BCO-DMO | ERDDAP - bcodmo_dataset_668083

Row Type	Variable Name	Attribute Name	Data Type	Value
attribute	NC_GLOBAL	access_formats	String	.htmlTable,.csv,.json,.mat,.nc,.tsv,.esriCsv,.geoJson,.odvTxt
attribute	NC_GLOBAL	acquisition_description	String	1\\. Sampling:\n \nSize-fractionated particles were collected using McLane Research in-situ pumps\n(WTS-LV) that had been modified to accommodate two flowpaths (Ohnemus and Lam,\n2015). \\u00a0Typically, two casts of 8 pumps each and two filter holders per\npump were deployed to collect a 16-depth profile. \\u00a0At superstations,\nthree casts were deployed to collect a 24-depth profile. \\u00a0The wire-out\nwas used to target nominal depths during deployment. A self-recording Seabird\n19plus CTD was deployed at the end of the line and used to verify target\ndepths.\\u00a0\n \nFilter holders used were 142 mm-diameter \\u201cmini-MULVFS\\u201d style filter\nholders with two stages for two size fractions and multiple baffle systems\ndesigned to ensure even particle distribution and prevent particle loss\n(Bishop et al., 2012). \\u00a0One filter holder/flowpath was loaded with a 51um\nSefar polyester mesh prefilter followed by paired Whatman QMA quartz fiber\nfilters. The other filter holder/flowpath was also loaded with a 51um\nprefilter, but followed by paired 0.8um Pall Supor800 polyethersulfone\nfilters. All filters and filter holders were acid leached prior to use\naccording to methods recommended in the GEOTRACES sample and sample-handing\nProtocols (GEOTRACES, 2010). \\u00a0QMA filters were additionally precombusted\nat 450 deg C for four hours.\n \nEach cast also had a full set of \\u201cdipped blank\\u201d filters deployed.\n\\u00a0In the first half of the cruise, these were the full filters sets (51 um\nprefilter followed by paired QMA or paired Supor filters) loaded in mini-\nMULVFS filter holders that were mounted on a pump with a specially designed\ndipped blank plate to accommodate two extra filter holders not connected to\nthe pump. \\u00a0A 0.2 um Supor prefilter above the filter set excluded any\nparticles that may have been present in seawater in the filter holder\nheadspace. \\u00a0At station 21, the specially designed plate (along with the\nfilter holders) was lost at sea when the ship lost power, so subsequent dipped\nblank filters were the full filter sets sandwiched within a 1um polyester mesh\nfilter, loaded into acid-leached perforated polypropylene containers, and\nattached with plastic cable ties to a pump frame, and deployed. \\u00a0All\ndipped blank filters were exposed to seawater for the length of the deployment\nand processed and analyzed as regular samples, and thus functioned as full\nseawater process blanks. \\u00a0A total of 58 dipped blank filter sets were\ncollected and used for blank subtraction and determination of uncertainty and\ndetection limit (Table 1).\n \nIn this dataset, data reported from the 51um prefilter are referred to with a\nLPT suffix to indicate large particulate total concentrations (>51um); data\nreported from the main filters (QMA\\u20141-51um\\u2014or Supor\\u20140.8 um-\n51um) are from the top filter of the pair only, and are referred to with a SPT\nsuffix to indicate the small particulate total concentrations.\n \n2\\. Analytical Methodology and Data Processing:\\u00a0\n \nFor all parameters described below, the median dipped blank value (Table 1)\nwas subtracted. \\u00a0For most parameters, we could not routinely run\nreplicates, so the reported error is determined from the standard deviation of\ndipped blank filters (Table 1), converted to concentrations using volume\nfiltered. \\u00a0This assumes that the blank subtraction is the largest source\nof error. \\u00a0The detection limit was defined as three times the standard\ndeviation of the dipped blank filters. \\u00a0Values below the detection limit\nwere flagged as QF=4. The percentage of all samples that fell below the\ndetection limit is listed in Table 1 for each parameter and size fraction.\n\\u00a0Any variations on the methods for blank subtraction or determination of\nerror are further described for each parameter, as necessary.\n \n2.1. Biogenic Silica and Opal\n \n2.1.1 Analytical methodology for biogenic silica\n \nA 1/16 subsample of the top 0.8um Supor filter, equivalent to ~30L, or of the\n51um polyester prefilter above the QMA filter, equivalent to ~60L, was\nanalyzed for amorphous/biogenic Si concentrations using spectrophotometric\ndetection of the blue silico-molydate complex following an alkaline (0.2M\nNaOH) leach at 85 deg C. \\u00a0Some initial stations were run manually on a\nShimadzu UV-2550 UV-VIS Spectrophotometer at WHOI, but most samples were run\non a Lachat QuikChem 8000 Flow Injection Analyzer at UCSC. \\u00a0The principle\nof both methods is the same, except that formation of the silico-molybdate\ncomplex reaction is allowed to run to completion before spectrophotometric\ndetection in the manual method (WHOI), whereas the reaction occurs online in\nthe flow injection method (UCSC).\n \nA time-series approach was tested for the WHOI leaches, with four timepoints\ntaken after 1, 2, 3, and 4 hours of leaching. \\u00a0There was little evidence\nof a systematic lithogenic contribution, so the mean of the first three\ntimepoints from the WHOI leaches was taken as the most representative value,\nand the standard deviation used in the error estimate. \\u00a0Subsequent\nsamples at UCSC were leached for 1 hr only.\n \n2.1.2 Data Processing\n \nIntercomparability of the WHOI and UCSC methods was assessed by checking that\nthe bSi profiles of stations with samples analyzed at both places were\noceanographically consistent.\n \nThe median of Supor dipped blank filters were used to correct the SPT data.\n\\u00a0For >51 um LPT samples on polyester prefilters, blank corrections were\nmade using the median failed pump values (pumps that never turned on, or that\nshut off after <5% of programmed water volume was filtered) because of\nanomalously high prefilter dipped blank values. Anomalously high prefilter\ndipped blank bSi values was also observed for the GA03 NAZT section. \\u00a0\n \nThe reported error was determined as the standard deviation of bSi on the\ndipped blank filters, converted to concentrations using volume filtered. For\nsamples run at WHOI only, the standard deviation of the three timepoints was\nalso propagated into the error estimate.\n \n2.1.3 Derived parameters: OPAL\n \nThe mass of opal was calculated assuming a hydrated form of silica: SiO2.(0.4\nH2O) (Mortlock and Froelich, 1989), or 67.2 g opal/mol bSi:\n \nOPAL [ug/L] = bSi [uM] 67.2 [ug opal/umol bSi]\n \n2.2 Particulate Organic Carbon (POC), Particulate Nitrogen (PN), POM,\n\\u03b413C, and d15N\n \n2.2.1 Analytical methodology for POC, PN, \\u03b413C, and d15N\n \nParticulate organic carbon and particulate nitrogen were measured by\ncombustion on an elemental analyzer after fuming with concentrated HCl to\nremove particulate inorganic carbon. \\u00a0Briefly, dried filter samples were\nexposed to HCl fumes in a dessicator for ~16 hours. After fuming, filters were\ndried at 60 deg C in an oven for another ~16 hrs before being pelletized in\ntin discs. POC from suspended particles (1-51um; SPT) were measured using a\nFlash EA1112 Carbon/Nitrogen Analyzer using a Dynamic Flash Combustion\ntechnique at the WHOI Nutrient Analytical Facility on two 12 mm-diameter\npunches from the top QMA filter, representing the equivalent of ~20L of\nmaterial. For the >51um size fraction (LPT), particles from the 51um polyester\nprefilter above the Supor filter were rinsed at sea with 1um-filtered seawater\nonto a 25mm 1.2 um Sterlitech Ag filter and dried at 60 deg C. \\u00a0Half of\nthe Ag filter containing rinsed LPT particles, typically representing ~200L of\nmaterial, was analyzed for POC and PN using either a Carlo Erba 1108 or a CE\nInstruments NC2500 elemental analyzer interfaced to a ThermoFinnigan Delta\nPlus XP isotope ratio mass spectrometer at the Stable Isotope Laboratory at\nUCSC, which also gave the C and N stable isotope composition of the LPT\nparticles.\n \n2.2.2 Data Processing\n \nIntercomparability of the WHOI and UCSC datasets was assessed by checking that\na POC_SPT profile that had samples analyzed at both places was\noceanographically consistent.\n \nFor POC and PN in the small size fraction, the standard deviation of 47 dipped\nblank QMA filters used for blank subtraction. \\u00a0For POC and PN in the\nlarge size fractions \\u00a0(>51 um; POC_LPT, PN_LPT), we found that the\nvariability in the dipped blank increased significantly after station 21\n(i.e., after the loss of the dipped blank plate and switching to the\nperforated plastic holder for the dipped blanks), especially for the deeper\ncasts. \\u00a0We therefore use the median and standard deviation of 25 dipped\nblanks from before station 21 for blank subtraction and error estimation\n(Table 1).\\u00a0\n \nThe stable isotopic composition of C (\\u03b413C) and N (d15N ) for the large\nsize fraction LPT particles are given as raw values (_raw), and corrected for\nthe dipped blank (_dbcorr) using the median isotopic composition of the\ndipped blanks (Table 1). Measurement precision is 0.2 permil for samples\ngreater than 20 mg C (1.7 mmol C) or 20 mg N (1.4 mmol N). \\u00a0Only three\nsamples did not meet this threshold for LPT C, but 77% of LPT samples did not\nmeet this threshold for N. \\u00a0d15N values for samples below the 20 mg N\nthreshold were assigned a QF=4.\n \n2.2.3 Derived parameters: POM\n \nParticulate organic matter (POM) is calculated from POC using a weight ratio\nof 1.88 g POM/g POC (Lam et al., 2011).\n \nPOM [mg/L] = POC [mM] 12 [mg POC/mmol POC] * 1.88 [g POM/g POC]\n \n2.3 Particulate Inorganic Carbon (PIC) and CaCO3\n \n2.3.1 Analytical methodology for PIC\n \nPIC was measured directly by coulometry (measurement of CO2 following closed-\nsystem conversion of PIC to CO2 upon addition of 1N phosphoric acid (WHOI) or\n2 N sulfuric acid (UCSC) to a QMA punch or 1/16 polyester prefilter) (Honjo et\nal., 1995)\n \n2.3.2 Data Processing\n \nIntercomparability of the WHOI and UCSC datasets was assessed by checking that\na PIC_LPT profile that had samples analyzed at both places was\noceanographically consistent. \\u00a0 Blank subtraction, error calculation, and\ndetection limit determined as described at beginning of section 2.\n \n2.3.3 Derived parameters: CaCO3\n \nThe mass of CaCO3 is calculated stoichiometrically from the mass of PIC:\n \nCaCO3 [ug/L] = PIC [umol/L] * 100.08 [mg CaCO3/mmol PIC]\n \n2.4 Particulate trace metals (pTM)\n \n2.4.1 Analytical methodology for pTMs\n \nTotal pTM concentrations in the SPT were analyzed from either 1/16 or 1/8\nsubsamples of the top Supor (0.8um) filter. \\u00a0pTM totals in the LPT were\nanalyzed from 1/8 subsamples (typically ~150L) of the QMA-side 51um pre-\nfilter, which were rinsed at sea onto 25mm Supor (0.8um) filter discs using 0\n.2um-filtered surface seawater collected using clean techniques from an\nunderway Fish system (Bruland et al., 2005). \\u00a0Methods for particulate\ntrace metal (pTM) digestion and analysis followed those described in (Ohnemus\nand Lam, 2015). \\u00a0Briefly, the Supor filter matrix was first completely\ndigested with the strongly oxidizing Piranha solution, a 3:1 mixture of\nsulfuric acid and hydrogen peroxide with 1 ppb Rh as a recovery monitor.\n\\u00a0After drying down, remaining particles were digested in a mixture of\nHCl/HNO3/HF acids (all acids at 4 M) at 135\\u02daC for 4 hrs, then dried down.\nRemaining pellet was reacted with 50% HNO3/15% H2O2 to remove any remaining\norganics, dried, and resuspended in 5% HNO3\\u00ad with 1 ppb In as an internal\nstandard for analysis via high-resolution Inductively Coupled Mass\nSpectrometetry (HR-ICP-MS) using an Element-XR ICP-MS (Thermo Scientific) with\nSC-FAST (Elemental Scientific) sample introduction system and PC3 Peltier\ncooled quartz cyclonic spray chamber in the UCSC Plasma Analytical Facility.\nICP-MS (Element XR, Thermo-Finnigan). \\u00a0Elemental concentrations were\nstandardized using multi-element, external standard curves prepared from NIST\natomic absorption-standards in 5% HNO3\\u00ad. \\u00a0Instrument drift and\nmatrix effects were corrected using the internal 1ppb In standard and\nmonitored using a mixed element run standard. \\u00a0Concentrations were\ndetermined using external standard curves of mixed trace elements standards.\n \nA subset of samples were repeated in which samples were redigested and/or\nrerun.\n \n2.4.2 Data processing\n \nThe reported error is calculated by propagating the two main sources of\nuncertainty: uncertainty in the dipped blank subtraction, and the combined\nuncertainty due to heterogeneity in particle distribution and variations in\ndigestion. \\u00a0The former is determined as the standard deviation of the\ndipped blank filters. The latter is determined from the maximum of the mean\nrelative standard deviation of all repeat samples for that element if no\nrepeats were run, and the actual standard deviation if repeats were run.\n\\u00a0For most elements, the uncertainty in the blank subtraction was the\nlargest source of uncertainty (Figure 1).\n \n2.4.3 Derived parameters\n \n2.4.3.1 Lithogenic material\n \nAl is usually used as a tracer of lithogenic material since it is the third\nmost abundant element in Earth\\u2019s crust after Si and O. \\u00a0Al has the\nadded advantage that its concentration does not vary much between upper\ncontinental crust (UCC Al = 8.04% by weight) and bulk continental crust (BCC\nAl = 8.41wt%), so the estimate of lithogenic mass is not very sensitive to\nlithogenic source regions (Taylor and McLennan, 1995). \\u00a0Slopes of Fe vs\nAl (10.3 mol Fe/mol Al) and Fe vs Ti (0.23 mol Fe/mol Ti) for samples\ndominated by lithogenic material (Station 1 trench) gave slopes that were very\nsimilar to UCC crustal ratios (Fe/AlUCC=10.0 and Fe/TiUCC-0.21; compare to\nFe/AlBCC=11.2 and Fe/TiBCC-0.41). \\u00a0We therefore use the UCC Al\nconcentration of 8.04% to calculate lithogenic mass.\n \nLITHO \\u00a0[ug/L] = Al [pM] * 27 [pg/pmol] / 0.0804 [ug Al/mg UCC] * [1ug/1e6\npg]\n \n2.4.3.2 Fe and Mn oxyhydroxides\n \nFe and Mn in oxyhydroxides were calculated by subtracting Fe and Mn associated\nwith lithogenic material. \\u00a0Although Ti may be a better tracer for\nlithogenic Fe and Mn than Al as the ratios of Fe and Mn to Ti are less\nsensitive to source than ratios to Al (Lam et al., 2015), Ti concentrations\nwere very low and often below the detection limit for this transect. \\u00a0We\nverified that the UCC Fe:Al=0.210 mol/mol and Mn:Al=0.00355 mol/mol ratios\n(Taylor and McLennan, 1995) compared well with Fe:Al in the most lithogenic-\nrich sample in our dataset\\u2014the deepest samples in the Peru Trench, which\nhad Fe:Al=0.227. \\u00a0We thus used the UCC ratios of Fe and Mn to Al to\nremove lithogenic Fe and Mn, We approximate the formulae for Fe and Mn\noxyhydroxides to be Fe(OH)3 (ferrihydrite approximation) and MnO2 (birnessite\napproximation), with formula weights 106.9 g Fe(OH)3/mol Fe and 86.9 g\nMnO2/mol Mn, respectively. Negative numbers were set to 0.\n \nFeOH3 [ug/L] = (Fe [pM] \\u2013 (Al [pM] * 0.210 [pmol Fe/pmol Al]) ) * 106.9\n[pg Fe(OH)3/ pmol \\u00a0Fe] * [1ug/1e6 pg])\n \nMnO2 [ug/L] = (Mn [pM] \\u2013 (Al [pM] * 0.00367 [pmol Mn/pmol Al]) ) \n \n86.9 [pg MnO2/pmol Mn] [1ug/1e6 pg])\n \n2.5 Suspended particulate mass (SPM)\n \nSuspended particulate mass in the sinking (>51um) and suspended (1-51um) size\nfractions was estimated as the chemical dry weight of the major particulate\nphases, which is the sum of POM, opal, CaCO3, lithogenic material, and Fe and\nMn oxyhydroxides, and is calculated as:\n \nSPM [mg/L] = POM [ug/L] + opal [ug/L] + CaCO3 [ug/L] + Litho [ug/L] + Fe(OH)3\n[ug/L] + MnO2 [ug/L]\n \nNote that the resolution of this data is dictated by the lowest resolution of\nthe component parts.
attribute	NC_GLOBAL	awards_0_award_nid	String	668084
attribute	NC_GLOBAL	awards_0_award_number	String	OCE-1518110
attribute	NC_GLOBAL	awards_0_data_url	String	http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=1518110
attribute	NC_GLOBAL	awards_0_funder_name	String	NSF Division of Ocean Sciences
attribute	NC_GLOBAL	awards_0_funding_acronym	String	NSF OCE
attribute	NC_GLOBAL	awards_0_funding_source_nid	String	355
attribute	NC_GLOBAL	awards_0_program_manager	String	Henrietta N Edmonds
attribute	NC_GLOBAL	awards_0_program_manager_nid	String	51517
attribute	NC_GLOBAL	cdm_data_type	String	Other
attribute	NC_GLOBAL	comment	String	GEOTRACES EPZT - Particle Composition \n Phoebe Lam et. al. \n Version: 24 January 2017 (corrected ISO_DateTime_ISO for events 4013 and 4150) \n replaces Version 3 January 2017
attribute	NC_GLOBAL	Conventions	String	COARDS, CF-1.6, ACDD-1.3
attribute	NC_GLOBAL	creator_email	String	info at bco-dmo.org
attribute	NC_GLOBAL	creator_name	String	BCO-DMO
attribute	NC_GLOBAL	creator_type	String	institution
attribute	NC_GLOBAL	creator_url	String	https://www.bco-dmo.org/
attribute	NC_GLOBAL	data_source	String	extract_data_as_tsv version 2.3 19 Dec 2019
attribute	NC_GLOBAL	date_created	String	2016-12-02T18:02:48Z
attribute	NC_GLOBAL	date_modified	String	2020-03-24T16:23:13Z
attribute	NC_GLOBAL	defaultDataQuery	String	&time<now
attribute	NC_GLOBAL	doi	String	10.1575/1912/bco-dmo.668083.1
attribute	NC_GLOBAL	Easternmost_Easting	double	-77.376
attribute	NC_GLOBAL	geospatial_lat_max	double	-10.5004
attribute	NC_GLOBAL	geospatial_lat_min	double	-15.99933333
attribute	NC_GLOBAL	geospatial_lat_units	String	degrees_north
attribute	NC_GLOBAL	geospatial_lon_max	double	-77.376
attribute	NC_GLOBAL	geospatial_lon_min	double	-151.9995167
attribute	NC_GLOBAL	geospatial_lon_units	String	degrees_east
attribute	NC_GLOBAL	infoUrl	String	https://www.bco-dmo.org/dataset/668083
attribute	NC_GLOBAL	institution	String	BCO-DMO
attribute	NC_GLOBAL	instruments_0_acronym	String	CTD Sea-Bird
attribute	NC_GLOBAL	instruments_0_dataset_instrument_description	String	Used to for sampling and to verify target depths
attribute	NC_GLOBAL	instruments_0_dataset_instrument_nid	String	668435
attribute	NC_GLOBAL	instruments_0_description	String	Conductivity, Temperature, Depth (CTD) sensor package from SeaBird Electronics, no specific unit identified. This instrument designation is used when specific make and model are not known. See also other SeaBird instruments listed under CTD. More information from Sea-Bird Electronics.
attribute	NC_GLOBAL	instruments_0_instrument_external_identifier	String	https://vocab.nerc.ac.uk/collection/L05/current/130/
attribute	NC_GLOBAL	instruments_0_instrument_name	String	CTD Sea-Bird
attribute	NC_GLOBAL	instruments_0_instrument_nid	String	447
attribute	NC_GLOBAL	instruments_0_supplied_name	String	self-recording Seabird 19plus CTD
attribute	NC_GLOBAL	instruments_1_acronym	String	IR Mass Spec
attribute	NC_GLOBAL	instruments_1_dataset_instrument_description	String	Used to measure C and N stable isotopes
attribute	NC_GLOBAL	instruments_1_dataset_instrument_nid	String	668441
attribute	NC_GLOBAL	instruments_1_description	String	The Isotope-ratio Mass Spectrometer is a particular type of mass spectrometer used to measure the relative abundance of isotopes in a given sample (e.g. VG Prism II Isotope Ratio Mass-Spectrometer).
attribute	NC_GLOBAL	instruments_1_instrument_external_identifier	String	https://vocab.nerc.ac.uk/collection/L05/current/LAB16/
attribute	NC_GLOBAL	instruments_1_instrument_name	String	Isotope-ratio Mass Spectrometer
attribute	NC_GLOBAL	instruments_1_instrument_nid	String	469
attribute	NC_GLOBAL	instruments_1_supplied_name	String	ThermoFinnigan Delta Plus XP isotope ratio mass spectrometer
attribute	NC_GLOBAL	instruments_2_acronym	String	CHN
attribute	NC_GLOBAL	instruments_2_dataset_instrument_description	String	POC was measured
attribute	NC_GLOBAL	instruments_2_dataset_instrument_nid	String	668439
attribute	NC_GLOBAL	instruments_2_description	String	A unit that accurately determines the carbon and nitrogen concentrations of organic compounds typically by detecting and measuring their combustion products (CO2 and NO).
attribute	NC_GLOBAL	instruments_2_instrument_name	String	Particulate Organic Carbon/Nitrogen Analyzer
