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In situ imaging reveals the biomass of giant protists in the global ocean (2016)

Biard, Tristan ; Stemmann, Lars ; Picheral, Marc ; [et al.]

Nature Research

In: Nature, 532 (7600). pp. 504-507.

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Publication Date: 2019-09-23

Description: Planktonic organisms play crucial roles in oceanic food webs and global biogeochemical cycles(1,2). Most of our knowledge about the ecological impact of large zooplankton stems from research on abundant and robust crustaceans, and in particular copepods(3,4). A number of the other organisms that comprise planktonic communities are fragile, and therefore hard to sample and quantify, meaning that their abundances and effects on oceanic ecosystems are poorly understood. Here, using data from a worldwide in situ imaging survey of plankton larger than 600 mu m, we show that a substantial part of the biomass of this size fraction consists of giant protists belonging to the Rhizaria, a super-group of mostly fragile unicellular marine organisms that includes the taxa Phaeodaria and Radiolaria ( for example, orders Collodaria and Acantharia). Globally, we estimate that rhizarians in the top 200 m of world oceans represent a standing stock of 0.089 Pg carbon, equivalent to 5.2% of the total oceanic biota carbon reservoir(5). In the vast oligotrophic intertropical open oceans, rhizarian biomass is estimated to be equivalent to that of all other mesozooplankton ( plankton in the size range 0.2-20 mm). The photosymbiotic association of many rhizarians with microalgae may be an important factor in explaining their distribution. The previously overlooked importance of these giant protists across the widest ecosystem on the planet(6) changes our understanding of marine planktonic ecosystems.

Type: Article , PeerReviewed

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Global Carbon Budget 2022 (2022)

Friedlingstein, Pierre ; O'Sullivan, Michael ; Jones, Matthew W. ; [et al.]

Copernicus Publications (EGU)

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Publication Date: 2024-02-07

Type: Article , PeerReviewed , info:eu-repo/semantics/article

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Global Carbon Budget 2023 (2023)

Friedlingstein, Pierre ; O'Sullivan, Michael ; Jones, Matthew W. ; [et al.]

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Publication Date: 2024-03-25

Description: Accurate assessment of anthropogenic carbon dioxide (CO2) emissions and their redistribution among the atmosphere, ocean, and terrestrial biosphere in a changing climate is critical to better understand the global carbon cycle, support the development of climate policies, and project future climate change. Here we describe and synthesize data sets and methodology to quantify the five major components of the global carbon budget and their uncertainties. Fossil CO2 emissions (E-FOS) are based on energy statistics and cement production data, while emissions from land-use change (E-LUC), mainly deforestation, are based on land-use and land-use change data and bookkeeping models. Atmospheric CO2 concentration is measured directly, and its growth rate (G(ATM)) is computed from the annual changes in concentration. The ocean CO2 sink (S-OCEAN) is estimated with global ocean biogeochemistry models and observation-based fCO(2) products. The terrestrial CO2 sink (S-LAND) is estimated with dynamic global vegetation models. Additional lines of evidence on land and ocean sinks are provided by atmospheric inversions, atmospheric oxygen measurements, and Earth system models. The resulting carbon budget imbalance (B-IM), the difference between the estimated total emissions and the estimated changes in the atmosphere, ocean, and terrestrial biosphere, is a measure of imperfect data and incomplete understanding of the contemporary carbon cycle. All uncertainties are reported as +/- 1 sigma. For the year 2022, E-FOS increased by 0.9% relative to 2021, with fossil emissions at 9.9 +/- 0.5 GtC yr(-1) (10.2 +/- 0.5 GtC yr(-1) when the cement carbonation sink is not included), and E-LUC was 1.2 +/- 0.7 GtC yr(-1), for a total anthropogenic CO2 emission (including the cement carbonation sink) of 11.1 +/- 0.8 GtC yr(-1) (40.7 +/- 3.2 GtCO(2) yr(-1)). Also, for 2022, G(ATM) was 4.6 +/- 0.2 GtC yr(-1) (2.18 +/- 0.1 ppm yr(-1); ppm denotes parts per million), S-OCEAN was 2.8 +/- 0.4 GtC yr(-1), and S-LAND was 3.8 +/- 0.8 GtC yr(-1), with a B-IM of 0.1 GtC yr(-1) (i.e. total estimated sources marginally too low or sinks marginally too high). The global atmospheric CO2 concentration averaged over 2022 reached 417.1 +/- 0.1 ppm. Preliminary data for 2023 suggest an increase in E-FOS relative to 2022 of +/- 1:1% (0.0% to 2.1 %) globally and atmospheric CO2 concentration reaching 419.3 ppm, 51% above the pre-industrial level (around 278 ppm in 1750). Overall, the mean of and trend in the components of the global carbon budget are consistently estimated over the period 1959-2022, with a near-zero overall budget imbalance, although discrepancies of up to around 1 Gt Cyr(-1) persist for the representation of annual to semi-decadal variability in CO2 fluxes. Comparison of estimates from multiple approaches and observations shows the following: (1) a persistent large uncertainty in the estimate of land-use changes emissions, (2) a low agreement between the different methods on the magnitude of the land CO2 flux in the northern extra-tropics, and (3) a discrepancy between the different methods on the strength of the ocean sink over the last decade. This living-data update documents changes in methods and data sets applied to this most recent global carbon budget as well as evolving community understanding of the global carbon cycle.

