrument output (voltage) by 25cm path length red light transmissometer 231156
Alex Gardiner, British Oceanographic Data Centre Liverpool
U7971392 Individual U7971392 Number per millilitre
#/ml
Abundance of nanoplankton [Size: 10-15um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213423
Roger Harris, Plymouth Marine Laboratory
VILXHPP1 Individual VILXHPP1 Nanograms per litre
ng/l
Concentration of violaxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
X726A86B Individual X726A86B Number per millilitre
#/ml
Abundance of nanoeukaryotic cells [Size: 2-12um] per unit volume of the water body by automated flow cytometry 231326
Glen Tarran, Plymouth Marine Laboratory
XA901B43 Individual XA901B43 Number per millilitre
#/ml
Abundance of microplankton [Size: 20-30um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213423
Roger Harris, Plymouth Marine Laboratory
XAA60639 Individual XAA60639 Milligrams per cubic metre
mg/m^3
Carbon biomass of Strobilidium spp. (ITIS: 46617: WoRMS 101185) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202459
Elaine Fileman, Plymouth Marine Laboratory
Y4B539A1 Individual Y4B539A1 Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 50-100um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213423
Roger Harris, Plymouth Marine Laboratory
ZEOXHPP1 Individual ZEOXHPP1 Nanograms per litre
ng/l
Concentration of zeaxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228932
Alex Poulton, National Oceanography Centre, Southampton
Metadata information for: AMT14
Data Title Listing Option BODC Code Units Code Description Document Ref Originator Name and Institute
ACALAE01 Individual ACALAE01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACALAE02 Individual ACALAE02 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACALAX01 Individual ACALAX01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACAMAE01 Individual ACAMAE01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACAMAE02 Individual ACAMAE02 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAAE01 Individual ACCAAE01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAAE02 Individual ACCAAE02 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAXX01 Individual ACCAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLAE01 Individual ACCLAE01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLAE02 Individual ACCLAE02 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLXX01 Individual ACCLXX01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKAER01 Individual ACKAER01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKAER02 Individual ACKAER02 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKXXX01 Individual ACKXXX01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGAE01 Individual ACMGAE01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGAE02 Individual ACMGAE02 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGXX01 Individual ACMGXX01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAE01 Individual ACMNAE01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAE02 Individual ACMNAE02 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAX01 Individual ACMNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMSAE01 Individual ACMSAE01 Picomoles per cubic metre
pmol/m^3
Concentration of methane sulphonic acid {CH3SO3H} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMSAE02 Individual ACMSAE02 Picomoles per cubic metre
pmol/m^3
Concentration of methane sulphonic acid {CH3SO3H} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMSAX01 Individual ACMSAX01 Picomoles per cubic metre
pmol/m^3
Concentration of methane sulphonic acid {CH3SO3H} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAAE01 Individual ACNAAE01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAAE02 Individual ACNAAE02 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAXX01 Individual ACNAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNH4X01 Individual ACNH4X01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNITA01 Individual ACNITA01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNITA02 Individual ACNITA02 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNO3X01 Individual ACNO3X01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNTCX01 Individual ACNTCX01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACOXAE01 Individual ACOXAE01 Picomoles per cubic metre
pmol/m^3
Concentration of oxalate {C2O4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACOXAE02 Individual ACOXAE02 Picomoles per cubic metre
pmol/m^3
Concentration of oxalate {C2O4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACOXAX01 Individual ACOXAX01 Picomoles per cubic metre
pmol/m^3
Concentration of oxalate {C2O4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER01 Individual ACPAER01 Picomoles per cubic metre
pmol/m^3
Concentration of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and colorimetric analysis 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER02 Individual ACPAER02 Picomoles per cubic metre
pmol/m^3
Concentration of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol >1um phase] by filtration and colorimetric analysis 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER03 Individual ACPAER03 Picomoles per cubic metre
pmol/m^3
Concentration of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEA01 Individual ACSFEA01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEA02 Individual ACSFEA02 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEX01 Individual ACSFEX01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSO4X01 Individual ACSO4X01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSUAE01 Individual ACSUAE01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSUAE02 Individual ACSUAE02 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACTNCO01 Individual ACTNCO01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol < 1um phase] by filtration and high temperature Pt catalytic oxidation 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACTNCO02 Individual ACTNCO02 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol >1um phase] by filtration and high temperature Pt catalytic oxidation 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAE01 Individual ACZNAE01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAE02 Individual ACZNAE02 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAX01 Individual ACZNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ALLOHPP1 Individual ALLOHPP1 Nanograms per litre
ng/l
Concentration of alloxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
AMONAATX Individual AMONAATX Micromoles per litre
umol/l
Concentration of ammonium {NH4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212967
E Malcolm S Woodward, Plymouth Marine Laboratory
AMONNAKA Individual AMONNAKA Micromoles per litre
umol/l
Concentration (nM sensitivity) of ammonium {NH4} per unit volume of the water body [dissolved plus reactive particulate phase] by nanomolar ammonium fluorometry after Kerouel and Aminot (1997) 202816
Mike Lucas, National Oceanography Centre, Southampton
ASDALE01 Individual ASDALE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDALE02 Individual ASDALE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDALX01 Individual ASDALX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMA01 Individual ASDAMA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMA02 Individual ASDAMA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMX01 Individual ASDAMX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAI01 Individual ASDCAI01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAI02 Individual ASDCAI02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAX01 Individual ASDCAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLA01 Individual ASDCLA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLA02 Individual ASDCLA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLX01 Individual ASDCLX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDFEX01 Individual ASDFEX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIC01 Individual ASDKIC01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIC02 Individual ASDKIC02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIX01 Individual ASDKIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGA01 Individual ASDMGA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGA02 Individual ASDMGA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGX01 Individual ASDMGX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNE01 Individual ASDMNE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNE02 Individual ASDMNE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNX01 Individual ASDMNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMSA01 Individual ASDMSA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of methane sulphonic acid {CH3SO3H} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMSA02 Individual ASDMSA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of methane sulphonic acid {CH3SO3H} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMSX01 Individual ASDMSX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of methane sulphonic acid {CH3SO3H} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAA01 Individual ASDNAA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAA02 Individual ASDNAA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAX01 Individual ASDNAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIT01 Individual ASDNIT01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIT02 Individual ASDNIT02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIX01 Individual ASDNIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDOXA01 