attribute	NC_GLOBAL	instruments_2_instrument_nid	String	654
attribute	NC_GLOBAL	instruments_2_supplied_name	String	Flash EA1112 Carbon/Nitrogen Analyzer
attribute	NC_GLOBAL	instruments_3_acronym	String	FIA
attribute	NC_GLOBAL	instruments_3_dataset_instrument_description	String	Ran samples
attribute	NC_GLOBAL	instruments_3_dataset_instrument_nid	String	668438
attribute	NC_GLOBAL	instruments_3_description	String	An instrument that performs flow injection analysis. Flow injection analysis (FIA) is an approach to chemical analysis that is accomplished by injecting a plug of sample into a flowing carrier stream. FIA is an automated method in which a sample is injected into a continuous flow of a carrier solution that mixes with other continuously flowing solutions before reaching a detector. Precision is dramatically increased when FIA is used instead of manual injections and as a result very specific FIA systems have been developed for a wide array of analytical techniques.
attribute	NC_GLOBAL	instruments_3_instrument_external_identifier	String	https://vocab.nerc.ac.uk/collection/L05/current/LAB36/
attribute	NC_GLOBAL	instruments_3_instrument_name	String	Flow Injection Analyzer
attribute	NC_GLOBAL	instruments_3_instrument_nid	String	657
attribute	NC_GLOBAL	instruments_3_supplied_name	String	Lachat QuikChem 8000 Flow Injection Analyzer
attribute	NC_GLOBAL	instruments_4_acronym	String	Mass Spec
attribute	NC_GLOBAL	instruments_4_dataset_instrument_description	String	Inductively Coupled Mass Spectrometetry (HR-ICP-MS)
attribute	NC_GLOBAL	instruments_4_dataset_instrument_nid	String	668442
attribute	NC_GLOBAL	instruments_4_description	String	General term for instruments used to measure the mass-to-charge ratio of ions; generally used to find the composition of a sample by generating a mass spectrum representing the masses of sample components.
attribute	NC_GLOBAL	instruments_4_instrument_external_identifier	String	https://vocab.nerc.ac.uk/collection/L05/current/LAB16/
attribute	NC_GLOBAL	instruments_4_instrument_name	String	Mass Spectrometer
attribute	NC_GLOBAL	instruments_4_instrument_nid	String	685
attribute	NC_GLOBAL	instruments_4_supplied_name	String	Element-XR ICP-MS (Thermo Scientific)
attribute	NC_GLOBAL	instruments_5_acronym	String	Spectrophotometer
attribute	NC_GLOBAL	instruments_5_dataset_instrument_description	String	Used to run samples manually
attribute	NC_GLOBAL	instruments_5_dataset_instrument_nid	String	668437
attribute	NC_GLOBAL	instruments_5_description	String	An instrument used to measure the relative absorption of electromagnetic radiation of different wavelengths in the near infra-red, visible and ultraviolet wavebands by samples.
attribute	NC_GLOBAL	instruments_5_instrument_external_identifier	String	https://vocab.nerc.ac.uk/collection/L05/current/LAB20/
attribute	NC_GLOBAL	instruments_5_instrument_name	String	Spectrophotometer
attribute	NC_GLOBAL	instruments_5_instrument_nid	String	707
attribute	NC_GLOBAL	instruments_5_supplied_name	String	Shimadzu UV-2550 UV-VIS Spectrophotometer
attribute	NC_GLOBAL	instruments_6_dataset_instrument_description	String	Used to collect size-fractioned particles
attribute	NC_GLOBAL	instruments_6_dataset_instrument_nid	String	668436
attribute	NC_GLOBAL	instruments_6_description	String	A pump is a device that moves fluids (liquids or gases), or sometimes slurries, by mechanical action. Pumps can be classified into three major groups according to the method they use to move the fluid: direct lift, displacement, and gravity pumps
attribute	NC_GLOBAL	instruments_6_instrument_name	String	Pump
attribute	NC_GLOBAL	instruments_6_instrument_nid	String	726
attribute	NC_GLOBAL	instruments_6_supplied_name	String	McLane Research in-situ pumps
attribute	NC_GLOBAL	instruments_7_dataset_instrument_description	String	Measured POC and PN
attribute	NC_GLOBAL	instruments_7_dataset_instrument_nid	String	668440
attribute	NC_GLOBAL	instruments_7_description	String	Instruments that quantify carbon, nitrogen and sometimes other elements by combusting the sample at very high temperature and assaying the resulting gaseous oxides. Usually used for samples including organic material.
attribute	NC_GLOBAL	instruments_7_instrument_external_identifier	String	https://vocab.nerc.ac.uk/collection/L05/current/LAB01/
attribute	NC_GLOBAL	instruments_7_instrument_name	String	Elemental Analyzer
attribute	NC_GLOBAL	instruments_7_instrument_nid	String	546339
attribute	NC_GLOBAL	instruments_7_supplied_name	String	Carlo Erba 1108 or a CE Instruments NC2500 elemental analyzer
attribute	NC_GLOBAL	keywords	String	Ag_LPT_CONC_PUMP, Ag_LPT_CONC_PUMP_QV_ODV, Ag_LPT_CONC_PUMP_STDEV, Ag_SPT_CONC_PUMP, Ag_SPT_CONC_PUMP_QV_ODV, Ag_SPT_CONC_PUMP_STDEV, Al_LPT_CONC_PUMP, Al_LPT_CONC_PUMP_QV_ODV, Al_LPT_CONC_PUMP_STDEV, Al_SPT_CONC_PUMP, Al_SPT_CONC_PUMP_QV_ODV, Al_SPT_CONC_PUMP_STDEV, Ba_LPT_CONC_PUMP, Ba_LPT_CONC_PUMP_QV_ODV, Ba_LPT_CONC_PUMP_STDEV, Ba_SPT_CONC_PUMP, Ba_SPT_CONC_PUMP_QV_ODV, Ba_SPT_CONC_PUMP_STDEV, bco, bco-dmo, biological, bSi_LPT_PUMP_CONC, bSi_LPT_PUMP_CONC_QV_ODV, bSi_LPT_PUMP_CONC_STDEV, bSi_SPT_PUMP_CONC, bSi_SPT_PUMP_CONC_QV_ODV, bSi_SPT_PUMP_CONC_STDEV, btmdepth, CaCO3_LPT_CONC_PUMP, CaCO3_LPT_CONC_PUMP_QV_ODV, CaCO3_LPT_CONC_PUMP_STDEV, CaCO3_SPT_CONC_PUMP, CaCO3_SPT_CONC_PUMP_QV_ODV, CaCO3_SPT_CONC_PUMP_STDEV, carbonate, castno, Cd_LPT_CONC_PUMP, Cd_LPT_CONC_PUMP_QV_ODV, Cd_LPT_CONC_PUMP_STDEV, Cd_SPT_CONC_PUMP, Cd_SPT_CONC_PUMP_QV_ODV, Cd_SPT_CONC_PUMP_STDEV, chemical, co3, Co_LPT_CONC_PUMP, Co_LPT_CONC_PUMP_QV_ODV, Co_LPT_CONC_PUMP_STDEV, Co_SPT_CONC_PUMP, Co_SPT_CONC_PUMP_QV_ODV, Co_SPT_CONC_PUMP_STDEV, conc, cruise, cruise_id, Cu_LPT_CONC_PUMP, Cu_LPT_CONC_PUMP_QV_ODV, Cu_LPT_CONC_PUMP_STDEV, Cu_SPT_CONC_PUMP, Cu_SPT_CONC_PUMP_QV_ODV, Cu_SPT_CONC_PUMP_STDEV, d13, d13C_LPT_PUMP_CONC_dbcorr, d13C_LPT_PUMP_CONC_dbcorr_QV_ODV, d13C_LPT_PUMP_CONC_QV_ODV, d13C_LPT_PUMP_CONC_raw, d15, d15N_LPT_PUMP_CONC_dbcorr, d15N_LPT_PUMP_CONC_dbcorr_QV_ODV, d15N_LPT_PUMP_CONC_QV_ODV, d15N_LPT_PUMP_CONC_raw, data, dataset, date, dbcorr, depth, DEPTH_MAX, deviation, dmo, erddap, eventno, Fe_LPT_CONC_PUMP, Fe_LPT_CONC_PUMP_QV_ODV, Fe_LPT_CONC_PUMP_STDEV, Fe_SPT_CONC_PUMP, Fe_SPT_CONC_PUMP_QV_ODV, Fe_SPT_CONC_PUMP_STDEV, FeOH3_LPT_CONC_PUMP, FeOH3_LPT_CONC_PUMP_QV_ODV, FeOH3_LPT_CONC_PUMP_STDEV, FeOH3_SPT_CONC_PUMP, FeOH3_SPT_CONC_PUMP_QV_ODV, FeOH3_SPT_CONC_PUMP_STDEV, geotrc, GEOTRC_EVENTNO, GEOTRC_SAMPNO, iso, litho, LITHO_LPT_CONC_PUMP, LITHO_LPT_CONC_PUMP_QV_ODV, LITHO_LPT_CONC_PUMP_STDEV, LITHO_SPT_CONC_PUMP, LITHO_SPT_CONC_PUMP_QV_ODV, LITHO_SPT_CONC_PUMP_STDEV, lpt, management, Mn_LPT_CONC_PUMP, Mn_LPT_CONC_PUMP_QV_ODV, Mn_LPT_CONC_PUMP_STDEV, Mn_SPT_CONC_PUMP, Mn_SPT_CONC_PUMP_QV_ODV, Mn_SPT_CONC_PUMP_STDEV, MnO2_LPT_CONC_PUMP, MnO2_LPT_CONC_PUMP_QV_ODV, MnO2_LPT_CONC_PUMP_STDEV, MnO2_SPT_CONC_PUMP, MnO2_SPT_CONC_PUMP_QV_ODV, MnO2_SPT_CONC_PUMP_STDEV, Mo_LPT_CONC_PUMP, Mo_LPT_CONC_PUMP_QV_ODV, Mo_LPT_CONC_PUMP_STDEV, Mo_SPT_CONC_PUMP, Mo_SPT_CONC_PUMP_QV_ODV, Mo_SPT_CONC_PUMP_STDEV, model, Nd_LPT_CONC_PUMP, Nd_LPT_CONC_PUMP_QV_ODV, Nd_LPT_CONC_PUMP_STDEV, Nd_SPT_CONC_PUMP, Nd_SPT_CONC_PUMP_QV_ODV, Nd_SPT_CONC_PUMP_STDEV, Ni_LPT_CONC_PUMP, Ni_LPT_CONC_PUMP_QV_ODV, Ni_LPT_CONC_PUMP_STDEV, Ni_SPT_CONC_PUMP, Ni_SPT_CONC_PUMP_QV_ODV, Ni_SPT_CONC_PUMP_STDEV, O2, ocean, oceanography, odv, office, oh3, opal, OPAL_LPT_CONC_PUMP, OPAL_LPT_CONC_PUMP_QV_ODV, OPAL_LPT_CONC_PUMP_STDEV, OPAL_SPT_CONC_PUMP, OPAL_SPT_CONC_PUMP_QV_ODV, OPAL_SPT_CONC_PUMP_STDEV, oxygen, P_LPT_CONC_PUMP, P_LPT_CONC_PUMP_QV_ODV, P_LPT_CONC_PUMP_STDEV, P_SPT_CONC_PUMP, P_SPT_CONC_PUMP_QV_ODV, P_SPT_CONC_PUMP_STDEV, Pb_LPT_CONC_PUMP, Pb_LPT_CONC_PUMP_QV_ODV, Pb_LPT_CONC_PUMP_STDEV, Pb_SPT_CONC_PUMP, Pb_SPT_CONC_PUMP_QV_ODV, Pb_SPT_CONC_PUMP_STDEV, pic, PIC_LPT_PUMP_CONC, PIC_LPT_PUMP_CONC_QV_ODV, PIC_LPT_PUMP_CONC_STDEV, PIC_SPT_PUMP_CONC, PIC_SPT_PUMP_CONC_QV_ODV, PIC_SPT_PUMP_CONC_STDEV, PN_LPT_PUMP_CONC, PN_LPT_PUMP_CONC_QV_ODV, PN_LPT_PUMP_CONC_STDEV, PN_SPT_PUMP_CONC, PN_SPT_PUMP_CONC_QV_ODV, PN_SPT_PUMP_CONC_STDEV, poc, POC_LPT_PUMP_CONC, POC_LPT_PUMP_CONC_QV_ODV, POC_LPT_PUMP_CONC_STDEV, POC_SPT_PUMP_CONC, POC_SPT_PUMP_CONC_QV_ODV, POC_SPT_PUMP_CONC_STDEV, pom, POM_LPT_CONC_PUMP, POM_LPT_CONC_PUMP_QV_ODV, POM_LPT_CONC_PUMP_STDEV, POM_SPT_CONC_PUMP, POM_SPT_CONC_PUMP_QV_ODV, POM_SPT_CONC_PUMP_STDEV, preliminary, princeton, pump, PUMP_LAT, PUMP_LON, qliters, raw, sampno, Sc_LPT_CONC_PUMP, Sc_LPT_CONC_PUMP_QV_ODV, Sc_LPT_CONC_PUMP_STDEV, Sc_SPT_CONC_PUMP, Sc_SPT_CONC_PUMP_QV_ODV, Sc_SPT_CONC_PUMP_STDEV, sliters, spm, SPM_LPT_CONC_PUMP, SPM_LPT_CONC_PUMP_QV_ODV, SPM_LPT_CONC_PUMP_STDEV, SPM_SPT_CONC_PUMP, SPM_SPT_CONC_PUMP_QV_ODV, SPM_SPT_CONC_PUMP_STDEV, spt, standard, standard deviation, stdev, stnnbr, Th_LPT_CONC_PUMP, Th_LPT_CONC_PUMP_QV_ODV, Th_LPT_CONC_PUMP_STDEV, Th_SPT_CONC_PUMP, Th_SPT_CONC_PUMP_QV_ODV, Th_SPT_CONC_PUMP_STDEV, Ti_LPT_CONC_PUMP, Ti_LPT_CONC_PUMP_QV_ODV, Ti_LPT_CONC_PUMP_STDEV, Ti_SPT_CONC_PUMP, Ti_SPT_CONC_PUMP_QV_ODV, Ti_SPT_CONC_PUMP_STDEV, time, v, V_LPT_CONC_PUMP, V_LPT_CONC_PUMP_QV_ODV, V_LPT_CONC_PUMP_STDEV, V_SPT_CONC_PUMP, V_SPT_CONC_PUMP_QV_ODV, V_SPT_CONC_PUMP_STDEV, view, Y_LPT_CONC_PUMP, Y_LPT_CONC_PUMP_QV_ODV, Y_LPT_CONC_PUMP_STDEV, Y_SPT_CONC_PUMP, Y_SPT_CONC_PUMP_QV_ODV, Y_SPT_CONC_PUMP_STDEV
attribute	NC_GLOBAL	license	String	https://www.bco-dmo.org/dataset/668083/license
attribute	NC_GLOBAL	metadata_source	String	https://www.bco-dmo.org/api/dataset/668083
attribute	NC_GLOBAL	Northernmost_Northing	double	-10.5004
attribute	NC_GLOBAL	param_mapping	String	{'668083': {'PUMP_LON': 'master - longitude', 'PUMP_LAT': 'master - latitude', 'ISO_DateTime_UTC': 'master - time'}}
attribute	NC_GLOBAL	parameter_source	String	https://www.bco-dmo.org/mapserver/dataset/668083/parameters
attribute	NC_GLOBAL	people_0_affiliation	String	University of California-Santa Cruz
attribute	NC_GLOBAL	people_0_affiliation_acronym	String	UC Santa Cruz
attribute	NC_GLOBAL	people_0_person_name	String	Phoebe J. Lam
attribute	NC_GLOBAL	people_0_person_nid	String	51146
attribute	NC_GLOBAL	people_0_role	String	Principal Investigator
attribute	NC_GLOBAL	people_0_role_type	String	originator
attribute	NC_GLOBAL	people_10_affiliation	String	Woods Hole Oceanographic Institution
attribute	NC_GLOBAL	people_10_affiliation_acronym	String	WHOI BCO-DMO
attribute	NC_GLOBAL	people_10_person_name	String	Hannah Ake
attribute	NC_GLOBAL	people_10_person_nid	String	650173
attribute	NC_GLOBAL	people_10_role	String	BCO-DMO Data Manager
attribute	NC_GLOBAL	people_10_role_type	String	related
attribute	NC_GLOBAL	people_1_affiliation	String	University of California-Santa Cruz
attribute	NC_GLOBAL	people_1_affiliation_acronym	String	UC Santa Cruz
attribute	NC_GLOBAL	people_1_person_name	String	Phoebe J. Lam
attribute	NC_GLOBAL	people_1_person_nid	String	51146
attribute	NC_GLOBAL	people_1_role	String	Contact
attribute	NC_GLOBAL	people_1_role_type	String	related
attribute	NC_GLOBAL	people_2_affiliation	String	University of California-Santa Cruz
attribute	NC_GLOBAL	people_2_affiliation_acronym	String	UC Santa Cruz
attribute	NC_GLOBAL	people_2_person_name	String	Colin Carney
attribute	NC_GLOBAL	people_2_person_nid	String	668101
attribute	NC_GLOBAL	people_2_role	String	Analyst
attribute	NC_GLOBAL	people_2_role_type	String	related
attribute	NC_GLOBAL	people_3_affiliation	String	Ifremer
attribute	NC_GLOBAL	people_3_affiliation_acronym	String	Ifremer
attribute	NC_GLOBAL	people_3_person_name	String	Dr Maija I Heller
attribute	NC_GLOBAL	people_3_person_nid	String	668102
attribute	NC_GLOBAL	people_3_role	String	Analyst
attribute	NC_GLOBAL	people_3_role_type	String	related
attribute	NC_GLOBAL	people_4_affiliation	String	Woods Hole Oceanographic Institution
attribute	NC_GLOBAL	people_4_affiliation_acronym	String	WHOI
attribute	NC_GLOBAL	people_4_person_name	String	Paul B. Henderson
attribute	NC_GLOBAL	people_4_person_nid	String	51039
attribute	NC_GLOBAL	people_4_role	String	Analyst
attribute	NC_GLOBAL	people_4_role_type	String	related
attribute	NC_GLOBAL	people_5_affiliation	String	University of Massachusetts Amherst
attribute	NC_GLOBAL	people_5_person_name	String	Ulrich Kakou
attribute	NC_GLOBAL	people_5_person_nid	String	668098
attribute	NC_GLOBAL	people_5_role	String	Analyst
attribute	NC_GLOBAL	people_5_role_type	String	related
attribute	NC_GLOBAL	people_6_affiliation	String	University of California-Santa Cruz
attribute	NC_GLOBAL	people_6_affiliation_acronym	String	UC Santa Cruz
attribute	NC_GLOBAL	people_6_person_name	String	Jong-Mi Lee
attribute	NC_GLOBAL	people_6_person_nid	String	644619
attribute	NC_GLOBAL	people_6_role	String	Analyst
attribute	NC_GLOBAL	people_6_role_type	String	related
attribute	NC_GLOBAL	people_7_affiliation	String	Woods Hole Oceanographic Institution
attribute	NC_GLOBAL	people_7_affiliation_acronym	String	WHOI
attribute	NC_GLOBAL	people_7_person_name	String	Steven Manganini
attribute	NC_GLOBAL	people_7_person_nid	String	50634
attribute	NC_GLOBAL	people_7_role	String	Analyst
attribute	NC_GLOBAL	people_7_role_type	String	related
attribute	NC_GLOBAL	people_8_affiliation	String	University of California-Santa Cruz
attribute	NC_GLOBAL	people_8_affiliation_acronym	String	UC Santa Cruz
attribute	NC_GLOBAL	people_8_person_name	String	Sanjin Mehic
attribute	NC_GLOBAL	people_8_person_nid	String	668099
attribute	NC_GLOBAL	people_8_role	String	Analyst
attribute	NC_GLOBAL	people_8_role_type	String	related
attribute	NC_GLOBAL	people_9_affiliation	String	University of California-Santa Cruz
attribute	NC_GLOBAL	people_9_affiliation_acronym	String	UC Santa Cruz
attribute	NC_GLOBAL	people_9_person_name	String	Yang Xiang
attribute	NC_GLOBAL	people_9_person_nid	String	668100
attribute	NC_GLOBAL	people_9_role	String	Analyst
attribute	NC_GLOBAL	people_9_role_type	String	related
attribute	NC_GLOBAL	project	String	U.S. GEOTRACES EPZT,EPZT Particle Geochemistry
attribute	NC_GLOBAL	projects_0_acronym	String	U.S. GEOTRACES EPZT
attribute	NC_GLOBAL	projects_0_description	String	From the NSF Award Abstract\nThe mission of the International GEOTRACES Program (www.geotraces.org), of which the U.S. chemical oceanography research community is a founding member, is \"to identify processes and quantify fluxes that control the distributions of key trace elements and isotopes in the ocean, and to establish the sensitivity of these distributions to changing environmental conditions\" (GEOTRACES Science Plan, 2006). In the United States, ocean chemists are currently in the process of organizing a zonal transect in the eastern tropical South Pacific (ETSP) from Peru to Tahiti as the second cruise of the U.S.GEOTRACES Program. This Pacific section includes a large area characterized by high rates of primary production and particle export in the eastern boundary associated with the Peru Upwelling, a large oxygen minimum zone that is a major global sink for fixed nitrogen, and a large hydrothermal plume arising from the East Pacific Rise. This particular section was selected as a result of open planning workshops in 2007 and 2008, with a final recommendation made by the U.S.GEOTRACES Steering Committee in 2009. It is the first part of a two-stage plan that will include a meridional section of the Pacific from Tahiti to Alaska as a subsequent expedition.\nThis award provides funding for management of the U.S.GEOTRACES Pacific campaign to a team of scientists from the University of Southern California, Old Dominion University, and the Woods Hole Oceanographic Institution. The three co-leaders will provide mission leadership, essential support services, and management structure for acquiring the trace elements and isotopes samples listed as core parameters in the International GEOTRACES Science Plan, plus hydrographic and nutrient data needed by participating investigators. With this support from NSF, the management team will (1) plan and coordinate the 52-day Pacific research cruise described above; (2) obtain representative samples for a wide variety of trace metals of interest using conventional CTD/rosette and GEOTRACES Sampling Systems; (3) acquire conventional JGOFS/WOCE-quality hydrographic data (CTD, transmissometer, fluorometer, oxygen sensor, etc) along with discrete samples for salinity, dissolved oxygen (to 1 uM detection limits), plant pigments, redox tracers such as ammonium and nitrite, and dissolved nutrients at micro- and nanomolar levels; (4) ensure that proper QA/QC protocols are followed and reported, as well as fulfilling all GEOTRACES Intercalibration protocols; (5) prepare and deliver all hydrographic-type data to the GEOTRACES Data Center (and US data centers); and (6) coordinate cruise communications between all participating investigators, including preparation of a hydrographic report/publication.\nBroader Impacts: The project is part of an international collaborative program that has forged strong partnerships in the intercalibration and implementation phases that are unprecedented in chemical oceanography. The science product of these collective missions will enhance our ability to understand how to interpret the chemical composition of the ocean, and interpret how climate change will affect ocean chemistry. Partnerships include contributions to the infrastructure of developing nations with overlapping interests in the study area, in this case Peru. There is a strong educational component to the program, with many Ph.D. students carrying out thesis research within the program.\nFigure 1. The 2013 GEOTRACES EPZT Cruise Track. [click on the image to view a larger version]
attribute	NC_GLOBAL	projects_0_end_date	String	2015-06
attribute	NC_GLOBAL	projects_0_geolocation	String	Eastern Tropical Pacific - Transect from Peru to Tahiti
attribute	NC_GLOBAL	projects_0_name	String	U.S. GEOTRACES East Pacific Zonal Transect
attribute	NC_GLOBAL	projects_0_project_nid	String	499723
attribute	NC_GLOBAL	projects_0_project_website	String	http://www.geotraces.org/
attribute	NC_GLOBAL	projects_0_start_date	String	2012-06
attribute	NC_GLOBAL	projects_1_acronym	String	EPZT Particle Geochemistry
attribute	NC_GLOBAL	projects_1_description	String	NSF Award Abstract:\nParticles play essential roles in the cycling and distribution of trace elements and isotopes (TEI). For instance scavenging onto particles and removal by particle export is a major sink for many TEIs. However the driving factors affecting the spatial extent and temporal variability of TEI scavenging remain largely unknown. The U.S. GEOTRACES East Pacific Zonal Transect between Peru and Tahiti will cross three biogeochemically important areas, setting the stage for researchers to constrain unknowns surrounding particle scavenging.\nScientists from Woods Hole Oceanographic Institution and University of Minnesota-Twin Cities will address fundamental questions on the location of particle formation, particle-dissolved species interactions, dominant particle phases, and the evolution of particle phases during transport. As regards particle phases, the researchers will measure particulate organic carbon (POC), calcium carbonate, opal, lithogenics, and oxyhydroxides, as well as the trace element compositions of size fractionated particles covering three distinct zones: large lateral productivity gradients, a major oxygen deficient zone off the coast of Peru, and a world renowned hydrothermal plume emanating from the southern East Pacific Rise. Furthermore, since previous results suggest particle type affects scavenging, investigators will specifically measure acid-leachable trace metals, particle concentration, and major particle composition. These combined measurements will allow them to disentangle the relative importance of hydrothermal particles, benthic nepheloid layers, and high productivity margins for scavenging of TEIs. The cruise transect will also offer unique opportunities to examine the speciation of Fe and POC in hydrothermal particles away from the vent field and the effects of aggregation and POC coatings on TEI partitioning.\nAs regards broader impacts, the researchers plan to create an educational module on particulate trace metals in the ocean which would become part of a five part GEOTRACES webinar series developed by Dr. Benjamin Twining at the Bigelow Laboratory for Ocean Sciences in collaboration with the Center for Ocean Sciences Education Excellence-Ocean Systems at the University of Maine. One graduate student from Woods Hole Oceanographic Institution and one graduate student from the University of Minnesota, Twin Cities, would be supported and trained as part of this project. In addition, an undergraduate student would participate in the research during the summer month as part of the Woods Hole Diversity Initiative Partnership in Education program.
