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  • 2
    Publication Date: 2023-01-13
    Keywords: AZMP_00-002-01; AZMP_00-002-02; AZMP_00-002-03; AZMP_00-002-04; AZMP_00-002-05; AZMP_00-002-06; AZMP_00-002-07; AZMP_00-002-08; AZMP_00-002-09; AZMP_00-002-10; AZMP_00-002-11; AZMP_00-002-12; AZMP_00-002-13; AZMP_00-002-14; AZMP_00-002-15; AZMP_00-002-16; AZMP_00-002-17; AZMP_00-002-18; AZMP_00-002-19; AZMP_00-002-20; AZMP_00-002-21; AZMP_00-002-22; AZMP_00-002-23; AZMP_00-002-24; AZMP_00-002-25; AZMP_00-002-26; AZMP_00-002-27; AZMP_00-002-28; AZMP_00-002-29; AZMP_00-002-30; AZMP_00-002-31; AZMP_00-002-32; AZMP_00-002-33; AZMP_00-002-34; AZMP_00-002-35; AZMP_00-002-36; AZMP_00-002-37; AZMP_00-002-38; AZMP_00-002-39; AZMP_00-002-40; AZMP_00-002-41; AZMP_00-002-42; AZMP_00-002-43; AZMP_00-002-44; AZMP_00-002-45; AZMP_00-002-46; AZMP_00-002-47; AZMP_00-002-48; AZMP_00-002-49; AZMP_00-002-50; AZMP_00-002-51; AZMP_00-002-52; AZMP_00-002-53; AZMP_00-002-54; AZMP_00-002-55; AZMP_00-002-56; AZMP_00-002-57; AZMP_00-002-58; AZMP_00-009-01; AZMP_00-009-02; AZMP_00-009-03; AZMP_00-009-04; AZMP_00-009-05; AZMP_00-009-06; AZMP_00-009-07; AZMP_00-009-08; AZMP_00-009-09; AZMP_00-009-10; AZMP_00-009-11; AZMP_00-009-12; AZMP_00-009-13; AZMP_00-009-14; AZMP_00-009-15; AZMP_00-009-16; AZMP_00-009-17; AZMP_00-009-18; AZMP_00-009-19; AZMP_00-009-20; AZMP_00-009-21; AZMP_00-009-22; AZMP_00-009-23; AZMP_00-009-24; AZMP_00-009-25; AZMP_00-009-26; AZMP_00-009-27; AZMP_00-009-28; AZMP_00-009-29; AZMP_00-009-30; AZMP_00-009-31; AZMP_00-009-32; AZMP_00-009-33; AZMP_00-009-34; AZMP_00-009-35; AZMP_00-009-36; AZMP_00-050-01; AZMP_00-050-02; AZMP_00-050-03; AZMP_00-050-04; AZMP_00-050-05; AZMP_00-050-06; AZMP_00-050-07; AZMP_00-050-08; AZMP_00-050-09; AZMP_00-050-10; AZMP_00-050-11; AZMP_00-050-12; AZMP_00-050-13; AZMP_00-050-14; AZMP_00-050-15; AZMP_00-050-16; AZMP_00-050-17; AZMP_00-050-18; AZMP_00-050-19; AZMP_00-050-20; AZMP_00-050-21; AZMP_00-050-22; AZMP_00-050-23; AZMP_00-050-24; AZMP_00-050-25; AZMP_00-050-26; AZMP_00-050-27; AZMP_00-050-28; AZMP_00-050-29; AZMP_00-050-30; AZMP_00-050-31; AZMP_00-050-32; AZMP_00-050-33; AZMP_00-050-34; AZMP_00-050-35; AZMP_00-050-36; AZMP_00-050-37; AZMP_00-050-38; AZMP_00-050-39; AZMP_00-050-40; AZMP_00-050-41; AZMP_00-050-42; AZMP_00-050-43; AZMP_00-050-44; AZMP_00-050-45; AZMP_00-050-46; AZMP_00-050-47; AZMP_00-050-48; AZMP_00-050-49; AZMP_00-050-50; AZMP_00-050-51; AZMP_00-050-52; AZMP_01_009-01; AZMP_01_009-02; AZMP_01_009-03; AZMP_01_009-04; AZMP_01_009-05; AZMP_01_009-06; AZMP_01_009-07; AZMP_01_009-08; AZMP_01_009-09; AZMP_01_009-10; AZMP_01_009-11; AZMP_01_009-12; AZMP_01_009-13; AZMP_01_009-14; AZMP_01_009-15; AZMP_01_009-16; AZMP_01_009-17; AZMP_01_009-18; AZMP_01_009-19; AZMP_01_009-20; AZMP_01_009-21; AZMP_01_009-22; AZMP_01_009-23; AZMP_01_009-24; AZMP_01_009-25; AZMP_01_009-26; AZMP_01_009-27; AZMP_01_009-28; AZMP_01_009-29; AZMP_01_009-30; AZMP_01_009-31; AZMP_01_009-32; AZMP_01_009-33; AZMP_01_009-34; AZMP_01_009-35; AZMP_01_009-36; AZMP_01_009-37; AZMP_01_009-38; AZMP_01_009-39; AZMP_01_009-40; AZMP_01_009-41; AZMP_01_009-42; AZMP_01_009-43; AZMP_01_009-44; AZMP_01_009-45; AZMP_01_009-46; AZMP_01_009-47; AZMP_01_009-48; AZMP_01_009-49; AZMP_01_009-50; AZMP_01_009-51; AZMP_01_009-52; AZMP_01_009-53; AZMP_01_009-54; AZMP_01_009-55; AZMP_01_009-56; AZMP_01_009-57; AZMP_01_009-58; AZMP_01_009-59; AZMP_01_009-60; AZMP_01_009-61; AZMP_01