Individual ASDOXA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of oxalate {C2O4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDOXA02 Individual ASDOXA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of oxalate {C2O4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDOXX01 Individual ASDOXX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of oxalate {C2O4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE01 Individual ASDPAE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and colorimetric analysis 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE02 Individual ASDPAE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol >1um phase] by filtration and colorimetric analysis 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE03 Individual ASDPAE03 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSFE01 Individual ASDSFE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSFE02 Individual ASDSFE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUA01 Individual ASDSUA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUA02 Individual ASDSUA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUX01 Individual ASDSUX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNC01 Individual ASDTNC01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol < 1um phase] by filtration and high temperature Pt catalytic oxidation 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNC02 Individual ASDTNC02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol >1um phase] by filtration and high temperature Pt catalytic oxidation 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNX01 Individual ASDTNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNE01 Individual ASDZNE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNE02 Individual ASDZNE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNX01 Individual ASDZNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202710
Tim Jickells, University of East Anglia School of Environmental Sciences
ATNH3C97 Individual ATNH3C97 Picomoles per cubic metre
pmol/m^3
Concentration of ammonia {NH3} per unit volume of the atmosphere [gaseous phase] by filtration with acid impregnated filter and nanomolar ammonium system after Holmes et al (1999) 203178
Alex Baker, University of East Anglia School of Environmental Sciences
ATTNDR01 Individual ATTNDR01 per metre
/m
Attenuance (red light wavelength) per unit length of the water body by 25cm path length red light transmissometer 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
B4116767 Individual B4116767 Number per millilitre
#/ml
Abundance of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um Subgroup: heterotrophic] per unit volume of the water body by unspecified staining and epifluorescence microscopy 202462
Elaine Fileman, Plymouth Marine Laboratory
BUTAHPP1 Individual BUTAHPP1 Nanograms per litre
ng/l
Concentration of 19'-butanoyloxyfucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
C1A61382 Individual C1A61382 Number per millilitre
#/ml
Abundance of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um] per unit volume of the water body by unspecified staining and epifluorescence microscopy 202462
Elaine Fileman, Plymouth Marine Laboratory
CHLBHPP1 Individual CHLBHPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-b {chl-b} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
CINGFA04 Individual CINGFA04 Micromoles per litre
umol/l
Concentration of carbon (inorganic) {PIC} per unit volume of the water body [particulate >0.4um phase] by filtration, acetone extraction and inductively-coupled plasma atomic emission spectroscopy 212905
William M Balch, Bigelow Laboratory for Ocean Sciences
CLC2HPP1 Individual CLC2HPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-c2 {chl-c2} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
CLC3HPP1 Individual CLC3HPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-c3 {chl-c3} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
CONALAD1 Individual CONALAD1 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAD3 Individual CONALAD3 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL1 Individual CONALAL1 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL2 Individual CONALAL2 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONALAL3 Individual CONALAL3 Picomoles per cubic metre
pmol/m^3
Concentration of alanine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGD1 Individual CONARGD1 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGD3 Individual CONARGD3 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGL1 Individual CONARGL1 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGL2 Individual CONARGL2 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONARGL3 Individual CONARGL3 Picomoles per cubic metre
pmol/m^3
Concentration of arginine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONASPD3 Individual CONASPD3 Picomoles per cubic metre
pmol/m^3
Concentration of aspartic acid (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUD3 Individual CONGLUD3 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUL2 Individual CONGLUL2 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLUL3 Individual CONGLUL3 Picomoles per cubic metre
pmol/m^3
Concentration of glutamic acid (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY01 Individual CONGLY01 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water soluble) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY02 Individual CONGLY02 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water soluble and hydrolysable) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONGLY03 Individual CONGLY03 Picomoles per cubic metre
pmol/m^3
Concentration of glycine (water insoluble and hydrolysable) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOD1 Individual CONISOD1 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOD2 Individual CONISOD2 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOD3 Individual CONISOD3 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOL1 Individual CONISOL1 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOL2 Individual CONISOL2 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONISOL3 Individual CONISOL3 Picomoles per cubic metre
pmol/m^3
Concentration of isoleucine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUD1 Individual CONLEUD1 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUD2 Individual CONLEUD2 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUD3 Individual CONLEUD3 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUL1 Individual CONLEUL1 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUL2 Individual CONLEUL2 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONLEUL3 Individual CONLEUL3 Picomoles per cubic metre
pmol/m^3
Concentration of leucine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONMETD1 Individual CONMETD1 Picomoles per cubic metre
pmol/m^3
Concentration of methionine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONMETD2 Individual CONMETD2 Picomoles per cubic metre
pmol/m^3
Concentration of methionine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONMETL1 Individual CONMETL1 Picomoles per cubic metre
pmol/m^3
Concentration of methionine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONMETL2 Individual CONMETL2 Picomoles per cubic metre
pmol/m^3
Concentration of methionine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONMETL3 Individual CONMETL3 Picomoles per cubic metre
pmol/m^3
Concentration of methionine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHED1 Individual CONPHED1 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water soluble D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHEL1 Individual CONPHEL1 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHEL2 Individual CONPHEL2 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONPHEL3 Individual CONPHEL3 Picomoles per cubic metre
pmol/m^3
Concentration of phenylalanine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERD2 Individual CONSERD2 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERD3 Individual CONSERD3 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water insoluble and hydrolysable D-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL1 Individual CONSERL1 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL2 Individual CONSERL2 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONSERL3 Individual CONSERL3 Picomoles per cubic metre
pmol/m^3
Concentration of serine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL1 Individual CONTHRL1 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL2 Individual CONTHRL2 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONTHRL3 Individual CONTHRL3 Picomoles per cubic metre
pmol/m^3
Concentration of threonine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL1 Individual CONVALL1 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water soluble L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL2 Individual CONVALL2 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water soluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the leachate and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CONVALL3 Individual CONVALL3 Picomoles per cubic metre
pmol/m^3
Concentration of valine (water insoluble and hydrolysable L-isomer) per unit volume of the atmosphere [aerosol >GF/F phase] by filtration, water leaching, acid hydrolysis of the residue and high performance liquid chromatography (HPLC) 202632
Martin Preston, University of Liverpool Department of Earth and Ocean Sciences
CORGCAP1 Individual CORGCAP1 Micromoles per litre
umol/l