attribute	NC_GLOBAL	projects_1_end_date	String	2017-02
attribute	NC_GLOBAL	projects_1_name	String	Collaborative Research: GEOTRACES Pacific Section: The Geochemistry of Size-fractionated Suspended Particles Collected by In-situ Filtration
attribute	NC_GLOBAL	projects_1_project_nid	String	668085
attribute	NC_GLOBAL	projects_1_start_date	String	2013-03
attribute	NC_GLOBAL	publisher_name	String	Biological and Chemical Oceanographic Data Management Office (BCO-DMO)
attribute	NC_GLOBAL	publisher_type	String	institution
attribute	NC_GLOBAL	sourceUrl	String	(local files)
attribute	NC_GLOBAL	Southernmost_Northing	double	-15.99933333
attribute	NC_GLOBAL	standard_name_vocabulary	String	CF Standard Name Table v55
attribute	NC_GLOBAL	subsetVariables	String	cruise_id,CaCO3_LPT_CONC_PUMP_QV_ODV,PIC_LPT_PUMP_CONC_QV_ODV
attribute	NC_GLOBAL	summary	String	Size-fractionated major and minor particle composition and concentration collected from RV Thompson (TN303) along the US GEOTRACES EPZT transect in the Eastern Tropical Pacific during 2013 (US GEOTRACES EPZT project)
attribute	NC_GLOBAL	time_coverage_end	String	2013-12-18T12:13:00Z
attribute	NC_GLOBAL	time_coverage_start	String	2013-10-29T07:15:00Z
attribute	NC_GLOBAL	title	String	Size-fractionated major and minor particle composition and concentration collected from RV Thompson (TN303) along the US GEOTRACES EPZT transect in the Eastern Tropical Pacific during 2013 (US GEOTRACES EPZT project)
attribute	NC_GLOBAL	version	String	1
attribute	NC_GLOBAL	Westernmost_Easting	double	-151.9995167
attribute	NC_GLOBAL	xml_source	String	osprey2erddap.update_xml() v1.3
variable	cruise_id		String
attribute	cruise_id	bcodmo_name	String	cruise_id
attribute	cruise_id	description	String	cruise ID
attribute	cruise_id	long_name	String	Cruise Id
attribute	cruise_id	units	String	unitless
variable	STNNBR		byte
attribute	STNNBR	_FillValue	byte	127
attribute	STNNBR	actual_range	byte	1, 36
attribute	STNNBR	bcodmo_name	String	station
attribute	STNNBR	description	String	Station number
attribute	STNNBR	long_name	String	STNNBR
attribute	STNNBR	units	String	unitless
variable	GEOTRC_SAMPNO		short
attribute	GEOTRC_SAMPNO	_FillValue	short	32767
attribute	GEOTRC_SAMPNO	actual_range	short	2083, 10457
attribute	GEOTRC_SAMPNO	bcodmo_name	String	sample
attribute	GEOTRC_SAMPNO	description	String	GEOTRACES number - uniquely identifies all samples from that pump
attribute	GEOTRC_SAMPNO	long_name	String	GEOTRC SAMPNO
attribute	GEOTRC_SAMPNO	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P02/current/ACYC/
attribute	GEOTRC_SAMPNO	units	String	unitless
variable	GEOTRC_EVENTNO		short
attribute	GEOTRC_EVENTNO	_FillValue	short	32767
attribute	GEOTRC_EVENTNO	actual_range	short	4013, 4475
attribute	GEOTRC_EVENTNO	bcodmo_name	String	event
attribute	GEOTRC_EVENTNO	description	String	GEOTRACES event number
attribute	GEOTRC_EVENTNO	long_name	String	GEOTRC EVENTNO
attribute	GEOTRC_EVENTNO	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P01/current/EVTAGFL/
attribute	GEOTRC_EVENTNO	units	String	unitless
variable	time		double
attribute	time	_CoordinateAxisType	String	Time
attribute	time	actual_range	double	1.3830309E9, 1.38736878E9
attribute	time	axis	String	T
attribute	time	bcodmo_name	String	ISO_DateTime_UTC
attribute	time	description	String	Date and time of the midpoint of pumping
attribute	time	ioos_category	String	Time
attribute	time	long_name	String	ISO Date Time UTC
attribute	time	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P01/current/DTUT8601/
attribute	time	source_name	String	ISO_DateTime_UTC
attribute	time	standard_name	String	time
attribute	time	time_origin	String	01-JAN-1970 00:00:00
attribute	time	time_precision	String	1970-01-01T00:00:00Z
attribute	time	units	String	seconds since 1970-01-01T00:00:00Z
variable	CASTNO		byte
attribute	CASTNO	_FillValue	byte	127
attribute	CASTNO	actual_range	byte	3, 16
attribute	CASTNO	bcodmo_name	String	cast
attribute	CASTNO	description	String	Cast number
attribute	CASTNO	long_name	String	CASTNO
attribute	CASTNO	units	String	unitless
variable	latitude		double
attribute	latitude	_CoordinateAxisType	String	Lat
attribute	latitude	_FillValue	double	NaN
attribute	latitude	actual_range	double	-15.99933333, -10.5004
attribute	latitude	axis	String	Y
attribute	latitude	bcodmo_name	String	latitude
attribute	latitude	description	String	Latitude of pump cast; N is positive
attribute	latitude	ioos_category	String	Location
attribute	latitude	long_name	String	PUMP LAT
attribute	latitude	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P09/current/LATX/
attribute	latitude	standard_name	String	latitude
attribute	latitude	units	String	degrees_north
variable	longitude		double
attribute	longitude	_CoordinateAxisType	String	Lon
attribute	longitude	_FillValue	double	NaN
attribute	longitude	actual_range	double	-151.9995167, -77.376
attribute	longitude	axis	String	X
attribute	longitude	bcodmo_name	String	longitude
attribute	longitude	description	String	Longitude of pump cast; E is positive
attribute	longitude	ioos_category	String	Location
attribute	longitude	long_name	String	PUMP LON
attribute	longitude	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P09/current/LONX/
attribute	longitude	standard_name	String	longitude
attribute	longitude	units	String	degrees_east
variable	BTMDEPTH		short
attribute	BTMDEPTH	_FillValue	short	32767
attribute	BTMDEPTH	actual_range	short	122, 5523
attribute	BTMDEPTH	bcodmo_name	String	depth_bottom
attribute	BTMDEPTH	description	String	Water depth at time of cast
attribute	BTMDEPTH	long_name	String	BTMDEPTH
attribute	BTMDEPTH	units	String	meters
variable	DEPTH_MAX		short
attribute	DEPTH_MAX	_FillValue	short	32767
attribute	DEPTH_MAX	actual_range	short	15, 5500
attribute	DEPTH_MAX	bcodmo_name	String	depth_max
attribute	DEPTH_MAX	colorBarMaximum	double	8000.0
attribute	DEPTH_MAX	colorBarMinimum	double	-8000.0
attribute	DEPTH_MAX	colorBarPalette	String	TopographyDepth
attribute	DEPTH_MAX	description	String	Final depth of pump sample
attribute	DEPTH_MAX	long_name	String	Depth
attribute	DEPTH_MAX	standard_name	String	depth
attribute	DEPTH_MAX	units	String	meters
variable	sliters		double
attribute	sliters	_FillValue	double	NaN
attribute	sliters	actual_range	double	9.4, 754.6
attribute	sliters	bcodmo_name	String	vol_filt
attribute	sliters	description	String	Volume pumped through the filter holder containing paired Supor filters
attribute	sliters	long_name	String	Sliters
attribute	sliters	units	String	liters
variable	Y_SPT_CONC_PUMP		double
attribute	Y_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Y_SPT_CONC_PUMP	actual_range	double	-0.010632266, 6.627215278
attribute	Y_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Y_SPT_CONC_PUMP	description	String	Concentration of total particulate yttrium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Y_SPT_CONC_PUMP	long_name	String	Y SPT CONC PUMP
attribute	Y_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Y_SPT_CONC_PUMP	units	String	picomole per liter
variable	Mo_SPT_CONC_PUMP		double
attribute	Mo_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Mo_SPT_CONC_PUMP	actual_range	double	-0.232037803, 40.41737604
attribute	Mo_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Mo_SPT_CONC_PUMP	description	String	Concentration of total particulate molybdenum determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Mo_SPT_CONC_PUMP	long_name	String	Mo SPT CONC PUMP
attribute	Mo_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Mo_SPT_CONC_PUMP	units	String	picomole per liter
variable	Ag_SPT_CONC_PUMP		double
attribute	Ag_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Ag_SPT_CONC_PUMP	actual_range	double	-0.11139228, 10.51883533
attribute	Ag_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Ag_SPT_CONC_PUMP	description	String	Concentration of total particulate silver determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Ag_SPT_CONC_PUMP	long_name	String	Ag SPT CONC PUMP
attribute	Ag_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Ag_SPT_CONC_PUMP	units	String	picomole per liter
variable	Cd_SPT_CONC_PUMP		double
attribute	Cd_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Cd_SPT_CONC_PUMP	actual_range	double	0.001728211, 110.3192594
attribute	Cd_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Cd_SPT_CONC_PUMP	description	String	Concentration of total particulate cadmium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Cd_SPT_CONC_PUMP	long_name	String	Cd SPT CONC PUMP
attribute	Cd_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Cd_SPT_CONC_PUMP	units	String	picomole per liter
variable	Ba_SPT_CONC_PUMP		double
attribute	Ba_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Ba_SPT_CONC_PUMP	actual_range	double	0.0, 518.2186498
attribute	Ba_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Ba_SPT_CONC_PUMP	description	String	Concentration of total particulate barium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Ba_SPT_CONC_PUMP	long_name	String	Ba SPT CONC PUMP
attribute	Ba_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Ba_SPT_CONC_PUMP	units	String	picomole per liter
variable	Nd_SPT_CONC_PUMP		double
attribute	Nd_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Nd_SPT_CONC_PUMP	actual_range	double	0.002987236, 1.716258076
attribute	Nd_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Nd_SPT_CONC_PUMP	description	String	Concentration of total particulate neodymium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Nd_SPT_CONC_PUMP	long_name	String	Nd SPT CONC PUMP
attribute	Nd_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Nd_SPT_CONC_PUMP	units	String	picomole per liter
variable	Pb_SPT_CONC_PUMP		double
attribute	Pb_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Pb_SPT_CONC_PUMP	actual_range	double	-0.010946226, 4.303503248
attribute	Pb_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Pb_SPT_CONC_PUMP	description	String	Concentration of total particulate lead determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Pb_SPT_CONC_PUMP	long_name	String	Pb SPT CONC PUMP
attribute	Pb_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Pb_SPT_CONC_PUMP	units	String	picomole per liter
variable	Th_SPT_CONC_PUMP		double
attribute	Th_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Th_SPT_CONC_PUMP	actual_range	double	-0.083024889, 0.440232686
attribute	Th_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Th_SPT_CONC_PUMP	description	String	Concentration of total particulate thorium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Th_SPT_CONC_PUMP	long_name	String	Th SPT CONC PUMP
attribute	Th_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Th_SPT_CONC_PUMP	units	String	picomole per liter
variable	Al_SPT_CONC_PUMP		double
attribute	Al_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Al_SPT_CONC_PUMP	actual_range	double	-0.986535106, 28290.52015
attribute	Al_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Al_SPT_CONC_PUMP	description	String	Concentration of total particulate aluminium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Al_SPT_CONC_PUMP	long_name	String	Al SPT CONC PUMP
attribute	Al_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Al_SPT_CONC_PUMP	units	String	picomole per liter
variable	P_SPT_CONC_PUMP		double
attribute	P_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	P_SPT_CONC_PUMP	actual_range	double	88.88749157, 377356.8738
attribute	P_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	P_SPT_CONC_PUMP	description	String	Concentration of total particulate phosphorus determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	P_SPT_CONC_PUMP	long_name	String	P SPT CONC PUMP
attribute	P_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	P_SPT_CONC_PUMP	units	String	picomole per liter
variable	Sc_SPT_CONC_PUMP		double
attribute	Sc_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Sc_SPT_CONC_PUMP	actual_range	double	-0.003311172, 3.362908903
attribute	Sc_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Sc_SPT_CONC_PUMP	description	String	Concentration of total particulate scandium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Sc_SPT_CONC_PUMP	long_name	String	Sc SPT CONC PUMP
attribute	Sc_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Sc_SPT_CONC_PUMP	units	String	picomole per liter
variable	Ti_SPT_CONC_PUMP		double
attribute	Ti_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Ti_SPT_CONC_PUMP	actual_range	double	-3.345409268, 1138.631174
attribute	Ti_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Ti_SPT_CONC_PUMP	description	String	Concentration of total particulate titanium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Ti_SPT_CONC_PUMP	long_name	String	Ti SPT CONC PUMP
attribute	Ti_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Ti_SPT_CONC_PUMP	units	String	picomole per liter
variable	V_SPT_CONC_PUMP		double
attribute	V_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	V_SPT_CONC_PUMP	actual_range	double	0.092670278, 169.1380453
attribute	V_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	V_SPT_CONC_PUMP	description	String	Concentration of total particulate vanadium determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	V_SPT_CONC_PUMP	long_name	String	V SPT CONC PUMP
attribute	V_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	V_SPT_CONC_PUMP	units	String	picomole per liter
variable	Mn_SPT_CONC_PUMP		double
attribute	Mn_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Mn_SPT_CONC_PUMP	actual_range	double	1.332998584, 4153.231866
attribute	Mn_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Mn_SPT_CONC_PUMP	description	String	Concentration of total particulate manganese determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Mn_SPT_CONC_PUMP	long_name	String	Mn SPT CONC PUMP
attribute	Mn_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Mn_SPT_CONC_PUMP	units	String	picomole per liter
variable	Fe_SPT_CONC_PUMP		double
attribute	Fe_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Fe_SPT_CONC_PUMP	actual_range	double	12.19212229, 34630.70571
attribute	Fe_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Fe_SPT_CONC_PUMP	description	String	Concentration of total particulate iron determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Fe_SPT_CONC_PUMP	long_name	String	Fe SPT CONC PUMP
attribute	Fe_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Fe_SPT_CONC_PUMP	units	String	picomole per liter
variable	Co_SPT_CONC_PUMP		double
attribute	Co_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Co_SPT_CONC_PUMP	actual_range	double	0.055850165, 14.40346331
attribute	Co_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Co_SPT_CONC_PUMP	description	String	Concentration of total particulate cobalt determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Co_SPT_CONC_PUMP	long_name	String	Co SPT CONC PUMP
attribute	Co_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Co_SPT_CONC_PUMP	units	String	picomole per liter
variable	Ni_SPT_CONC_PUMP		double
attribute	Ni_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Ni_SPT_CONC_PUMP	actual_range	double	0.0, 284.4110585
attribute	Ni_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Ni_SPT_CONC_PUMP	description	String	Concentration of total particulate nickel determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Ni_SPT_CONC_PUMP	long_name	String	Ni SPT CONC PUMP
attribute	Ni_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Ni_SPT_CONC_PUMP	units	String	picomole per liter
variable	Cu_SPT_CONC_PUMP		double
attribute	Cu_SPT_CONC_PUMP	_FillValue	double	NaN
attribute	Cu_SPT_CONC_PUMP	actual_range	double	2.810439384, 129.8926384
attribute	Cu_SPT_CONC_PUMP	bcodmo_name	String	trace_metal_conc
attribute	Cu_SPT_CONC_PUMP	description	String	Concentration of total particulate copper determined by in situ filtration (pump) collected on a main filter (small particles)
attribute	Cu_SPT_CONC_PUMP	long_name	String	Cu SPT CONC PUMP
attribute	Cu_SPT_CONC_PUMP	nerc_identifier	String	https://vocab.nerc.ac.uk/collection/P03/current/C035/
attribute	Cu_SPT_CONC_PUMP	units	String	picomole per liter
variable	Y_SPT_CONC_PUMP_QV_ODV		byte
attribute	Y_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Y_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	Y_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Y_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Y_SPT_CONC_PUMP_QV_ODV	long_name	String	Y SPT CONC PUMP QV ODV
attribute	Y_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	Mo_SPT_CONC_PUMP_QV_ODV		byte
attribute	Mo_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Mo_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	Mo_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Mo_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Mo_SPT_CONC_PUMP_QV_ODV	long_name	String	Mo SPT CONC PUMP QV ODV
attribute	Mo_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	Ag_SPT_CONC_PUMP_QV_ODV		byte
attribute	Ag_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Ag_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	Ag_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Ag_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Ag_SPT_CONC_PUMP_QV_ODV	long_name	String	Ag SPT CONC PUMP QV ODV
attribute	Ag_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	Cd_SPT_CONC_PUMP_QV_ODV		byte
attribute	Cd_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Cd_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	Cd_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Cd_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Cd_SPT_CONC_PUMP_QV_ODV	long_name	String	Cd SPT CONC PUMP QV ODV
attribute	Cd_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	Ba_SPT_CONC_PUMP_QV_ODV		byte
attribute	Ba_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Ba_SPT_CONC_PUMP_QV_ODV	actual_range	byte	4, 8
attribute	Ba_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Ba_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Ba_SPT_CONC_PUMP_QV_ODV	long_name	String	Ba SPT CONC PUMP QV ODV
attribute	Ba_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	Nd_SPT_CONC_PUMP_QV_ODV		byte
attribute	Nd_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Nd_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	Nd_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Nd_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Nd_SPT_CONC_PUMP_QV_ODV	long_name	String	Nd SPT CONC PUMP QV ODV
attribute	Nd_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	Pb_SPT_CONC_PUMP_QV_ODV		byte
attribute	Pb_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Pb_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	Pb_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Pb_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Pb_SPT_CONC_PUMP_QV_ODV	long_name	String	Pb SPT CONC PUMP QV ODV
attribute	Pb_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	Th_SPT_CONC_PUMP_QV_ODV		byte
attribute	Th_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Th_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	Th_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Th_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Th_SPT_CONC_PUMP_QV_ODV	long_name	String	Th SPT CONC PUMP QV ODV
attribute	Th_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	Al_SPT_CONC_PUMP_QV_ODV		byte
attribute	Al_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	Al_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	Al_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	Al_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention
attribute	Al_SPT_CONC_PUMP_QV_ODV	long_name	String	Al SPT CONC PUMP QV ODV
attribute	Al_SPT_CONC_PUMP_QV_ODV	units	String	unitless
variable	P_SPT_CONC_PUMP_QV_ODV		byte
attribute	P_SPT_CONC_PUMP_QV_ODV	_FillValue	byte	127
attribute	P_SPT_CONC_PUMP_QV_ODV	actual_range	byte	0, 8
attribute	P_SPT_CONC_PUMP_QV_ODV	bcodmo_name	String	q_flag
attribute	P_SPT_CONC_PUMP_QV_ODV	description	String	Quality control flag; following the ODV convention

