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| Dataset Title: | ASPeCt-Bio: Chlorophyll a in Antarctic sea ice from historical ice core dataset
|
| Institution: | Virginia Institute of Marine Science (Dataset ID: EP_ERD_SOO_BIOA_NN_NN_J18) |
| Range: | longitude = -179.9853 to 179.9628°E, latitude = -77.82528 to -58.1413°N |
| Information: | Summary
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| FGDC
| ISO 19115
| Metadata
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NC_GLOBAL {
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String citation "Meiners, K. (2017) ASPeCt-Bio: Chlorophyll a in Antarctic sea ice from historical ice core dataset, Ver. 1, Australian Antarctic Data Centre - doi:10.4225/15/5a370ec944b00, Accessed: 2023-08-24";
String Conventions "CF-1.6, COARDS, ACDD-1.3";
String creator_email "wos@vims.edu";
String creator_name "Dr. Walker smith";
String creator_url "http://www.vims.edu/";
String data_description
"The ASPeCt - Bio dataset is a compilation of currently available sea ice chl-a data from pack
\t\tice (i.e., excluding fast ice) cores collected during 32 cruises to the Southern Ocean sea ice
\t\tzone from 1983 to 2008 (Table S1). Data come from peer-reviewed publications, cruise
\t\treports, data repositories and direct contributions by field-research teams. During all cruises
\t\tthe chl-a concentration (in ug l-1) was measured from melted ice core sections, using standard
\t\tprocedures, e.g., by melting the ice at <5 degrees C in the dark; filtering samples onto glassfibre
\t\tfilters; and fluorometric analysis according to standard protocols [Holm-Hansen et al., 1965;
\t\tEvans et al., 1987]. Ice samples were melted either directly or in filtered sea water, which
\t\tdoes not yield significant differences in chl-a concentration [Dieckmann et al., 1998]. The
\t\tdataset consists of 1300 geo-referenced ice cores, consisting of 8247 individual ice core
\t\tsections, and including 990 vertical profiles with a minimum of three sections.
\t\t";
Float64 date_created 1.5254602373428926e+9;
Float64 date_modified 1.5254602373428926e+9;
String doi "doi:10.4225/15/5a370ec944b00";
Float64 Easternmost_Easting 179.9628;
String funding "Related Funding Agency: National Science Foundation (NSF)";
Float64 geospatial_lat_max -58.1413;
Float64 geospatial_lat_min -77.82528;
String geospatial_lat_units "degrees_north";
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Float64 geospatial_lon_min -179.9853;
String geospatial_lon_units "degrees_east";
String history
"1.5254602373428926E9
2024-04-20T00:21:05Z (local files)
2024-04-20T00:21:05Z https://erddap.emodnet-physics.eu/tabledap/EP_ERD_SOO_BIOA_NN_NN_J18.das";
String infoUrl "https://data.aad.gov.au/metadata/records/ASPeCt-Bio";
String institution "Virginia Institute of Marine Science";
String keywords "ammonia, ammonium, antarctic, aspect, aspect-bio, chla, chlorophyll, chlorophyll-a, concentration_of_chlorophyll_in_sea_water, doc, don, ice, Nitrate, silicate";
String keywords_vocabulary "GCMD Science Keywords";
String license "CC-BY 4.0";
Float64 Northernmost_Northing -58.1413;
String notes "This file does not comply with the netCDF standard compliance, but all data is accurate and valid.";
String publisher_email "ncei.info@noaa.gov";
String publisher_name "US National Centers for Environmental Information";
String publisher_url "https://www.ncei.noaa.gov";
String Reference "M. Meiners, M. Vancoppenolle, S. Thanassekos, G. S. Dieckmann, D. N. Thomas, J.-L. Tison, K. R. Arrigo, D. Garrison, A. McMinn, D. Lannuzel, P. van der Merwe, K. M. Swadling, W. O. Smith Jr., I. Melnikov, B. Raymond (2012) Chlorophyll a in Antarctic sea ice from historical ice core data. GEOPHYSICAL RESEARCH LETTERS, VOL. 39, L21602, doi:10.1029/2012GL053478, 2012.";
String references
"
\t\tAinley, D. G., and C. W. Sullivan (1984), AMERIEZ 1983: A summary of activities on board
\t\tthe R/V Melville and USCGC Westwind, Ant J. U.S., 19, 177-179.