Type: Article , PeerReviewed

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Giant protists in the global ocean (2016)

Biard, Tristan ; Stemmann, Lars ; Picheral, Marc ; [et al.]

PANGAEA

In: Supplement to: Biard, Tristan; Stemmann, Lars; Picheral, Marc; Mayot, Nicolas; Vandromme, Pieter; Hauss, Helena; Gorsky, G; Guidi, Lionel; Kiko, Rainer; Not, Fabrice (2016): In situ imaging reveals the biomass of giant protists in the global ocean. Nature, 532(7600), 504-507, https://doi.org/10.1038/nature17652

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Publication Date: 2023-11-09

Description: Planktonic organisms play crucial roles in oceanic food webs and global biogeochemical cycles. Most of our knowledge about the ecological impact of large zooplankton stems from research on abundant and robust crustaceans, and in particular copepods. A number of the other organisms that comprise planktonic communities are fragile, and therefore hard to sample and quantify, meaning that their abundances and effects on oceanic ecosystems are poorly understood. Here, using data from a worldwide in situ imaging survey of plankton larger than 600 µm, we show that a substantial part of the biomass of this size fraction consists of giant protists belonging to the Rhizaria, a super-group of mostly fragile unicellular marine organisms that includes the taxa Phaeodaria and Radiolaria (for example, orders Collodaria and Acantharia). Globally, we estimate that rhizarians in the top 200 m of world oceans represent a standing stock of 0.089 Pg carbon, equivalent to 5.2% of the total oceanic biota carbon reservoir. In the vast oligotrophic intertropical open oceans, rhizarian biomass is estimated to be equivalent to that of all other mesozooplankton (plankton in the size range 0.2-20 mm). The photosymbiotic association of many rhizarians with microalgae may be an important factor in explaining their distribution. The previously overlooked importance of these giant protists across the widest ecosystem on the planet changes our understanding of marine planktonic ecosystems.

Type: Dataset

Format: application/zip, 3 datasets

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Environmental context of a compilation about the distribution of large protists from the Infrakingdom Rhizaria in the global ocean (2016)

Biard, Tristan ; Stemmann, Lars ; Picheral, Marc ; [et al.]

PANGAEA

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Publication Date: 2024-02-02