Row Type

Variable Name

Attribute Name

Data Type

Value

attribute

NC_GLOBAL

access_formats

String

.htmlTable,.csv,.json,.mat,.nc,.tsv,.esriCsv,.geoJson,.odvTxt

attribute

NC_GLOBAL

acquisition_description

String

1\\. Sampling:\n \nSize-fractionated particles were collected using McLane Research in-situ pumps\n(WTS-LV) that had been modified to accommodate two flowpaths (Ohnemus and Lam,\n2015). \\u00a0Typically, two casts of 8 pumps each and two filter holders per\npump were deployed to collect a 16-depth profile. \\u00a0At superstations,\nthree casts were deployed to collect a 24-depth profile. \\u00a0The wire-out\nwas used to target nominal depths during deployment. A self-recording Seabird\n19plus CTD was deployed at the end of the line and used to verify target\ndepths.\\u00a0\n \nFilter holders used were 142 mm-diameter \\u201cmini-MULVFS\\u201d style filter\nholders with two stages for two size fractions and multiple baffle systems\ndesigned to ensure even particle distribution and prevent particle loss\n(Bishop et al., 2012). \\u00a0One filter holder/flowpath was loaded with a 51um\nSefar polyester mesh prefilter followed by paired Whatman QMA quartz fiber\nfilters. The other filter holder/flowpath was also loaded with a 51um\nprefilter, but followed by paired 0.8um Pall Supor800 polyethersulfone\nfilters. All filters and filter holders were acid leached prior to use\naccording to methods recommended in the GEOTRACES sample and sample-handing\nProtocols (GEOTRACES, 2010). \\u00a0QMA filters were additionally precombusted\nat 450 deg C for four hours.\n \nEach cast also had a full set of \\u201cdipped blank\\u201d filters deployed.\n\\u00a0In the first half of the cruise, these were the full filters sets (51 um\nprefilter followed by paired QMA or paired Supor filters) loaded in mini-\nMULVFS filter holders that were mounted on a pump with a specially designed\ndipped blank plate to accommodate two extra filter holders not connected to\nthe pump. \\u00a0A 0.2 um Supor prefilter above the filter set excluded any\nparticles that may have been present in seawater in the filter holder\nheadspace. \\u00a0At station 21, the specially designed plate (along with the\nfilter holders) was lost at sea when the ship lost power, so subsequent dipped\nblank filters were the full filter sets sandwiched within a 1um polyester mesh\nfilter, loaded into acid-leached perforated polypropylene containers, and\nattached with plastic cable ties to a pump frame, and deployed. \\u00a0All\ndipped blank filters were exposed to seawater for the length of the deployment\nand processed and analyzed as regular samples, and thus functioned as full\nseawater process blanks. \\u00a0A total of 58 dipped blank filter sets were\ncollected and used for blank subtraction and determination of uncertainty and\ndetection limit (Table 1).\n \nIn this dataset, data reported from the 51um prefilter are referred to with a\nLPT suffix to indicate large particulate total concentrations (>51um); data\nreported from the main filters (QMA\\u20141-51um\\u2014or Supor\\u20140.8 um-\n51um) are from the top filter of the pair only, and are referred to with a SPT\nsuffix to indicate the small particulate total concentrations.\n \n2\\. Analytical Methodology and Data Processing:\\u00a0\n \nFor all parameters described below, the median dipped blank value (Table 1)\nwas subtracted. \\u00a0For most parameters, we could not routinely run\nreplicates, so the reported error is determined from the standard deviation of\ndipped blank filters (Table 1), converted to concentrations using volume\nfiltered. \\u00a0This assumes that the blank subtraction is the largest source\nof error. \\u00a0The detection limit was defined as three times the standard\ndeviation of the dipped blank filters. \\u00a0Values below the detection limit\nwere flagged as QF=4. The percentage of all samples that fell below the\ndetection limit is listed in Table 1 for each parameter and size fraction.\n\\u00a0Any variations on the methods for blank subtraction or determination of\nerror are further described for each parameter, as necessary.\n \n2.1. Biogenic Silica and Opal\n \n2.1.1 Analytical methodology for biogenic silica\n \nA 1/16 subsample of the top 0.8um Supor filter, equivalent to ~30L, or of the\n51um polyester prefilter above the QMA filter, equivalent to ~60L, was\nanalyzed for amorphous/biogenic Si concentrations using spectrophotometric\ndetection of the blue silico-molydate complex following an alkaline (0.2M\nNaOH) leach at 85 deg C. \\u00a0Some initial stations were run manually on a\nShimadzu UV-2550 UV-VIS Spectrophotometer at WHOI, but most samples were run\non a Lachat QuikChem 8000 Flow Injection Analyzer at UCSC. \\u00a0The principle\nof both methods is the same, except that formation of the silico-molybdate\ncomplex reaction is allowed to run to completion before spectrophotometric\ndetection in the manual method (WHOI), whereas the reaction occurs online in\nthe flow injection method (UCSC).\n \nA time-series approach was tested for the WHOI leaches, with four timepoints\ntaken after 1, 2, 3, and 4 hours of leaching. \\u00a0There was little evidence\nof a systematic lithogenic contribution, so the mean of the first three\ntimepoints from the WHOI leaches was taken as the most representative value,\nand the standard deviation used in the error estimate. \\u00a0Subsequent\nsamples at UCSC were leached for 1 hr only.\n \n2.1.2 Data Processing\n \nIntercomparability of the WHOI and UCSC methods was assessed by checking that\nthe bSi profiles of stations with samples analyzed at both places were\noceanographically consistent.\n \nThe median of Supor dipped blank filters were used to correct the SPT data.\n\\u00a0For >51 um LPT samples on polyester prefilters, blank corrections were\nmade using the median failed pump values (pumps that never turned on, or that\nshut off after <5% of programmed water volume was filtered) because of\nanomalously high prefilter dipped blank values. Anomalously high prefilter\ndipped blank bSi values was also observed for the GA03 NAZT section. \\u00a0\n \nThe reported error was determined as the standard deviation of bSi on the\ndipped blank filters, converted to concentrations using volume filtered. For\nsamples run at WHOI only, the standard deviation of the three timepoints was\nalso propagated into the error estimate.\n \n2.1.3 Derived parameters: OPAL\n \nThe mass of opal was calculated assuming a hydrated form of silica: SiO2.(0.4\nH2O) (Mortlock and Froelich, 1989), or 67.2 g opal/mol bSi:\n \nOPAL [ug/L] = bSi [uM] *67.2 [ug opal/umol bSi]\n \n2.2 Particulate Organic Carbon (POC), Particulate Nitrogen (PN), POM,\n\\u03b413C, and d15N\n \n2.2.1 Analytical methodology for POC, PN, \\u03b413C, and d15N\n \nParticulate organic carbon and particulate nitrogen were measured by\ncombustion on an elemental analyzer after fuming with concentrated HCl to\nremove particulate inorganic carbon. \\u00a0Briefly, dried filter samples were\nexposed to HCl fumes in a dessicator for ~16 hours. After fuming, filters were\ndried at 60 deg C in an oven for another ~16 hrs before being pelletized in\ntin discs. POC from suspended particles (1-51um; SPT) were measured using a\nFlash EA1112 Carbon/Nitrogen Analyzer using a Dynamic Flash Combustion\ntechnique at the WHOI Nutrient Analytical Facility on two 12 mm-diameter\npunches from the top QMA filter, representing the equivalent of ~20L of\nmaterial. For the >51um size fraction (LPT), particles from the 51um polyester\nprefilter above the Supor filter were rinsed at sea with 1um-filtered seawater\nonto a 25mm 1.2 um Sterlitech Ag filter and dried at 60 deg C. \\u00a0Half of\nthe Ag filter containing rinsed LPT particles, typically representing ~200L of\nmaterial, was analyzed for POC and PN using either a Carlo Erba 1108 or a CE\nInstruments NC2500 elemental analyzer interfaced to a ThermoFinnigan Delta\nPlus XP isotope ratio mass spectrometer at the Stable Isotope Laboratory at\nUCSC, which also gave the C and N stable isotope composition of the LPT\nparticles.\n \n2.2.2 Data Processing\n \nIntercomparability of the WHOI and UCSC datasets was assessed by checking that\na POC_SPT profile that had samples analyzed at both places was\noceanographically consistent.\n \nFor POC and PN in the small size fraction, the standard deviation of 47 dipped\nblank QMA filters used for blank subtraction. \\u00a0For POC and PN in the\nlarge size fractions \\u00a0(>51 um; POC_LPT, PN_LPT), we found that the\nvariability in the dipped blank increased significantly after station 21\n(i.e., after the loss of the dipped blank plate and switching to the\nperforated plastic holder for the dipped blanks), especially for the deeper\ncasts. \\u00a0We therefore use the median and standard deviation of 25 dipped\nblanks from before station 21 for blank subtraction and error estimation\n(Table 1).\\u00a0\n \nThe stable isotopic composition of C (\\u03b413C) and N (d15N ) for the large\nsize fraction LPT particles are given as raw values (*_raw), and corrected for\nthe dipped blank (*_dbcorr) using the median isotopic composition of the\ndipped blanks (Table 1). Measurement precision is 0.2 permil for samples\ngreater than 20 mg C (1.7 mmol C) or 20 mg N (1.4 mmol N). \\u00a0Only three\nsamples did not meet this threshold for LPT C, but 77% of LPT samples did not\nmeet this threshold for N. \\u00a0d15N values for samples below the 20 mg N\nthreshold were assigned a QF=4.\n \n2.2.3 Derived parameters: POM\n \nParticulate organic matter (POM) is calculated from POC using a weight ratio\nof 1.88 g POM/g POC (Lam et al., 2011).\n \nPOM [mg/L] = POC [mM] * 12 [mg POC/mmol POC] * 1.88 [g POM/g POC]\n \n2.3 Particulate Inorganic Carbon (PIC) and CaCO3\n \n2.3.1 Analytical methodology for PIC\n \nPIC was measured directly by coulometry (measurement of CO2 following closed-\nsystem conversion of PIC to CO2 upon addition of 1N phosphoric acid (WHOI) or\n2 N sulfuric acid (UCSC) to a QMA punch or 1/16 polyester prefilter) (Honjo et\nal., 1995)\n \n2.3.2 Data Processing\n \nIntercomparability of the WHOI and UCSC datasets was assessed by checking that\na PIC_LPT profile that had samples analyzed at both places was\noceanographically consistent. \\u00a0 Blank subtraction, error calculation, and\ndetection limit determined as described at beginning of section 2.\n \n2.3.3 Derived parameters: CaCO3\n \nThe mass of CaCO3 is calculated stoichiometrically from the mass of PIC:\n \nCaCO3 [ug/L] = PIC [umol/L] * 100.08 [mg CaCO3/mmol PIC]\n \n2.4 Particulate trace metals (pTM)\n \n2.4.1 Analytical methodology for pTMs\n \nTotal pTM concentrations in the SPT were analyzed from either 1/16 or 1/8\nsubsamples of the top Supor (0.8um) filter. \\u00a0pTM totals in the LPT were\nanalyzed from 1/8 subsamples (typically ~150L) of the QMA-side 51um pre-\nfilter, which were rinsed at sea onto 25mm Supor (0.8um) filter discs using 0\n.2um-filtered surface seawater collected using clean techniques from an\nunderway Fish system (Bruland et al., 2005). \\u00a0Methods for particulate\ntrace metal (pTM) digestion and analysis followed those described in (Ohnemus\nand Lam, 2015). \\u00a0Briefly, the Supor filter matrix was first completely\ndigested with the strongly oxidizing Piranha solution, a 3:1 mixture of\nsulfuric acid and hydrogen peroxide with 1 ppb Rh as a recovery monitor.\n\\u00a0After drying down, remaining particles were digested in a mixture of\nHCl/HNO3/HF acids (all acids at 4 M) at 135\\u02daC for 4 hrs, then dried down.\nRemaining pellet was reacted with 50% HNO3/15% H2O2 to remove any remaining\norganics, dried, and resuspended in 5% HNO3\\u00ad with 1 ppb In as an internal\nstandard for analysis via high-resolution Inductively Coupled Mass\nSpectrometetry (HR-ICP-MS) using an Element-XR ICP-MS (Thermo Scientific) with\nSC-FAST (Elemental Scientific) sample introduction system and PC3 Peltier\ncooled quartz cyclonic spray chamber in the UCSC Plasma Analytical Facility.\nICP-MS (Element XR, Thermo-Finnigan). \\u00a0Elemental concentrations were\nstandardized using multi-element, external standard curves prepared from NIST\natomic absorption-standards in 5% HNO3\\u00ad. \\u00a0Instrument drift and\nmatrix effects were corrected using the internal 1ppb In standard and\nmonitored using a mixed element run standard. \\u00a0Concentrations were\ndetermined using external standard curves of mixed trace elements standards.\n \nA subset of samples were repeated in which samples were redigested and/or\nrerun.\n \n2.4.2 Data processing\n \nThe reported error is calculated by propagating the two main sources of\nuncertainty: uncertainty in the dipped blank subtraction, and the combined\nuncertainty due to heterogeneity in particle distribution and variations in\ndigestion. \\u00a0The former is determined as the standard deviation of the\ndipped blank filters. The latter is determined from the maximum of the mean\nrelative standard deviation of all repeat samples for that element if no\nrepeats were run, and the actual standard deviation if repeats were run.\n\\u00a0For most elements, the uncertainty in the blank subtraction was the\nlargest source of uncertainty (Figure 1).\n \n2.4.3 Derived parameters\n \n2.4.3.1 Lithogenic material\n \nAl is usually used as a tracer of lithogenic material since it is the third\nmost abundant element in Earth\\u2019s crust after Si and O. \\u00a0Al has the\nadded advantage that its concentration does not vary much between upper\ncontinental crust (UCC Al = 8.04% by weight) and bulk continental crust (BCC\nAl = 8.41wt%), so the estimate of lithogenic mass is not very sensitive to\nlithogenic source regions (Taylor and McLennan, 1995). \\u00a0Slopes of Fe vs\nAl (10.3 mol Fe/mol Al) and Fe vs Ti (0.23 mol Fe/mol Ti) for samples\ndominated by lithogenic material (Station 1 trench) gave slopes that were very\nsimilar to UCC crustal ratios (Fe/AlUCC=10.0 and Fe/TiUCC-0.21; compare to\nFe/AlBCC=11.2 and Fe/TiBCC-0.41). \\u00a0We therefore use the UCC Al\nconcentration of 8.04% to calculate lithogenic mass.\n \nLITHO \\u00a0[ug/L] = Al [pM] * 27 [pg/pmol] / 0.0804 [ug Al/mg UCC] * [1ug/1e6\npg]\n \n2.4.3.2 Fe and Mn oxyhydroxides\n \nFe and Mn in oxyhydroxides were calculated by subtracting Fe and Mn associated\nwith lithogenic material. \\u00a0Although Ti may be a better tracer for\nlithogenic Fe and Mn than Al as the ratios of Fe and Mn to Ti are less\nsensitive to source than ratios to Al (Lam et al., 2015), Ti concentrations\nwere very low and often below the detection limit for this transect. \\u00a0We\nverified that the UCC Fe:Al=0.210 mol/mol and Mn:Al=0.00355 mol/mol ratios\n(Taylor and McLennan, 1995) compared well with Fe:Al in the most lithogenic-\nrich sample in our dataset\\u2014the deepest samples in the Peru Trench, which\nhad Fe:Al=0.227. \\u00a0We thus used the UCC ratios of Fe and Mn to Al to\nremove lithogenic Fe and Mn, We approximate the formulae for Fe and Mn\noxyhydroxides to be Fe(OH)3 (ferrihydrite approximation) and MnO2 (birnessite\napproximation), with formula weights 106.9 g Fe(OH)3/mol Fe and 86.9 g\nMnO2/mol Mn, respectively. Negative numbers were set to 0.\n \nFeOH3 [ug/L] = (Fe [pM] \\u2013 (Al [pM] * 0.210 [pmol Fe/pmol Al]) ) * 106.9\n[pg Fe(OH)3/ pmol \\u00a0Fe] * [1ug/1e6 pg])\n \nMnO2 [ug/L] = (Mn [pM] \\u2013 (Al [pM] * 0.00367 [pmol Mn/pmol Al]) ) *\n \n86.9 [pg MnO2/pmol Mn] * [1ug/1e6 pg])\n \n2.5 Suspended particulate mass (SPM)\n \nSuspended particulate mass in the sinking (>51um) and suspended (1-51um) size\nfractions was estimated as the chemical dry weight of the major particulate\nphases, which is the sum of POM, opal, CaCO3, lithogenic material, and Fe and\nMn oxyhydroxides, and is calculated as:\n \nSPM [mg/L] = POM [ug/L] + opal [ug/L] + CaCO3 [ug/L] + Litho [ug/L] + Fe(OH)3\n[ug/L] + MnO2 [ug/L]\n \nNote that the resolution of this data is dictated by the lowest resolution of\nthe component parts.