_022-01; AZMP_01_022-02; AZMP_01_022-03; AZMP_01_022-04; AZMP_01_022-05; AZMP_01_022-06; AZMP_01_022-07; AZMP_01_022-08; AZMP_01_022-09; AZMP_01_022-10; AZMP_01_022-11; AZMP_01_022-12; AZMP_01_022-13; AZMP_01_022-14; AZMP_01_022-15; AZMP_01_022-16; AZMP_01_022-17; AZMP_01_022-18; AZMP_01_022-19; AZMP_01_022-20; AZMP_01_022-21; AZMP_01_022-22; AZMP_01_022-23; AZMP_01_022-24; AZMP_01_022-25; AZMP_01_022-26; AZMP_01_022-27; AZMP_01_022-28; AZMP_01_022-29; AZMP_01_022-30; AZMP_01_022-31; AZMP_01_022-32; AZMP_01_022-33; AZMP_01_022-34; AZMP_01_022-35; AZMP_01_022-36; AZMP_01_022-37; AZMP_01_022-38; AZMP_01_022-39; AZMP_01_022-40; AZMP_01_022-41; AZMP_01_022-42; AZMP_01_022-43; AZMP_01_022-44; AZMP_01_022-45; AZMP_01_022-46; AZMP_01_022-47; AZMP_01_022-48; AZMP_01_022-49; AZMP_01_022-50; AZMP_01_022-51; AZMP_01_022-52; AZMP_01_022-53; AZMP_01_061-01; AZMP_01_061-02; AZMP_01_061-03; AZMP_01_061-04; AZMP_01_061-05; AZMP_01_061-06; AZMP_01_061-07; AZMP_01_061-08; AZMP_01_061-09; AZMP_01_061-10; AZMP_01_061-11; AZMP_01_061-12; AZMP_01_061-13; AZMP_01_061-14; AZMP_01_061-15; AZMP_01_061-16; AZMP_01_061-17; AZMP_01_061-18; AZMP_01_061-19; AZMP_01_061-20; AZMP_01_061-21; AZMP_01_061-22; AZMP_01_061-23; AZMP_01_061-24; AZMP_01_061-25; AZMP_01_061-26; AZMP_01_061-27; AZMP_01_061-28; AZMP_01_061-29; AZMP_01_061-30; AZMP_01_061-31; AZMP_01_061-32; AZMP_01_061-33; AZMP_01_061-34; AZMP_01_061-35; AZMP_01_061-36; AZMP_01_061-37; AZMP_01_061-38; AZMP_01_061-39; AZMP_01_061-40; AZMP_01_061-41; AZMP_01_061-42; AZMP_01_061-43; AZMP_01_061-44; AZMP_01_061-45; AZMP_01_061-46; AZMP_01_061-47; AZMP_01_061-48; AZMP_01_061-49; AZMP_01_061-50; AZMP_01_061-51; AZMP_01_061-52; AZMP_01_061-53; AZMP_01_061-54; AZMP_01_061-55; AZMP_01_061-56; AZMP_01_061-57; AZMP_01_061-58; AZMP_01_061-59; AZMP_01_061-60; AZMP_02-032-01; AZMP_02-032-02; AZMP_02-032-03; AZMP_02-032-04; AZMP_02-032-05; AZMP_02-032-06; AZMP_02-032-07; AZMP_02-032-08; AZMP_02-032-09; AZMP_02-032-10; AZMP_02-032-11; AZMP_02-032-12; AZMP_02-032-13; AZMP_02-032-14; AZMP_02-032-15; AZMP_02-032-16; AZMP_02-032-17; AZMP_02-032-18; AZMP_02-032-19; AZMP_02-032-20; AZMP_02-032-21; AZMP_02-032-22; AZMP_02-032-23; AZMP_02-032-24; AZMP_02-032-25; AZMP_02-032-26; AZMP_02-032-27; AZMP_02-032-28; AZMP_02-032-29; AZMP_02-032-30; AZMP_02-032-31; AZMP_02-032-32; AZMP_02-032-33; AZMP_02-032-34; AZMP_02-032-35; AZMP_02-032-36; AZMP_02-032-37; AZMP_02-032-38; AZMP_02-032-39; AZMP_02-032-40; AZMP_02-032-41; AZMP_02-032-42; AZMP_02-032-43; AZMP_02-032-44; AZMP_02-032-45; AZMP_02-032-46; AZMP_02-032-47; AZMP_02-032-48; AZMP_02-032-49; AZMP_02-032-50; AZMP_02-032-51; AZMP_02-032-52; AZMP_02-032-53; AZMP_02-032-54; AZMP_02-032-55; AZMP_02-032-56; AZMP_02-032-57; AZMP_02-032-58; AZMP_02-032-59; AZMP_02-032-60; AZMP_02-032-61; AZMP_02-032-62; AZMP_02-032-63; AZMP_02-032-64; AZMP_02-032-65; AZMP_02-032-66; AZMP_02-032-67; AZMP_02-032-68; AZMP_02-032-69; AZMP_02-032-70; AZMP_02-032-71; AZMP_02-064-01; AZMP_02-064-02; AZMP_02-064-03; AZMP_02-064-04; AZMP_02-064-05; AZMP_02-064-06; AZMP_02-064-07; AZMP_02-064-08; AZMP_02-064-09; AZMP_02-064-10; AZMP_02-064-11; AZMP_02-064-12; AZMP_02-064-13; AZMP_02-064-14; AZMP_02-064-15; AZMP_02-064-16; AZMP_02-064-17; AZMP_02-064-18; AZMP_02-064-19; AZMP_02-064-20; AZMP_02-064-21; AZMP_02-064-22; AZMP_02-064-23; AZMP_02-064-24; AZMP_02-064-25; AZMP_02-064-26; AZMP_02-064-27; AZMP_02-064-28; AZMP_02-064-29; AZMP_02-064-30; AZMP_