BCO-DMO ERDDAP
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Row Type Variable Name Attribute Name Data Type Value
attribute NC_GLOBAL access_formats String .htmlTable,.csv,.json,.mat,.nc,.tsv
attribute NC_GLOBAL acquisition_description String Methodology from\\u00a0Spivak, AC and J Ossolinski. 2016. Limited effects of\nnutrient enrichment on bacterial carbon sources in salt marsh tidal creek\nsediments. Marine Ecology Progress Series. 544:107-130. 10.3354/meps11587\n \nIn June, August, and October 2013, intact sediment cores were collected from\nthe mudflats of the fertilized and reference creeks at low tide (n=3 per creek\nin June and October, n=6 per creek in August; 31 cm diameter x 15 cm deep).\nThese time periods reflected late spring, late summer, and early fall\nconditions. Sediment cores were transported to Woods Hole Oceanographic\nInstitution\\u2019s mesocosm system (Woods Hole, MA). Cores were placed in\nrectangular fiberglass tanks (2.7 m x 1.2 m x 0.8 m, l x w x d) that served as\na water bath to minimize extreme fluctuations in day \\u2013 night\ntemperatures. The mesocosm system is located outside, so cores experienced\nambient weather conditions.\n \nUpon placement in the fiberglass tanks, the overlying water collected with\neach sediment core was continuously recirculated (~9 cm deep). The cores\nacclimated to the mesocosm system for 1 \\u2013 3 days, depending on weather,\nas we applied the\\u00a013C label during sunny periods when BMA would be\nproductive. Visible epifauna (e.g., snails, shrimp) were removed to minimize\ngrazing on benthic microbes. At the beginning of each experiment, the\noverlying water column was removed and replaced with filtered water from the\ncreek where the core was collected. We used 0.2 um filtered creek water to\nminimize label uptake by water column microbes and recirculated the water\ncolumn to maintain well-mixed conditions. The isotopic label was added as\n\\u00a013C-sodium bicarbonate (NaHCO3, 99 atom %, Sigma-Aldrich) to the water\ncolumn of each core in June and October and half of the cores from each creek\nin August. The other half of the August cores received\\u00a013C-\nlabeled\\u00a0S. alterniflora\\u00a0detritus. This material was produced from a\nseparate experiment in which living\\u00a0S. alterniflora\\u00a0plants from PIE-\nLTER were dosed with\\u00a013CO2\\u00a0for 3 h (Spivak & Reeve 2015).\nAboveground leaves were harvested after label exposure, dried (60 deg C), and\nground into a coarse powder that was evenly applied across the sediment\nsurface.\\u00a013C-S. alterniflora\\u00a0was only applied in August due to\navailability of the labeled material. From here forward, experiments receiving\n\\u00a013C-NaHCO3\\u00a0or\\u00a013C-S. alterniflora\\u00a0are referred to as BMA\nor\\u00a0S. alterniflora\\u00a0experiments, respectively, to reflect the\nautotrophic source of carbon to bacteria. On average (+/- standard error,\nS.E.), the cores received 11.90 +/- 0.07 mg, 10.90 +/- 0.05, and 10.97 +/-\n0.09 mg\\u00a013C from NaHCO3\\u00a0application in June, August, and October,\nrespectively, and 3.17 +/- 0.12 mg\\u00a013C from the\\u00a0S.