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awards_0_award_nid

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668084

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awards_0_award_number

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OCE-1518110

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awards_0_data_url

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http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=1518110 (external link)

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awards_0_funder_name

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NSF Division of Ocean Sciences

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awards_0_funding_acronym

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NSF OCE

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awards_0_funding_source_nid

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355

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NC_GLOBAL

awards_0_program_manager

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Henrietta N Edmonds

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awards_0_program_manager_nid

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51517

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NC_GLOBAL

cdm_data_type

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Other

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comment

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GEOTRACES EPZT - Particle Composition \n Phoebe Lam et. al. \n Version: 24 January 2017 (corrected ISO_DateTime_ISO for events 4013 and 4150) \n replaces Version 3 January 2017

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Conventions

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COARDS, CF-1.6, ACDD-1.3

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NC_GLOBAL

creator_email

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info at bco-dmo.org

attribute

NC_GLOBAL

creator_name

String

BCO-DMO

attribute

NC_GLOBAL

creator_type

String

institution

attribute

NC_GLOBAL

creator_url

String

https://www.bco-dmo.org/ (external link)

attribute

NC_GLOBAL

data_source

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extract_data_as_tsv version 2.3 19 Dec 2019

attribute

NC_GLOBAL

date_created

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2016-12-02T18:02:48Z

attribute

NC_GLOBAL

date_modified

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2020-03-24T16:23:13Z

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NC_GLOBAL

defaultDataQuery

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&time<now

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NC_GLOBAL

doi

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10.1575/1912/bco-dmo.668083.1

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NC_GLOBAL

Easternmost_Easting

double

-77.376

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NC_GLOBAL

geospatial_lat_max

double

-10.5004

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NC_GLOBAL

geospatial_lat_min

double

-15.99933333

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geospatial_lat_units

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degrees_north

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NC_GLOBAL

geospatial_lon_max

double

-77.376

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geospatial_lon_min

double

-151.9995167

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NC_GLOBAL

geospatial_lon_units

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degrees_east

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NC_GLOBAL

infoUrl

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https://www.bco-dmo.org/dataset/668083 (external link)

attribute

NC_GLOBAL

institution

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BCO-DMO

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NC_GLOBAL

instruments_0_acronym

String

CTD Sea-Bird

attribute

NC_GLOBAL

instruments_0_dataset_instrument_description

String

Used to for sampling and to verify target depths

attribute

NC_GLOBAL

instruments_0_dataset_instrument_nid

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668435

attribute

NC_GLOBAL

instruments_0_description

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Conductivity, Temperature, Depth (CTD) sensor package from SeaBird Electronics, no specific unit identified. This instrument designation is used when specific make and model are not known. See also other SeaBird instruments listed under CTD. More information from Sea-Bird Electronics.

attribute

NC_GLOBAL

instruments_0_instrument_external_identifier

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https://vocab.nerc.ac.uk/collection/L05/current/130/ (external link)

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NC_GLOBAL

instruments_0_instrument_name

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CTD Sea-Bird

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NC_GLOBAL

instruments_0_instrument_nid

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447

attribute

NC_GLOBAL

instruments_0_supplied_name

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self-recording Seabird 19plus CTD

attribute

NC_GLOBAL

instruments_1_acronym

String

IR Mass Spec

attribute

NC_GLOBAL

instruments_1_dataset_instrument_description

String

Used to measure C and N stable isotopes

attribute

NC_GLOBAL

instruments_1_dataset_instrument_nid

String

668441

attribute

NC_GLOBAL

instruments_1_description

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The Isotope-ratio Mass Spectrometer is a particular type of mass spectrometer used to measure the relative abundance of isotopes in a given sample (e.g. VG Prism II Isotope Ratio Mass-Spectrometer).

attribute

NC_GLOBAL

instruments_1_instrument_external_identifier

String

https://vocab.nerc.ac.uk/collection/L05/current/LAB16/ (external link)

attribute

NC_GLOBAL

instruments_1_instrument_name

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Isotope-ratio Mass Spectrometer

attribute

NC_GLOBAL

instruments_1_instrument_nid

String

469

attribute

NC_GLOBAL

instruments_1_supplied_name

String

ThermoFinnigan Delta Plus XP isotope ratio mass spectrometer

attribute

NC_GLOBAL

instruments_2_acronym

String

CHN

attribute

NC_GLOBAL

instruments_2_dataset_instrument_description

String

POC was measured

attribute

NC_GLOBAL

instruments_2_dataset_instrument_nid

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668439

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NC_GLOBAL

instruments_2_description

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A unit that accurately determines the carbon and nitrogen concentrations of organic compounds typically by detecting and measuring their combustion products (CO2 and NO).

attribute

NC_GLOBAL

instruments_2_instrument_name

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Particulate Organic Carbon/Nitrogen Analyzer

attribute

NC_GLOBAL

instruments_2_instrument_nid

String

654

attribute

NC_GLOBAL

instruments_2_supplied_name

String

Flash EA1112 Carbon/Nitrogen Analyzer

attribute

NC_GLOBAL

instruments_3_acronym

String

FIA

attribute

NC_GLOBAL

instruments_3_dataset_instrument_description

String

Ran samples

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NC_GLOBAL

instruments_3_dataset_instrument_nid

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668438

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NC_GLOBAL

instruments_3_description

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An instrument that performs flow injection analysis. Flow injection analysis (FIA) is an approach to chemical analysis that is accomplished by injecting a plug of sample into a flowing carrier stream. FIA is an automated method in which a sample is injected into a continuous flow of a carrier solution that mixes with other continuously flowing solutions before reaching a detector. Precision is dramatically increased when FIA is used instead of manual injections and as a result very specific FIA systems have been developed for a wide array of analytical techniques.

attribute

NC_GLOBAL

instruments_3_instrument_external_identifier

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https://vocab.nerc.ac.uk/collection/L05/current/LAB36/ (external link)

attribute

NC_GLOBAL

instruments_3_instrument_name

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Flow Injection Analyzer

attribute

NC_GLOBAL

instruments_3_instrument_nid

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657

attribute

NC_GLOBAL

instruments_3_supplied_name

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Lachat QuikChem 8000 Flow Injection Analyzer

attribute

NC_GLOBAL

instruments_4_acronym

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Mass Spec

attribute

NC_GLOBAL

instruments_4_dataset_instrument_description

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Inductively Coupled Mass Spectrometetry (HR-ICP-MS)

attribute

NC_GLOBAL

instruments_4_dataset_instrument_nid

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668442

attribute

NC_GLOBAL

instruments_4_description

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General term for instruments used to measure the mass-to-charge ratio of ions; generally used to find the composition of a sample by generating a mass spectrum representing the masses of sample components.

attribute

NC_GLOBAL

instruments_4_instrument_external_identifier

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https://vocab.nerc.ac.uk/collection/L05/current/LAB16/ (external link)

attribute

NC_GLOBAL

instruments_4_instrument_name

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Mass Spectrometer

attribute

NC_GLOBAL

instruments_4_instrument_nid

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685

attribute

NC_GLOBAL

instruments_4_supplied_name

String

Element-XR ICP-MS (Thermo Scientific)

attribute

NC_GLOBAL

instruments_5_acronym

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Spectrophotometer

attribute

NC_GLOBAL

instruments_5_dataset_instrument_description

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Used to run samples manually

attribute

NC_GLOBAL

instruments_5_dataset_instrument_nid

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668437

attribute

NC_GLOBAL

instruments_5_description

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An instrument used to measure the relative absorption of electromagnetic radiation of different wavelengths in the near infra-red, visible and ultraviolet wavebands by samples.

attribute

NC_GLOBAL

instruments_5_instrument_external_identifier

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https://vocab.nerc.ac.uk/collection/L05/current/LAB20/ (external link)

attribute

NC_GLOBAL

instruments_5_instrument_name

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Spectrophotometer

attribute

NC_GLOBAL

instruments_5_instrument_nid

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707

attribute

NC_GLOBAL

instruments_5_supplied_name

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Shimadzu UV-2550 UV-VIS Spectrophotometer

attribute

NC_GLOBAL

instruments_6_dataset_instrument_description

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Used to collect size-fractioned particles

attribute

NC_GLOBAL

instruments_6_dataset_instrument_nid

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668436

attribute

NC_GLOBAL

instruments_6_description

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A pump is a device that moves fluids (liquids or gases), or sometimes slurries, by mechanical action. Pumps can be classified into three major groups according to the method they use to move the fluid: direct lift, displacement, and gravity pumps

attribute

NC_GLOBAL

instruments_6_instrument_name

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Pump

attribute

NC_GLOBAL

instruments_6_instrument_nid

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726

attribute

NC_GLOBAL

instruments_6_supplied_name

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McLane Research in-situ pumps

attribute

NC_GLOBAL

instruments_7_dataset_instrument_description

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Measured POC and PN

attribute

NC_GLOBAL

instruments_7_dataset_instrument_nid

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668440

attribute

NC_GLOBAL

instruments_7_description

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Instruments that quantify carbon, nitrogen and sometimes other elements by combusting the sample at very high temperature and assaying the resulting gaseous oxides. Usually used for samples including organic material.

attribute

NC_GLOBAL

instruments_7_instrument_external_identifier

String

https://vocab.nerc.ac.uk/collection/L05/current/LAB01/ (external link)

attribute

NC_GLOBAL

instruments_7_instrument_name

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Elemental Analyzer

attribute

NC_GLOBAL

instruments_7_instrument_nid

String

546339

attribute

NC_GLOBAL

instruments_7_supplied_name

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Carlo Erba 1108 or a CE Instruments NC2500 elemental analyzer

attribute

NC_GLOBAL

keywords

String

Ag_LPT_CONC_PUMP, Ag_LPT_CONC_PUMP_QV_ODV, Ag_LPT_CONC_PUMP_STDEV, Ag_SPT_CONC_PUMP, Ag_SPT_CONC_PUMP_QV_ODV, Ag_SPT_CONC_PUMP_STDEV, Al_LPT_CONC_PUMP, Al_LPT_CONC_PUMP_QV_ODV, Al_LPT_CONC_PUMP_STDEV, Al_SPT_CONC_PUMP, Al_SPT_CONC_PUMP_QV_ODV, Al_SPT_CONC_PUMP_STDEV, Ba_LPT_CONC_PUMP, Ba_LPT_CONC_PUMP_QV_ODV, Ba_LPT_CONC_PUMP_STDEV, Ba_SPT_CONC_PUMP, Ba_SPT_CONC_PUMP_QV_ODV, Ba_SPT_CONC_PUMP_STDEV, bco, bco-dmo, biological, bSi_LPT_PUMP_CONC, bSi_LPT_PUMP_CONC_QV_ODV, bSi_LPT_PUMP_CONC_STDEV, bSi_SPT_PUMP_CONC, bSi_SPT_PUMP_CONC_QV_ODV, bSi_SPT_PUMP_CONC_STDEV, btmdepth, CaCO3_LPT_CONC_PUMP, CaCO3_LPT_CONC_PUMP_QV_ODV, CaCO3_LPT_CONC_PUMP_STDEV, CaCO3_SPT_CONC_PUMP, CaCO3_SPT_CONC_PUMP_QV_ODV, CaCO3_SPT_CONC_PUMP_STDEV, carbonate, castno, Cd_LPT_CONC_PUMP, Cd_LPT_CONC_PUMP_QV_ODV, Cd_LPT_CONC_PUMP_STDEV, Cd_SPT_CONC_PUMP, Cd_SPT_CONC_PUMP_QV_ODV, Cd_SPT_CONC_PUMP_STDEV, chemical, co3, Co_LPT_CONC_PUMP, Co_LPT_CONC_PUMP_QV_ODV, Co_LPT_CONC_PUMP_STDEV, Co_SPT_CONC_PUMP, Co_SPT_CONC_PUMP_QV_ODV, Co_SPT_CONC_PUMP_STDEV, conc, cruise, cruise_id, Cu_LPT_CONC_PUMP, Cu_LPT_CONC_PUMP_QV_ODV, Cu_LPT_CONC_PUMP_STDEV, Cu_SPT_CONC_PUMP, Cu_SPT_CONC_PUMP_QV_ODV, Cu_SPT_CONC_PUMP_STDEV, d13, d13C_LPT_PUMP_CONC_dbcorr, d13C_LPT_PUMP_CONC_dbcorr_QV_ODV, d13C_LPT_PUMP_CONC_QV_ODV, d13C_LPT_PUMP_CONC_raw, d15, d15N_LPT_PUMP_CONC_dbcorr, d15N_LPT_PUMP_CONC_dbcorr_QV_ODV, d15N_LPT_PUMP_CONC_QV_ODV, d15N_LPT_PUMP_CONC_raw, data, dataset, date, dbcorr, depth, DEPTH_MAX, deviation, dmo, erddap, eventno, Fe_LPT_CONC_PUMP, Fe_LPT_CONC_PUMP_QV_ODV, Fe_LPT_CONC_PUMP_STDEV, Fe_SPT_CONC_PUMP, Fe_SPT_CONC_PUMP_QV_ODV, Fe_SPT_CONC_PUMP_STDEV, FeOH3_LPT_CONC_PUMP, FeOH3_LPT_CONC_PUMP_QV_ODV, FeOH3_LPT_CONC_PUMP_STDEV, FeOH3_SPT_CONC_PUMP, FeOH3_SPT_CONC_PUMP_QV_ODV, FeOH3_SPT_CONC_PUMP_STDEV, geotrc, GEOTRC_EVENTNO, GEOTRC_SAMPNO, iso, litho, LITHO_LPT_CONC_PUMP, LITHO_LPT_CONC_PUMP_QV_ODV, LITHO_LPT_CONC_PUMP_STDEV, LITHO_SPT_CONC_PUMP, LITHO_SPT_CONC_PUMP_QV_ODV, LITHO_SPT_CONC_PUMP_STDEV, lpt, management, Mn_LPT_CONC_PUMP, Mn_LPT_CONC_PUMP_QV_ODV, Mn_LPT_CONC_PUMP_STDEV, Mn_SPT_CONC_PUMP, Mn_SPT_CONC_PUMP_QV_ODV, Mn_SPT_CONC_PUMP_STDEV, MnO2_LPT_CONC_PUMP, MnO2_LPT_CONC_PUMP_QV_ODV, MnO2_LPT_CONC_PUMP_STDEV, MnO2_SPT_CONC_PUMP, MnO2_SPT_CONC_PUMP_QV_ODV, MnO2_SPT_CONC_PUMP_STDEV, Mo_LPT_CONC_PUMP, Mo_LPT_CONC_PUMP_QV_ODV, Mo_LPT_CONC_PUMP_STDEV, Mo_SPT_CONC_PUMP, Mo_SPT_CONC_PUMP_QV_ODV, Mo_SPT_CONC_PUMP_STDEV, model, Nd_LPT_CONC_PUMP, Nd_LPT_CONC_PUMP_QV_ODV, Nd_LPT_CONC_PUMP_STDEV, Nd_SPT_CONC_PUMP, Nd_SPT_CONC_PUMP_QV_ODV, Nd_SPT_CONC_PUMP_STDEV, Ni_LPT_CONC_PUMP, Ni_LPT_CONC_PUMP_QV_ODV, Ni_LPT_CONC_PUMP_STDEV, Ni_SPT_CONC_PUMP, Ni_SPT_CONC_PUMP_QV_ODV, Ni_SPT_CONC_PUMP_STDEV, O2, ocean, oceanography, odv, office, oh3, opal, OPAL_LPT_CONC_PUMP, OPAL_LPT_CONC_PUMP_QV_ODV, OPAL_LPT_CONC_PUMP_STDEV, OPAL_SPT_CONC_PUMP, OPAL_SPT_CONC_PUMP_QV_ODV, OPAL_SPT_CONC_PUMP_STDEV, oxygen, P_LPT_CONC_PUMP, P_LPT_CONC_PUMP_QV_ODV, P_LPT_CONC_PUMP_STDEV, P_SPT_CONC_PUMP, P_SPT_CONC_PUMP_QV_ODV, P_SPT_CONC_PUMP_STDEV, Pb_LPT_CONC_PUMP, Pb_LPT_CONC_PUMP_QV_ODV, Pb_LPT_CONC_PUMP_STDEV, Pb_SPT_CONC_PUMP, Pb_SPT_CONC_PUMP_QV_ODV, Pb_SPT_CONC_PUMP_STDEV, pic, PIC_LPT_PUMP_CONC, PIC_LPT_PUMP_CONC_QV_ODV, PIC_LPT_PUMP_CONC_STDEV, PIC_SPT_PUMP_CONC, PIC_SPT_PUMP_CONC_QV_ODV, PIC_SPT_PUMP_CONC_STDEV, PN_LPT_PUMP_CONC, PN_LPT_PUMP_CONC_QV_ODV, PN_LPT_PUMP_CONC_STDEV, PN_SPT_PUMP_CONC, PN_SPT_PUMP_CONC_QV_ODV, PN_SPT_PUMP_CONC_STDEV, poc, POC_LPT_PUMP_CONC, POC_LPT_PUMP_CONC_QV_ODV, POC_LPT_PUMP_CONC_STDEV, POC_SPT_PUMP_CONC, POC_SPT_PUMP_CONC_QV_ODV, POC_SPT_PUMP_CONC_STDEV, pom, POM_LPT_CONC_PUMP, POM_LPT_CONC_PUMP_QV_ODV, POM_LPT_CONC_PUMP_STDEV, POM_SPT_CONC_PUMP, POM_SPT_CONC_PUMP_QV_ODV, POM_SPT_CONC_PUMP_STDEV, preliminary, princeton, pump, PUMP_LAT, PUMP_LON, qliters, raw, sampno, Sc_LPT_CONC_PUMP, Sc_LPT_CONC_PUMP_QV_ODV, Sc_LPT_CONC_PUMP_STDEV, Sc_SPT_CONC_PUMP, Sc_SPT_CONC_PUMP_QV_ODV, Sc_SPT_CONC_PUMP_STDEV, sliters, spm, SPM_LPT_CONC_PUMP, SPM_LPT_CONC_PUMP_QV_ODV, SPM_LPT_CONC_PUMP_STDEV, SPM_SPT_CONC_PUMP, SPM_SPT_CONC_PUMP_QV_ODV, SPM_SPT_CONC_PUMP_STDEV, spt, standard, standard deviation, stdev, stnnbr, Th_LPT_CONC_PUMP, Th_LPT_CONC_PUMP_QV_ODV, Th_LPT_CONC_PUMP_STDEV, Th_SPT_CONC_PUMP, Th_SPT_CONC_PUMP_QV_ODV, Th_SPT_CONC_PUMP_STDEV, Ti_LPT_CONC_PUMP, Ti_LPT_CONC_PUMP_QV_ODV, Ti_LPT_CONC_PUMP_STDEV, Ti_SPT_CONC_PUMP, Ti_SPT_CONC_PUMP_QV_ODV, Ti_SPT_CONC_PUMP_STDEV, time, v, V_LPT_CONC_PUMP, V_LPT_CONC_PUMP_QV_ODV, V_LPT_CONC_PUMP_STDEV, V_SPT_CONC_PUMP, V_SPT_CONC_PUMP_QV_ODV, V_SPT_CONC_PUMP_STDEV, view, Y_LPT_CONC_PUMP, Y_LPT_CONC_PUMP_QV_ODV, Y_LPT_CONC_PUMP_STDEV, Y_SPT_CONC_PUMP, Y_SPT_CONC_PUMP_QV_ODV, Y_SPT_CONC_PUMP_STDEV