Concentration of carbon (organic) {POC} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 213406
231078
Richard Sanders, National Oceanography Centre, Southampton
Mike Lucas, National Oceanography Centre, Southampton
CPHLFLP1 Individual CPHLFLP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and fluorometry 213298
Alex Poulton, National Oceanography Centre, Southampton
CPHLFLP4 Individual CPHLFLP4 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >0.2um phase] by filtration, acetone extraction and fluorometry and summation of size-fractionated values 213298
Alex Poulton, National Oceanography Centre, Southampton
CPHLHPP1 Individual CPHLHPP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
CPHLPM01 Individual CPHLPM01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and manufacturer's calibration applied 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
CPHLPS01 Individual CPHLPS01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and calibration against sample data 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
D9948866 Individual D9948866 Milligrams per cubic metre
mg/m^3
Carbon biomass of nanoplankton [Size: 15-20um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213437
Roger Harris, Plymouth Marine Laboratory
DIADHPP1 Individual DIADHPP1 Nanograms per litre
ng/l
Concentration of diadinoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
DIMSUM01 Individual DIMSUM01 Nanomoles per litre
nmol/l
Concentration of dimethylsulphoniopropionate {DMSP} per unit volume of the water body [particulate >GF/F phase] by filtration and gas chromatography 226657
226752
Gill Malin, University of East Anglia School of Environmental Sciences
DMSPGCD1 Individual DMSPGCD1 Nanomoles per litre
nmol/l
Concentration of dimethylsulphoniopropionate {DMSP} per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration and gas chromatography 226657
226752
Gill Malin, University of East Anglia School of Environmental Sciences
DMSXGCD1 Individual DMSXGCD1 Nanomoles per litre
nmol/l
Concentration of dimethyl sulphide {DMS} per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, purging, cryogenic trapping and gas chromatography 226657
226752
Gill Malin, University of East Anglia School of Environmental Sciences
DOXYSC01 Individual DOXYSC01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
DOXYSU01 Individual DOXYSU01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and no calibration against sample data 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
DOXYWITX Individual DOXYWITX Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Winkler titration 213716
Nicola Gist, Plymouth Marine Laboratory
DVCAHPP1 Individual DVCAHPP1 Nanograms per litre
ng/l
Concentration of divinyl chlorophyll-a per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
E55BAB3A Individual E55BAB3A Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 20-30um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213437
Roger Harris, Plymouth Marine Laboratory
E6207912 Individual E6207912 Milligrams per cubic metre
mg/m^3
Carbon biomass of nanoplankton [Size: 10-15um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213437
Roger Harris, Plymouth Marine Laboratory
FUCXHPP1 Individual FUCXHPP1 Nanograms per litre
ng/l
Concentration of fucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
FVLTPELN Individual FVLTPELN Volts
V
Instrument output (voltage) by linear-response phycoerythrin fluorometer 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
H396080A Individual H396080A Number per millilitre
#/ml
Abundance standard deviation of Bacteria (ITIS: 202421: WoRMS 6) per unit volume of the water body by automated flow cytometry 218765
Mike Zubkov, National Oceanography Centre, Southampton
HEXOHPP1 Individual HEXOHPP1 Nanograms per litre
ng/l
Concentration of 19'-hexanoyloxyfucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
IRRDPP01 Individual IRRDPP01 MicroEinsteins per square metre per second
uE/m^2/s
Downwelling 2-pi scalar irradiance as photons (PAR wavelengths) in the water body by 2-pi scalar radiometer Claudia Castellani, British Oceanographic Data Centre Liverpool
IRRUPP01 Individual IRRUPP01 MicroEinsteins per square metre per second
uE/m^2/s
Upwelling 2-pi scalar irradiance as photons (PAR wavelengths) in the water body by 2-pi scalar radiometer Claudia Castellani, British Oceanographic Data Centre Liverpool
K053A159 Individual K053A159 Number per millilitre
#/ml
Abundance of microplankton [Size: 50-100um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213437
Roger Harris, Plymouth Marine Laboratory
K7511B0A Individual K7511B0A Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 30-50um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213437
Roger Harris, Plymouth Marine Laboratory
LUTNHPP1 Individual LUTNHPP1 Nanograms per litre
ng/l
Concentration of lutein per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
LVLTPD01 Individual LVLTPD01 Volts
V
Instrument output (voltage) by PML/Chelsea Instruments 2-pi PAR downwelling light meter 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
LVLTPU01 Individual LVLTPU01 Volts
V
Instrument output (voltage) by PML/Chelsea Instruments 2-pi PAR upwelling light meter 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
M225B210 Individual M225B210 Milligrams per cubic metre
mg/m^3
Carbon biomass of Strombidium spp. (ITIS: 46608: WoRMS 101195) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202462
Elaine Fileman, Plymouth Marine Laboratory
NTOTCAP1 Individual NTOTCAP1 Micromoles per litre
umol/l
Concentration of nitrogen (total) {'PON'} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 213406
Richard Sanders, National Oceanography Centre, Southampton
NTOTWCD1 Individual NTOTWCD1 Micromoles per litre
umol/l
Concentration of nitrogen (total) per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, oxidation and colorimetric autoanalysis 202833
Richard Sanders, National Oceanography Centre, Southampton
NTRIAATX Individual NTRIAATX Micromoles per litre
umol/l
Concentration of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212967
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRILWTX Individual NTRILWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212967
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZAATX Individual NTRZAATX Micromoles per litre
umol/l
Concentration of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212967
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZLWTX Individual NTRZLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212967
E Malcolm S Woodward, Plymouth Marine Laboratory
OPALWCP4 Individual OPALWCP4 Micromoles per litre
umol/l
Concentration of biogenic silica {opal} per unit volume of the water body [particulate >0.4um phase] by filtration, alkali hydrolysis and colorimetric analysis 212905
William M Balch, Bigelow Laboratory for Ocean Sciences
OXYSSC01 Individual OXYSSC01 Percent
%
Saturation of oxygen {O2} in the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data and computation from concentration using Benson and Krause algorithm 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
P500M17Z Individual P500M17Z Number per millilitre
#/ml
Abundance of Ciliatea (ITIS: 46212: WoRMS 238375) per unit volume of the water body by optical microscopy 202462
Elaine Fileman, Plymouth Marine Laboratory
P700A90Z_Zubkov Individual P700A90Z Number per millilitre
#/ml
Abundance of Synechococcus spp. (ITIS: 773: WoRMS 160572) per unit volume of the water body by automated flow cytometry 218765
Mike Zubkov, National Oceanography Centre, Southampton
P701A90Z_Zubkov Individual P701A90Z Number per millilitre
#/ml
Abundance of Prochlorococcus spp. (ITIS: 610076: WoRMS 345515) per unit volume of the water body by automated flow cytometry 218765
Mike Zubkov, National Oceanography Centre, Southampton
P861M00Z Individual P861M00Z Number per millilitre
#/ml
Abundance of Tintinnidae (ITIS: 46743: WoRMS 183533) per unit volume of the water body by optical microscopy 202462
Elaine Fileman, Plymouth Marine Laboratory
P968M00Z Individual P968M00Z Number per millilitre
#/ml
Abundance of Strobilidium spp. (ITIS: 46617: WoRMS 101185) per unit volume of the water body by optical microscopy 202462
Elaine Fileman, Plymouth Marine Laboratory
P985M00Z Individual P985M00Z Number per millilitre
#/ml
Abundance of Strombidium spp. (ITIS: 46608: WoRMS 101195) per unit volume of the water body by optical microscopy 202462
Elaine Fileman, Plymouth Marine Laboratory
PERIHPP1 Individual PERIHPP1 Nanograms per litre
ng/l
Concentration of peridinin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
PHOSAATX Individual PHOSAATX Micromoles per litre
umol/l
Concentration of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212967
E Malcolm S Woodward, Plymouth Marine Laboratory
PHOSLWTX Individual PHOSLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212967
E Malcolm S Woodward, Plymouth Marine Laboratory
POTMCV01 Individual POTMCV01 Degrees Celsius
degC
Potential temperature of the water body by computation using UNESCO 1983 algorithm 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
PRSXHPP1 Individual PRSXHPP1 Nanograms per litre
ng/l
Concentration of prasinoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
PSALBSTX Individual PSALBSTX Dimensionless
Dmnless
Practical salinity of the water body by bench salinometer and computation using UNESCO 1983 algorithm 231095
Jonathan Short, National Marine Facilities Sea Systems
PSALCC01 Individual PSALCC01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
PSALCU01 Individual PSALCU01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
PYEUA00A_Zubkov Individual PYEUA00A Number per millilitre