\nalterniflora\\u00a0detritus in August. The\\u00a013C label, as\nNaHCO3\\u00a0or\\u00a0S. alterniflora, was applied for four hours between 11:00\n\\u2013 15:00 h before the overlying water was removed and the cores were\nrinsed with at least three volumes of filtered creek water to remove unused\nlabel. The four hour sampling period was based on results from a preliminary\nstudy demonstrating that this timeframe was sufficient for detecting the label\nin algal and bacterial lipids. After the final rinse, the overlying water\ncolumn was replaced with filtered creek water and recirculated for the\nduration of the experiments.\\u00a0\n \nSediment samples for organic matter composition were collected by placing a\nhard plastic sleeve around a polyvinyl chloride (PVC) corer (5 cm diameter x\n15 cm deep) and then removing the corer. The plastic sleeve remained in place\nto maintain the integrity of the sediment column and mark the core location\n(Spivak 2015). The top 0.5 cm of each core was collected into pre-combusted\nvials and frozen (-80 deg C) until analysis for total organic carbon and\nnitrogen content and stable isotopes (d13C, d15N) and lipid biomarker\ncomposition. Adjacent samples for benthic chlorophyll were collected with\nsmaller cores (1.5 cm diameter x 1 cm deep) into glass vials and frozen (-20\ndeg C) until analysis. Additional sediment cores for organic matter\ncomposition and benthic chlorophyll were collected 4, 8, 24, and 48 h after\nthe\\u00a013C-labeled NaHCO3\\u00a0was applied in June, August, and October and\n4, 8, 24, and 144h after the\\u00a013C-labeled\\u00a0S. alterniflora\\u00a0was\napplied in August.\\u00a0\n \nLipid biomarker compounds were extracted using a modified Bligh and Dyer\n(1959) method. Sediment samples were extracted with a chloroform : methylene\nchloride : phosphate buffer saline mixture (2:1:0.8, v:v:v) using a microwave-\naccelerated reaction system (MARS6); samples were heated to 80 deg C for 10\nmin with continuous stirring. Following extraction, samples were partitioned\nand the organic phase was removed. The total lipid extract was concentrated\nunder N2\\u00a0and samples were separated on silica gel columns by eluting with\nchloroform, acetone (F1/2), and methanol (F3) (Guckert et al. 1985). The F3\n(phospholipids) was dried under N2\\u00a0and saponified with 0.5 M NaOH at 70\ndeg C for 4 h. Saponified samples were acidified and extracted three times\nwith hexane. The extract was methylated with acidic methanol (95:5 methanol:\nHCl) and heated overnight at 70 deg C to form fatty acid methyl esters (FAME).\nSamples were analyzed with an Agilent 7890 gas chromatograph with an effluent\nsplit ~70:30 between a 5975C mass spectrometer and a flame ionization\ndetector. Peaks were separated on an Agilent DB-5 ms column (60 m, 0.25 mm\ninner diameter, 0.25 um film). FAME concentrations were quantified using\nmethyl heneicosanoate as an internal standard. FAs are designated A:BwC, where\nA is the number of carbon atoms, B is the number of double bonds, and C is the\nposition of the first double bond from the aliphatic \\u2018w\\u2019 end of the\nmolecule. The prefixes \\u2018i\\u2019 and \\u2018a\\u2019 refer to iso and\nanteiso methyl branched FAs and indicate whether the methyl group is attached\nto the penultimate or antepenulttimate carbon atoms (Bianchi & Canuel 2011).
