[{"dataset_parameter_nid":"744037","supplied_name":"sequence","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Ea sequential numerical identifier for each cruise, unique to this database.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1102","parameter_description":"\u003Cp\u003Ecruise designation; name\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"cruise_id","parameter_external_identifier":null,"parameter_short_description":"Cruise identifier","parameter_short_name":"cruise_id","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744038","supplied_name":"cruise_name","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Ea string consisting of: the EXPO number is listed first, followed by a colon, followed by colloquial cruise names, followed by a colon, followed by the ship name.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1929","parameter_description":"\u003Cp\u003EThe cruise_name is a local name chosen by project investigators for a research expedition on a vessel, as opposed to the formal\/official cruise ID asserted by the vessel operator.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"Cruise Name","parameter_external_identifier":null,"parameter_short_description":"cruise name","parameter_short_name":"cruise_name","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744039","supplied_name":"latitude","supplied_units":"decimal degrees","value_format":null,"description":"\u003Cp\u003Ethe latitude of the station in degrees North.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":null,"parameter_nid":"730","parameter_description":"\u003Cp\u003Elatitude, in decimal degrees, North is positive, negative denotes South; Reported in some datasets as degrees, minutes\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"latitude","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P09\/current\/LATX\/","parameter_short_description":"latitude","parameter_short_name":"lat","parameter_units":"decimal degrees","parameter_units_external_identifier":null,"order":null,"types":[{"type":"Primary latitude variable","dataset_parameter_type_nid":"744167","type_rankable":"0","type_tid":"23"}]},{"dataset_parameter_nid":"744040","supplied_name":"longitude","supplied_units":"decimal degrees","value_format":null,"description":"\u003Cp\u003Ethe longitude of the station in degrees East. Negative numbers indicate degrees West.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":null,"parameter_nid":"731","parameter_description":"\u003Cp\u003Elongitude, in decimal degrees, East is positive, negative denotes West; Reported in some datsets as degrees, minutes\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"longitude","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P09\/current\/LONX\/ ","parameter_short_description":"longitude","parameter_short_name":"lon","parameter_units":"decimal degrees","parameter_units_external_identifier":null,"order":null,"types":[{"type":"Primary longitude variable","dataset_parameter_type_nid":"744169","type_rankable":"0","type_tid":"24"}]},{"dataset_parameter_nid":"744041","supplied_name":"event","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Enumber of the event that the water samples were drawn from. Event is used when each cast in a cruise has its own unique number.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"829","parameter_description":"\u003Cp\u003EEvent or operation identifier; event or operation number; often derived from date\/time (MMDDHHmm) of sampling and when combined with year (YYYY) is a unique sampling identifier\/data processing key. Date\/time is not necessarily in GMT.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"event ","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/EVTAGFL\/","parameter_short_description":"event ","parameter_short_name":"event","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744042","supplied_name":"station","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Enumber of the station that the water samples were drawn from. Station is used when each station (location) in a cruise has its own unique number but multiple casts occurred at a given station number.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"987","parameter_description":"\u003Cp\u003EStation identifier; a unique number or alphanumeric string\u00a0designating a general geographic location at which one or more sampling activities may occur.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"station","parameter_external_identifier":null,"parameter_short_description":"station","parameter_short_name":"station","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744043","supplied_name":"cast","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Enumber of the cast at an individual station that the water samples were drawn from. Cast is used when multiple casts occurred at a given station number.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"761","parameter_description":"\u003Cp\u003Ecast or profile number\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"cast","parameter_external_identifier":null,"parameter_short_description":"cast","parameter_short_name":"cast","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744044","supplied_name":"niskin","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Enumber of the niskin bottle or rosette position that the water samples were drawn from.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"757","parameter_description":"\u003Cp\u003Ewater bottle number, generally assigned to a position on a CTD rosette, identifies all samples drawn from a given bottle\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"bottle","parameter_external_identifier":null,"parameter_short_description":"bottle","parameter_short_name":"bottle","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744045","supplied_name":"year","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Eyear; together the year, month, and day columns are the date that samples were collected.