Keywords: [day/night] [water layer with no specific feature]; [day] [integrated]; [day] [mesopelagic zone (ENVO:00000213)]; [day] [surface water layer (ENVO:00002042)]; [day] [surface water layer (ENVO:00002042)] [near; [day] [water layer with no specific feature]; [day] [water layer with no specific feature] [also; [day] [water layer with no specific feature] [near; [day] [water layer with no specific feature] [NOT; [near station 95]; [night] [water layer with no specific feature]; [night] [water layer with no specific feature] [al; [night] [water layer with no specific feature] [ne; [RVSS]; Abu Dhabi to Muscat, Stations: none; ANT-XXV/3; Arctic Net 2009 Leg 2; Ascencion to Rio de Janiero, Stations: TARA_072-076; Athens to Beyrouth, Stations: TARA_027-028; Atseranana to Mamoudzou, Stations: TARA_053-054; Bermuda to Horta, Stations: TARA_148-151; Beyrouth to Alexandria, Stations: TARA_029-030; Bizerte to Naples, Stations: TARA_014; BOUM; Buenos Aires to Ushuaia, Stations: TARA_079b-083; calculated using satellite products obtained from the Oregon University; Campaign of event; CapeTown to Ascencion, Stations: TARA_067-071; CCGS Amundsen; Chlorophyll a; CTD_10; CTD_100; CTD_102; CTD_103; CTD_104; CTD_108; CTD_109; CTD_11; CTD_110; CTD_111; CTD_112; CTD_113; CTD_115; CTD_14; CTD_18; CTD_2; CTD_21; CTD_22; CTD_25; CTD_27; CTD_3; CTD_31; CTD_32; CTD_33; CTD_34; CTD_36; CTD_37; CTD_39; CTD_4; CTD_45; CTD_47; CTD_5; CTD_50; CTD_54; CTD_6; CTD_61; CTD_64; CTD_66; CTD_7; CTD_75; CTD_78; CTD_8; CTD_83; CTD_86; CTD_89; CTD_9; CTD_90; CTD_91; CTD_92; CTD_93; CTD_94; CTD_95; CTD_96; CTD_97; CTD_98; CTD_99; CTD/Rosette; CTD/Rosette, ultra clean; CTD001; CTD002; CTD003; CTD004; CTD005; CTD006; CTD007; CTD008; CTD009; CTD010; CTD011; CTD012; CTD013; CTD014; CTD015; CTD016; CTD017; CTD018; CTD019; CTD020; CTD021; CTD022; CTD023; CTD024; CTD025; CTD026; CTD027; CTD030; CTD032; CTD033; CTD034; CTD051; CTD052; CTD053; CTD054; CTD055; CTD056; CTD057; CTD058; CTD059; CTD060; CTD061; CTD062; CTD063; CTD067; CTD 10; CTD 11; CTD 12; CTD 13; CTD-13; CTD 14; CTD 15; CTD-15; CTD 16; CTD-16; CTD 17; CTD-17; CTD 18; CTD 19; CTD-19; CTD 20; CTD-20; CTD 22; CTD 23; CTD-23; CTD 24; CTD-24; CTD 25; CTD 26; CTD-26; CTD 27; CTD 28; CTD-28; CTD 29; CTD 3; CTD 30; CTD-30; CTD 31; CTD 32; CTD 33; CTD 34; CTD 35; CTD-35; CTD 36; CTD-38; CTD 4; CTD-40; CTD-41; CTD-42; CTD 43; CTD-43; CTD 44; CTD-44; CTD-46; CTD 47; CTD 48; CTD-48; CTD-49; CTD 5; CTD 51; CTD-51; CTD-52; CTD 53; CTD-53; CTD 54; CTD-55; CTD 56; CTD-56; CTD 57; CTD 58; CTD-58; CTD 59; CTD-59; CTD 6; CTD 60; CTD-60; CTD 61; CTD 62; CTD-62; CTD 63; CTD 64; CTD 