attribute NC_GLOBAL awards_0_award_nid String 529582
attribute NC_GLOBAL awards_0_award_number String OCE-1233678
attribute NC_GLOBAL awards_0_data_url String http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=1233678 (external link)
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 David L. Garrison
attribute NC_GLOBAL awards_0_program_manager_nid String 50534
attribute NC_GLOBAL cdm_data_type String Other
attribute NC_GLOBAL comment String Sediment PLFA Concentrations \n  Amanda Spivak, PI \n  Version 8 December 2016
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/ (external link)
attribute NC_GLOBAL data_source String extract_data_as_tsv version 2.3  19 Dec 2019
attribute NC_GLOBAL date_created String 2016-12-10T00:55:15Z
attribute NC_GLOBAL date_modified String 2019-04-05T17:05:52Z
attribute NC_GLOBAL defaultDataQuery String &time<now
attribute NC_GLOBAL doi String 10.1575/1912/bco-dmo.669693.1
attribute NC_GLOBAL infoUrl String https://www.bco-dmo.org/dataset/669693 (external link)
attribute NC_GLOBAL institution String BCO-DMO
attribute NC_GLOBAL instruments_0_acronym String Gas Chromatograph
attribute NC_GLOBAL instruments_0_dataset_instrument_description String Analyzed samples
attribute NC_GLOBAL instruments_0_dataset_instrument_nid String 669738
attribute NC_GLOBAL instruments_0_description String Instrument separating gases, volatile substances, or substances dissolved in a volatile solvent by transporting an inert gas through a column packed with a sorbent to a detector for assay. (from SeaDataNet, BODC)
attribute NC_GLOBAL instruments_0_instrument_external_identifier String https://vocab.nerc.ac.uk/collection/L05/current/LAB02/ (external link)
attribute NC_GLOBAL instruments_0_instrument_name String Gas Chromatograph
attribute NC_GLOBAL instruments_0_instrument_nid String 661
attribute NC_GLOBAL instruments_0_supplied_name String Agilent 7890 gas chromatograph
attribute NC_GLOBAL instruments_1_acronym String Mass Spec
attribute NC_GLOBAL instruments_1_dataset_instrument_description String Analyzed samples
attribute NC_GLOBAL instruments_1_dataset_instrument_nid String 669737
attribute NC_GLOBAL instruments_1_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_1_instrument_external_identifier String https://vocab.nerc.ac.uk/collection/L05/current/LAB16/ (external link)
attribute NC_GLOBAL instruments_1_instrument_name String Mass Spectrometer
attribute NC_GLOBAL instruments_1_instrument_nid String 685
attribute NC_GLOBAL instruments_1_supplied_name String 5975C mass spectrometer
attribute NC_GLOBAL instruments_2_dataset_instrument_description String Used to collect core samples
attribute NC_GLOBAL instruments_2_dataset_instrument_nid String 669699
attribute NC_GLOBAL instruments_2_description String Capable of being performed in numerous environments, push coring is just as it sounds. Push coring is simply pushing the core barrel (often an aluminum or polycarbonate tube) into the sediment by hand. A push core is useful in that it causes very little disturbance to the more delicate upper layers of a sub-aqueous sediment.\n\nDescription obtained from: http://web.whoi.edu/coastal-group/about/how-we-work/field-methods/coring/
attribute NC_GLOBAL instruments_2_instrument_name String Push Corer
attribute NC_GLOBAL instruments_2_instrument_nid String 628287
attribute NC_GLOBAL instruments_2_supplied_name String Core
attribute NC_GLOBAL instruments_3_acronym String FID
attribute NC_GLOBAL instruments_3_dataset_instrument_description String Analyzed samples
attribute NC_GLOBAL instruments_3_dataset_instrument_nid String 669739
attribute NC_GLOBAL instruments_3_description String A flame ionization detector (FID) is a scientific instrument that measures the concentration of organic species in a gas stream. It is frequently used as a detector in gas chromatography. Standalone FIDs can also be used in applications such as landfill gas monitoring, fugitive emissions monitoring and internal combustion engine emissions measurement in stationary or portable instruments.