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":null,"parameter_nid":"1062","parameter_description":"\u003Cp\u003Eyear, reported as YYYY, e.g. 1995\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"year","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/YEARXXXX\/","parameter_short_description":"year","parameter_short_name":"year","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744046","supplied_name":"month","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Emonth; together the year, month, and day columns are the date that samples were collected.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":null,"parameter_nid":"1115","parameter_description":"\u003Cp\u003EMonth of year; numeric 1 to 12.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"month","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/MNTHXXXX\/","parameter_short_description":"month of year","parameter_short_name":"month","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744047","supplied_name":"day","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Eday; together the year, month, and day columns are the date that samples were collected.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":null,"parameter_nid":"1113","parameter_description":"\u003Cp\u003Eday of month; numeric 1 to 31\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"day","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/DAYXXXXX\/","parameter_short_description":"day of month","parameter_short_name":"day","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744048","supplied_name":"press","supplied_units":"decibars (dbar)","value_format":null,"description":"\u003Cp\u003Epressure in dbar\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"732","parameter_description":"\u003Cp\u003Ewater pressure at measurement; depth reported as pressure; positive number increasing with water depth\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"pressure","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/PRESPR01\/","parameter_short_description":"water pressure","parameter_short_name":"press","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744049","supplied_name":"CTDtemp","supplied_units":"degrees Celsius","value_format":null,"description":"\u003Cp\u003Ein situ temperature measured by the CTD in degrees C on the ITS-90 Temperature Scale.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"733","parameter_description":"\u003Cp\u003Ewater temperature at measurement depth\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"temperature","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/TEMPP901\/","parameter_short_description":"water temperature at measurement depth","parameter_short_name":"temp","parameter_units":"degrees Celsius, ITS 90","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744050","supplied_name":"CTDsal","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Esalinity measured by the CTD, expressed on the PSS-78 scale.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"955","parameter_description":"\u003Cp\u003ESalinity: The amount (mass or quantity of matter) of salt per amount (volume or mass) of a body of water.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"sal","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/PSALST01\/","parameter_short_description":"salinity","parameter_short_name":"sal","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744051","supplied_name":"analysis_lab","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Ea number indicating which lab the analyses were performed in. 1 = University of Victoria, 2 = Woods Hole Oceanographic Institution, 3 = Scripps Institution of Oceanography, 4 = University of Washington.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"2002","parameter_description":"\u003Cp\u003ELaboratory Id \u2013 Lab identifier where experiments were conducted\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"laboratory","parameter_external_identifier":null,"parameter_short_description":"laboratory","parameter_short_name":"laboratory","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744052","supplied_name":"secondary_analysis_lab","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Efor cruises where Ar concentration or N2\/Ar ratio were measured in more than one lab, this number indicates which lab the analyses listed in the \u0026quot;secondary\u0026quot; columns were performed in. 1 = University of Victoria, 2 = Woods Hole Oceanographic Institution, 3 = Scripps Institution of Oceanography, 4 = University of Washington.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"2002","parameter_description":"\u003Cp\u003ELaboratory Id \u2013 Lab identifier where experiments were conducted\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"laboratory","parameter_external_identifier":null,"parameter_short_description":"laboratory","parameter_short_name":"laboratory","parameter_units":"dimensionless","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744053","supplied_name":"He_conc","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved He concentration in umol\/kg. These concentration values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744054","supplied_name":"He_conc2","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved He concentration in umol\/kg (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744055","supplied_name":"Ne_conc","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved Ne concentration in umol\/kg. These concentration values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744056","supplied_name":"Ne_conc2","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved Ne concentration in umol\/kg (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744057","supplied_name":"Ar_conc","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved Ar concentration in umol\/kg. These concentration values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744058","supplied_name":"Ar_conc2","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved Ar concentration in umol\/kg (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744059","supplied_name":"Ar_conc_secondary","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Esame as for Ar_conc but data is from independent samples collected from the same cruise and analyzed in a second laboratory.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744060","supplied_name":"Ar_conc_secondary2","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Esame as for Ar_conc2 but data is from independent samples collected from the same cruise and analyzed in a second laboratory.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744061","supplied_name":"Kr_conc","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved Kr concentration in umol\/kg. These concentration values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744062","supplied_name":"Kr_conc2","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved Kr concentration in umol\/kg (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744063","supplied_name":"Xe_conc","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved Xe concentration in umol\/kg. These concentration values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744064","supplied_name":"Xe_conc2","supplied_units":"micromoles per kilogram (umol\/kg)","value_format":null,"description":"\u003Cp\u003Edissolved Xe concentration in umol\/kg (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744065","supplied_name":"Ne_Ar","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Edissolved Ne\/Ar ratio with no units. These ratio values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744066","supplied_name":"Ne_Ar2","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Edissolved Ne\/Ar ratio with no units (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744067","supplied_name":"Kr_Ar","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Edissolved Kr\/Ar ratio with no units. These ratio values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744068","supplied_name":"Kr_Ar2","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Edissolved Kr\/Ar ratio with no units (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744069","supplied_name":"N2_Ar","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Edissolved N2\/Ar ratio with no units. These ratio values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744070","supplied_name":"N2_Ar2","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Edissolved N2\/Ar ratio with no units (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744071","supplied_name":"N2_Ar_secondary","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Esame as for N2_Ar but data is from independent samples collected from the same cruise and analyzed in a second laboratory.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744072","supplied_name":"N2_Ar_secondary2","supplied_units":"unitless","value_format":null,"description":"\u003Cp\u003Esame as for N2_Ar2 but data is from independent samples collected from the same cruise and analyzed in a second laboratory.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1950","parameter_description":"\u003Cp\u003EDissolved noble gas concentration in the water column. Refer to dataset for element name and units. \u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"diss_noble_gas_conc","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P02\/current\/HEXC\/","parameter_short_description":"dissolved noble gas concentration","parameter_short_name":"diss_noble_gas_conc","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744073","supplied_name":"depth","supplied_units":"meters (m)","value_format":null,"description":"\u003Cp\u003Edepth in meters\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"808","parameter_description":"\u003Cp\u003EObservation\/sample depth below the sea surface. Units often reported as: meters, feet.\u003C\/p\u003E\n\u003Cp\u003E\nWhen used in a JGOFS\/GLOBEC dataset the depth is a best estimate; usually but not always calculated from pressure; calculated either from CTD pressure using Fofonoff and Millard (1982; UNESCO Tech Paper #44) algorithm adjusted for 1980 equation of state for seawater (EOS80) or simply equivalent to nominal depth as recorded during sampling if CTD pressure was unavailable.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"depth","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P09\/current\/DEPH\/","parameter_short_description":"depth","parameter_short_name":"depth","parameter_units":"various","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744074","supplied_name":"potential_temp","supplied_units":"degrees Celsius","value_format":null,"description":"\u003Cp\u003EPotential temperature in degrees C and referenced to the surface.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"936","parameter_description":"\u003Cp\u003Epotential temperature (International Practical Temperature Scale - 68 ,or 90). When known, the scale will be reported in the units field of the documentation file.