65; CTD-65; CTD 66; CTD 67; CTD-67; CTD-69; CTD 7; CTD-70; CTD-71; CTD-72; CTD-73; CTD-74; CTD-76; CTD-77; CTD-79; CTD 8; CTD-80; CTD-82; CTD-84; CTD-85; CTD-87; CTD-88; CTD 9; CTD-RO; CTD-UC; Date/Time of event; determined from sea surface chlorophyll a; Diffuse attenuation coefficient at 490 nm; Dubrovnik to Athens, Stations: TARA_025-026; Dudinka to Pevek, Stations: TARA_182-192; Easter Island to Guayaquil, Stations: TARA_098-102; Environmental feature; Event label; Guayaquil to Puerto Ayora, Stations: TARA_103-106; Guayaquil to Totegegie, Stations: TARA_110-113; Honolulu to San Diego, Stations: TARA_131-135; Horta to La Coruna, Stations: TARA_152-154; Ilulissat to Québec, Stations: TARA_208-210; IORVL/MALINA; L Atalante; LATALANTE_20080619T0813Z_001_CAST; LATALANTE_20080621T0016Z_002_CAST; LATALANTE_20080621T0354Z_003_CAST; LATALANTE_20080621T1039Z_004_CAST; LATALANTE_20080621T1941Z_005_CAST; LATALANTE_20080621T2256Z_006_CAST; LATALANTE_20080622T0551Z_007_CAST; LATALANTE_20080622T1347Z_008_CAST; LATALANTE_20080622T1656Z_009_CAST; LATALANTE_20080622T2335Z_010_CAST; LATALANTE_20080623T0753Z_011_CAST; LATALANTE_20080623T1124Z_012_CAST; LATALANTE_20080624T1216Z_016_CAST; LATALANTE_20080624T2317Z_017_CAST; LATALANTE_20080625T0228Z_018_CAST; LATALANTE_20080625T1527Z_019_CAST; LATALANTE_20080625T1643Z_020_CAST; LATALANTE_20080625T1740Z_021_CAST; LATALANTE_20080625T1842Z_022_CAST; 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LATALANTE_20080707T1916Z_216_CAST; LATALANTE_20080707T2042Z_116_CAST; LATALANTE_20080708T0017Z_117_CAST; LATALANTE_20080708T0805Z_118_CAST; LATALANTE_20080708T1559Z_119_CAST; LATALANTE_20080708T1742Z_120_CAST; LATALANTE_20080709T0103Z_121_CAST; LATALANTE_20080709T1056Z_122_CAST; LATALANTE_20080709T1235Z_123_CAST; LATALANTE_20080709T1900Z_124_CAST; LATALANTE_20080710T0826Z_125_CAST; LATALANTE_20080710T1001Z_126_CAST; LATALANTE_20080710T1613Z_127_CAST; LATALANTE_20080711T0218Z_128_CAST; LATALANTE_20080711T1120Z_130_CAST; LATALANTE_20080712T1051Z_131_CAST; LATALANTE_20080712T1209Z_132_CAST; LATALANTE_20080712T1307Z_133_CAST; LATALANTE_20080712T1405Z_134_CAST; LATALANTE_20080712T1530Z_135_CAST; LATALANTE_20080712T1626Z_136_CAST; LATALANTE_20080712T1721Z_137_CAST; LATALANTE_20080712T1840Z_138_CAST; LATALANTE_20080712T1944Z_139_CAST; LATALANTE_20080712T2045Z_140_CAST; LATALANTE_20080712T2208Z_141_CAST;

Type: Dataset

Format: text/tab-separated-values, 6773 data points

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Biomass of large protists from the Infrakingdom Rhizaria in the global ocean (2016)

Biard, Tristan ; Stemmann, Lars ; Picheral, Marc ; [et al.]