#/ml
Abundance of picoeukaryotic cells per unit volume of the water body by automated flow cytometry 218765
Mike Zubkov, National Oceanography Centre, Southampton
R8242273 Individual R8242273 Number per millilitre
#/ml
Abundance of nanoplankton [Size: 15-20um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213437
Roger Harris, Plymouth Marine Laboratory
RB6272A6 Individual RB6272A6 Milligrams per cubic metre
mg/m^3
Carbon biomass of Tintinnidae (ITIS: 46743: WoRMS 183533) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202462
Elaine Fileman, Plymouth Marine Laboratory
S7338A30 Individual S7338A30 Milligrams per cubic metre
mg/m^3
Carbon biomass of Ciliatea (ITIS: 46212: WoRMS 238375) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202462
Elaine Fileman, Plymouth Marine Laboratory
SCHLFLPC Individual SCHLFLPC Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate 2-5um phase] by filtration, acetone extraction and fluorometry 213298
Alex Poulton, National Oceanography Centre, Southampton
SCHLFLPF Individual SCHLFLPF Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate 0.2-2um phase] by filtration, acetone extraction and fluorometry 213298
Alex Poulton, National Oceanography Centre, Southampton
SCHLFLPO Individual SCHLFLPO Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >10um phase] by filtration, acetone extraction and fluorometry 213298
Alex Poulton, National Oceanography Centre, Southampton
SCHLFLPX Individual SCHLFLPX Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate 5-10um phase] by filtration, acetone extraction and fluorometry 213298
Alex Poulton, National Oceanography Centre, Southampton
SDNTWCD1 Individual SDNTWCD1 Micromoles per litre
umol/l
Concentration standard deviation of nitrogen (total) per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, oxidation and colorimetric autoanalysis 202833
Richard Sanders, National Oceanography Centre, Southampton
SDT34PD8 Individual SDT34PD8 Millibequerels per litre
mBq/l
Activity standard deviation of thorium-234 {234Th} per unit volume of the water body [dissolved plus reactive particulate < 0.8um phase] by filtration, Mn absorption and beta spectroscopy and decay correction to sampling time 231078
Mike Lucas, National Oceanography Centre, Southampton
SDTPWCD1 Individual SDTPWCD1 Micromoles per litre
umol/l
Concentration standard deviation of phosphorus (total) per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration 202833
Richard Sanders, National Oceanography Centre, Southampton
SIGTPR01 Individual SIGTPR01 Kilograms per cubic metre
kg/m^3
Sigma-theta of the water body by CTD and computation from salinity and potential temperature using UNESCO algorithm 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
SLCAAATX Individual SLCAAATX Micromoles per litre
umol/l
Concentration of silicate {SiO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212967
E Malcolm S Woodward, Plymouth Marine Laboratory
T234SPD8 Individual T234SPD8 Millibequerels per litre
mBq/l
Activity of thorium-234 {234Th} per unit volume of the water body [dissolved plus reactive particulate < 0.8um phase] by filtration, Mn absorption and beta spectroscopy and decay correction to sampling time 231078
Mike Lucas, National Oceanography Centre, Southampton
T2BA7266 Individual T2BA7266 Number per millilitre
#/ml
Abundance of microplankton [Size: 30-50um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213437
Roger Harris, Plymouth Marine Laboratory
T9710853 Individual T9710853 Milligrams per cubic metre
mg/m^3
Carbon biomass of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um] per unit volume of the water body by unspecified staining and epifluorescence microscopy and abundance to carbon conversion using the equations of Menden-Deuer & Lessard (2000) 202462
Elaine Fileman, Plymouth Marine Laboratory
TA016A49 Individual TA016A49 Milligrams per cubic metre
mg/m^3
Carbon biomass of Dinophyceae (ITIS: 9874: WoRMS 19542) [Size: >20um Subgroup: heterotrophic] per unit volume of the water body by unspecified staining and epifluorescence microscopy and abundance to carbon conversion using the equations of Menden-Deuer & Lessard (2000) 202462
Elaine Fileman, Plymouth Marine Laboratory
TBCCAFTX Individual TBCCAFTX Number per millilitre
#/ml
Abundance of Bacteria (ITIS: 202421: WoRMS 6) per unit volume of the water body by automated flow cytometry 218765
Mike Zubkov, National Oceanography Centre, Southampton
TEMPCU01 Individual TEMPCU01 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231173
Alex Gardiner, British Oceanographic Data Centre Liverpool
TOKGPR01 Individual TOKGPR01 Litres per kilogram
l/kg
Conversion factor (volume to mass) for the water body by CTD and computation of density (in-situ potential temperature surface pressure) reciprocal from pressure, temperature and salinity 222838
Unknown, British Oceanographic Data Centre Liverpool
TPHSWCD1 Individual TPHSWCD1 Micromoles per litre
umol/l
Concentration of phosphorus (total) per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, oxidation and colorimetric autoanalysis 202833
Richard Sanders, National Oceanography Centre, Southampton
U7971392 Individual U7971392 Number per millilitre
#/ml
Abundance of nanoplankton [Size: 10-15um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213437
Roger Harris, Plymouth Marine Laboratory
UREAMDTX Individual UREAMDTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of urea per unit volume of the water body [dissolved plus reactive particulate phase] by manual analysis using the diacetylmonoxime method 202816
Mike Lucas, National Oceanography Centre, Southampton
VILXHPP1 Individual VILXHPP1 Nanograms per litre
ng/l
Concentration of violaxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
XA901B43 Individual XA901B43 Number per millilitre
#/ml
Abundance of microplankton [Size: 20-30um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser 213437
Roger Harris, Plymouth Marine Laboratory
XAA60639 Individual XAA60639 Milligrams per cubic metre
mg/m^3
Carbon biomass of Strobilidium spp. (ITIS: 46617: WoRMS 101185) per unit volume of the water body by optical microscopy and abundance to carbon conversion using the equations of Menden-Deuer.& Lessard.(2000) 202462
Elaine Fileman, Plymouth Marine Laboratory
Y4B539A1 Individual Y4B539A1 Milligrams per cubic metre
mg/m^3
Carbon biomass of microplankton [Size: 50-100um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and abundance to carbon conversion using the equations of Menden-Deuer and Lessard (2000) 213437
Roger Harris, Plymouth Marine Laboratory
ZEOXHPP1 Individual ZEOXHPP1 Nanograms per litre
ng/l
Concentration of zeaxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 228946
Alex Poulton, National Oceanography Centre, Southampton
Metadata information for: AMT15
Data Title Listing Option BODC Code Units Code Description Document Ref Originator Name and Institute
ACALAE01 Individual ACALAE01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACALAE02 Individual ACALAE02 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACALAX01 Individual ACALAX01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACAMAE01 Individual ACAMAE01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACAMAE02 Individual ACAMAE02 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAAE01 Individual ACCAAE01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAAE02 Individual ACCAAE02 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAXX01 Individual ACCAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLAE01 Individual ACCLAE01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLAE02 Individual ACCLAE02 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLXX01 Individual ACCLXX01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKAER01 Individual ACKAER01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKAER02 Individual ACKAER02 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKXXX01 Individual ACKXXX01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGAE01 Individual ACMGAE01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGAE02 Individual ACMGAE02 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGXX01 Individual ACMGXX01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAE01 Individual ACMNAE01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAE02 Individual ACMNAE02 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAX01 Individual ACMNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAAE01 Individual ACNAAE01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAAE02 Individual ACNAAE02 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAXX01 Individual ACNAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNH4X01 Individual ACNH4X01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNITA01 Individual ACNITA01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNITA02 Individual ACNITA02 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNO3X01 Individual ACNO3X01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNTCX01 Individual ACNTCX01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER01 Individual ACPAER01 Picomoles per cubic metre
pmol/m^3
Concentration of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and colorimetric analysis 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER02 Individual ACPAER02 Picomoles per cubic metre
pmol/m^3
Concentration of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol >1um phase] by filtration and colorimetric analysis 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER03 Individual ACPAER03 Picomoles per cubic metre
pmol/m^3