\t\tAugstein, E., N. Bagriantsev, and H.-W. Schenke (1991), Die Expedition Antarktis VIII/1-2,
\t\t1989 mit der Winter Weddell Gyre Study der Forschungsschiffe Polarstern and Akademik
\t\tFedorov, Ber. z. Polarforschung, 84, 1-134.
\t\tArrigo, K. R., D. H. Robinson, R. B. Dunbar, A. R. Leventer, and M. P. Lizotte (2003),
\t\tPhysical control of chlorophyll a, POC, and TPN distributions in the pack ice of the Ross
\t\tSea, Antarctica, J. Geophys. Res., 108, 3316, doi:10.1029/2001JC001138.
\t\tBathmann, U., M. Schulz-Baldes, E. Fahrbach, V. Smetacek and H.-W. Hubberten (1992),
\t\tDie Expedition Antarktis IX/1-4 des Fosrchungsschiffes Polarstern, Ber. z. Polarforschung,
\t\t84, 1-134.
\t\tBecquevort, S., I. Dumont, J.-L. Tison, D. Lannuzel, M. L. Sauvee, L. Chou, and V.
\t\tSchoemann, V (2009), Biogeochemistry and microbial community composition in sea ice and
\t\tunderlying seawater off East Antarctica during early spring, Polar Biol., 32, 879-895.
\t\tBerliand, M., and T. G. Strokina (1980), Global distribution of the total amount of clouds
\t\t(in Russian). Hydrometeorological, Leningrad, p. 71.
\t\tFransson, A., M. Chierici, P. L. Yager, and W. O. Smith Jr. (2011), Antarctic sea ice carbon
\t\tdioxide system and controls, J. Geophys. Res., 116, C12035, doi:10.1029/2010JC006844.
\t\tFritsen, C. H., J. Memmott, and F. J. Stewart (2008), Inter-annual sea-ice dynamics and
\t\tmicro-algal biomass in winter pack ice of Marguerite Bay, Antarctica, Deep-Sea Res. II 55
\t\t(18-19), 2059-2067.
\t\tFritsen, C.H., Wirthlin, E.D., Momberg, D.K., Lewis, M.J. and S.F. Ackley (2011), Bio-
\t\toptical properties of Antarctic pack ice in the early austral spring. Deep-Sea Res. II 58, 1052-
\t\t1061
\t\tGarrison, D. L., and K. R. Buck (1989), The biota of Antarctic pack ice in the Weddell Sea
\t\tand Antarctic Peninsula regions. Polar Biol., 10, 211-219.
\t\tGarrison, D. L., and K. R. Buck (1991), Surface-layer sea ice assemblages in Antarctic pack
\t\tice during the austral spring: environmental conditions, primary production and community
\t\tstructure, Mar. Ecol. Prog. Ser., 75, 161-172.
\t\tGarrison, D. L., and A. R. Close (1993), Winter ecology of the sea ice biota in Weddell Sea
\t\tpack ice, Mar. Ecol. Prog. Ser., 96, 17-31.
\t\tGarrison, D. L., A. Gibson, S. L. Coale, M. M. Gowing, Y. B. Okolodkov, Fritsen C. H., and
\t\tM. O. Jeffries (2005), Sea-ice microbial communities in the Ross Sea: autumn and summer
\t\tbiota, Mar. Ecol. Prog. Ser., 300, 39-52
\t\tHempel, I. (1989), The expedition Antarctic VII/1 and 2 (EPOS 1) of R. V. Polarstern in
\t\t1988/1989, Ber. z. Polarforschung, 62, 1-184.
\t\tLannuzel D., V. Schoemann, J. de Jong, J.-L. Tison, and L. Chou (2007), Distribution and
\t\tbiogeochemical behaviour of iron in the East Antarctic sea ice, Marine Chemistry, 106, 18-32.
\t\tLannuzel D., V. Schoemann, J. de Jong, L. Chou, B. Delille, S. Becquevort, and J.-L. Tison (2008), Iron study during a time series in the western Weddell pack ice. Marine Chemistry, 108, 85-95.