attribute NC_GLOBAL instruments_3_instrument_name String Flame Ionization Detector
attribute NC_GLOBAL instruments_3_instrument_nid String 644600
attribute NC_GLOBAL instruments_3_supplied_name String Flame ionization detector
attribute NC_GLOBAL keywords String 4w6, 5w3, 6w3, a13, a15, a17, a19, bco, bco-dmo, biological, c12, c13, c14, c15, c16, c17, c18, c19, c20, c20_4w6, c20_5w3, c21, c22, c22_5, c22_6w3, c23, c24, c26, c28, chemical, data, dataset, dmo, erddap, estuary, experiment, i13, i14, i15, i16, i17, i19, management, me10, me10_16, month, oceanography, office, preliminary, timepoint, total, totalFA, unsat, unsatC22
attribute NC_GLOBAL license String https://www.bco-dmo.org/dataset/669693/license (external link)
attribute NC_GLOBAL metadata_source String https://www.bco-dmo.org/api/dataset/669693 (external link)
attribute NC_GLOBAL param_mapping String {'669693': {}}
attribute NC_GLOBAL parameter_source String https://www.bco-dmo.org/mapserver/dataset/669693/parameters (external link)
attribute NC_GLOBAL people_0_affiliation String Woods Hole Oceanographic Institution
attribute NC_GLOBAL people_0_affiliation_acronym String WHOI
attribute NC_GLOBAL people_0_person_name String Amanda Spivak
attribute NC_GLOBAL people_0_person_nid String 529580
attribute NC_GLOBAL people_0_role String Principal Investigator
attribute NC_GLOBAL people_0_role_type String originator
attribute NC_GLOBAL people_1_affiliation String Woods Hole Oceanographic Institution
attribute NC_GLOBAL people_1_affiliation_acronym String WHOI BCO-DMO
attribute NC_GLOBAL people_1_person_name String Hannah Ake
attribute NC_GLOBAL people_1_person_nid String 650173
attribute NC_GLOBAL people_1_role String BCO-DMO Data Manager
attribute NC_GLOBAL people_1_role_type String related
attribute NC_GLOBAL project String benthic_PP_at_TIDE
attribute NC_GLOBAL projects_0_acronym String benthic_PP_at_TIDE
attribute NC_GLOBAL projects_0_description String Extracted from the NSF award abstract:\nThis project will address how rates of benthic microalgal production respond to eutrophication and geomorphological changes in human-impacted tidal creeks. Excess nutrient loading increases benthic algal biomass and likely stimulates production rates but the magnitude of nutrient and geomorphological effects on rates of production is unknown. Will changes in benthic algal productivity affect algal-bacterial coupling? Furthermore, how is algal-bacterial coupling affected by geomorphological changes, which may be exacerbated by excess nutrient loading but can also occur in pristine marshes?\nThis project will take advantage of the infrastructure of the TIDE project, a long-term saltmarsh eutrophication experiment at the Plum Island Ecosystem - Long Term Ecological Research site in Northeastern Massachusetts. Specifically, the PIs will measure benthic metabolism and examine algal- bacterial coupling in fertilized and ambient nutrient tidal creeks in the first field season. The following field season, they will compare sediment metabolism and carbon dynamics on slumped tidal creek walls (i.e. areas where low marsh has collapsed into the tidal creek) to that on the bottom of tidal creeks. In both years, gross and net production will be determined using an innovative triple oxygen isotope technique and traditional dissolved oxygen and inorganic carbon flux measurements. Comparisons between these methods will be useful in informing studies of sediment metabolism. Lipid biomarkers will be used to characterize the sources of organic matter to creek sediments, and stable isotope analysis of bacterial specific biomarkers to identify the sources of organic carbon utilized by sediment bacteria. The biomarkers will reveal whether sediment bacteria use organic matter substrates, such as benthic microalgal carbon, selectively or in proportion to availability. Overall, results from the proposed study will provide important information about how sediment carbon dynamics in shallow tidal creeks respond to long term eutrophication. Furthermore, findings will enhance understanding of the role of tidal creeks in coastal biogeochemistry.
attribute NC_GLOBAL projects_0_end_date String 2015-08
attribute NC_GLOBAL projects_0_geolocation String Plum Island Estuary, Rowley Massachusetts
attribute NC_GLOBAL projects_0_name String Eutrophication Effects on Sediment Metabolism and Benthic Algal-bacterial Coupling: An Application of Novel Techniques in a LTER Estuary
attribute NC_GLOBAL projects_0_project_nid String 529583
attribute NC_GLOBAL projects_0_start_date String 2012-09
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 standard_name_vocabulary String CF Standard Name Table v55
attribute NC_GLOBAL summary String Raw concentrations of individual PLFA compounds from Massachusetts from 2012-2015.