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"potemp","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/POTMCV01\/","parameter_short_description":"potential temperature","parameter_short_name":"potemp","parameter_units":"degrees Celsius","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744075","supplied_name":"sigma_theta","supplied_units":"sigma units","value_format":null,"description":"\u003Cp\u003EPotential density of the seawater expressed in sigma units and referenced to the surface.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1727","parameter_description":"\u003Cp\u003Esigma_theta density. [The density calculated with in situ salinity, potential temperature, and pressure = 0, minus 1000 kg\/m3.\u00a0If a pressure reference level other than the surface is used, it will be indicated by using the reference level as the subscript\u00a0for sigma. When comparing the density of water samples from different depths, it is preferable to use sigma-theta. - added 11\/15\/2013, njc from the Naval Postgraduate School, \u003Ca href=\u0022http:\/\/www.oc.nps.edu\/nom\/day1\/parta.html]\u0022\u003Ehttp:\/\/www.oc.nps.edu\/nom\/day1\/parta.html]\u003C\/a\u003E\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":"nd","parameter_official_name":"sigma_theta","parameter_external_identifier":null,"parameter_short_description":"sigma-theta potential density","parameter_short_name":"sigma_theta","parameter_units":"kilograms per meter cubed - 1000","parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744076","supplied_name":"Hesat","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of He in percent. 0% indicates that the He concentration is equal to that expected at equilibrium for the potential temperature and salinity of the water. ie. Hesat = (He\/Heeq - 1) *100 The He saturation anomaly is calculated relative to the solubility curve of Weiss, R.F. (1971) \u0026quot;Solubility of Helium and Neon in Water and Seawater\u0026quot;, Journal of Chemical and Engineering Data, 16(2), 235-241. These saturation anomaly values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744077","supplied_name":"Hesat2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of He in percent (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744078","supplied_name":"Nesat","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Ne in percent. 0% indicates that the Ne concentration is equal to that expected at equilibrium for the potential temperature and salinity of the water. ie. Nesat = (Ne\/Neeq - 1) *100  The Ne saturation anomaly is calculated relative to the solubility curve of Hamme, R.C., S.R. Emerson (2004) \u0026quot;The solubility of neon, nitrogen and argon in distilled water and seawater\u0026quot;, Deep-Sea Research I, 51(11), p. 1517-1528. These saturation anomaly values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744079","supplied_name":"Nesat2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Ne in percent (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744080","supplied_name":"Arsat","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Ar in percent. 0% indicates that the Ar concentration is equal to that expected at equilibrium for the potential temperature and salinity of the water.  ie. Arsat = (Ar\/Areq - 1) *100  The Ar saturation anomaly is calculated relative to the solubility curve of Hamme, R.C., S.R. Emerson (2004) \u0026quot;The solubility of neon, nitrogen and argon in distilled water and seawater\u0026quot;, Deep-Sea Research I, 51(11), p. 1517-1528. These saturation anomaly values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744081","supplied_name":"Arsat2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Ar in percent (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744082","supplied_name":"Arsat_secondary","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003Esame as for Arsat but data is from independent samples collected from the same cruise and analyzed in a second laboratory\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744083","supplied_name":"Arsat_secondary2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003Esame as for Arsat2 but data is from independent samples collected from the same cruise and analyzed in a second laboratory\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744084","supplied_name":"Krsat","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Kr in percent. 0% indicates that the Kr concentration is equal to that expected at equilibrium for the potential temperature and salinity of the water. ie. Krsat = (Kr\/Kreq - 1) *100 Kr saturation anomaly is calculated relative to the solubility curve of Weiss, R.F., and T.K. Kyser (1978) \u0022Solubility of Krypton in Water and Seawater\u0022, Journal of Chemical Thermodynamics, 23(1), 69-72. These saturation anomaly values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0027s value is listed in the second column with the same label appended with \u00222\u0022.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":null,"parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744085","supplied_name":"Krsat2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Kr in percent (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744086","supplied_name":"Xesat","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Xe in percent. 0% indicates that the He concentration is equal to that expected at equilibrium for the potential temperature and salinity of the water. ie. Xesat = (Xe\/Xeeq - 1) *100\u00a0 The Xe saturation anomaly is calculated relative to the solubility curve of D. Wood and R. Caputi (1966) \u0022Solubilities of Kr and Xe in fresh and sea water\u0022, U.S. Naval Radiological Defense Laboratory, Technical Report USNRDL-TR-988, San Francisco, CA, pp. 14.