PANGAEA

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Publication Date: 2024-02-02

Keywords: [day/night] [water layer with no specific feature]; [day] [integrated]; [day] [mesopelagic zone (ENVO:00000213)]; [day] [surface water layer (ENVO:00002042)]; [day] [surface water layer (ENVO:00002042)] [near; [day] [water layer with no specific feature]; [day] [water layer with no specific feature] [also; [day] [water layer with no specific feature] [near; [day] [water layer with no specific feature] [NOT; [near station 95]; [night] [water layer with no specific feature]; [night] [water layer with no specific feature] [al; [night] [water layer with no specific feature] [ne; [RVSS]; Abu Dhabi to Muscat, Stations: none; Acantharia, biomass as carbon; ANT-XXV/3; Arctic Net 2009 Leg 2; Ascencion to Rio de Janiero, Stations: TARA_072-076; Athens to Beyrouth, Stations: TARA_027-028; Atseranana to Mamoudzou, Stations: TARA_053-054; Bermuda to Horta, Stations: TARA_148-151; Beyrouth to Alexandria, Stations: TARA_029-030; Bizerte to Naples, Stations: TARA_014; BOUM; Buenos Aires to Ushuaia, Stations: TARA_079b-083; Campaign of event; CapeTown to Ascencion, Stations: TARA_067-071; CCGS Amundsen; Collodaria, biomass as carbon; converted to carbon from individual biovolume measurements (Biard et al. 2016); CTD_10; CTD_100; CTD_102; CTD_103; CTD_104; CTD_108; CTD_109; CTD_11; CTD_110; CTD_111; CTD_112; CTD_113; CTD_115; CTD_14; CTD_18; CTD_2; CTD_21; CTD_22; CTD_25; CTD_27; CTD_3; CTD_31; CTD_32; CTD_33; CTD_34; CTD_36; CTD_37; CTD_39; CTD_4; CTD_45; CTD_47; CTD_5; CTD_50; CTD_54; CTD_6; CTD_61; CTD_64; CTD_66; CTD_7; CTD_75; CTD_78; CTD_8; CTD_83; CTD_86; CTD_89; CTD_9; CTD_90; CTD_91; CTD_92; CTD_93; CTD_94; CTD_95; CTD_96; CTD_97; CTD_98; CTD_99; CTD/Rosette; CTD/Rosette, ultra clean; CTD001; CTD002; CTD003; CTD004; CTD005; CTD006; CTD007; CTD008; CTD009; CTD010; CTD011; CTD012; CTD013; CTD014; CTD015; CTD016; CTD017; CTD018; CTD019; CTD020; CTD021; CTD022; CTD023; CTD024; CTD025; CTD026; CTD027; CTD030; CTD032; CTD033; CTD034; CTD051; CTD052; CTD053; CTD054; CTD055; CTD056; CTD057; CTD058; CTD059; CTD060; CTD061; CTD062; CTD063; CTD067; CTD 10; CTD 11; CTD 12; CTD 13; CTD-13; CTD 14; CTD 15; CTD-15; CTD 16; CTD-16; CTD 17; CTD-17; CTD 18; CTD 19; CTD-19; CTD 20; CTD-20; CTD 22; CTD 23; CTD-23; CTD 24; CTD-24; CTD 25; CTD 26; CTD-26; CTD 27; CTD 28; CTD-28; CTD 29; CTD 3; CTD 30; CTD-30; CTD 31; CTD 32; CTD 33; CTD 34; CTD 35; CTD-35; CTD 36; CTD-38; CTD 4; CTD-40; CTD-41; CTD-42; CTD 43; CTD-43; CTD 44; CTD-44; CTD-46; CTD 47; CTD 48; CTD-48; CTD-49; CTD 5; CTD 51; CTD-51; CTD-52; CTD 53; CTD-53; CTD 54; CTD-55; CTD 56; CTD-56; CTD 57; CTD 58; CTD-58; CTD 59; CTD-59; CTD 6; CTD 60; CTD-60; CTD 61; CTD 62; CTD-62; CTD 63; CTD 64; CTD 65; CTD-65; CTD 66; CTD 67; CTD-67; CTD-69; CTD 7; CTD-70; CTD-71; CTD-72; CTD-73; CTD-74; CTD-76; CTD-77; CTD-79; CTD 8; CTD-80; CTD-82; CTD-84; CTD-85; CTD-87; CTD-88; CTD 9; CTD-RO; CTD-UC; Date/Time of event; Depth, bottom/max; Depth, nominal; Depth, top/min; Dubrovnik to Athens, Stations: TARA_025-026; Dudinka to Pevek, Stations: TARA_182-192; Easter Island to Guayaquil, Stations: TARA_098-102; Event label; Guayaquil to Puerto Ayora, Stations: TARA_103-106; Guayaquil to Totegegie, Stations: TARA_110-113; Honolulu to San Diego, Stations: TARA_131-135; Horta to La Coruna, Stations: TARA_152-154; Ilulissat to Québec, Stations: TARA_208-210; IORVL/MALINA; L