\t\tLemke, P. (1994), Die Expedition Antarktis X/4 mit F. S. Polarstern 1992, Ber. z. Polarforschung, 140, 1-90.
\t\tMcMinn, A., K. G. Ryan, P. J. Ralph, and A. Pankowski (2007), Spring sea ice photosynthesis, primary productivity and biomass distribution in eastern Antarctica, 2002-2004, Mar. Biol., 151, 985-995.
\t\tMeiners, K.M., J. Fehling, M. A. Granskog, and A. Lindfors, A. (2004), Abundance, size distribution and bacterial colonization of exopolymer particles in Antarctic sea ice (Bellinghausen Sea). Aquat. Microb. Ecol., 35, 283-296.
\t\tMeiners, K.M., L. Norman, M. A. Granskog, A. Krell, P. Heil, and D. N. Thomas (2011), Physicoecobiogeochemistry of East Antarctic pack ice during the winter-spring transition. Deep-Sea Res. II 58, 1172-1181.
\t\tMeiners, K.M., S. Papadimitriou, L. Norman, D. N. Thomas, and G. S. Dieckmann (2009), Biogeochemical conditions and ice algal photosynthetic parameters in Weddell Sea ice during early spring, Polar Biol. 32, 1055-1065.
\t\tMelnikov, I.A. (1998) Winter production of sea ice algae in the Western Weddell Sea. J. Mar. Syst., 17, 195-205.
\t\tMiller, H., and H. Grobe (1996), Die Expedition XI/3 mit F. S. Polarstern 1994, Ber. z. Polarforschung, 188, 1-115.
\t\tPankowski, A., and A. McMinn (2008), Ferredoxin and flavodoxin in eastern Antarctica pack ice, Polar Biol., 31, 1153-1165.
\t\tQuetin, L., and R. Ross (1988), Summary of WINCRUISE II to the Antarctic Peninsula during June and July, 1987, Ant. J. U.S., 23, 149-151
\t\tSchnack-Schiel, S. (1987), Die Winter Expedition mit FS Polarstern in die Antarktis (ANT V/1-3), Ber. z. Polarforschung, 39, 1-259.
\t\tSpindler, M., G. S. Dieckmann, and D. N. Thomas (1993), Die Expedition Antarktis X/3 mit F. S. Polarstern, Ber. z. Polarforschung, 121, 1-259.
\t\tSullivan, C. W., and D. G. Ainley (1987), AMERIEZ 1986: A summary of activities on board the R/V Melville and USCGC Glacier, Ant. J. U.S., 22, 188-190
\t\tTrenberth, K., J. Olson, and W. Large, (1989), A global ocean windstress climatology based on the ECMWF analyses. Technical Report NCAR/TN-338+STR, National Center for Atmospheric Research, Boulder, Colorado, 93pp.
\t\tTrevena, A.J. and G. B. Jones, (2006), Dimethylsulphide and dimethylsulphoniopropionate in Antarctic sea ice and their release during sea ice melting, Mar. Chem. 98, 201-222
\t\tvan der Merwe, P., Lannuzel, D., Bowie, A., Mancuso Nichols, C., and K. M. Meiners (2011), Iron fractionation in pack and fast ice in East Antarctica: temporal decoupling between the release of dissolved and particulate iron during spring melt. Deep-Sea Res. II 58, 1222-1236.
\t\tvan Der Merwe, P., D. Lannuzel, C. A. Mancuso Nichols, K. M. Meiners, P. Heil, L. Norman, D. N. Thomas, and A. R. Bowie (2009), Biogeochemical observations during the winter-spring transition in East Antarctic sea ice: Evidence of iron and exopolysaccharide controls, Marine Chemistry, 115, 163-175.
\t\t";
String sea_name "Southern Ross Sea";
String sourceUrl "(local files)";
Float64 Southernmost_Northing -77.82528;
String standard_name_vocabulary "CF Standard Name Table v29";
String summary "ASPeCt-Bio: Chlorophyll a in Antarctic sea ice from historical ice core dataset. Virginia Institute of Marine Science data from a local source.";
String title "ASPeCt-Bio: Chlorophyll a in Antarctic sea ice from historical ice core dataset";
Float64 Westernmost_Easting -179.9853;
}
}
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