\u00a0These saturation anomaly values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0027s value is listed in the second column with the same label appended with \u00222\u0022.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":null,"parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744087","supplied_name":"Xesat2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Xe in percent (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744088","supplied_name":"Ne_Arsat","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Ne\/Ar ratio in percent. 0% indicates that the Ne\/Ar ratio is equal to that expected at equilibrium for the potential temperature and salinity of the water, ie. Ne\/Arsat = ((Ne\/Ar) \/ (Neeq\/Areq) - 1) * 100.  Ne\/Ar saturation anomaly is calculated relative to the solubility curves of Hamme, R.C., S.R. Emerson (2004) \u0026quot;The solubility of neon, nitrogen and argon in distilled water and seawater\u0026quot;, Deep-Sea Research I, 51(11), p. 1517-1528. These saturation anomaly values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744089","supplied_name":"Ne_Arsat2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Ne\/Ar ratio in percent (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744090","supplied_name":"Kr_Arsat","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Kr\/Ar ratio in percent. 0% indicates that the Kr\/Ar ratio is equal to that expected at equilibrium for the potential temperature and salinity of the water, ie. Kr\/Arsat = ((Kr\/Ar) \/ (Kreq\/Areq) - 1) * 100. Kr\/Ar saturation anomaly is calculated relative to the Ne solubility curve of Hamme, R.C., S.R. Emerson (2004) \u0022The solubility of neon, nitrogen and argon in distilled water and seawater\u0022, Deep-Sea Research I, 51(11), p. 1517-1528 and the Kr solubility curve of Weiss, R.F., and T.K. Kyser (1978) \u0022Solubility of Krypton in Water and Seawater\u0022, Journal of Chemical Thermodynamics, 23(1), 69-72. These saturation anomaly values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0027s value is listed in the second column with the same label appended with \u00222\u0022.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":null,"parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744091","supplied_name":"Kr_Arsat2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of Kr\/Ar ratio in percent (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744092","supplied_name":"N2_Arsat","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of N2\/Ar ratio in percent.  0% indicates that the N2\/Ar ratio is equal to that expected at equilibrium for the potential temperature and salinity of the water, ie. N2Arsat = ((N2\/Ar) \/ (N2eq\/Areq) - 1) * 100.  N2\/Ar saturation anomaly is calculated relative to the solubility curves of Hamme, R.C., S.R. Emerson (2004) \u0026quot;The solubility of neon, nitrogen and argon in distilled water and seawater\u0026quot;, Deep-Sea Research I, 51(11), p. 1517-1528. These saturation anomaly values are from individual samples. Where a duplicate from the same Niskin was collected and analyzed, the duplicate\u0026#039;s value is listed in the second column with the same label appended with \u0026quot;2\u0026quot;.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744093","supplied_name":"N2_Arsat2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003ESaturation anomaly of N2\/Ar ratio in percent (duplicate value)\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744094","supplied_name":"N2Arsat_secondary","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003Esame as for N2_Arsat but data is from independent samples collected from the same cruise and analyzed in a second laboratory.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"744095","supplied_name":"N2Arsat_secondary2","supplied_units":"unitless (percent)","value_format":null,"description":"\u003Cp\u003Esame as for N2_Arsat2 but data is from independent samples collected from the same cruise and analyzed in a second laboratory.\u003C\/p\u003E\n","no_data_value":"nd","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1073","parameter_description":"\u003Cp\u003EAn association with a community-wide standard parameter has not yet been made.\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"no_bcodmo_term","parameter_external_identifier":null,"parameter_short_description":"No BCO-DMO term","parameter_short_name":"no_bcodmo_term","parameter_units":null,"parameter_units_external_identifier":null,"order":null},{"dataset_parameter_nid":"868692","supplied_name":"Date","supplied_units":"unitless","value_format":"YYYY-mm-dd","description":"\u003Cp\u003EDate in format YYYY-MM-DD\u003C\/p\u003E\n","no_data_value":"NaN","conversion_necessary":"no","conversion_utility":"","parameter_nid":"1070","parameter_description":"\u003Cp\u003Edate; generally reported in GMT as YYYYMMDD (year; month; day); also as MMDD (month; day); EqPac dates are local Hawaii time. ISO_Date format is YYYY-MM-DD (\u003Ca href=\u0022http:\/\/www.iso.org\/iso\/home\/standards\/iso8601.htm\u0022 target=\u0022_blank\u0022\u003Ehttp:\/\/www.iso.org\/iso\/home\/standards\/iso8601.htm\u003C\/a\u003E)\u003C\/p\u003E\n","parameter_max_value":null,"parameter_min_value":null,"parameter_nd_value":null,"parameter_official_name":"date","parameter_external_identifier":"http:\/\/vocab.nerc.ac.uk\/collection\/P01\/current\/ADATAA01\/","parameter_short_description":"date","parameter_short_name":"date","parameter_units":null,"parameter_units_external_identifier":null,"data_type_label":"String","data_type_tid":"1077","data_type_erddap":"String","data_type_frictionlessdata":"string","order":null,"types":[{"type":"Primary ISODateTime variable","dataset_parameter_type_nid":"868693","type_rankable":"0","type_tid":"148"}]}]