Concentration of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEA01 Individual ACSFEA01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEA02 Individual ACSFEA02 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEX01 Individual ACSFEX01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSO4X01 Individual ACSO4X01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSUAE01 Individual ACSUAE01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSUAE02 Individual ACSUAE02 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACTNCO01 Individual ACTNCO01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol < 1um phase] by filtration and high temperature Pt catalytic oxidation 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACTNCO02 Individual ACTNCO02 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol >1um phase] by filtration and high temperature Pt catalytic oxidation 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAE01 Individual ACZNAE01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAE02 Individual ACZNAE02 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAX01 Individual ACZNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
AFE56SDT Individual AFE56SDT Parts per thousand
ppt
Enrichment standard deviation of iron-56 (total) {56Fe} in the atmosphere [aerosol phase] by filtration, acid digestion and inductively-coupled plasma mass spectrometry 203443
Matthieu Waeles, University of East Anglia School of Environmental Sciences
AFE56TOT Individual AFE56TOT Parts per thousand
ppt
Enrichment of iron-56 (total) {56Fe} in the atmosphere [aerosol phase] by filtration, acid digestion and inductively-coupled plasma mass spectrometry 203443
Matthieu Waeles, University of East Anglia School of Environmental Sciences
AFE57SDT Individual AFE57SDT Parts per thousand
ppt
Enrichment standard deviation of iron-57 (total) {57Fe} in the atmosphere [aerosol phase] by filtration, acid digestion and inductively-coupled plasma mass spectrometry 203443
Matthieu Waeles, University of East Anglia School of Environmental Sciences
AFE57TOT Individual AFE57TOT Parts per thousand
ppt
Enrichment of iron-57 (total) {57Fe} in the atmosphere [aerosol phase] by filtration, acid digestion and inductively-coupled plasma mass spectrometry 203443
Matthieu Waeles, University of East Anglia School of Environmental Sciences
ALLOHPP1 Individual ALLOHPP1 Nanograms per litre
ng/l
Concentration of alloxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
ASDALE01 Individual ASDALE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDALE02 Individual ASDALE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDALX01 Individual ASDALX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMA01 Individual ASDAMA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMA02 Individual ASDAMA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMX01 Individual ASDAMX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAI01 Individual ASDCAI01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAI02 Individual ASDCAI02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAX01 Individual ASDCAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLA01 Individual ASDCLA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLA02 Individual ASDCLA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLX01 Individual ASDCLX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDFEX01 Individual ASDFEX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIC01 Individual ASDKIC01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIC02 Individual ASDKIC02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIX01 Individual ASDKIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGA01 Individual ASDMGA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGA02 Individual ASDMGA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGX01 Individual ASDMGX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNE01 Individual ASDMNE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNE02 Individual ASDMNE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNX01 Individual ASDMNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAA01 Individual ASDNAA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAA02 Individual ASDNAA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAX01 Individual ASDNAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIT01 Individual ASDNIT01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIT02 Individual ASDNIT02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIX01 Individual ASDNIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE01 Individual ASDPAE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and colorimetric analysis 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE02 Individual ASDPAE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphorus (water soluble reactive) {'PO4'} per unit volume of the atmosphere [aerosol >1um phase] by filtration and colorimetric analysis 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE03 Individual ASDPAE03 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSFE01 Individual ASDSFE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSFE02 Individual ASDSFE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUA01 Individual ASDSUA01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUA02 Individual ASDSUA02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol >1um phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUX01 Individual ASDSUX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNC01 Individual ASDTNC01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol < 1um phase] by filtration and high temperature Pt catalytic oxidation 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNC02 Individual ASDTNC02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol >1um phase] by filtration and high temperature Pt catalytic oxidation 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNX01 Individual ASDTNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNE01 Individual ASDZNE01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol < 1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNE02 Individual ASDZNE02 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol >1um phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNX01 Individual ASDZNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202707
Tim Jickells, University of East Anglia School of Environmental Sciences
ATFE56S1 Individual ATFE56S1 Parts per thousand
ppt
Enrichment of iron-56 (soluble) {56Fe} in the atmosphere [aerosol phase] by filtration, leaching with pH 4.7 ammonium acetate buffer and inductively-coupled plasma mass spectrometry 203443
Matthieu Waeles, University of East Anglia School of Environmental Sciences
ATFE56SD Individual ATFE56SD Parts per thousand
ppt
Enrichment standard deviation of iron-56 (soluble) {56Fe} in the atmosphere [aerosol phase] by filtration, leaching with pH 4.7 ammonium acetate buffer and inductively-coupled plasma mass spectrometry 203443
Matthieu Waeles, University of East Anglia School of Environmental Sciences
ATFE57S1 Individual ATFE57S1 Parts per thousand
ppt
Enrichment of iron-57 (soluble) {57Fe} in the atmosphere [aerosol phase] by filtration, leaching with pH 4.7 ammonium acetate buffer and inductively-coupled plasma mass spectrometry 203443
Matthieu Waeles, University of East Anglia School of Environmental Sciences
ATFE57SD Individual ATFE57SD Parts per thousand
ppt
Enrichment standard deviation of iron-57 (soluble) {57Fe} in the atmosphere [aerosol phase] by filtration, leaching with pH 4.7 ammonium acetate buffer and inductively-coupled plasma mass spectrometry 203443
Matthieu Waeles, University of East Anglia School of Environmental Sciences
ATTNDR01 Individual ATTNDR01 per metre
/m
Attenuance (red light wavelength) per unit length of the water body by 25cm path length red light transmissometer 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
BUTAHPP1 Individual BUTAHPP1 Nanograms per litre
ng/l
Concentration of 19'-butanoyloxyfucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
CHLBHPP1 Individual CHLBHPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-b {chl-b} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
CINGFA04 Individual CINGFA04 Micromoles per litre
umol/l
Concentration of carbon (inorganic) {PIC} per unit volume of the water body [particulate >0.4um phase] by filtration, acetone extraction and inductively-coupled plasma atomic emission spectroscopy 212922
212919
William M Balch, Bigelow Laboratory for Ocean Sciences
CLC2HPP1 Individual CLC2HPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-c2 {chl-c2} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
CLC3HPP1 Individual CLC3HPP1 Nanograms per litre
ng/l
Concentration of chlorophyll-c3 {chl-c3} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
CORGCAP1 Individual CORGCAP1 Micromoles per litre
umol/l
Concentration of carbon (organic) {POC} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 212749
212922
Alex Poulton, National Oceanography Centre, Southampton
William M Balch, Bigelow Laboratory for Ocean Sciences
CPHLFLP1 Individual CPHLFLP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and fluorometry 213083
Alex Poulton, National Oceanography Centre, Southampton
CPHLFLP4 Individual CPHLFLP4 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >0.2um phase] by filtration, acetone extraction and fluorometry and summation of size-fractionated values 213083
Alex Poulton, National Oceanography Centre, Southampton
CPHLHPP1 Individual CPHLHPP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