attribute

NC_GLOBAL

license

String

https://www.bco-dmo.org/dataset/668083/license (external link)

attribute

NC_GLOBAL

metadata_source

String

https://www.bco-dmo.org/api/dataset/668083 (external link)

attribute

NC_GLOBAL

Northernmost_Northing

double

-10.5004

attribute

NC_GLOBAL

param_mapping

String

{'668083': {'PUMP_LON': 'master - longitude', 'PUMP_LAT': 'master - latitude', 'ISO_DateTime_UTC': 'master - time'}}

attribute

NC_GLOBAL

parameter_source

String

https://www.bco-dmo.org/mapserver/dataset/668083/parameters (external link)

attribute

NC_GLOBAL

people_0_affiliation

String

University of California-Santa Cruz

attribute

NC_GLOBAL

people_0_affiliation_acronym

String

UC Santa Cruz

attribute

NC_GLOBAL

people_0_person_name

String

Phoebe J. Lam

attribute

NC_GLOBAL

people_0_person_nid

String

51146

attribute

NC_GLOBAL

people_0_role

String

Principal Investigator

attribute

NC_GLOBAL

people_0_role_type

String

originator

attribute

NC_GLOBAL

people_10_affiliation

String

Woods Hole Oceanographic Institution

attribute

NC_GLOBAL

people_10_affiliation_acronym

String

WHOI BCO-DMO

attribute

NC_GLOBAL

people_10_person_name

String

Hannah Ake

attribute

NC_GLOBAL

people_10_person_nid

String

650173

attribute

NC_GLOBAL

people_10_role

String

BCO-DMO Data Manager

attribute

NC_GLOBAL

people_10_role_type

String

attribute

NC_GLOBAL

people_1_affiliation

String

University of California-Santa Cruz

attribute

NC_GLOBAL

people_1_affiliation_acronym

String

UC Santa Cruz

attribute

NC_GLOBAL

people_1_person_name

String

Phoebe J. Lam

attribute

NC_GLOBAL

people_1_person_nid

String

51146

attribute

NC_GLOBAL

people_1_role

String

Contact

attribute

NC_GLOBAL

people_1_role_type

String

attribute

NC_GLOBAL

people_2_affiliation

String

University of California-Santa Cruz

attribute

NC_GLOBAL

people_2_affiliation_acronym

String

UC Santa Cruz

attribute

NC_GLOBAL

people_2_person_name

String

Colin Carney

attribute

NC_GLOBAL

people_2_person_nid

String

668101

attribute

NC_GLOBAL

people_2_role

String

Analyst

attribute

NC_GLOBAL

people_2_role_type

String

attribute

NC_GLOBAL

people_3_affiliation

String

Ifremer

attribute

NC_GLOBAL

people_3_affiliation_acronym

String

Ifremer

attribute

NC_GLOBAL

people_3_person_name

String

Dr Maija I Heller

attribute

NC_GLOBAL

people_3_person_nid

String

668102

attribute

NC_GLOBAL

people_3_role

String

Analyst

attribute

NC_GLOBAL

people_3_role_type

String

attribute

NC_GLOBAL

people_4_affiliation

String

Woods Hole Oceanographic Institution

attribute

NC_GLOBAL

people_4_affiliation_acronym

String

WHOI

attribute

NC_GLOBAL

people_4_person_name

String

Paul B. Henderson

attribute

NC_GLOBAL

people_4_person_nid

String

51039

attribute

NC_GLOBAL

people_4_role

String

Analyst

attribute

NC_GLOBAL

people_4_role_type

String

attribute

NC_GLOBAL

people_5_affiliation

String

University of Massachusetts Amherst

attribute

NC_GLOBAL

people_5_person_name

String

Ulrich Kakou

attribute

NC_GLOBAL

people_5_person_nid

String

668098

attribute

NC_GLOBAL

people_5_role

String

Analyst

attribute

NC_GLOBAL

people_5_role_type

String

attribute

NC_GLOBAL

people_6_affiliation

String

University of California-Santa Cruz

attribute

NC_GLOBAL

people_6_affiliation_acronym

String

UC Santa Cruz

attribute

NC_GLOBAL

people_6_person_name

String

Jong-Mi Lee

attribute

NC_GLOBAL

people_6_person_nid

String

644619

attribute

NC_GLOBAL

people_6_role

String

Analyst

attribute

NC_GLOBAL

people_6_role_type

String

attribute

NC_GLOBAL

people_7_affiliation

String

Woods Hole Oceanographic Institution

attribute

NC_GLOBAL

people_7_affiliation_acronym

String

WHOI

attribute

NC_GLOBAL

people_7_person_name

String

Steven Manganini

attribute

NC_GLOBAL

people_7_person_nid

String

50634

attribute

NC_GLOBAL

people_7_role

String

Analyst

attribute

NC_GLOBAL

people_7_role_type

String

attribute

NC_GLOBAL

people_8_affiliation

String

University of California-Santa Cruz

attribute

NC_GLOBAL

people_8_affiliation_acronym

String

UC Santa Cruz

attribute

NC_GLOBAL

people_8_person_name

String

Sanjin Mehic

attribute

NC_GLOBAL

people_8_person_nid

String

668099

attribute

NC_GLOBAL

people_8_role

String

Analyst

attribute

NC_GLOBAL

people_8_role_type

String

attribute

NC_GLOBAL

people_9_affiliation

String

University of California-Santa Cruz

attribute

NC_GLOBAL

people_9_affiliation_acronym

String

UC Santa Cruz

attribute

NC_GLOBAL

people_9_person_name

String

Yang Xiang

attribute

NC_GLOBAL

people_9_person_nid

String

668100

attribute

NC_GLOBAL

people_9_role

String

Analyst

attribute

NC_GLOBAL

people_9_role_type

String

attribute

NC_GLOBAL

project

String

U.S. GEOTRACES EPZT,EPZT Particle Geochemistry

attribute

NC_GLOBAL

projects_0_acronym

String

U.S. GEOTRACES EPZT

attribute

NC_GLOBAL

projects_0_description

String

From the NSF Award Abstract\nThe mission of the International GEOTRACES Program (www.geotraces.org), of which the U.S. chemical oceanography research community is a founding member, is \"to identify processes and quantify fluxes that control the distributions of key trace elements and isotopes in the ocean, and to establish the sensitivity of these distributions to changing environmental conditions\" (GEOTRACES Science Plan, 2006). In the United States, ocean chemists are currently in the process of organizing a zonal transect in the eastern tropical South Pacific (ETSP) from Peru to Tahiti as the second cruise of the U.S.GEOTRACES Program. This Pacific section includes a large area characterized by high rates of primary production and particle export in the eastern boundary associated with the Peru Upwelling, a large oxygen minimum zone that is a major global sink for fixed nitrogen, and a large hydrothermal plume arising from the East Pacific Rise. This particular section was selected as a result of open planning workshops in 2007 and 2008, with a final recommendation made by the U.S.GEOTRACES Steering Committee in 2009. It is the first part of a two-stage plan that will include a meridional section of the Pacific from Tahiti to Alaska as a subsequent expedition.\nThis award provides funding for management of the U.S.GEOTRACES Pacific campaign to a team of scientists from the University of Southern California, Old Dominion University, and the Woods Hole Oceanographic Institution. The three co-leaders will provide mission leadership, essential support services, and management structure for acquiring the trace elements and isotopes samples listed as core parameters in the International GEOTRACES Science Plan, plus hydrographic and nutrient data needed by participating investigators. With this support from NSF, the management team will (1) plan and coordinate the 52-day Pacific research cruise described above; (2) obtain representative samples for a wide variety of trace metals of interest using conventional CTD/rosette and GEOTRACES Sampling Systems; (3) acquire conventional JGOFS/WOCE-quality hydrographic data (CTD, transmissometer, fluorometer, oxygen sensor, etc) along with discrete samples for salinity, dissolved oxygen (to 1 uM detection limits), plant pigments, redox tracers such as ammonium and nitrite, and dissolved nutrients at micro- and nanomolar levels; (4) ensure that proper QA/QC protocols are followed and reported, as well as fulfilling all GEOTRACES Intercalibration protocols; (5) prepare and deliver all hydrographic-type data to the GEOTRACES Data Center (and US data centers); and (6) coordinate cruise communications between all participating investigators, including preparation of a hydrographic report/publication.\nBroader Impacts: The project is part of an international collaborative program that has forged strong partnerships in the intercalibration and implementation phases that are unprecedented in chemical oceanography. The science product of these collective missions will enhance our ability to understand how to interpret the chemical composition of the ocean, and interpret how climate change will affect ocean chemistry. Partnerships include contributions to the infrastructure of developing nations with overlapping interests in the study area, in this case Peru. There is a strong educational component to the program, with many Ph.D. students carrying out thesis research within the program.\nFigure 1. The 2013 GEOTRACES EPZT Cruise Track. [click on the image to view a larger version]

attribute

NC_GLOBAL

projects_0_end_date

String

2015-06

attribute

NC_GLOBAL

projects_0_geolocation

String

Eastern Tropical Pacific - Transect from Peru to Tahiti

attribute

NC_GLOBAL

projects_0_name

String

U.S. GEOTRACES East Pacific Zonal Transect

attribute

NC_GLOBAL

projects_0_project_nid

String

499723

attribute

NC_GLOBAL

projects_0_project_website

String

http://www.geotraces.org/ (external link)

attribute

NC_GLOBAL

projects_0_start_date

String

2012-06

attribute

NC_GLOBAL

projects_1_acronym

String

EPZT Particle Geochemistry

attribute

NC_GLOBAL

projects_1_description

String

NSF Award Abstract:\nParticles play essential roles in the cycling and distribution of trace elements and isotopes (TEI). For instance scavenging onto particles and removal by particle export is a major sink for many TEIs. However the driving factors affecting the spatial extent and temporal variability of TEI scavenging remain largely unknown. The U.S. GEOTRACES East Pacific Zonal Transect between Peru and Tahiti will cross three biogeochemically important areas, setting the stage for researchers to constrain unknowns surrounding particle scavenging.\nScientists from Woods Hole Oceanographic Institution and University of Minnesota-Twin Cities will address fundamental questions on the location of particle formation, particle-dissolved species interactions, dominant particle phases, and the evolution of particle phases during transport. As regards particle phases, the researchers will measure particulate organic carbon (POC), calcium carbonate, opal, lithogenics, and oxyhydroxides, as well as the trace element compositions of size fractionated particles covering three distinct zones: large lateral productivity gradients, a major oxygen deficient zone off the coast of Peru, and a world renowned hydrothermal plume emanating from the southern East Pacific Rise. Furthermore, since previous results suggest particle type affects scavenging, investigators will specifically measure acid-leachable trace metals, particle concentration, and major particle composition. These combined measurements will allow them to disentangle the relative importance of hydrothermal particles, benthic nepheloid layers, and high productivity margins for scavenging of TEIs. The cruise transect will also offer unique opportunities to examine the speciation of Fe and POC in hydrothermal particles away from the vent field and the effects of aggregation and POC coatings on TEI partitioning.\nAs regards broader impacts, the researchers plan to create an educational module on particulate trace metals in the ocean which would become part of a five part GEOTRACES webinar series developed by Dr. Benjamin Twining at the Bigelow Laboratory for Ocean Sciences in collaboration with the Center for Ocean Sciences Education Excellence-Ocean Systems at the University of Maine. One graduate student from Woods Hole Oceanographic Institution and one graduate student from the University of Minnesota, Twin Cities, would be supported and trained as part of this project. In addition, an undergraduate student would participate in the research during the summer month as part of the Woods Hole Diversity Initiative Partnership in Education program.

attribute

NC_GLOBAL

projects_1_end_date

String

2017-02

attribute

NC_GLOBAL

projects_1_name

String

Collaborative Research: GEOTRACES Pacific Section: The Geochemistry of Size-fractionated Suspended Particles Collected by In-situ Filtration

attribute

NC_GLOBAL

projects_1_project_nid

String

668085

attribute

NC_GLOBAL

projects_1_start_date

String

2013-03

attribute

NC_GLOBAL

publisher_name

String

Biological and Chemical Oceanographic Data Management Office (BCO-DMO)

attribute

NC_GLOBAL

publisher_type

String

institution

attribute

NC_GLOBAL

sourceUrl

String

(local files)

attribute

NC_GLOBAL

Southernmost_Northing

double

-15.99933333

attribute

NC_GLOBAL

standard_name_vocabulary

String

CF Standard Name Table v55

attribute

NC_GLOBAL

subsetVariables

String

cruise_id,CaCO3_LPT_CONC_PUMP_QV_ODV,PIC_LPT_PUMP_CONC_QV_ODV

attribute

NC_GLOBAL

summary

String

Size-fractionated major and minor particle composition and concentration collected from RV Thompson (TN303) along the US GEOTRACES EPZT transect in the Eastern Tropical Pacific during 2013 (US GEOTRACES EPZT project)

attribute

NC_GLOBAL

time_coverage_end

String

2013-12-18T12:13:00Z

attribute

NC_GLOBAL

time_coverage_start

String

2013-10-29T07:15:00Z

attribute

NC_GLOBAL

title

String

attribute

NC_GLOBAL

version

String

attribute

NC_GLOBAL

Westernmost_Easting

double

-151.9995167

attribute

NC_GLOBAL

xml_source

String

osprey2erddap.update_xml() v1.3

variable

cruise_id

String

attribute

cruise_id

bcodmo_name

String

cruise_id

attribute

cruise_id

description

String

cruise ID

attribute

cruise_id

long_name

String

Cruise Id

attribute

cruise_id

units

String

unitless

variable

STNNBR

byte

attribute

STNNBR

_FillValue

byte

127

attribute

STNNBR

actual_range

byte

1, 36

attribute

STNNBR

bcodmo_name

String

station

attribute

STNNBR

description

String

Station number

attribute

STNNBR

long_name

String

STNNBR

attribute

STNNBR

units

String

unitless

variable

GEOTRC_SAMPNO

short

attribute

GEOTRC_SAMPNO

_FillValue

short

32767

attribute

GEOTRC_SAMPNO

actual_range

short

2083, 10457

attribute

GEOTRC_SAMPNO

bcodmo_name

String

sample

attribute

GEOTRC_SAMPNO

description

String

GEOTRACES number - uniquely identifies all samples from that pump

attribute

GEOTRC_SAMPNO

long_name

String

GEOTRC SAMPNO

attribute

GEOTRC_SAMPNO

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P02/current/ACYC/ (external link)

attribute

GEOTRC_SAMPNO

units

String

unitless

variable

GEOTRC_EVENTNO

short

attribute

GEOTRC_EVENTNO

_FillValue

short

32767

attribute

GEOTRC_EVENTNO

actual_range

short

4013, 4475

attribute

GEOTRC_EVENTNO

bcodmo_name

String

event

attribute

GEOTRC_EVENTNO

description

String

GEOTRACES event number

attribute

GEOTRC_EVENTNO

long_name

String

GEOTRC EVENTNO

attribute

GEOTRC_EVENTNO

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P01/current/EVTAGFL/ (external link)

attribute

GEOTRC_EVENTNO

units

String

unitless

variable

time

double

attribute

time

_CoordinateAxisType

String

Time

attribute

time

actual_range

double

1.3830309E9, 1.38736878E9

attribute

time

axis

String

attribute

time

bcodmo_name

String

ISO_DateTime_UTC

attribute

time

description

String

Date and time of the midpoint of pumping

attribute

time

ioos_category

String

Time

attribute

time

long_name

String

ISO Date Time UTC

attribute

time

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P01/current/DTUT8601/ (external link)