02-064-31; AZMP_02-064-32; AZMP_02-064-33; AZMP_02-064-34; AZMP_02-064-35; AZMP_02-064-36; AZMP_02-064-37; AZMP_02-064-38; AZMP_02-064-39; AZMP_02-064-40; AZMP_02-075-01; AZMP_02-075-02; AZMP_02-075-03; AZMP_02-075-04; AZMP_02-075-05; AZMP_02-075-06; AZMP_02-075-07; AZMP_02-075-08; AZMP_02-075-09; AZMP_02-075-10; AZMP_02-075-11; AZMP_02-075-12; AZMP_02-075-13; AZMP_02-075-14; AZMP_02-075-15; AZMP_02-075-16; AZMP_02-075-17; AZMP_02-075-18; AZMP_02-075-19; AZMP_02-075-20; AZMP_02-075-21; AZMP_02-075-22; AZMP_02-075-23; AZMP_02-075-24; AZMP_03-005-01; AZMP_03-005-02; AZMP_03-005-03; AZMP_03-005-04; AZMP_03-005-05; AZMP_03-005-06; AZMP_03-005-07; AZMP_03-005-08; AZMP_03-005-09; AZMP_03-005-10; AZMP_03-005-11; AZMP_03-005-12; AZMP_03-005-13; AZMP_03-005-14; AZMP_03-005-15; AZMP_03-005-16; AZMP_03-005-17; AZMP_03-005-18; AZMP_03-005-19; AZMP_03-005-20; AZMP_03-005-21; AZMP_03-005-22; AZMP_03-005-23; AZMP_03-005-24; AZMP_03-038-01; AZMP_03-038-02; AZMP_03-038-03; AZMP_03-038-04; AZMP_03-038-05; AZMP_03-038-06; AZMP_03-038-07; AZMP_03-038-08; AZMP_03-038-09; AZMP_03-038-10; AZMP_03-038-11; AZMP_03-038-12; AZMP_03-038-13; AZMP_03-038-14; AZMP_03-038-15; AZMP_03-038-16; AZMP_03-038-17; AZMP_03-038-18; AZMP_03-038-19; AZMP_03-038-20; AZMP_03-038-21;
    Type: Dataset
    Format: text/tab-separated-values, 9871 data points
    Location Call Number Expected Availability
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  • 3
    Publication Date: 2024-02-01
    Keywords: 19-Butanoyloxyfucoxanthin; 19-Hexanoyloxyfucoxanthin; Alloxanthin; alpha-Carotene, beta,epsilon-Carotene; BAF89/3; BAF89/3-1; BAF89/3-2; BAF89/3-3; BAF89/3-4; BAF89/3-5; BAF89/3-7; BAF89/3-9; Baffin; beta-Carotene, beta,beta-Carotene; Bottle, Niskin; Chlorophyll a; Chlorophyll b; Chlorophyll c; Chlorophyll c3; Date/Time of event; DEPTH, water; Diadinoxanthin; Event label; Fucoxanthin; High Performance Liquid Chromatography (HPLC); JGOFS; Joint Global Ocean Flux Study; Latitude of event; Longitude of event; NIS; Peridinin; South Atlantic Ocean; Zeaxanthin + Lutein
    Type: Dataset
    Format: text/tab-separated-values, 494 data points
    Location Call Number Expected Availability
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  • 4
    Publication Date: 2024-02-01
    Keywords: Amphipoda; Appendicularia; BAF89/3; BAF89/3-TOW1; BAF89/3-TOW2; BAF89/3-TOW5; BAF89/3-TOW6; BAF89/3-TOW7; BAF89/3-TOW8; BAF89/3-TOW9; Baffin; Calanoida; Calanus finmarchicus, female; Calanus finmarchicus, juvenile; Calanus finmarchicus, male; Calanus glacialis, female; Calanus glacialis, juvenile; Calanus hyperboreus, female; Calanus hyperboreus, juvenile; Calanus tenuicornis, female; Calanus tenuicornis, juvenile; Calanus tenuicornis, male; Chaetognatha; Clausocalanus; Coelenterata; Copepoda; Copepoda, exoskeletons; Counting; Cyclopoida; Date/Time of event; Decapoda; Depth, bottom/max; Depth, top/min; DEPTH, water; Eggs; Eucalanus; Euchaeta; Euchirella; Euphausiacea; Event label; Fish eggs and larvae; Foraminifera, planktic; HAI; Harpacticoida; JGOFS; Joint Global Ocean Flux Study; Latitude of event; Longitude of event; Metridia; Mollusca; Nauplii; Ostracoda; Pleuromamma; Polychaeta; Sample code/label; South Atlantic Ocean; Towed zooplankton net
    Type: Dataset
    Format: text/tab-separated-values, 1739 data points
    Location Call Number Expected Availability
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  • 5