CPHLPM01 Individual CPHLPM01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and manufacturer's calibration applied 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
CPHLPS01 Individual CPHLPS01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and calibration against sample data 231187
Rob Thomas, British Oceanographic Data Centre Liverpool
D13CMITX Individual D13CMITX Parts per thousand
ppt
Enrichment of 13C in inorganic carbon in the water body [dissolved plus reactive particulate phase] by acidification and mass spectrometry 226691
Paul Quay, University of Washington School of Oceanography
DFEFICHL Individual DFEFICHL Nanomoles per litre
nmol/l
Concentration of iron (total) {Fe} per unit volume of the water body [dissolved plus reactive particulate < 0.2um phase] by filtration and flow-injection chemiluminescence 226691
226953
Simon Ussher, University of Plymouth, School of Geography, Earth and Environmental Sciences
DFEFICSD Individual DFEFICSD Nanomoles per litre
nmol/l
Concentration standard deviation of iron (total) {Fe} per unit volume of the water body [dissolved plus reactive particulate < 0.2um phase] by filtration and flow-injection chemiluminescence 226691
226953
Simon Ussher, University of Plymouth, School of Geography, Earth and Environmental Sciences
DIADHPP1 Individual DIADHPP1 Nanograms per litre
ng/l
Concentration of diadinoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
DOXYSC01 Individual DOXYSC01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data 231187
Rob Thomas, British Oceanographic Data Centre Liverpool
DOXYSU01 Individual DOXYSU01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and no calibration against sample data 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
DOXYWITX Individual DOXYWITX Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Winkler titration 213808
Pablo Serret, University of Vigo Department of Ecology and Animal Biology
DVCAHPP1 Individual DVCAHPP1 Nanograms per litre
ng/l
Concentration of divinyl chlorophyll-a per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
FESDCLDX Individual FESDCLDX Nanomoles per litre
nmol/l
Concentration standard deviation of iron (total) {Fe} per unit volume of the water body [dissolved plus reactive particulate phase phase] by flow-injection chemiluminescence 226953
Simon Ussher, University of Plymouth, School of Geography, Earth and Environmental Sciences
FEXXCLDX Individual FEXXCLDX Nanomoles per litre
nmol/l
Concentration of iron (total) {Fe} per unit volume of the water body [dissolved plus reactive particulate phase] by flow-injection chemiluminescence 226953
Simon Ussher, University of Plymouth, School of Geography, Earth and Environmental Sciences
FUCXHPP1 Individual FUCXHPP1 Nanograms per litre
ng/l
Concentration of fucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
HBCCAFTX_Zubkov Individual HBCCAFTX Number per millilitre
#/ml
Abundance of Bacteria (ITIS: 202421: WoRMS 6) [Subgroup: heterotrophic] per unit volume of the water body by automated flow cytometry and subtraction of Synechococcus+Prochlorococcus from total bacteria 207136
Mike Zubkov, National Oceanography Centre, Southampton
HEXOHPP1 Individual HEXOHPP1 Nanograms per litre
ng/l
Concentration of 19'-hexanoyloxyfucoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
IRRDPP01 Individual IRRDPP01 MicroEinsteins per square metre per second
uE/m^2/s
Downwelling 2-pi scalar irradiance as photons (PAR wavelengths) in the water body by 2-pi scalar radiometer 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
IRRUPP01 Individual IRRUPP01 MicroEinsteins per square metre per second
uE/m^2/s
Upwelling 2-pi scalar irradiance as photons (PAR wavelengths) in the water body by 2-pi scalar radiometer 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
LUTNHPP1 Individual LUTNHPP1 Nanograms per litre
ng/l
Concentration of lutein per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
LVLTPD01 Individual LVLTPD01 Volts
V
Instrument output (voltage) by PML/Chelsea Instruments 2-pi PAR downwelling light meter 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
LVLTPU01 Individual LVLTPU01 Volts
V
Instrument output (voltage) by PML/Chelsea Instruments 2-pi PAR upwelling light meter 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
NTOTCAP1 Individual NTOTCAP1 Micromoles per litre
umol/l
Concentration of nitrogen (total) {'PON'} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 212749
Alex Poulton, National Oceanography Centre, Southampton
NTOTWCTX Individual NTOTWCTX Micromoles per litre
umol/l
Concentration of nitrogen (total) per unit volume of the water body [dissolved plus reactive particulate phase] by oxidation and colorimetric autoanalysis 202878
Richard Sanders, National Oceanography Centre, Southampton
NTRIAATX Individual NTRIAATX Micromoles per litre
umol/l
Concentration of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212984
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRILWTX Individual NTRILWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212984
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZAATX Individual NTRZAATX Micromoles per litre
umol/l
Concentration of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212984
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZLWTX Individual NTRZLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212984
E Malcolm S Woodward, Plymouth Marine Laboratory
NVLTWL01 Individual NVLTWL01 Volts
V
Instrument output (voltage) by WET Labs optical backscatter meter 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
OPALWCP4 Individual OPALWCP4 Micromoles per litre
umol/l
Concentration of biogenic silica {opal} per unit volume of the water body [particulate >0.4um phase] by filtration, alkali hydrolysis and colorimetric analysis 212922
212919
William M Balch, Bigelow Laboratory for Ocean Sciences
OXYSSC01 Individual OXYSSC01 Percent
%
Saturation of oxygen {O2} in the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data and computation from concentration using Benson and Krause algorithm 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
P700A90Z_Zubkov Individual P700A90Z Number per millilitre
#/ml
Abundance of Synechococcus spp. (ITIS: 773: WoRMS 160572) per unit volume of the water body by automated flow cytometry 207136
Mike Zubkov, National Oceanography Centre, Southampton
P701A90Z_Zubkov Individual P701A90Z Number per millilitre
#/ml
Abundance of Prochlorococcus spp. (ITIS: 610076: WoRMS 345515) per unit volume of the water body by automated flow cytometry 207136
Mike Zubkov, National Oceanography Centre, Southampton
PERIHPP1 Individual PERIHPP1 Nanograms per litre
ng/l
Concentration of peridinin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
PHOSAATX Individual PHOSAATX Micromoles per litre
umol/l
Concentration of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212984
E Malcolm S Woodward, Plymouth Marine Laboratory
PHOSLWTX Individual PHOSLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 212984
E Malcolm S Woodward, Plymouth Marine Laboratory
POTMCV01 Individual POTMCV01 Degrees Celsius
degC
Potential temperature of the water body by computation using UNESCO 1983 algorithm 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
PRSXHPP1 Individual PRSXHPP1 Nanograms per litre
ng/l
Concentration of prasinoxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
PSALBSTX Individual PSALBSTX Dimensionless
Dmnless
Practical salinity of the water body by bench salinometer and computation using UNESCO 1983 algorithm 213733
Jonathan Short, National Marine Facilities Sea Systems
PSALCC01 Individual PSALCC01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
PSALCU01 Individual PSALCU01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
PSALCU02 Individual PSALCU02 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
SCHLFLPB Individual SCHLFLPB Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >2um phase] by filtration, acetone extraction and fluorometry 213083
Alex Poulton, National Oceanography Centre, Southampton
SCHLFLPF Individual SCHLFLPF Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate 0.2-2um phase] by filtration, acetone extraction and fluorometry 213083
Alex Poulton, National Oceanography Centre, Southampton
SDNTWCTX Individual SDNTWCTX Micromoles per litre
umol/l
Concentration standard deviation of nitrogen (total) per unit volume of the water body [dissolved plus reactive particulate phase] by oxidation and colorimetric autoanalysis 202878
Richard Sanders, National Oceanography Centre, Southampton
SDTPHP01 Individual SDTPHP01 Micromoles per litre
umol/l
Concentration standard deviation of phosphorus (total) per unit volume of the water body [dissolved plus reactive particulate phase] by oxidation and colorimetric autoanalysis 202878
Richard Sanders, National Oceanography Centre, Southampton
SIGTPR01 Individual SIGTPR01 Kilograms per cubic metre
kg/m^3
Sigma-theta of the water body by CTD and computation from salinity and potential temperature using UNESCO algorithm 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
SLCAAATX Individual SLCAAATX Micromoles per litre
umol/l
Concentration of silicate {SiO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 212984
E Malcolm S Woodward, Plymouth Marine Laboratory
TCO2MATX Individual TCO2MATX Micromoles per litre
umol/l
Concentration of carbon (total inorganic) {TCO2} per unit volume of the water body [dissolved plus reactive particulate phase] by manometry 226691
Paul Quay, University of Washington School of Oceanography
TEMPCU01 Individual TEMPCU01 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
TEMPCU02 Individual TEMPCU02 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
TOKGPR01 Individual TOKGPR01 Litres per kilogram