attribute

time

source_name

String

ISO_DateTime_UTC

attribute

time

standard_name

String

time

attribute

time

time_origin

String

01-JAN-1970 00:00:00

attribute

time

time_precision

String

1970-01-01T00:00:00Z

attribute

time

units

String

seconds since 1970-01-01T00:00:00Z

variable

CASTNO

byte

attribute

CASTNO

_FillValue

byte

127

attribute

CASTNO

actual_range

byte

3, 16

attribute

CASTNO

bcodmo_name

String

cast

attribute

CASTNO

description

String

Cast number

attribute

CASTNO

long_name

String

CASTNO

attribute

CASTNO

units

String

unitless

variable

latitude

double

attribute

latitude

_CoordinateAxisType

String

Lat

attribute

latitude

_FillValue

double

NaN

attribute

latitude

actual_range

double

-15.99933333, -10.5004

attribute

latitude

axis

String

attribute

latitude

bcodmo_name

String

latitude

attribute

latitude

description

String

Latitude of pump cast; N is positive

attribute

latitude

ioos_category

String

Location

attribute

latitude

long_name

String

PUMP LAT

attribute

latitude

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P09/current/LATX/ (external link)

attribute

latitude

standard_name

String

latitude

attribute

latitude

units

String

degrees_north

variable

longitude

double

attribute

longitude

_CoordinateAxisType

String

Lon

attribute

longitude

_FillValue

double

NaN

attribute

longitude

actual_range

double

-151.9995167, -77.376

attribute

longitude

axis

String

attribute

longitude

bcodmo_name

String

longitude

attribute

longitude

description

String

Longitude of pump cast; E is positive

attribute

longitude

ioos_category

String

Location

attribute

longitude

long_name

String

PUMP LON

attribute

longitude

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P09/current/LONX/ (external link)

attribute

longitude

standard_name

String

longitude

attribute

longitude

units

String

degrees_east

variable

BTMDEPTH

short

attribute

BTMDEPTH

_FillValue

short

32767

attribute

BTMDEPTH

actual_range

short

122, 5523

attribute

BTMDEPTH

bcodmo_name

String

depth_bottom

attribute

BTMDEPTH

description

String

Water depth at time of cast

attribute

BTMDEPTH

long_name

String

BTMDEPTH

attribute

BTMDEPTH

units

String

meters

variable

DEPTH_MAX

short

attribute

DEPTH_MAX

_FillValue

short

32767

attribute

DEPTH_MAX

actual_range

short

15, 5500

attribute

DEPTH_MAX

bcodmo_name

String

depth_max

attribute

DEPTH_MAX

colorBarMaximum

double

8000.0

attribute

DEPTH_MAX

colorBarMinimum

double

-8000.0

attribute

DEPTH_MAX

colorBarPalette

String

TopographyDepth

attribute

DEPTH_MAX

description

String

Final depth of pump sample

attribute

DEPTH_MAX

long_name

String

Depth

attribute

DEPTH_MAX

standard_name

String

depth

attribute

DEPTH_MAX

units

String

meters

variable

sliters

double

attribute

sliters

_FillValue

double

NaN

attribute

sliters

actual_range

double

9.4, 754.6

attribute

sliters

bcodmo_name

String

vol_filt

attribute

sliters

description

String

Volume pumped through the filter holder containing paired Supor filters

attribute

sliters

long_name

String

Sliters

attribute

sliters

units

String

liters

variable

Y_SPT_CONC_PUMP

double

attribute

Y_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Y_SPT_CONC_PUMP

actual_range

double

-0.010632266, 6.627215278

attribute

Y_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Y_SPT_CONC_PUMP

description

String

Concentration of total particulate yttrium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Y_SPT_CONC_PUMP

long_name

String

Y SPT CONC PUMP

attribute

Y_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Y_SPT_CONC_PUMP

units

String

picomole per liter

variable

Mo_SPT_CONC_PUMP

double

attribute

Mo_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Mo_SPT_CONC_PUMP

actual_range

double

-0.232037803, 40.41737604

attribute

Mo_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Mo_SPT_CONC_PUMP

description

String

Concentration of total particulate molybdenum determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Mo_SPT_CONC_PUMP

long_name

String

Mo SPT CONC PUMP

attribute

Mo_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Mo_SPT_CONC_PUMP

units

String

picomole per liter

variable

Ag_SPT_CONC_PUMP

double

attribute

Ag_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Ag_SPT_CONC_PUMP

actual_range

double

-0.11139228, 10.51883533

attribute

Ag_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Ag_SPT_CONC_PUMP

description

String

Concentration of total particulate silver determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Ag_SPT_CONC_PUMP

long_name

String

Ag SPT CONC PUMP

attribute

Ag_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Ag_SPT_CONC_PUMP

units

String

picomole per liter

variable

Cd_SPT_CONC_PUMP

double

attribute

Cd_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Cd_SPT_CONC_PUMP

actual_range

double

0.001728211, 110.3192594

attribute

Cd_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Cd_SPT_CONC_PUMP

description

String

Concentration of total particulate cadmium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Cd_SPT_CONC_PUMP

long_name

String

Cd SPT CONC PUMP

attribute

Cd_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Cd_SPT_CONC_PUMP

units

String

picomole per liter

variable

Ba_SPT_CONC_PUMP

double

attribute

Ba_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Ba_SPT_CONC_PUMP

actual_range

double

0.0, 518.2186498

attribute

Ba_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Ba_SPT_CONC_PUMP

description

String

Concentration of total particulate barium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Ba_SPT_CONC_PUMP

long_name

String

Ba SPT CONC PUMP

attribute

Ba_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Ba_SPT_CONC_PUMP

units

String

picomole per liter

variable

Nd_SPT_CONC_PUMP

double

attribute

Nd_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Nd_SPT_CONC_PUMP

actual_range

double

0.002987236, 1.716258076

attribute

Nd_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Nd_SPT_CONC_PUMP

description

String

Concentration of total particulate neodymium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Nd_SPT_CONC_PUMP

long_name

String

Nd SPT CONC PUMP

attribute

Nd_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Nd_SPT_CONC_PUMP

units

String

picomole per liter

variable

Pb_SPT_CONC_PUMP

double

attribute

Pb_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Pb_SPT_CONC_PUMP

actual_range

double

-0.010946226, 4.303503248

attribute

Pb_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Pb_SPT_CONC_PUMP

description

String

Concentration of total particulate lead determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Pb_SPT_CONC_PUMP

long_name

String

Pb SPT CONC PUMP

attribute

Pb_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Pb_SPT_CONC_PUMP

units

String

picomole per liter

variable

Th_SPT_CONC_PUMP

double

attribute

Th_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Th_SPT_CONC_PUMP

actual_range

double

-0.083024889, 0.440232686

attribute

Th_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Th_SPT_CONC_PUMP

description

String

Concentration of total particulate thorium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Th_SPT_CONC_PUMP

long_name

String

Th SPT CONC PUMP

attribute

Th_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Th_SPT_CONC_PUMP

units

String

picomole per liter

variable

Al_SPT_CONC_PUMP

double

attribute

Al_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Al_SPT_CONC_PUMP

actual_range

double

-0.986535106, 28290.52015

attribute

Al_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Al_SPT_CONC_PUMP

description

String

Concentration of total particulate aluminium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Al_SPT_CONC_PUMP

long_name

String

Al SPT CONC PUMP

attribute

Al_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Al_SPT_CONC_PUMP

units

String

picomole per liter

variable

P_SPT_CONC_PUMP

double

attribute

P_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

P_SPT_CONC_PUMP

actual_range

double

88.88749157, 377356.8738

attribute

P_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

P_SPT_CONC_PUMP

description

String

Concentration of total particulate phosphorus determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

P_SPT_CONC_PUMP

long_name

String

P SPT CONC PUMP

attribute

P_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

P_SPT_CONC_PUMP

units

String

picomole per liter

variable

Sc_SPT_CONC_PUMP

double

attribute

Sc_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Sc_SPT_CONC_PUMP

actual_range

double

-0.003311172, 3.362908903

attribute

Sc_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Sc_SPT_CONC_PUMP

description

String

Concentration of total particulate scandium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Sc_SPT_CONC_PUMP

long_name

String

Sc SPT CONC PUMP

attribute

Sc_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Sc_SPT_CONC_PUMP

units

String

picomole per liter

variable

Ti_SPT_CONC_PUMP

double

attribute

Ti_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Ti_SPT_CONC_PUMP

actual_range

double

-3.345409268, 1138.631174

attribute

Ti_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Ti_SPT_CONC_PUMP

description

String

Concentration of total particulate titanium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Ti_SPT_CONC_PUMP

long_name

String

Ti SPT CONC PUMP

attribute

Ti_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Ti_SPT_CONC_PUMP

units

String

picomole per liter

variable

V_SPT_CONC_PUMP

double

attribute

V_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

V_SPT_CONC_PUMP

actual_range

double

0.092670278, 169.1380453

attribute

V_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

V_SPT_CONC_PUMP

description

String

Concentration of total particulate vanadium determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

V_SPT_CONC_PUMP

long_name

String

V SPT CONC PUMP

attribute

V_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

V_SPT_CONC_PUMP

units

String

picomole per liter

variable

Mn_SPT_CONC_PUMP

double

attribute

Mn_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Mn_SPT_CONC_PUMP

actual_range

double

1.332998584, 4153.231866

attribute

Mn_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Mn_SPT_CONC_PUMP

description

String

Concentration of total particulate manganese determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Mn_SPT_CONC_PUMP

long_name

String

Mn SPT CONC PUMP

attribute

Mn_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Mn_SPT_CONC_PUMP

units

String

picomole per liter

variable

Fe_SPT_CONC_PUMP

double

attribute

Fe_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Fe_SPT_CONC_PUMP

actual_range

double

12.19212229, 34630.70571

attribute

Fe_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Fe_SPT_CONC_PUMP

description

String

Concentration of total particulate iron determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Fe_SPT_CONC_PUMP

long_name

String

Fe SPT CONC PUMP

attribute

Fe_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Fe_SPT_CONC_PUMP

units

String

picomole per liter

variable

Co_SPT_CONC_PUMP

double

attribute

Co_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Co_SPT_CONC_PUMP

actual_range

double

0.055850165, 14.40346331

attribute

Co_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Co_SPT_CONC_PUMP

description

String

Concentration of total particulate cobalt determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Co_SPT_CONC_PUMP

long_name

String

Co SPT CONC PUMP

attribute

Co_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Co_SPT_CONC_PUMP

units

String

picomole per liter

variable

Ni_SPT_CONC_PUMP

double

attribute

Ni_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Ni_SPT_CONC_PUMP

actual_range

double

0.0, 284.4110585

attribute

Ni_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Ni_SPT_CONC_PUMP

description

String

Concentration of total particulate nickel determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Ni_SPT_CONC_PUMP

long_name

String

Ni SPT CONC PUMP

attribute

Ni_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Ni_SPT_CONC_PUMP

units

String

picomole per liter

variable

Cu_SPT_CONC_PUMP

double

attribute

Cu_SPT_CONC_PUMP

_FillValue

double

NaN

attribute

Cu_SPT_CONC_PUMP

actual_range

double

2.810439384, 129.8926384

attribute

Cu_SPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Cu_SPT_CONC_PUMP

description

String

Concentration of total particulate copper determined by in situ filtration (pump) collected on a main filter (small particles)

attribute

Cu_SPT_CONC_PUMP

long_name

String

Cu SPT CONC PUMP

attribute

Cu_SPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Cu_SPT_CONC_PUMP

units

String

picomole per liter

variable

Y_SPT_CONC_PUMP_QV_ODV

byte

attribute

Y_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Y_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Y_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Y_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Y_SPT_CONC_PUMP_QV_ODV

long_name

String

Y SPT CONC PUMP QV ODV

attribute

Y_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Mo_SPT_CONC_PUMP_QV_ODV

byte

attribute

Mo_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Mo_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Mo_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Mo_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Mo_SPT_CONC_PUMP_QV_ODV

long_name

String

Mo SPT CONC PUMP QV ODV

attribute

Mo_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Ag_SPT_CONC_PUMP_QV_ODV

byte

attribute

Ag_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Ag_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Ag_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Ag_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Ag_SPT_CONC_PUMP_QV_ODV

long_name

String

Ag SPT CONC PUMP QV ODV

attribute

Ag_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Cd_SPT_CONC_PUMP_QV_ODV

byte

attribute

Cd_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Cd_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Cd_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Cd_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Cd_SPT_CONC_PUMP_QV_ODV

long_name

String

Cd SPT CONC PUMP QV ODV

attribute

Cd_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Ba_SPT_CONC_PUMP_QV_ODV

byte

attribute

Ba_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Ba_SPT_CONC_PUMP_QV_ODV

actual_range

byte

4, 8

attribute

Ba_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Ba_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Ba_SPT_CONC_PUMP_QV_ODV

long_name

String

Ba SPT CONC PUMP QV ODV

attribute

Ba_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Nd_SPT_CONC_PUMP_QV_ODV

byte

attribute

Nd_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Nd_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Nd_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Nd_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Nd_SPT_CONC_PUMP_QV_ODV

long_name

String

Nd SPT CONC PUMP QV ODV

attribute

Nd_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Pb_SPT_CONC_PUMP_QV_ODV

byte

attribute

Pb_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Pb_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Pb_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Pb_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Pb_SPT_CONC_PUMP_QV_ODV

long_name

String

Pb SPT CONC PUMP QV ODV

attribute

Pb_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Th_SPT_CONC_PUMP_QV_ODV

byte

attribute

Th_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Th_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Th_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Th_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Th_SPT_CONC_PUMP_QV_ODV

long_name

String

Th SPT CONC PUMP QV ODV

attribute

Th_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Al_SPT_CONC_PUMP_QV_ODV

byte

attribute

Al_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Al_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Al_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Al_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Al_SPT_CONC_PUMP_QV_ODV

long_name

String

Al SPT CONC PUMP QV ODV

attribute

Al_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

P_SPT_CONC_PUMP_QV_ODV

byte

attribute

P_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

P_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

P_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

P_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

P_SPT_CONC_PUMP_QV_ODV

long_name

String

P SPT CONC PUMP QV ODV

attribute

P_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Sc_SPT_CONC_PUMP_QV_ODV

byte

attribute

Sc_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Sc_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Sc_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Sc_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Sc_SPT_CONC_PUMP_QV_ODV

long_name

String

Sc SPT CONC PUMP QV ODV

attribute

Sc_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Ti_SPT_CONC_PUMP_QV_ODV

byte

attribute

Ti_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Ti_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Ti_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Ti_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Ti_SPT_CONC_PUMP_QV_ODV

long_name

String

Ti SPT CONC PUMP QV ODV

attribute

Ti_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

V_SPT_CONC_PUMP_QV_ODV

byte

attribute

V_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

V_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

V_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

V_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

V_SPT_CONC_PUMP_QV_ODV

long_name

String

V SPT CONC PUMP QV ODV

attribute

V_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Mn_SPT_CONC_PUMP_QV_ODV

byte

attribute

Mn_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Mn_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Mn_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Mn_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Mn_SPT_CONC_PUMP_QV_ODV

long_name

String

Mn SPT CONC PUMP QV ODV

attribute

Mn_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Fe_SPT_CONC_PUMP_QV_ODV

byte

attribute

Fe_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Fe_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Fe_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Fe_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Fe_SPT_CONC_PUMP_QV_ODV

long_name

String

Fe SPT CONC PUMP QV ODV

attribute

Fe_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Co_SPT_CONC_PUMP_QV_ODV

byte

attribute

Co_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Co_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Co_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Co_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Co_SPT_CONC_PUMP_QV_ODV

long_name

String

Co SPT CONC PUMP QV ODV

attribute

Co_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Ni_SPT_CONC_PUMP_QV_ODV

byte

attribute

Ni_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Ni_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Ni_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Ni_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Ni_SPT_CONC_PUMP_QV_ODV

long_name

String

Ni SPT CONC PUMP QV ODV

attribute

Ni_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Cu_SPT_CONC_PUMP_QV_ODV

byte

attribute

Cu_SPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Cu_SPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Cu_SPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Cu_SPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Cu_SPT_CONC_PUMP_QV_ODV

long_name

String

Cu SPT CONC PUMP QV ODV

attribute

Cu_SPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Y_SPT_CONC_PUMP_STDEV

float

attribute

Y_SPT_CONC_PUMP_STDEV

_FillValue

float

NaN

attribute

Y_SPT_CONC_PUMP_STDEV

actual_range

float

0.0273, 6.543799

attribute

Y_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Y_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Y_SPT_CONC_PUMP_STDEV

long_name

String

Y SPT CONC PUMP STDEV

attribute

Y_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Mo_SPT_CONC_PUMP_STDEV

float

attribute

Mo_SPT_CONC_PUMP_STDEV

_FillValue

float

NaN

attribute

Mo_SPT_CONC_PUMP_STDEV

actual_range

float

0.106801, 2.60889

attribute

Mo_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Mo_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Mo_SPT_CONC_PUMP_STDEV

long_name

String

Mo SPT CONC PUMP STDEV

attribute

Mo_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Ag_SPT_CONC_PUMP_STDEV

float

attribute

Ag_SPT_CONC_PUMP_STDEV

_FillValue

float

NaN

attribute

Ag_SPT_CONC_PUMP_STDEV

actual_range

float

0.0598, 2.381829

attribute

Ag_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Ag_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Ag_SPT_CONC_PUMP_STDEV

long_name

String

Ag SPT CONC PUMP STDEV

attribute

Ag_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Cd_SPT_CONC_PUMP_STDEV

double

attribute

Cd_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Cd_SPT_CONC_PUMP_STDEV

actual_range

double

0.0183, 10.079994

attribute

Cd_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Cd_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Cd_SPT_CONC_PUMP_STDEV

long_name

String

Cd SPT CONC PUMP STDEV

attribute

Cd_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Ba_SPT_CONC_PUMP_STDEV

double

attribute

Ba_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Ba_SPT_CONC_PUMP_STDEV

actual_range

double

0.815978, 157.186273

attribute

Ba_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Ba_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Ba_SPT_CONC_PUMP_STDEV

long_name

String

Ba SPT CONC PUMP STDEV

attribute

Ba_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Nd_SPT_CONC_PUMP_STDEV

float

attribute

Nd_SPT_CONC_PUMP_STDEV

_FillValue

float

NaN

attribute

Nd_SPT_CONC_PUMP_STDEV

actual_range

float

0.00386, 0.326352

attribute

Nd_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Nd_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Nd_SPT_CONC_PUMP_STDEV

long_name

String

Nd SPT CONC PUMP STDEV

attribute

Nd_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Pb_SPT_CONC_PUMP_STDEV

float

attribute

Pb_SPT_CONC_PUMP_STDEV

_FillValue

float

NaN

attribute

Pb_SPT_CONC_PUMP_STDEV

actual_range

float

0.0371, 4.381805

attribute

Pb_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Pb_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Pb_SPT_CONC_PUMP_STDEV

long_name

String

Pb SPT CONC PUMP STDEV

attribute

Pb_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Th_SPT_CONC_PUMP_STDEV

float

attribute

Th_SPT_CONC_PUMP_STDEV

_FillValue

float

NaN

attribute

Th_SPT_CONC_PUMP_STDEV

actual_range

float

0.00993, 0.175067

attribute

Th_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Th_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Th_SPT_CONC_PUMP_STDEV

long_name

String

Th SPT CONC PUMP STDEV

attribute

Th_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Al_SPT_CONC_PUMP_STDEV

double

attribute

Al_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Al_SPT_CONC_PUMP_STDEV

actual_range

double

25.17635, 5047.637578

attribute

Al_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Al_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Al_SPT_CONC_PUMP_STDEV