attribute NC_GLOBAL title String [Sediment PLFA concentrations] - Raw concentrations of individual PLFA compounds from Massachusetts from 2012-2015. (Eutrophication Effects on Sediment Metabolism and Benthic Algal-bacterial Coupling: An Application of Novel Techniques in a LTER Estuary)
attribute NC_GLOBAL version String 1
attribute NC_GLOBAL xml_source String osprey2erddap.update_xml() v1.3
variable month byte
attribute month _FillValue byte 127
attribute month actual_range byte 6, 10
attribute month bcodmo_name String month
attribute month description String Month samples were collected; mm
attribute month long_name String Month
attribute month nerc_identifier String https://vocab.nerc.ac.uk/collection/P01/current/MNTHXXXX/ (external link)
attribute month units String unitless
variable estuary String
attribute estuary bcodmo_name String site
attribute estuary description String The core originiated from Sweeny or West tidal creeks
attribute estuary long_name String Estuary
attribute estuary units String unitless
variable timepoint String
attribute timepoint bcodmo_name String time
attribute timepoint description String Timepoint refers to when the sample was collected before (PL) or after the 13C-isotope label was added; HH:MM
attribute timepoint long_name String Timepoint
attribute timepoint nerc_identifier String https://vocab.nerc.ac.uk/collection/P01/current/AHMSAA01/ (external link)
attribute timepoint units String unitless
variable experiment String
attribute experiment bcodmo_name String treatment
attribute experiment description String Experiment refers to whether the 13C label was applied as benthic microalgae (BMA) or Spartina alterniflora (salt) detritus.
attribute experiment long_name String Experiment
attribute experiment units String unitless
variable c12 double
attribute c12 _FillValue double NaN
attribute c12 actual_range double 0.0, 206.1128748
attribute c12 bcodmo_name String unknown
attribute c12 description String Concentration of a combination of algae and microbes; short chain fatty acid
attribute c12 long_name String C12
attribute c12 units String percentage
variable i13 double
attribute i13 _FillValue double NaN
attribute i13 actual_range double 0.0, 150.2383931
attribute i13 bcodmo_name String unknown
attribute i13 description String iso methyl branced FA; indicates whether the methyl group is attached to the penultimate carbon atom
attribute i13 long_name String I13
attribute i13 units String percentage
variable a13 double
attribute a13 _FillValue double NaN
attribute a13 actual_range double 0.0, 91.09708692
attribute a13 bcodmo_name String unknown
attribute a13 description String anteiso methyl branced FAs; indicates whether methyl group is attached to the antepenultimate carbon atom
attribute a13 long_name String A13
attribute a13 units String percentage
variable c13 double
attribute c13 _FillValue double NaN
attribute c13 actual_range double 0.0, 119.9632599
attribute c13 bcodmo_name String unknown
attribute c13 description String Concentration of a combination of algae and microbes; short chain fatty acid
attribute c13 long_name String C13
attribute c13 units String percentage
variable i14 double
attribute i14 _FillValue double NaN
attribute i14 actual_range double 35.46011518, 671.5094428
attribute i14 bcodmo_name String unknown
attribute i14 description String iso methyl branced FA; indicates whether the methyl group is attached to the penultimate carbon atom
attribute i14 long_name String I14
attribute i14 units String percentage
variable c14 double
attribute c14 _FillValue double NaN
attribute c14 actual_range double 167.6936885, 3028.253378
attribute c14 bcodmo_name String unknown
attribute c14 description String Conentration of carbon isotope
attribute c14 long_name String C14
attribute c14 units String percentage
variable i15 double
attribute i15 _FillValue double NaN
attribute i15 actual_range double 195.4219156, 3246.9206
attribute i15 bcodmo_name String unknown
attribute i15 description String iso methyl branced FA; indicates whether the methyl group is attached to the penultimate carbon atom
attribute i15 long_name String I15