Atalante; LATALANTE_20080619T0813Z_001_CAST; LATALANTE_20080621T0016Z_002_CAST; LATALANTE_20080621T0354Z_003_CAST; LATALANTE_20080621T1039Z_004_CAST; LATALANTE_20080621T1941Z_005_CAST; LATALANTE_20080621T2256Z_006_CAST; LATALANTE_20080622T0551Z_007_CAST; LATALANTE_20080622T1347Z_008_CAST; LATALANTE_20080622T1656Z_009_CAST; LATALANTE_20080622T2335Z_010_CAST; LATALANTE_20080623T0753Z_011_CAST; LATALANTE_20080623T1124Z_012_CAST; LATALANTE_20080624T1216Z_016_CAST; LATALANTE_20080624T2317Z_017_CAST; LATALANTE_20080625T0228Z_018_CAST; LATALANTE_20080625T1527Z_019_CAST; LATALANTE_20080625T1643Z_020_CAST; LATALANTE_20080625T1740Z_021_CAST; LATALANTE_20080625T1842Z_022_CAST; LATALANTE_20080625T2001Z_023_CAST; LATALANTE_20080625T2107Z_024_CAST; LATALANTE_20080625T2209Z_025_CAST; LATALANTE_20080625T2333Z_026_CAST; LATALANTE_20080626T0031Z_027_CAST; LATALANTE_20080626T0130Z_028_CAST; LATALANTE_20080626T0244Z_029_CAST; LATALANTE_20080626T0339Z_030_CAST; LATALANTE_20080626T0430Z_031_CAST; LATALANTE_20080626T0526Z_032_CAST; LATALANTE_20080626T0629Z_033_CAST; LATALANTE_20080626T0734Z_034_CAST; LATALANTE_20080626T0906Z_035_CAST; LATALANTE_20080626T1003Z_036_CAST; LATALANTE_20080626T1104Z_037_CAST; LATALANTE_20080626T1202Z_038_CAST; LATALANTE_20080626T1310Z_039_CAST; LATALANTE_20080626T2200Z_040_CAST; LATALANTE_20080626T2252Z_041_CAST; LATALANTE_20080627T0025Z_042_CAST; LATALANTE_20080627T0322Z_043_CAST; LATALANTE_20080627T0612Z_044_CAST; LATALANTE_20080627T0941Z_047_CAST; LATALANTE_20080627T1215Z_048_CAST; LATALANTE_20080627T1505Z_049_CAST; LATALANTE_20080627T1804Z_050_CAST; LATALANTE_20080627T2102Z_051_CAST; LATALANTE_20080628T0002Z_052_CAST; LATALANTE_20080628T0304Z_053_CAST; LATALANTE_20080628T0603Z_054_CAST; LATALANTE_20080628T0914Z_055_CAST; LATALANTE_20080628T1210Z_056_CAST; LATALANTE_20080628T1459Z_057_CAST; LATALANTE_20080628T1758Z_058_CAST; LATALANTE_20080628T2053Z_059_CAST; LATALANTE_20080628T2212Z_060_CAST; LATALANTE_20080628T2315Z_061_CAST; LATALANTE_20080629T0031Z_062_CAST; LATALANTE_20080629T0155Z_063_CAST; LATALANTE_20080629T0302Z_064_CAST; LATALANTE_20080629T0604Z_065_CAST; LATALANTE_20080629T0855Z_066_CAST; LATALANTE_20080629T1512Z_068_CAST; LATALANTE_20080629T1802Z_069_CAST; LATALANTE_20080629T2120Z_070_CAST; LATALANTE_20080629T2303Z_071_CAST; LATALANTE_20080703T1125Z_072_CAST; LATALANTE_20080703T1301Z_073_CAST; LATALANTE_20080703T1359Z_074_CAST; LATALANTE_20080703T1459Z_075_CAST; LATALANTE_20080703T1553Z_076_CAST; LATALANTE_20080703T1648Z_077_CAST; LATALANTE_20080703T1739Z_078_CAST; LATALANTE_20080703T1840Z_079_CAST; LATALANTE_20080703T1949Z_080_CAST; LATALANTE_20080703T2057Z_081_CAST; LATALANTE_20080703T2303Z_082_CAST; LATALANTE_20080704T0000Z_083_CAST; LATALANTE_20080704T0120Z_084_CAST; LATALANTE_20080704T0402Z_085_CAST; LATALANTE_20080704T0703Z_088_CAST; LATALANTE_20080704T1305Z_090_CAST; LATALANTE_20080704T1603Z_091_CAST; LATALANTE_20080704T1854Z_092_CAST; LATALANTE_20080704T2210Z_093_CAST; LATALANTE_20080705T0103Z_094_CAST; LATALANTE_20080705T0401Z_095_CAST; LATALANTE_20080705T0701Z_096_CAST; LATALANTE_20080705T1012Z_097_CAST; LATALANTE_20080705T1305Z_098_CAST; LATALANTE_20080705T1645Z_099_CAST; LATALANTE_20080705T1901Z_100_CAST; LATALANTE_20080705T2159Z_101_CAST; LATALANTE_20080705T2315Z_102_CAST; LATALANTE_20080706T0016Z_103_CAST; LATALANTE_20080706T0138Z_104_CAST; LATALANTE_20080706T0400Z_105_CAST; LATALANTE_20080706T0441Z_106_CAST; LATALANTE_20080706T0703Z_107_CAST; LATALANTE_20080706T0830Z_108_CAST; LATALANTE_20080706T1007Z_109_CAST; LATALANTE_20080706T1257Z_110_CAST; LATALANTE_20080706T1602Z_111_CAST; LATALANTE_20080706T1919Z_112_CAST; LATALANTE_20080706T2204Z_113_CAST; LATALANTE_20080706T2341Z_114_CAST; LATALANTE_20080707T1008Z_115_CAST; LATALANTE_20080707T1916Z_216_CAST; LATALANTE_20080707T2042Z_116_CAST; LATALANTE_20080708T0017Z_117_CAST; LATALANTE_20080708T0805Z_118_CAST; LATALANTE_20080708T1559Z_119_CAST; LATALANTE_20080708T1742Z_120_CAST; LATALANTE_20080709T0103Z_121_CAST; LATALANTE_20080709T1056Z_122_CAST; LATALANTE_20080709T1235Z_123_CAST; LATALANTE_20080709T1900Z_124_CAST; LATALANTE_20080710T0826Z_125_CAST; LATALANTE_20080710T1001Z_126_CAST; LATALANTE_20080710T1613Z_127_CAST; LATALANTE_20080711T0218Z_128_CAST; LATALANTE_20080711T1120Z_130_CAST; LATALANTE_20080712T1051Z_131_CAST; LATALANTE_20080712T1209Z_132_CAST; LATALANTE_20080712T1307Z_133_CAST; LATALANTE_20080712T1405Z_134_CAST; LATALANTE_20080712T1530Z_135_CAST; LATALANTE_20080712T1626Z_136_CAST; LATALANTE_20080712T1721Z_137_CAST; LATALANTE_20080712T1840Z_138_CAST; LATALANTE_20080712T1944Z_139_CAST; LATALANTE_20080712T2045Z_140_CAST; LATALANTE_20080712T2208Z_141_CAST;