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    Unknown
    PANGAEA
    In:  Supplement to: Fragoso, Glaucia M; Poulton, Alex J; Yashayaev, Igor M; Head, Erica J H; Purdie, Duncan A (2016): Spring phytoplankton communities of the Labrador Sea (2005-2014): pigment signatures, photophysiology and elemental ratios. Biogeosciences Discussions, 43 pp, https://doi.org/10.5194/bg-2016-295
    Publication Date: 2024-03-18
    Description: The Labrador Sea is an ideal region to study the biogeographical, physiological and biogeochemical implications of phytoplankton communities due to sharp transitions of distinct water masses across its shelves and the central basin, intense nutrient delivery due to deep vertical mixing during winters and continual inflow of Arctic, Greenland melt and Atlantic waters. In this study, we provide a decadal assessment (2005?2014) of late spring/early summer phytoplankton communities from surface waters of the Labrador Sea based on pigment markers and CHEMTAX analysis, and their physiological and biogeochemical signatures. Diatoms were the most abundant group, blooming first in shallow mixed layers of haline-stratified Arctic shelf waters. Along with diatoms, chlorophytes co-dominated at the western end of the section (particularly in the polar waters of the Labrador Current (LC)), whilst Phaeocystis co-dominated in the east (modified polar waters of the West Greenland Current (WGC)). Pre-bloom conditions occurred in deeper mixed layers of the central Labrador Sea in May, where a mixed assemblage of flagellates (dinoflagellates, prasinophytes, prymnesiophytes, particularly coccolithophores, and chrysophytes/pelagophytes) occurred in low chlorophyll areas, succeeding to blooms of diatoms and dinoflagellates in thermally-stratified Atlantic waters in June. Light-saturated photosynthetic rates and saturation irradiance levels were higher at stations where diatoms were the dominant phytoplankton group (〉 70 %), as opposed to stations where flagellates were more abundant (from 40 % up to 70 %). Phytoplankton communities from the WGC (Phaeocystis and diatoms) had lower light-limited photosynthetic rates, with little evidence of photo-inhibition, indicating greater tolerance to a high light environment. By contrast, communities from the central Labrador Sea (dinoflagellates and diatoms), which bloomed later in the season (June), appeared to be more sensitive to high light levels. Ratios of accessory pigments (AP) to total chlorophyll a (TChl a) varied according to phytoplankton community composition, with polar phytoplankton (cold-water related) having lower AP to TChl a ratios. Phytoplankton communities associated with polar waters (LC and WGC) also had higher and more variable particulate organic carbon (POC) to particulate organic nitrogen (PON) ratios, suggesting the influence of detritus from freshwater input, derived from riverine, glacial and/or sea-ice meltwater. Long-term observational shifts in phytoplankton communities were not assessed in this study due to the short temporal frame (May to June) of the data. Nevertheless, these results have provided a baseline of current distributions and an evaluation of the biogeochemical role of spring phytoplankton communities in the Labrador Sea, which will improve our understanding of potential long-term responses of phytoplankton communities in high-latitude oceans to a changing climate.