l/kg
Conversion factor (volume to mass) for the water body by CTD and computation of density (in-situ potential temperature surface pressure) reciprocal from pressure, temperature and salinity 222838
Unknown, British Oceanographic Data Centre Liverpool
TPHSPP01 Individual TPHSPP01 Micromoles per litre
umol/l
Concentration of phosphorus (total) per unit volume of the water body [dissolved plus reactive particulate phase] by oxidation and colorimetric analysis 202878
Richard Sanders, National Oceanography Centre, Southampton
TVLTDR01 Individual TVLTDR01 Volts
V
Instrument output (voltage) by 25cm path length red light transmissometer 231187
Claudia Castellani, British Oceanographic Data Centre Liverpool
VILXHPP1 Individual VILXHPP1 Nanograms per litre
ng/l
Concentration of violaxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
ZEOXHPP1 Individual ZEOXHPP1 Nanograms per litre
ng/l
Concentration of zeaxanthin per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and high performance liquid chromatography (HPLC) 212797
Alex Poulton, National Oceanography Centre, Southampton
Metadata information for: AMT16
Data Title Listing Option BODC Code Units Code Description Document Ref Originator Name and Institute
ACALAX01 Individual ACALAX01 Picomoles per cubic metre
pmol/m^3
Concentration of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCAXX01 Individual ACCAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACCLXX01 Individual ACCLXX01 Picomoles per cubic metre
pmol/m^3
Concentration of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACKXXX01 Individual ACKXXX01 Picomoles per cubic metre
pmol/m^3
Concentration of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMGXX01 Individual ACMGXX01 Picomoles per cubic metre
pmol/m^3
Concentration of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACMNAX01 Individual ACMNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNAXX01 Individual ACNAXX01 Picomoles per cubic metre
pmol/m^3
Concentration of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNH4X01 Individual ACNH4X01 Picomoles per cubic metre
pmol/m^3
Concentration of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNO3X01 Individual ACNO3X01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACNTCX01 Individual ACNTCX01 Picomoles per cubic metre
pmol/m^3
Concentration of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACPAER03 Individual ACPAER03 Picomoles per cubic metre
pmol/m^3
Concentration of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSFEX01 Individual ACSFEX01 Picomoles per cubic metre
pmol/m^3
Concentration of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSIAX01 Individual ACSIAX01 Picomoles per cubic metre
pmol/m^3
Concentration of silicate {SiO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACSO4X01 Individual ACSO4X01 Picomoles per cubic metre
pmol/m^3
Concentration of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ACZNAX01 Individual ACZNAX01 Picomoles per cubic metre
pmol/m^3
Concentration of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
AMONAATX Individual AMONAATX Micromoles per litre
umol/l
Concentration of ammonium {NH4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 213004
E Malcolm S Woodward, Plymouth Marine Laboratory
ASDALX01 Individual ASDALX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of aluminium (soluble) {Al} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDAMX01 Individual ASDAMX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of ammonium {NH4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCAX01 Individual ASDCAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of calcium {Ca} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDCLX01 Individual ASDCLX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of chloride {Cl-} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDFEX01 Individual ASDFEX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of iron (soluble) {Fe} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDKIX01 Individual ASDKIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of potassium {K} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMGX01 Individual ASDMGX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of magnesium {Mg} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDMNX01 Individual ASDMNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of manganese (soluble) {Mn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNAX01 Individual ASDNAX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sodium {Na} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDNIX01 Individual ASDNIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrate {NO3} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDPAE03 Individual ASDPAE03 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of phosphate {PO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSIX01 Individual ASDSIX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of silicate {SiO4} per unit volume of the atmosphere [aerosol phase] by filtration and spectrophotometry 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDSUX01 Individual ASDSUX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of sulphate {SO4} per unit volume of the atmosphere [aerosol phase] by filtration and ion chromatography 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDTNX01 Individual ASDTNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of nitrogen (total) per unit volume of the atmosphere [aerosol phase] by filtration and high temperature Pt catalytic oxidation 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ASDZNX01 Individual ASDZNX01 Picomoles per cubic metre
pmol/m^3
Concentration standard deviation of zinc (soluble) {Zn} per unit volume of the atmosphere [aerosol phase] by filtration and inductively-coupled plasma atomic emission spectroscopy 202694
Tim Jickells, University of East Anglia School of Environmental Sciences
ATTNDR01 Individual ATTNDR01 per metre
/m
Attenuance (red light wavelength) per unit length of the water body by 25cm path length red light transmissometer 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
C400E00B Individual C400E00B Milligrams per cubic metre
mg/m^3
Carbon biomass of flagellate [Size: 2-20um Subgroup: heterotrophic] per unit volume of the water body by DAPI/proflavine staining and epifluorescence microscopy and abundance to carbon conversion by unspecified algorithm 206976
Elaine Fileman, Plymouth Marine Laboratory
C804B6A6 Individual C804B6A6 Number per millilitre
#/ml
Abundance of Bacteria (ITIS: 202421: WoRMS 6) [Subgroup: heterotrophic; low nucleic acid cell content] per unit volume of the water body by automated flow cytometry 207153
Glen Tarran, Plymouth Marine Laboratory
CINGFA04 Individual CINGFA04 Micromoles per litre
umol/l
Concentration of carbon (inorganic) {PIC} per unit volume of the water body [particulate >0.4um phase] by filtration, acetone extraction and inductively-coupled plasma atomic emission spectroscopy 212889
212892
David Drapeau, Bigelow Laboratory for Ocean Sciences
CNDCST01 Individual CNDCST01 Siemens per metre
S/m
Electrical conductivity of the water body by CTD 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
CORGCAP1 Individual CORGCAP1 Micromoles per litre
umol/l
Concentration of carbon (organic) {POC} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 212766
212892
Alex Poulton, National Oceanography Centre, Southampton
David Drapeau, Bigelow Laboratory for Ocean Sciences
CORGCOF1 Individual CORGCOF1 Micromoles per litre
umol/l
Concentration of carbon (organic) {DOC} per unit volume of the water body [dissolved plus reactive particulate < GF/F phase] by filtration, acidification and high temperature Pt catalytic oxidation 202881
Richard Sanders, National Oceanography Centre, Southampton
CPHLFLP1 Individual CPHLFLP1 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate >GF/F phase] by filtration, acetone extraction and fluorometry 213021
Alex Poulton, National Oceanography Centre, Southampton
CPHLPM01 Individual CPHLPM01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and manufacturer's calibration applied 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
CPHLPS01 Individual CPHLPS01 Milligrams per cubic metre
mg/m^3
Concentration of chlorophyll-a {chl-a} per unit volume of the water body [particulate phase] by in-situ chlorophyll fluorometer and calibration against sample data Rob Thomas, British Oceanographic Data Centre Liverpool
D13CMITX Individual D13CMITX Parts per thousand
ppt
Enrichment of 13C in inorganic carbon in the water body [dissolved plus reactive particulate phase] by acidification and mass spectrometry 226861
Paul Quay, University of Washington School of Oceanography
D15NGCSD Individual D15NGCSD Parts per thousand
ppt
Enrichment standard deviation of 15N in nitrate in the water body [dissolved and reactive particulate phase phase] by denitrification to N2O by cultured bacteria and gas chromatography-mass spectrometry 230546
Daniel Sigman, Princeton University Department of Geosciences
D15NGCTX Individual D15NGCTX Parts per thousand
ppt
Enrichment of 15N in nitrate in the water body [dissolved and reactive particulate phase phase] by denitrification to N2O by cultured bacteria and gas chromatography-mass spectrometry 230546
Daniel Sigman, Princeton University Department of Geosciences
D17OMXWT Individual D17OMXWT Parts per thousand
ppt
Enrichment of 17O in water in the water body [water molecules phase] by mass spectrometry 230440
Boaz Luz, Hebrew University Jerusalem Institute of Earth Sciences
D18OGCSD Individual D18OGCSD Parts per thousand
ppt