Type: Dataset

Format: text/tab-separated-values, 24573 data points

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	Location	Call Number	Expected	Availability

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7

Unknown

Abundance of large protists from the Infrakingdom Rhizaria in the global ocean (2016)

Biard, Tristan ; Stemmann, Lars ; Picheral, Marc ; [et al.]

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Details

Publication Date: 2024-02-02

Keywords: [day/night] [deep chlorophyll maximum layer (ENVO:; [day/night] [mesopelagic zone (ENVO:00000213)]; [day/night] [water layer with no specific feature]; [day] [200 m]; [day] [deep chlorophyll maximum layer (ENVO:010003; [day] [epipelagic mixed layer (ENVO:01000061)]; [day] [integrated]; [day] [mesopelagic zone (ENVO:00000213)]; [day] [mesopelagic zone (ENVO:00000213)] [also lab; [day] [surface water layer (ENVO:00002042)]; [day] [surface water layer (ENVO:00002042)] [near; [day] [water layer with no specific feature]; [day] [water layer with no specific feature] [also; [day] [water layer with no specific feature] [Lago; [day] [water layer with no specific feature] [near; [day] [water layer with no specific feature] [NOT; [near station 95]; [night] [deep chlorophyll maximum layer (ENVO:0100; [night] [mesopelagic zone (ENVO:00000213)]; [night] [surface water layer (ENVO:00002042)] [nea; [night] [water layer with no specific feature]; [night] [water layer with no specific feature] [al; [night] [water layer with no specific feature] [ne; [RVSS]; Abu Dhabi to Muscat, Stations: none; Acantharia; ANT-XXV/3; Arctic Net 2009 Leg 2; Ascencion to Rio de Janiero, Stations: TARA_072-076; Athens to Beyrouth, Stations: TARA_027-028; Atseranana to Mamoudzou, Stations: TARA_053-054; Bermuda to Horta, Stations: TARA_148-151; Beyrouth to Alexandria, Stations: TARA_029-030; Bizerte to Naples, Stations: TARA_014; BOUM; Buenos Aires to Ushuaia, Stations: TARA_079b-083; Campaign of event; CapeTown to Ascencion, Stations: TARA_067-071; CCGS Amundsen; Collodaria; CTD_10; CTD_100; CTD_102; CTD_103; CTD_104; CTD_108; CTD_109; CTD_11; CTD_110; CTD_111; CTD_112; CTD_113; CTD_115; CTD_14; CTD_18; CTD_2; CTD_21; CTD_22; CTD_25; CTD_27; CTD_3; CTD_31; CTD_32; CTD_33; CTD_34; CTD_36; CTD_37; CTD_39; CTD_4; CTD_45; CTD_47; CTD_5; CTD_50; CTD_54; CTD_6; CTD_61; CTD_64; CTD_66; CTD_7; CTD_75; CTD_78; CTD_8; CTD_83; CTD_86; CTD_89; CTD_9; CTD_90; CTD_91; CTD_92; CTD_93; CTD_94; CTD_95; CTD_96; CTD_97; CTD_98; CTD_99; CTD/Rosette; CTD/Rosette, ultra clean; CTD001; CTD002; CTD003; CTD004; CTD005; CTD006; CTD007; CTD008; CTD009; CTD010; CTD011; CTD012; CTD013; CTD014; CTD015; CTD016; CTD017; CTD018; CTD019; CTD020; CTD021; CTD022; CTD023; CTD024; CTD025; CTD026; CTD027; CTD030; CTD032; CTD033; CTD034; CTD051; CTD052; CTD053; CTD054; CTD055; CTD056; CTD057; CTD058; CTD059; CTD060; CTD061; CTD062; CTD063; CTD067; CTD 10; CTD 11; CTD 12; CTD 13; CTD-13; CTD 14; CTD 15; CTD-15; CTD 16; CTD-16; CTD 17; CTD-17; CTD 18; CTD 19; CTD-19; CTD 20; CTD-20; CTD 22; CTD 23; CTD-23; CTD 24; CTD-24; CTD 25; CTD 26; CTD-26; CTD 27; CTD 28; CTD-28; CTD 29; CTD 3; CTD 30; CTD-30; CTD 31; CTD 32; CTD 33; CTD 34; CTD 35; CTD-35; CTD 36; CTD-38; CTD 4; CTD-40; CTD-41; CTD-42; CTD 43; CTD-43; CTD 44; CTD-44; CTD-46; CTD 47; CTD 48; CTD-48; CTD-49; CTD 5; CTD 51; CTD-51; CTD-52; CTD 53; CTD-53; CTD 54; CTD-55; CTD 56; CTD-56; CTD 57; CTD 58; CTD-58; CTD 59; CTD-59; CTD 6; CTD 60; CTD-60; CTD 61; CTD 62; CTD-62; CTD 63; CTD 64; CTD 65; CTD-65; CTD 66; CTD 67; CTD-67; CTD-69; CTD 7; CTD-70; CTD-71; CTD-72; CTD-73; CTD-74; CTD-76; CTD-77; CTD-79; CTD 8; CTD-80; CTD-82; CTD-84; CTD-85; CTD-87; CTD-88; CTD 9; CTD-RO; CTD-UC; Date/Time of event; Depth, bottom/max; Depth, top/min; DEPTH, water; Device type; Dubrovnik to Athens, Stations: TARA_025-026; Dudinka to Pevek, Stations: TARA_182-192; Easter Island to Guayaquil, Stations: TARA_098-102; Event label; File name; Guayaquil to Puerto Ayora, Stations: TARA_103-106; Guayaquil to Totegegie, Stations: TARA_110-113; Honolulu to San Diego, Stations: TARA_131-135; Horta to La Coruna, Stations: TARA_152-154; Ilulissat to Québec, Stations: TARA_208-210; IORVL/MALINA; L