    Keywords: (Diadinoxanthin + Diatoxanthin)/chlorophyll a ratio; 19-Butanoyloxyfucoxanthin; 19-Hexanoyloxyfucoxanthin; Alloxanthin; alpha-Carotene, beta,epsilon-Carotene; beta-Carotene, beta,beta-Carotene; Calculated; Campaign of event; Carbon, organic, particulate; Carbon, organic, particulate/Nitrogen, organic, particulate ratio; Carotenoid pigments; Chlorophyll a; Chlorophyll a, Chlorophyta; Chlorophyll a, Chrysophyta; Chlorophyll a, Cryptophycea; Chlorophyll a, Cyanobacteria; Chlorophyll a, Diatoms; Chlorophyll a, Dinoflagellata; Chlorophyll a, Phaeocystis; Chlorophyll a, Prasinophyta; Chlorophyll a, Prymnesiophyceae; Chlorophyll a, total; Chlorophyll b; Chlorophyll c; Chlorophyll c1+c2; Chlorophyll c3; Chlorophyllide a; Cluster number; Comment; CTD, Sea-Bird; CTD/Rosette; CTD-RO; Date/Time of event; Davis Strait; Day of study; DEPTH, water; Diadinoxanthin; Diadinoxanthin + Diatoxanthin; Diatoxanthin; Diatoxanthin/(Diadinoxanthin + Diatoxanthin) ratio; Element analyser CHNS/O, Perkin-Elmer 2400 II; Event label; Fluorometer, Turner Design, TD-700; Fucoxanthin; Greenland Sea; Gulf of St. Lawrence; High Performance Liquid Chromatography (HPLC); HUD2005-16; HUD-2005-16_L10; HUD-2005-16_L11; HUD-2005-16_L12B_2; HUD-2005-16_L13; HUD-2005-16_L14; HUD-2005-16_L15; HUD-2005-16_L16B_2; HUD-2005-16_L17; HUD-2005-16_L18; HUD-2005-16_L19; HUD-2005-16_L20B_2; HUD-2005-16_L21; HUD-2005-16_L22; HUD-2005-16_L23; HUD-2005-16_L24; HUD-2005-16_L25B_2; HUD-2005-16_L26; HUD-2005-16_L27_2; HUD-2005-16_L3; HUD-2005-16_L4; HUD-2005-16_L5; HUD-2005-16_L6_2; HUD-2005-16_L7; HUD-2005-16_L8; HUD-2005-16_L9; HUD2006-019; HUD-2006-019_Bio1_2; HUD-2006-019_Bio4_2; HUD-2006-019_L1_2; HUD-2006-019_L11; HUD-2006-019_L14B_2; HUD-2006-019_L18B_2; HUD-2006-019_L24B_2; HUD-2006-019_L25B_2; HUD-2006-019_L4_2; HUD-2006-019_L4.10_2; HUD-2006-019_L4.5_2; HUD-2006-019_L9B_3; HUD2007-011; HUD-2007-011_L10B_2; HUD-2007-011_L11; HUD-2007-011_L12; HUD-2007-011_L13; HUD-2007-011_L14; HUD-2007-011_L14B_2; HUD-2007-011_L15; HUD-2007-011_L16; HUD-2007-011_L17; HUD-2007-011_L17B_2; HUD-2007-011_L18; HUD-2007-011_L2.10; HUD-2007-011_L2.12B_2; HUD-2007-011_L2.13; HUD-2007-011_L2.14; HUD-2007-011_L2.15.5; HUD-2007-011_L2.18; HUD-2007-011_L2.19_2; HUD-2007-011_L2.20; HUD-2007-011_L2.8B_2; HUD-2007-011_L20; HUD-2007-011_L21; HUD-2007-011_L21B_2; HUD-2007-011_L22; HUD-2007-011_L23; HUD-2007-011_L24; HUD-2007-011_L25; HUD-2007-011_L26; HUD-2007-011_L27_2; HUD-2007-011_L4.5; HUD-2007-011_L5; HUD-2007-011_L8; HUD2008-009; HUD-2008-009_L1; HUD-2008-009_L10B_2; HUD-2008-009_L11; HUD-2008-009_L12; HUD-2008-009_L13; HUD-2008-009_L14; HUD-2008-009_L15B_2; HUD-2008-009_L16; HUD-2008-009_L17; HUD-2008-009_L18; HUD-2008-009_L19B_2; HUD-2008-009_L2; HUD-2008-009_L20; HUD-2008-009_L21; HUD-2008-009_L22B_2; HUD-2008-009_L23; HUD-2008-009_L24B_2; HUD-2008-009_L25; HUD-2008-009_L3; HUD-2008-009_L4_2; HUD-2008-009_L5; HUD-2008-009_L6; HUD-2008-009_L7; HUD-2008-009_L8; HUD-2008-009_L9; HUD2009-015; HUD-2009-015_BIO1_2; HUD-2009-015_BIO2_2; HUD-2009-015_BIO3_2; HUD-2009-015_L10B_2; HUD-2009-015_L11B_2; HUD-2009-015_L12; HUD-2009-015_L13; HUD-2009-015_L14; HUD-2009-015_L15B_2; HUD-2009-015_L16B_2; HUD-2009-015_L17; HUD-2009-015_L18; HUD-2009-015_L19; HUD-2009-015_L20; HUD-2009-015_L20B; HUD-2009-015_L21; HUD-2009-015_L22; HUD-2009-015_L23; HUD-2009-015_L24; HUD-2009-015_L25; HUD-2009-015_