long_name

String

Al SPT CONC PUMP STDEV

attribute

Al_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

P_SPT_CONC_PUMP_STDEV

double

attribute

P_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

P_SPT_CONC_PUMP_STDEV

actual_range

double

47.129312, 41373.54062

attribute

P_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

P_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

P_SPT_CONC_PUMP_STDEV

long_name

String

P SPT CONC PUMP STDEV

attribute

P_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Sc_SPT_CONC_PUMP_STDEV

float

attribute

Sc_SPT_CONC_PUMP_STDEV

_FillValue

float

NaN

attribute

Sc_SPT_CONC_PUMP_STDEV

actual_range

float

0.00801, 0.620008

attribute

Sc_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Sc_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Sc_SPT_CONC_PUMP_STDEV

long_name

String

Sc SPT CONC PUMP STDEV

attribute

Sc_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Ti_SPT_CONC_PUMP_STDEV

double

attribute

Ti_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Ti_SPT_CONC_PUMP_STDEV

actual_range

double

3.1033, 121.591304

attribute

Ti_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Ti_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Ti_SPT_CONC_PUMP_STDEV

long_name

String

Ti SPT CONC PUMP STDEV

attribute

Ti_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

V_SPT_CONC_PUMP_STDEV

double

attribute

V_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

V_SPT_CONC_PUMP_STDEV

actual_range

double

0.102905, 33.145315

attribute

V_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

V_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

V_SPT_CONC_PUMP_STDEV

long_name

String

V SPT CONC PUMP STDEV

attribute

V_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Mn_SPT_CONC_PUMP_STDEV

double

attribute

Mn_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Mn_SPT_CONC_PUMP_STDEV

actual_range

double

0.70234, 143.184533

attribute

Mn_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Mn_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Mn_SPT_CONC_PUMP_STDEV

long_name

String

Mn SPT CONC PUMP STDEV

attribute

Mn_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Fe_SPT_CONC_PUMP_STDEV

double

attribute

Fe_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Fe_SPT_CONC_PUMP_STDEV

actual_range

double

26.402595, 1864.371197

attribute

Fe_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Fe_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Fe_SPT_CONC_PUMP_STDEV

long_name

String

Fe SPT CONC PUMP STDEV

attribute

Fe_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Co_SPT_CONC_PUMP_STDEV

float

attribute

Co_SPT_CONC_PUMP_STDEV

_FillValue

float

NaN

attribute

Co_SPT_CONC_PUMP_STDEV

actual_range

float

0.0401, 1.075589

attribute

Co_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Co_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Co_SPT_CONC_PUMP_STDEV

long_name

String

Co SPT CONC PUMP STDEV

attribute

Co_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Ni_SPT_CONC_PUMP_STDEV

double

attribute

Ni_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Ni_SPT_CONC_PUMP_STDEV

actual_range

double

0.758992, 32.343388

attribute

Ni_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Ni_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Ni_SPT_CONC_PUMP_STDEV

long_name

String

Ni SPT CONC PUMP STDEV

attribute

Ni_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Cu_SPT_CONC_PUMP_STDEV

double

attribute

Cu_SPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Cu_SPT_CONC_PUMP_STDEV

actual_range

double

1.291313, 28.064299

attribute

Cu_SPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Cu_SPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Cu_SPT_CONC_PUMP_STDEV

long_name

String

Cu SPT CONC PUMP STDEV

attribute

Cu_SPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

qliters

float

attribute

qliters

_FillValue

float

NaN

attribute

qliters

actual_range

float

41.4, 1326.3

attribute

qliters

bcodmo_name

String

vol_filt

attribute

qliters

description

String

Volume pumped through the filter holder containing paired QMA filters

attribute

qliters

long_name

String

Qliters

attribute

qliters

units

String

liters

variable

Y_LPT_CONC_PUMP

double

attribute

Y_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Y_LPT_CONC_PUMP

actual_range

double

-0.003821154, 20.8049551

attribute

Y_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Y_LPT_CONC_PUMP

description

String

Concentration of total particulate Y determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Y_LPT_CONC_PUMP

long_name

String

Y LPT CONC PUMP

attribute

Y_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Y_LPT_CONC_PUMP

units

String

picomole per liter

variable

Mo_LPT_CONC_PUMP

double

attribute

Mo_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Mo_LPT_CONC_PUMP

actual_range

double

-0.598050749, 468.1171218

attribute

Mo_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Mo_LPT_CONC_PUMP

description

String

Concentration of total particulate Mo determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Mo_LPT_CONC_PUMP

long_name

String

Mo LPT CONC PUMP

attribute

Mo_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Mo_LPT_CONC_PUMP

units

String

picomole per liter

variable

Ag_LPT_CONC_PUMP

double

attribute

Ag_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Ag_LPT_CONC_PUMP

actual_range

double

-0.036779882, 1.124081527

attribute

Ag_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Ag_LPT_CONC_PUMP

description

String

Concentration of total particulate Ag determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Ag_LPT_CONC_PUMP

long_name

String

Ag LPT CONC PUMP

attribute

Ag_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Ag_LPT_CONC_PUMP

units

String

picomole per liter

variable

Cd_LPT_CONC_PUMP

double

attribute

Cd_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Cd_LPT_CONC_PUMP

actual_range

double

-0.007294399, 35.85726509

attribute

Cd_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Cd_LPT_CONC_PUMP

description

String

Concentration of total particulate Cd determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Cd_LPT_CONC_PUMP

long_name

String

Cd LPT CONC PUMP

attribute

Cd_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Cd_LPT_CONC_PUMP

units

String

picomole per liter

variable

Ba_LPT_CONC_PUMP

double

attribute

Ba_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Ba_LPT_CONC_PUMP

actual_range

double

-0.254663553, 285.800896

attribute

Ba_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Ba_LPT_CONC_PUMP

description

String

Concentration of total particulate Ba determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Ba_LPT_CONC_PUMP

long_name

String

Ba LPT CONC PUMP

attribute

Ba_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Ba_LPT_CONC_PUMP

units

String

picomole per liter

variable

Nd_LPT_CONC_PUMP

double

attribute

Nd_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Nd_LPT_CONC_PUMP

actual_range

double

-0.431811414, 9.488955089

attribute

Nd_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Nd_LPT_CONC_PUMP

description

String

Concentration of total particulate Nd determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Nd_LPT_CONC_PUMP

long_name

String

Nd LPT CONC PUMP

attribute

Nd_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Nd_LPT_CONC_PUMP

units

String

picomole per liter

variable

Pb_LPT_CONC_PUMP

double

attribute

Pb_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Pb_LPT_CONC_PUMP

actual_range

double

-0.020240408, 69.24626579

attribute

Pb_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Pb_LPT_CONC_PUMP

description

String

Concentration of total particulate Pb determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Pb_LPT_CONC_PUMP

long_name

String

Pb LPT CONC PUMP

attribute

Pb_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Pb_LPT_CONC_PUMP

units

String

picomole per liter

variable

Th_LPT_CONC_PUMP

double

attribute

Th_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Th_LPT_CONC_PUMP

actual_range

double

-0.001247824, 1.612046988

attribute

Th_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Th_LPT_CONC_PUMP

description

String

Concentration of total particulate Th determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Th_LPT_CONC_PUMP

long_name

String

Th LPT CONC PUMP

attribute

Th_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Th_LPT_CONC_PUMP

units

String

picomole per liter

variable

Al_LPT_CONC_PUMP

double

attribute

Al_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Al_LPT_CONC_PUMP

actual_range

double

-15.63561282, 105966.0007

attribute

Al_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Al_LPT_CONC_PUMP

description

String

Concentration of total particulate Al determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Al_LPT_CONC_PUMP

long_name

String

Al LPT CONC PUMP

attribute

Al_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Al_LPT_CONC_PUMP

units

String

picomole per liter

variable

P_LPT_CONC_PUMP

double

attribute

P_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

P_LPT_CONC_PUMP

actual_range

double

2.116238152, 32139.54343

attribute

P_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

P_LPT_CONC_PUMP

description

String

Concentration of total particulate Pb determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

P_LPT_CONC_PUMP

long_name

String

P LPT CONC PUMP

attribute

P_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

P_LPT_CONC_PUMP

units

String

picomole per liter

variable

Sc_LPT_CONC_PUMP

double

attribute

Sc_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Sc_LPT_CONC_PUMP

actual_range

double

-8.03E-6, 10.1307023

attribute

Sc_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Sc_LPT_CONC_PUMP

description

String

Concentration of total particulate Sc determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Sc_LPT_CONC_PUMP

long_name

String

Sc LPT CONC PUMP

attribute

Sc_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Sc_LPT_CONC_PUMP

units

String

picomole per liter

variable

Ti_LPT_CONC_PUMP

double

attribute

Ti_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Ti_LPT_CONC_PUMP

actual_range

double

-0.40001901, 3030.509478

attribute

Ti_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Ti_LPT_CONC_PUMP

description

String

Concentration of total particulate Ti determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Ti_LPT_CONC_PUMP

long_name

String

Ti LPT CONC PUMP

attribute

Ti_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Ti_LPT_CONC_PUMP

units

String

picomole per liter

variable

V_LPT_CONC_PUMP

double

attribute

V_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

V_LPT_CONC_PUMP

actual_range

double

-1.373755913, 93.61281314

attribute

V_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

V_LPT_CONC_PUMP

description

String

Concentration of total particulate V determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

V_LPT_CONC_PUMP

long_name

String

V LPT CONC PUMP

attribute

V_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

V_LPT_CONC_PUMP

units

String

picomole per liter

variable

Mn_LPT_CONC_PUMP

double

attribute

Mn_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Mn_LPT_CONC_PUMP

actual_range

double

-0.039102095, 2403.499381

attribute

Mn_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Mn_LPT_CONC_PUMP

description

String

Concentration of total particulate Mn determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Mn_LPT_CONC_PUMP

long_name

String

Mn LPT CONC PUMP

attribute

Mn_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Mn_LPT_CONC_PUMP

units

String

picomole per liter

variable

Fe_LPT_CONC_PUMP

double

attribute

Fe_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Fe_LPT_CONC_PUMP

actual_range

double

-2.438349889, 16978.77279

attribute

Fe_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Fe_LPT_CONC_PUMP

description

String

Concentration of total particulate Fe determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Fe_LPT_CONC_PUMP

long_name

String

Fe LPT CONC PUMP

attribute

Fe_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Fe_LPT_CONC_PUMP

units

String

picomole per liter

variable

Co_LPT_CONC_PUMP

double

attribute

Co_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Co_LPT_CONC_PUMP

actual_range

double

-0.12967661, 7.915124907

attribute

Co_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Co_LPT_CONC_PUMP

description

String

Concentration of total particulate Co determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Co_LPT_CONC_PUMP

long_name

String

Co LPT CONC PUMP

attribute

Co_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Co_LPT_CONC_PUMP

units

String

picomole per liter

variable

Ni_LPT_CONC_PUMP

double

attribute

Ni_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Ni_LPT_CONC_PUMP

actual_range

double

-5.832084992, 754.5313865

attribute

Ni_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Ni_LPT_CONC_PUMP

description

String

Concentration of total particulate Ni determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Ni_LPT_CONC_PUMP

long_name

String

Ni LPT CONC PUMP

attribute

Ni_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Ni_LPT_CONC_PUMP

units

String

picomole per liter

variable

Cu_LPT_CONC_PUMP

double

attribute

Cu_LPT_CONC_PUMP

_FillValue

double

NaN

attribute

Cu_LPT_CONC_PUMP

actual_range

double

-12.09519266, 60.0229858

attribute

Cu_LPT_CONC_PUMP

bcodmo_name

String

trace_metal_conc

attribute

Cu_LPT_CONC_PUMP

description

String

Concentration of total particulate Cu determined by in situ filtration (pump) collected on a prefilter (large particles)

attribute

Cu_LPT_CONC_PUMP

long_name

String

Cu LPT CONC PUMP

attribute

Cu_LPT_CONC_PUMP

nerc_identifier

String

https://vocab.nerc.ac.uk/collection/P03/current/C035/ (external link)

attribute

Cu_LPT_CONC_PUMP

units

String

picomole per liter

variable

Y_LPT_CONC_PUMP_QV_ODV

byte

attribute

Y_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Y_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Y_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Y_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Y_LPT_CONC_PUMP_QV_ODV

long_name

String

Y LPT CONC PUMP QV ODV

attribute

Y_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Mo_LPT_CONC_PUMP_QV_ODV

byte

attribute

Mo_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Mo_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Mo_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Mo_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Mo_LPT_CONC_PUMP_QV_ODV

long_name

String

Mo LPT CONC PUMP QV ODV

attribute

Mo_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Ag_LPT_CONC_PUMP_QV_ODV

byte

attribute

Ag_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Ag_LPT_CONC_PUMP_QV_ODV

actual_range

byte

4, 8

attribute

Ag_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Ag_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Ag_LPT_CONC_PUMP_QV_ODV

long_name

String

Ag LPT CONC PUMP QV ODV

attribute

Ag_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Cd_LPT_CONC_PUMP_QV_ODV

byte

attribute

Cd_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Cd_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Cd_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Cd_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Cd_LPT_CONC_PUMP_QV_ODV

long_name

String

Cd LPT CONC PUMP QV ODV

attribute

Cd_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Ba_LPT_CONC_PUMP_QV_ODV

byte

attribute

Ba_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Ba_LPT_CONC_PUMP_QV_ODV

actual_range

byte

4, 8

attribute

Ba_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Ba_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Ba_LPT_CONC_PUMP_QV_ODV

long_name

String

Ba LPT CONC PUMP QV ODV

attribute

Ba_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Nd_LPT_CONC_PUMP_QV_ODV

byte

attribute

Nd_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Nd_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Nd_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Nd_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Nd_LPT_CONC_PUMP_QV_ODV

long_name

String

Nd LPT CONC PUMP QV ODV

attribute

Nd_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Pb_LPT_CONC_PUMP_QV_ODV

byte

attribute

Pb_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Pb_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Pb_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Pb_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Pb_LPT_CONC_PUMP_QV_ODV

long_name

String

Pb LPT CONC PUMP QV ODV

attribute

Pb_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Th_LPT_CONC_PUMP_QV_ODV

byte

attribute

Th_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Th_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Th_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Th_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Th_LPT_CONC_PUMP_QV_ODV

long_name

String

Th LPT CONC PUMP QV ODV

attribute

Th_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Al_LPT_CONC_PUMP_QV_ODV

byte

attribute

Al_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Al_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Al_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Al_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Al_LPT_CONC_PUMP_QV_ODV

long_name

String

Al LPT CONC PUMP QV ODV

attribute

Al_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

P_LPT_CONC_PUMP_QV_ODV

byte

attribute

P_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

P_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

P_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

P_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

P_LPT_CONC_PUMP_QV_ODV

long_name

String

P LPT CONC PUMP QV ODV

attribute

P_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Sc_LPT_CONC_PUMP_QV_ODV

byte

attribute

Sc_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Sc_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Sc_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Sc_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Sc_LPT_CONC_PUMP_QV_ODV

long_name

String

Sc LPT CONC PUMP QV ODV

attribute

Sc_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Ti_LPT_CONC_PUMP_QV_ODV

byte

attribute

Ti_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Ti_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Ti_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Ti_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Ti_LPT_CONC_PUMP_QV_ODV

long_name

String

Ti LPT CONC PUMP QV ODV

attribute

Ti_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

V_LPT_CONC_PUMP_QV_ODV

byte

attribute

V_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

V_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

V_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

V_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

V_LPT_CONC_PUMP_QV_ODV

long_name

String

V LPT CONC PUMP QV ODV

attribute

V_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Mn_LPT_CONC_PUMP_QV_ODV

byte

attribute

Mn_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Mn_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Mn_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Mn_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Mn_LPT_CONC_PUMP_QV_ODV

long_name

String

Mn LPT CONC PUMP QV ODV

attribute

Mn_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Fe_LPT_CONC_PUMP_QV_ODV

byte

attribute

Fe_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Fe_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Fe_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Fe_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Fe_LPT_CONC_PUMP_QV_ODV

long_name

String

Fe LPT CONC PUMP QV ODV

attribute

Fe_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Co_LPT_CONC_PUMP_QV_ODV

byte

attribute

Co_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Co_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Co_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Co_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Co_LPT_CONC_PUMP_QV_ODV

long_name

String

Co LPT CONC PUMP QV ODV

attribute

Co_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Ni_LPT_CONC_PUMP_QV_ODV

byte

attribute

Ni_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Ni_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Ni_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Ni_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Ni_LPT_CONC_PUMP_QV_ODV

long_name

String

Ni LPT CONC PUMP QV ODV

attribute

Ni_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Cu_LPT_CONC_PUMP_QV_ODV

byte

attribute

Cu_LPT_CONC_PUMP_QV_ODV

_FillValue

byte

127

attribute

Cu_LPT_CONC_PUMP_QV_ODV

actual_range

byte

0, 8

attribute

Cu_LPT_CONC_PUMP_QV_ODV

bcodmo_name

String

q_flag

attribute

Cu_LPT_CONC_PUMP_QV_ODV

description

String

Quality control flag; following the ODV convention

attribute

Cu_LPT_CONC_PUMP_QV_ODV

long_name

String

Cu LPT CONC PUMP QV ODV

attribute

Cu_LPT_CONC_PUMP_QV_ODV

units

String

unitless

variable

Y_LPT_CONC_PUMP_STDEV

double

attribute

Y_LPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Y_LPT_CONC_PUMP_STDEV

actual_range

double

0.034450961, 1.103678985

attribute

Y_LPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Y_LPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Y_LPT_CONC_PUMP_STDEV

long_name

String

Y LPT CONC PUMP STDEV

attribute

Y_LPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Mo_LPT_CONC_PUMP_STDEV

double

attribute

Mo_LPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Mo_LPT_CONC_PUMP_STDEV

actual_range

double

0.071137863, 936.2238737

attribute

Mo_LPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Mo_LPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Mo_LPT_CONC_PUMP_STDEV

long_name

String

Mo LPT CONC PUMP STDEV

attribute

Mo_LPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Ag_LPT_CONC_PUMP_STDEV

double

attribute

Ag_LPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Ag_LPT_CONC_PUMP_STDEV

actual_range

double

0.173719982, 5.565333633

attribute

Ag_LPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Ag_LPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Ag_LPT_CONC_PUMP_STDEV

long_name

String

Ag LPT CONC PUMP STDEV

attribute

Ag_LPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Cd_LPT_CONC_PUMP_STDEV

double

attribute

Cd_LPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Cd_LPT_CONC_PUMP_STDEV

actual_range

double

0.0052872, 0.95672756

attribute

Cd_LPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Cd_LPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Cd_LPT_CONC_PUMP_STDEV

long_name

String

Cd LPT CONC PUMP STDEV

attribute

Cd_LPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Ba_LPT_CONC_PUMP_STDEV

double

attribute

Ba_LPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Ba_LPT_CONC_PUMP_STDEV

actual_range

double

0.33511148, 10.73570908

attribute

Ba_LPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Ba_LPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Ba_LPT_CONC_PUMP_STDEV

long_name

String

Ba LPT CONC PUMP STDEV

attribute

Ba_LPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Nd_LPT_CONC_PUMP_STDEV

double

attribute

Nd_LPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Nd_LPT_CONC_PUMP_STDEV

actual_range

double

0.011441901, 0.366555391

attribute

Nd_LPT_CONC_PUMP_STDEV

bcodmo_name

String

standard deviation

attribute

Nd_LPT_CONC_PUMP_STDEV

description

String

Error estimate

attribute

Nd_LPT_CONC_PUMP_STDEV

long_name

String

Nd LPT CONC PUMP STDEV

attribute

Nd_LPT_CONC_PUMP_STDEV

units

String

picomole per liter

variable

Pb_LPT_CONC_PUMP_STDEV

double

attribute

Pb_LPT_CONC_PUMP_STDEV

_FillValue

double

NaN

attribute

Pb_LPT_CONC_PUMP_STDEV

actual_range

double

0.022386515, 0.717179586

ERDDAP, Version 2.02
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