Enrichment standard deviation of 18O in nitrate in the water body [dissolved and reactive particulate phase phase] by denitrification to N2O by cultured bacteria and gas chromatography-mass spectrometry 230546
Daniel Sigman, Princeton University Department of Geosciences
D18OGCTX Individual D18OGCTX Parts per thousand
ppt
Enrichment of 18O in nitrate in the water body [dissolved and reactive particulate phase phase] by denitrification to N2O by cultured bacteria and gas chromatography-mass spectrometry 230546
Daniel Sigman, Princeton University Department of Geosciences
D18OMXWT Individual D18OMXWT Parts per thousand
ppt
Enrichment of 18O in water in the water body [water molecules phase] by mass spectrometry 230440
Boaz Luz, Hebrew University Jerusalem Institute of Earth Sciences
DOXYSC01 Individual DOXYSC01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data 231190
Rob Thomas, British Oceanographic Data Centre Liverpool
DOXYSU01 Individual DOXYSU01 Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Sea-Bird SBE 43 sensor and no calibration against sample data 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
DOXYWITX Individual DOXYWITX Micromoles per litre
umol/l
Concentration of oxygen {O2} per unit volume of the water body [dissolved phase] by Winkler titration 213018
Nicola Gist, Plymouth Marine Laboratory
DWIRPP01 Individual DWIRPP01 Watts per square metre
W/m^2
Downwelling 2-pi scalar irradiance as energy (PAR wavelengths) in the water body by 2-pi scalar radiometer 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
FVLTPELN Individual FVLTPELN Volts
V
Instrument output (voltage) by linear-response phycoerythrin fluorometer 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
H2O2FICL Individual H2O2FICL Nanomoles per litre
nmol/l
Concentration of hydrogen peroxide (H2O2) per unit volume of the water body [dissolved plus reactive particulate phase phase] by flow-injection chemiluminescence 229852
Tony Bale, Plymouth Marine Laboratory
H2O2SDCL Individual H2O2SDCL Nanomoles per litre
nmol/l
Concentration standard deviation of hydrogen peroxide (H2O2) per unit volume of the water body [dissolved plus reactive particulate phase phase] by flow-injection chemiluminescence 229852
Tony Bale, Plymouth Marine Laboratory
J79A0596 Individual J79A0596 Number per millilitre
#/ml
Abundance of Cryptophyceae (ITIS: 10598: WoRMS 17639) per unit volume of the water body by automated flow cytometry 207153
Glen Tarran, Plymouth Marine Laboratory
NTOTCAP1 Individual NTOTCAP1 Micromoles per litre
umol/l
Concentration of nitrogen (total) {'PON'} per unit volume of the water body [particulate >GF/F phase] by filtration, acidification and elemental analysis 212766
Alex Poulton, National Oceanography Centre, Southampton
NTRIAATX Individual NTRIAATX Micromoles per litre
umol/l
Concentration of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 213004
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRILWTX Individual NTRILWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrite {NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 213004
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZAATX Individual NTRZAATX Micromoles per litre
umol/l
Concentration of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 213004
E Malcolm S Woodward, Plymouth Marine Laboratory
NTRZLWTX Individual NTRZLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of nitrate+nitrite {NO3+NO2} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 213004
E Malcolm S Woodward, Plymouth Marine Laboratory
NVLTWR01 Individual NVLTWR01 Volts
V
Instrument output (voltage) by WET Labs optical backscatter meter (red LED) 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
OPALWCP4 Individual OPALWCP4 Micromoles per litre
umol/l
Concentration of biogenic silica {opal} per unit volume of the water body [particulate >0.4um phase] by filtration, alkali hydrolysis and colorimetric analysis 212889
212892
David Drapeau, Bigelow Laboratory for Ocean Sciences
OXYSSC01 Individual OXYSSC01 Percent
%
Saturation of oxygen {O2} in the water body [dissolved phase] by Sea-Bird SBE 43 sensor and calibration against sample data and computation from concentration using Benson and Krause algorithm 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
P18318A9 Individual P18318A9 Number per millilitre
#/ml
Abundance of Bacteria (ITIS: 202421: WoRMS 6) [Subgroup: heterotrophic; high nucleic acid cell content] per unit volume of the water body by automated flow cytometry 207153
Glen Tarran, Plymouth Marine Laboratory
P400E00B Individual P400E00B Number per millilitre
#/ml
Abundance of flagellate [Size: 2-20um Subgroup: heterotrophic] per unit volume of the water body by DAPI/proflavine staining and epifluorescence microscopy 206976
Elaine Fileman, Plymouth Marine Laboratory
P490A00Z Individual P490A00Z Number per millilitre
#/ml
Abundance of Coccosphaerales (ITIS: 610061: WoRMS 115059) [Subgroup: coccolithophore] per unit volume of the water body by automated flow cytometry 207153
Glen Tarran, Plymouth Marine Laboratory
P700A90Z_Tarran Individual P700A90Z Number per millilitre
#/ml
Abundance of Synechococcus spp. (ITIS: 773: WoRMS 160572) per unit volume of the water body by automated flow cytometry 207153
Glen Tarran, Plymouth Marine Laboratory
P701A90Z_Tarran Individual P701A90Z Number per millilitre
#/ml
Abundance of Prochlorococcus spp. (ITIS: 610076: WoRMS 345515) per unit volume of the water body by automated flow cytometry 207153
Glen Tarran, Plymouth Marine Laboratory
PHOSAATX Individual PHOSAATX Micromoles per litre
umol/l
Concentration of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 213004
E Malcolm S Woodward, Plymouth Marine Laboratory
PHOSLWTX Individual PHOSLWTX Micromoles per litre
umol/l
Concentration (nM sensitivity) of phosphate {PO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis with liquid waveguide capilliary cell 213004
E Malcolm S Woodward, Plymouth Marine Laboratory
POTMCV01 Individual POTMCV01 Degrees Celsius
degC
Potential temperature of the water body by computation using UNESCO 1983 algorithm 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
POTMCV02 Individual POTMCV02 Degrees Celsius
degC
Potential temperature of the water body by computation using UNESCO 1983 algorithm 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
PSALBSTX Individual PSALBSTX Dimensionless
Dmnless
Practical salinity of the water body by bench salinometer and computation using UNESCO 1983 algorithm 213750
Jonathan Short, National Marine Facilities Sea Systems
PSALCC01 Individual PSALCC01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
PSALCC02 Individual PSALCC02 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
PSALCU01 Individual PSALCU01 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
PSALCU02 Individual PSALCU02 Dimensionless
Dmnless
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
PYEUA00A_Tarran Individual PYEUA00A Number per millilitre
#/ml
Abundance of picoeukaryotic cells per unit volume of the water body by automated flow cytometry 207153
Glen Tarran, Plymouth Marine Laboratory
SD13CMTX Individual SD13CMTX Parts per thousand
ppt
Enrichment standard deviation of 13C in inorganic carbon in the water body [dissolved plus reactive particulate phase phase] by acidification and mass spectrometry 226861
Paul Quay, University of Washington School of Oceanography
SIGTPR01 Individual SIGTPR01 Kilograms per cubic metre
kg/m^3
Sigma-theta of the water body by CTD and computation from salinity and potential temperature using UNESCO algorithm 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
SLCAAATX Individual SLCAAATX Micromoles per litre
umol/l
Concentration of silicate {SiO4} per unit volume of the water body [dissolved plus reactive particulate phase] by colorimetric autoanalysis 213004
E Malcolm S Woodward, Plymouth Marine Laboratory
TCO2CBSD Individual TCO2CBSD Micromoles per litre
umol/l
Concentration standard deviation of carbon (total inorganic) {TCO2} per unit volume of the water body [dissolved plus reactive particulate phase] by coulometry 226861
Paul Quay, University of Washington School of Oceanography
TCO2MATX Individual TCO2MATX Micromoles per litre
umol/l
Concentration of carbon (total inorganic) {TCO2} per unit volume of the water body [dissolved plus reactive particulate phase] by manometry 226861
Paul Quay, University of Washington School of Oceanography
TEMPCU01 Individual TEMPCU01 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
TEMPCU02 Individual TEMPCU02 Degrees Celsius
degC
Temperature of the water body by CTD and NO verification against independent measurements 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
TOKGPR01 Individual TOKGPR01 Litres per kilogram
l/kg
Conversion factor (volume to mass) for the water body by CTD and computation of density (in-situ potential temperature surface pressure) reciprocal from pressure, temperature and salinity 222838
Unknown, British Oceanographic Data Centre Liverpool
TURBPR01 Individual TURBPR01 Nephelometric Turbidity Units
NTU
Turbidity of the water body by in-situ optical backscatter measurement and laboratory calibration against formazin 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
UWIRPP01 Individual UWIRPP01 Watts per square metre
W/m^2
Upwelling 2-pi scalar irradiance as energy (PAR wavelengths) in the water body by 2-pi scalar radiometer 231190
Claudia Castellani, British Oceanographic Data Centre Liverpool
X726A86B Individual X726A86B Number per millilitre
#/ml
Abundance of nanoeukaryotic cells [Size: 2-12um] per unit volume of the water body by automated flow cytometry 207153
Glen Tarran, Plymouth Marine Laboratory
Date Output Produced: 02-Sep-2011