attribute i15 units String percentage
variable a15 double
attribute a15 _FillValue double NaN
attribute a15 actual_range double 231.4117033, 3405.412976
attribute a15 bcodmo_name String unknown
attribute a15 description String anteiso methyl branced FAs; indicates whether methyl group is attached to the antepenultimate carbon atom
attribute a15 long_name String A15
attribute a15 units String percentage
variable c15 double
attribute c15 _FillValue double NaN
attribute c15 actual_range double 0.0, 2286.475985
attribute c15 bcodmo_name String unknown
attribute c15 description String Concentration of carbon isotope
attribute c15 long_name String C15
attribute c15 units String percentage
variable i16 double
attribute i16 _FillValue double NaN
attribute i16 actual_range double 0.0, 1391.526599
attribute i16 bcodmo_name String unknown
attribute i16 description String iso methyl branced FA; indicates whether the methyl group is attached to the penultimate carbon atom
attribute i16 long_name String I16
attribute i16 units String percentage
variable c16 double
attribute c16 _FillValue double NaN
attribute c16 actual_range double 1186.110944, 18218.21615
attribute c16 bcodmo_name String unknown
attribute c16 description String Concentration of sulfate reducing bacteria
attribute c16 long_name String C16
attribute c16 units String percentage
variable me10_16 double
attribute me10_16 _FillValue double NaN
attribute me10_16 actual_range double 43.08731042, 1393.518209
attribute me10_16 bcodmo_name String unknown
attribute me10_16 description String Concentration of sulfate reducing bacteria
attribute me10_16 long_name String Me10 16
attribute me10_16 units String percentage
variable i17 double
attribute i17 _FillValue double NaN
attribute i17 actual_range double 110.6613021, 1341.707896
attribute i17 bcodmo_name String unknown
attribute i17 description String iso methyl branced FA; indicates whether the methyl group is attached to the penultimate carbon atom
attribute i17 long_name String I17
attribute i17 units String percentage
variable a17 double
attribute a17 _FillValue double NaN
attribute a17 actual_range double 100.0341077, 1211.512171
attribute a17 bcodmo_name String unknown
attribute a17 description String anteiso methyl branced FAs; indicates whether methyl group is attached to the antepenultimate carbon atom
attribute a17 long_name String A17
attribute a17 units String percentage
variable c17 double
attribute c17 _FillValue double NaN
attribute c17 actual_range double 66.46104389, 1864.874336
attribute c17 bcodmo_name String unknown
attribute c17 description String Concentration of carbon isotope
attribute c17 long_name String C17
attribute c17 units String percentage
variable c18 double
attribute c18 _FillValue double NaN
attribute c18 actual_range double 351.4167529, 5907.906658
attribute c18 bcodmo_name String unknown
attribute c18 description String Concentration of carbon isotope
attribute c18 long_name String C18
attribute c18 units String percentage
variable i19 double
attribute i19 _FillValue double NaN
attribute i19 actual_range double 0.0, 361.1033459
attribute i19 bcodmo_name String unknown
attribute i19 description String iso methyl branced FA; indicates whether the methyl group is attached to the penultimate carbon atom
attribute i19 long_name String I19
attribute i19 units String percentage
variable a19 double
attribute a19 _FillValue double NaN
attribute a19 actual_range double 0.0, 426.0938027
attribute a19 bcodmo_name String unknown
attribute a19 description String anteiso methyl branced FAs; indicates whether methyl group is attached to the antepenultimate carbon atom
attribute a19 long_name String A19
attribute a19 units String percentage
variable c19 double
attribute c19 _FillValue double NaN
attribute c19 actual_range double 0.0, 720.9545328
attribute c19 bcodmo_name String unknown
attribute c19 description String Concentration of carbon isotope
attribute c19 long_name String C19
attribute c19 units String percentage
variable c20_5w3 double
attribute c20_5w3 _FillValue double NaN
attribute c20_5w3 actual_range double 0.0, 4058.707755