L26; HUD-2009-015_L27; HUD-2009-015_L28_2; HUD-2009-015_L7.5; HUD-2009-015_L8; HUD-2009-015_L9; HUD2010-014; HUD-2010-014_L1; HUD-2010-014_L10_2; HUD-2010-014_L11; HUD-2010-014_L12; HUD-2010-014_L13; HUD-2010-014_L14B_2; HUD-2010-014_L15; HUD-2010-014_L16; HUD-2010-014_L17; HUD-2010-014_L18B_2; HUD-2010-014_L19; HUD-2010-014_L20; HUD-2010-014_L21; HUD-2010-014_L23B_2; HUD-2010-014_L24; HUD-2010-014_L25; HUD-2010-014_L26; HUD-2010-014_L27; HUD-2010-014_L28; HUD-2010-014_L2a; HUD-2010-014_L3a; HUD-2010-014_L4a; HUD-2010-014_L5a; HUD-2010-014_L6a_2; HUD-2010-014_L7; HUD-2010-014_L8; HUD-2010-014_L9; HUD2011-009; HUD-2011-009_A3; HUD-2011-009_A4; HUD-2011-009_AB_8; HUD-2011-009_BIO3_3; HUD-2011-009_L0; HUD-2011-009_L1; HUD-2011-009_L10; HUD-2011-009_L11; HUD-2011-009_L11.5B_2; HUD-2011-009_L12; HUD-2011-009_L13; HUD-2011-009_L14B; HUD-2011-009_L15; HUD-2011-009_L17; HUD-2011-009_L19B_2; HUD-2011-009_L2; HUD-2011-009_L20; HUD-2011-009_L21; HUD-2011-009_L22; HUD-2011-009_L23.5_2; HUD-2011-009_L23B_2; HUD-2011-009_L24; HUD-2011-009_L25; HUD-2011-009_L26; HUD-2011-009_L27; HUD-2011-009_L28; HUD-2011-009_L3; HUD-2011-009_L4; HUD-2011-009_L5; HUD-2011-009_L6; HUD-2011-009_L7_2; HUD-2011-009_L8; HUD-2011-009_L9.5; HUD2012-001; HUD-2012-001_L1; HUD-2012-001_L10; HUD-2012-001_L11; HUD-2012-001_L12; HUD-2012-001_L13; HUD-2012-001_L14; HUD-2012-001_L15B; HUD-2012-001_L16; HUD-2012-001_L17; HUD-2012-001_L17.4; HUD-2012-001_L18B; HUD-2012-001_L19; HUD-2012-001_L2; HUD-2012-001_L21B; HUD-2012-001_L22; HUD-2012-001_L23; HUD-2012-001_L23.5; HUD-2012-001_L24; HUD-2012-001_L25; HUD-2012-001_L27; HUD-2012-001_L28; HUD-2012-001_L29; HUD-2012-001_L3; HUD-2012-001_L30; HUD-2012-001_L4; HUD-2012-001_L5; HUD-2012-001_L6; HUD-2012-001_L7; HUD-2012-001_L8; HUD-2012-001_L9; HUD2013-008; HUD-2013-008_B1; HUD-2013-008_B2; HUD-2013-008_B3; HUD-2013-008_B4; HUD-2013-008_B5; HUD-2013-008_L10; HUD-2013-008_L11; HUD-2013-008_L12; HUD-2013-008_L13; HUD-2013-008_L14.2; HUD-2013-008_L14B2; HUD-2013-008_L15; HUD-2013-008_L16; HUD-2013-008_L17_2; HUD-2013-008_L17B2; HUD-2013-008_L18; HUD-2013-008_L19; HUD-2013-008_L21; HUD-2013-008_L22; HUD-2013-008_L23; HUD-2013-008_L25; HUD-2013-008_L26; HUD-2013-008_L27; HUD-2013-008_L28B2; HUD-2013-008_L7; HUD-2013-008_L8; HUD-2013-008_L9; Hudson; Initial slope of the photosynthesis-irradiance curve; James Clark Ross; JR302; JR302_R11; JR302_R22; JR302_R23; JR302_R28; JR302_R33; JR302_R38; JR302_R42; JR302_R48; JR302_R49; JR302_R5; JR302_R56; JR302_R6; JR302_R62; JR302_R71; JR302_R75; JR302_R78; Labrador Sea; Latitude of event; Light intensity at half-saturation irradiance; Light intensity at saturation irradiance; Longitude of event; Maximum photosynthetic efficiency per chlorophyll a biomass; Mixed layer depth; Nitrate; Nitrate/Phosphate ratio; Nitrogen, organic, particulate; Peridinin; Phaeophytin; Phosphate; Photoinhibition in carbon normalized to chlorophyll a; Pigments, total; Pigments, total accessory; Prasinoxanthin; Salinity; Sample ID; SEAL AutoAnalyzer 3 HR (AA3 HR); Silicate; Silicate/Nitrate ratio; South Atlantic Ocean; Station label; Stratification index; Temperature, water; Violaxanthin; Zeaxanthin + Lutein
    Type: Dataset
    Format: text/tab-separated-values, 14654 data points
    Location Call Number Expected Availability
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  • 6
    facet.materialart.