Atalante; LATALANTE_20080619T0813Z_001_CAST; LATALANTE_20080621T0016Z_002_CAST; LATALANTE_20080621T0354Z_003_CAST; LATALANTE_20080621T1039Z_004_CAST; LATALANTE_20080621T1941Z_005_CAST; LATALANTE_20080621T2256Z_006_CAST; LATALANTE_20080622T0551Z_007_CAST; LATALANTE_20080622T1347Z_008_CAST; LATALANTE_20080622T1656Z_009_CAST; LATALANTE_20080622T2335Z_010_CAST; LATALANTE_20080623T0753Z_011_CAST; LATALANTE_20080623T1124Z_012_CAST; LATALANTE_20080624T1216Z_016_CAST; LATALANTE_20080624T2317Z_017_CAST; LATALANTE_20080625T0228Z_018_CAST; LATALANTE_20080625T1527Z_019_CAST; LATALANTE_20080625T1643Z_020_CAST; LATALANTE_20080625T1740Z_021_CAST; LATALANTE_20080625T1842Z_022_CAST; LATALANTE_20080625T2001Z_023_CAST; LATALANTE_20080625T2107Z_024_CAST; LATALANTE_20080625T2209Z_025_CAST; LATALANTE_20080625T2333Z_026_CAST; LATALANTE_20080626T0031Z_027_CAST; LATALANTE_20080626T0130Z_028_CAST; LATALANTE_20080626T0244Z_029_CAST; LATALANTE_20080626T0339Z_030_CAST; LATALANTE_20080626T0430Z_031_CAST; LATALANTE_20080626T0526Z_032_CAST; LATALANTE_20080626T0629Z_033_CAST; LATALANTE_20080626T0734Z_034_CAST; LATALANTE_20080626T0906Z_035_CAST; LATALANTE_20080626T1003Z_036_CAST; LATALANTE_20080626T1104Z_037_CAST; LATALANTE_20080626T1202Z_038_CAST; LATALANTE_20080626T1310Z_039_CAST; LATALANTE_20080626T2200Z_040_CAST; LATALANTE_20080626T2252Z_041_CAST; LATALANTE_20080627T0025Z_042_CAST; LATALANTE_20080627T0322Z_043_CAST; LATALANTE_20080627T0612Z_044_CAST; LATALANTE_20080627T0941Z_047_CAST; LATALANTE_20080627T1215Z_048_CAST; LATALANTE_20080627T1505Z_049_CAST; LATALANTE_20080627T1804Z_050_CAST; LATALANTE_20080627T2102Z_051_CAST; LATALANTE_20080628T0002Z_052_CAST; LATALANTE_20080628T0304Z_053_CAST; LATALANTE_20080628T0603Z_054_CAST; LATALANTE_20080628T0914Z_055_CAST; LATALANTE_20080628T1210Z_056_CAST; LATALANTE_20080628T1459Z_057_CAST; LATALANTE_20080628T1758Z_058_CAST; LATALANTE_20080628T2053Z_059_CAST; LATALANTE_20080628T2212Z_060_CAST; LATALANTE_20080628T2315Z_061_CAST; LATALANTE_20080629T0031Z_062_CAST; LATALANTE_20080629T0155Z_063_CAST; LATALANTE_20080629T0302Z_064_CAST; LATALANTE_20080629T0604Z_065_CAST; LATALANTE_20080629T0855Z_066_CAST; LATALANTE_20080629T1512Z_068_CAST; LATALANTE_20080629T1802Z_069_CAST; LATALANTE_20080629T2120Z_070_CAST; LATALANTE_20080629T2303Z_071_CAST; LATALANTE_20080703T1125Z_072_CAST; LATALANTE_20080703T1301Z_073_CAST; LATALANTE_20080703T1359Z_074_CAST; LATALANTE_20080703T1459Z_075_CAST; LATALANTE_20080703T1553Z_076_CAST; LATALANTE_20080703T1648Z_077_CAST; LATALANTE_20080703T1739Z_078_CAST; LATALANTE_20080703T1840Z_079_CAST; LATALANTE_20080703T1949Z_080_CAST; LATALANTE_20080703T2057Z_081_CAST; LATALANTE_20080703T2303Z_082_CAST; LATALANTE_20080704T0000Z_083_CAST; LATALANTE_20080704T0120Z_084_CAST; LATALANTE_20080704T0402Z_085_CAST; LATALANTE_20080704T0703Z_088_CAST; LATALANTE_20080704T1305Z_090_CAST; LATALANTE_20080704T1603Z_091_CAST; LATALANTE_20080704T1854Z_092_CAST; LATALANTE_20080704T2210Z_093_CAST; LATALANTE_20080705T0103Z_094_CAST; LATALANTE_20080705T0401Z_095_CAST; LATALANTE_20080705T0701Z_096_CAST; LATALANTE_20080705T1012Z_097_CAST; LATALANTE_20080705T1305Z_098_CAST; LATALANTE_20080705T1645Z_099_CAST; LATALANTE_20080705T1901Z_100_CAST; LATALANTE_20080705T2159Z_101_CAST; LATALANTE_20080705T2315Z_102_CAST; LATALANTE_20080706T0016Z_103_CAST; LATALANTE_20080706T0138Z_104_CAST; LATALANTE_20080706T0400Z_105_CAST; LATALANTE_20080706T0441Z_106_CAST; LATALANTE_20080706T0703Z_107_CAST; LATALANTE_20080706T0830Z_108_CAST; LATALANTE_20080706T1007Z_109_CAST; LATALANTE_20080706T1257Z_110_CAST; LATALANTE_20080706T1602Z_111_CAST; LATALANTE_20080706T1919Z_112_CAST; LATALANTE_20080706T2204Z_113_CAST; LATALANTE_20080706T2341Z_114_CAST; LATALANTE_20080707T1008Z_115_CAST; LATALANTE_20080707T1916Z_216_CAST; LATALANTE_20080707T2042Z_116_CAST; LATALANTE_20080708T0017Z_117_CAST; LATALANTE_20080708T0805Z_118_CAST; LATALANTE_20080708T1559Z_119_CAST; LATALANTE_20080708T1742Z_120_CAST; LATALANTE_20080709T0103Z_121_CAST; LATALANTE_20080709T1056Z_122_CAST; LATALANTE_20080709T1235Z_123_CAST; LATALANTE_20080709T1900Z_124_CAST; LATALANTE_20080710T0826Z_125_CAST; LATALANTE_20080710T1001Z_126_CAST; LATALANTE_20080710T1613Z_127_CAST; LATALANTE_20080711T0218Z_128_CAST; LATALANTE_20080711T1120Z_130_CAST; LATALANTE_20080712T1051Z_131_CAST;

Type: Dataset

Format: text/tab-separated-values, 1145392 data points

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	Location	Call Number	Expected	Availability

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