attribute c20_5w3 bcodmo_name String unknown
attribute c20_5w3 description String Isotopic composition of compounds and subclasses representing algae; polyunsaturated fatty acids
attribute c20_5w3 long_name String C20 5W3
attribute c20_5w3 units String percentage
variable c20_4w6 double
attribute c20_4w6 _FillValue double NaN
attribute c20_4w6 actual_range double 0.0, 13707.70829
attribute c20_4w6 bcodmo_name String unknown
attribute c20_4w6 description String Isotopic composition of compounds and subclasses representing algae; polyunsaturated fatty acids
attribute c20_4w6 long_name String C20 4W6
attribute c20_4w6 units String percentage
variable c20 double
attribute c20 _FillValue double NaN
attribute c20 actual_range double 114.9411689, 1222.542132
attribute c20 bcodmo_name String unknown
attribute c20 description String Concentration of carbon isotope
attribute c20 long_name String C20
attribute c20 units String percentage
variable c21 double
attribute c21 _FillValue double NaN
attribute c21 actual_range double 192.4533648, 1665.933443
attribute c21 bcodmo_name String unknown
attribute c21 description String Concentration of carbon isotope
attribute c21 long_name String C21
attribute c21 units String percentage
variable unsatC22 double
attribute unsatC22 _FillValue double NaN
attribute unsatC22 actual_range double 0.0, 588.9289876
attribute unsatC22 bcodmo_name String unknown
attribute unsatC22 description String Concentration of unsaturated fatty acids
attribute unsatC22 long_name String Unsat C22
attribute unsatC22 units String percentage
variable c22_6w3 double
attribute c22_6w3 _FillValue double NaN
attribute c22_6w3 actual_range double 0.0, 5314.589072
attribute c22_6w3 bcodmo_name String unknown
attribute c22_6w3 description String Isotopic composition of compounds and subclasses representing algae; polyunsaturated fatty acids
attribute c22_6w3 long_name String C22 6W3
attribute c22_6w3 units String percentage
variable c22_5 double
attribute c22_5 _FillValue double NaN
attribute c22_5 actual_range double 0.0, 1949.542406
attribute c22_5 bcodmo_name String unknown
attribute c22_5 description String Isotopic composition of compounds and subclasses representing algae; polyunsaturated fatty acids
attribute c22_5 long_name String C22 5
attribute c22_5 units String percentage
variable c22 double
attribute c22 _FillValue double NaN
attribute c22 actual_range double 106.8008664, 669.3160305
attribute c22 bcodmo_name String unknown
attribute c22 description String Concentration of carbon isotope
attribute c22 long_name String C22
attribute c22 units String percentage
variable c23 double
attribute c23 _FillValue double NaN
attribute c23 actual_range double 270.0952806, 2098.195845
attribute c23 bcodmo_name String unknown
attribute c23 description String Concentration of carbon isotope
attribute c23 long_name String C23
attribute c23 units String percentage
variable c24 double
attribute c24 _FillValue double NaN
attribute c24 actual_range double 0.0, 2055.123381
attribute c24 bcodmo_name String unknown
attribute c24 description String Concentration of carbon isotope
attribute c24 long_name String C24
attribute c24 units String percentage
variable c26 double
attribute c26 _FillValue double NaN
attribute c26 actual_range double 121.8191041, 2053.79792
attribute c26 bcodmo_name String unknown
attribute c26 description String Concentration of carbon isotope
attribute c26 long_name String C26
attribute c26 units String percentage
variable c28 double
attribute c28 _FillValue double NaN
attribute c28 actual_range double 0.0, 1671.278298
attribute c28 bcodmo_name String unknown
attribute c28 description String Concentration of carbon isotope
attribute c28 long_name String C28
attribute c28 units String percentage
variable totalFA double
attribute totalFA _FillValue double NaN
attribute totalFA actual_range double 4211.561565, 65874.63067
attribute totalFA bcodmo_name String unknown
attribute totalFA description String Total fatty acid concentration
attribute totalFA long_name String Total FA
attribute totalFA units String percentage

 
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