    Unknown
    PANGAEA
    In:  Supplement to: Melle, Webjørn; Runge, Jeffrey A; Head, Erica J H; Plourde, Stéphane; Castellani, Claudia; Licandro, Priscilla; Pierson, James; Jónasdóttir, Sigrún Huld; Johnson, C; Broms, Cecilie; Debes, Høgni; Falkenhaug, Tone; Gaard, Eilif; Gislason, Astthor; Heath, Michael R; Niehoff, Barbara; Nielsen, Torkel Gissel; Pepin, Pierre; Stenevik, Erling Kaare; Chust, Guillem (2015): Biogeography of key mesozooplankton species in the North Atlantic and egg production of Calanus finmarchicus. Earth System Science Data, 7(2), 223-230, https://doi.org/10.5194/essd-7-223-2015
    Publication Date: 2024-03-23
    Description: Here we present a new, pan-North-Atlantic compilation of data on key mesozooplankton species, including the most important copepod, Calanus finmarchicus. Distributional data of eight representative zooplankton taxa, from recent (2000-2009) Continuous Plankton Recorder data, are presented, along with basin-scale data of the phytoplankton colour index. Then we present a compilation of data on C. finmarchicus, including observations of abundance, demography, egg production and female size, with accompanying data on temperature and chlorophyll. . This is a contribution by Canadian, European and US scientists and their institutions.
    Keywords: Basin Scale Analysis, Synthesis and Integration; EURO-BASIN
    Type: Dataset
    Format: application/zip, 3 datasets
    Location Call Number Expected Availability
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  • 7
    Publication Date: 2024-03-23
    Keywords: Arendal_st_2; AZMP_Anticosti_Gyre; AZMP_Gaspe_Current; AZMP_Rimouski_Station; AZMP_Station_27; AZMP_Station_Halifax_2; Basin Scale Analysis, Synthesis and Integration; BONGO; Bongo net; Calanus finmarchicus, c1; Calanus finmarchicus, c2; Calanus finmarchicus, c3; Calanus finmarchicus, c4; Calanus finmarchicus, c5; Calanus finmarchicus, female; Calanus finmarchicus, male; Central_Labrador_Sea; Central Norwegian Sea; Depth, bottom/max; Depth, top/min; Eastern_Labrador_Sea; Eastern Norwegian Sea; EURO-BASIN; Event label; Faroe_Shelf_station_; Faroese Shelf; Faroe-Shetland Channel; Foinaven; Gulf of Maine; Labrador_Shelf; Labrador_Slope; Labrador Sea; Labrador shelf; Labrador slope; Langanes_NA; Latitude of event; Longitude of event; MSN; Multiple opening/closing net; Murchinson; Newfoundland Shelf; Northeastern Iceland; Northern Iceland; Northern Norwegian Shelf; North Sea; North Sea, Scotland Shelf; Northwest Gulf of St. Lawrence; Ring net; RN; Saltenfjorden; Sampling date; Scotian Shelf; Siglunes_section; Southern Iceland; Southern Norway Shelf; St. Lawrence Estuary, lower; Stonehaven; Svinoy_section_Arctic; Svinoy_section_Atlantic; Svinoy_section_coastal; Vestmannaeyjar; Weather_Station_Mike; West_Greenland_shelf; West Greenland; Wilkinson_Basin; WP2; WP-2 towed closing plankton net
    Type: Dataset
    Format: text/tab-separated-values, 5167 data points
    Location Call Number Expected Availability
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  • 8
    Publication Date: 2024-03-23
    Keywords: Arendal_st_2; AZMP_Anticosti_Gyre; AZMP_Gaspe_Current; AZMP_Rimouski_Station; AZMP_Station_27; AZMP_Station_Halifax_2; Basin Scale Analysis, Synthesis and Integration; BONGO; Bongo net; Central_Labrador_Sea; Central Norwegian Sea; Depth, bottom/max; Depth, top/min; Eastern_Labrador_Sea; Eastern Norwegian Sea; EURO-BASIN; Event label; Faroe_Shelf_station_; Faroese Shelf; Faroe-Shetland Channel; Foinaven; Gulf of Maine; Labrador_Shelf; Labrador_Slope; Labrador Sea; Labrador shelf; Labrador slope; Langanes_NA; Latitude of event; Longitude of event; MSN; Multiple opening/closing net; Murchinson; Newfoundland Shelf; Northeastern Iceland; Northern Iceland; Northern Norwegian Shelf; North Sea; North Sea, Scotland Shelf; Northwest Gulf of St. Lawrence; Ring net; RN; Saltenfjorden; Sampling date; Scotian Shelf; Siglunes_section; Southern Iceland; Southern Norway Shelf; St. Lawrence Estuary, lower; Stonehaven; Svinoy_section_Arctic; Svinoy_section_Atlantic; Svinoy_section_coastal; Temperature, water; Vestmannaeyjar; Weather_Station_Mike; West_Greenland_shelf; West Greenland; Wilkinson_Basin; WP2; WP-2 towed closing plankton net
    Type: Dataset
    Format: text/tab-separated-values, 2679 data points
    Location Call Number Expected Availability
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  • 9
    facet.materialart.
    Unknown
    PANGAEA
    In:  Supplement to: Melle, Webjørn; Runge, Jeffrey A; Head, Erica J H; Plourde, Stéphane; Castellani, Claudia; Licandro, Priscilla; Pierson, James; Jónasdóttir, Sigrún Huld; Johnson, C; Broms, Cecilie; Debes, Høgni; Falkenhaug, Tone; Gaard, Eilif; Gislason, Astthor; Heath, Michael R; Niehoff, Barbara; Nielsen, Torkel Gissel; Pepin, Pierre; Stenevik, Erling Kaare; Chust, Guillem (2015): Biogeography of key mesozooplankton species in the North Atlantic and egg production of Calanus finmarchicus. Earth System Science Data, 7(2), 223-230, https://doi.org/10.5194/essd-7-223-2015
    Publication Date: 2024-03-23
    Description: Observations of egg production rates (EPR) for female Calanus finmarchicus were compared from different regions of the North Atlantic. The regions were diverse in size and sampling frequency, ranging from a fixed time series station in the Lower St Lawrence Estuary, off Rimouski, where nearly 200 experiments were carried out between May and December from 1994 to 2006, to a large-scale survey in the Northern Norwegian Sea, where about 50 experiments were carried out between April and June from 2002 to 2004. For this analysis the stations were grouped mostly along geographic lines, with only limited attention being paid to oceanographic features. There is some overlap between regions, however, where stations were sometimes kept together when they were sampled on the same cruise. As well some stations other than off Rimouski were occupied more than once during different years and/or in different seasons.
    Keywords: Area/locality; Basin Scale Analysis, Synthesis and Integration; Calanus finmarchicus, egg production rate, standard deviation; Calanus finmarchicus, egg production rate, standard error; Calanus finmarchicus, egg production rate per female; Calanus finmarchicus, eggs per clutch; Calanus finmarchicus, eggs per clutch, standard deviation; Calanus finmarchicus, eggs per clutch, standard error; Calanus finmarchicus, female, prosome length; Calanus finmarchicus, female, prosome length, standard deviation; Calanus finmarchicus, female, prosome length, standard error; Calanus finmarchicus, spawning frequency; Calanus finmarchicus, spawning frequency, standard deviation; Calanus finmarchicus, spawning frequency, standard error; Chlorophyll a, areal concentration; Chlorophyll a, standard deviation; Chlorophyll a, standard error; Depth, bottom/max; Depth, top/min; EURO-BASIN; LATITUDE; LONGITUDE; Number of measurements; Sampling date; Season; Temperature, water; Temperature, water, standard deviation; Temperature, water, standard error
    Type: Dataset
    Format: text/tab-separated-values, 1098 data points
    Location Call Number Expected Availability
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  • 10
    Publication Date: 2024-03-23
    Keywords: Arendal_st_2; AZMP_Anticosti_Gyre; AZMP_Gaspe_Current; AZMP_Rimouski_Station; AZMP_Station_27; AZMP_Station_Halifax_2; Basin Scale Analysis, Synthesis and Integration; BONGO; Bongo net; Central_Labrador_Sea; Central Norwegian Sea; Chlorophyll a, areal concentration; Depth, bottom/max; Depth, top/min; Eastern_Labrador_Sea; Eastern Norwegian Sea; EURO-BASIN; Event label; Faroe_Shelf_station_; Faroese Shelf; Faroe-Shetland Channel; Foinaven; Gulf of Maine; Labrador_Shelf; Labrador_Slope; Labrador Sea; Labrador shelf; Labrador slope; Langanes_NA; Latitude of event; Longitude of event; MSN; Multiple opening/closing net; Murchinson; Newfoundland Shelf; Northeastern Iceland; Northern Iceland; Northern Norwegian Shelf; North Sea; North Sea, Scotland Shelf; Northwest Gulf of St. Lawrence; Ring net; RN; Saltenfjorden; Sampling date; Scotian Shelf; Siglunes_section; Southern Iceland; Southern Norway Shelf; St. Lawrence Estuary, lower; Stonehaven; Svinoy_section_Arctic; Svinoy_section_Atlantic; Svinoy_section_coastal; Vestmannaeyjar; Weather_Station_Mike; West_Greenland_shelf; West Greenland; Wilkinson_Basin; WP2; WP-2 towed closing plankton net
    Type: Dataset
    Format: text/tab-separated-values, 2690 data points
    Location Call Number Expected Availability
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