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  • 11
    facet.materialart.
    Unknown
    Oxygen concentration in the seawater measured with with an optode (Aanderaa optode 4835) during the Tara Pacific Expedition 2016-2018 (2022)
    PANGAEA
    Details
    Publication Date: 2024-01-06
    Description: The Tara Pacific expedition (2016-2018) sampled coral ecosystems around 32 islands in the Pacific Ocean, and sampled the surface of oceanic waters at 249 locations, resulting in the collection of nearly 58,000 samples. The expedition was designed to systematically study corals, fish, plankton, and seawater, and included the collection of samples for advanced biogeochemical, molecular, and imaging analysis. Here we provide the continuous dataset originating from optode (Aanderaa optode 4835) instruments acquiring continuously during the full course of the campaign. Surface seawater was pumped continuously through a hull inlet located 1.5 m under the waterline using a membrane pump (10 LPM; Shurflo), circulated through a vortex debubbler, a flow meter, and distributed to a number of flow-through instruments. The optode (Aanderaa optode 4835) measured the Oxygen concentration in the seawater.
    Keywords: DATE/TIME; Fondation Tara Expeditions; FondTara; LATITUDE; LONGITUDE; Oxygen; Oxygen optode, Aanderaa, type 4835; Oxygen saturation; Pacific Ocean; SV Tara; TARA_2016-2018; Tara_Pacific; TARA_PACIFIC_2016-2018; Tara Pacific Expedition; UMS; Underway, multiple sensors
    Type: Dataset
    Format: text/tab-separated-values, 563274 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 12
    facet.materialart.
    Unknown
    Particles Volume scattering, backscattering, POC, phytoplankton carbon, using backscattering sensor [BB3] (WETLabs ECO-BB3) during the Tara Pacific Expedition 2016-2018 (2022)
    PANGAEA
    Details
    Publication Date: 2024-01-06
    Description: The Tara Pacific expedition (2016-2018) sampled coral ecosystems around 32 islands in the Pacific Ocean, and sampled the surface of oceanic waters at 249 locations, resulting in the collection of nearly 58,000 samples. The expedition was designed to systematically study corals, fish, plankton, and seawater, and included the collection of samples for advanced biogeochemical, molecular, and imaging analysis. Here we provide the continuous dataset originating from backscattering sensor [BB3] (WETLabs ECO-BB3) instruments acquiring continuously during the full course of the campaign. Surface seawater was pumped continuously through a hull inlet located 1.5 m under the waterline using a membrane pump (10 LPM; Shurflo), circulated through a vortex debubbler, a flow meter, and distributed to a number of flow-through instruments. The backscattering sensor [BB3] (WETLabs ECO-BB3) was added to the underway system to measure the volume scattering function [VSF] at 124° and 3 wavelengths (470, 532, 650 nm). The flow was automatically directed through a 0.2 µm filter for 10 minutes every hour before being circulated through the [BB3] allowing the calculation of particulate backscattering [bbp] by removing the signal due to dissolved matter, drift, and biofouling (Slade et al. 2010, doi:10.1175/2010JTECHO755.1). The particulate organic carbon concentration [poc] was estimated by applying an empirical relation between measured [poc] and [bbp] (Cetinić et al. 2012, doi:10.1175/2010JTECHO755.1). Phytoplankton organic carbon [cphyto] was estimated by an empirical relationship with [bbp] (Graff et al. 2015, doi:10.1016/j.dsr.2015.04.006).
    Keywords: According to Cetinić et al. (2012); According to Graff et al. (2015); Backscatter; Backscattering coefficient of particles, 470 nm; Backscattering coefficient of particles, 532 nm; Backscattering coefficient of particles, 650 nm; Carbon, organic, particulate; CTD, Sea-Bird; measured with Thermosalinograph (TSG) sensor; DATE/TIME; Fondation Tara Expeditions; FondTara; LATITUDE; LONGITUDE; Number; Pacific Ocean; Phytoplankton, biomass as carbon; phytoplankton carbon; POC; Salinity; Spectral backscattering sensor (WET Labs, Eco-bb3); SV Tara; TARA_2016-2018; Tara_Pacific; TARA_PACIFIC_2016-2018; Tara Pacific Expedition; Temperature, water; UMS; Underway, multiple sensors; Volume scattering function at 124°, 470 nm; Volume scattering function at 124°, 470 nm, standard deviation; Volume scattering function at 124°, 532 nm; Volume scattering function at 124°, 532 nm, standard deviation; Volume scattering function at 124°, 650 nm; Volume scattering function at 124°, 650 nm, standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 6020692 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 13
    facet.materialart.
    Unknown
    CTD dataset collected during the Tara Pacific Expedition 2016-2018 using a castaway CTD (2022)
    PANGAEA
    Details
    Publication Date: 2024-01-06
    Description: The Tara Pacific expedition (2016-2018) sampled coral ecosystems around 32 islands in the Pacific Ocean, and sampled the surface of oceanic waters at 249 locations, resulting in the collection of nearly 58,000 samples. The expedition was designed to systematically study corals, fish, plankton, and seawater, and included the collection of samples for advanced biogeochemical, molecular, and imaging analysis. Here we provide the dataset obtained with a small CTD probe (Castaway CTD) deployed from the dinghy down to the reef (generally ~5 to 10m) to record temperature and conductivity profiles.
    Keywords: Conductance; Conductivity; Conductivity, electrical; CTD, SonTek, CastAway-CTD; CTD-CAST; DATE/TIME; Density, sigma-theta (0); DEPTH, water; Event label; File name; Fondation Tara Expeditions; FondTara; HANDHELD-CTD; LATITUDE; LONGITUDE; OA000-I01-S02; OA000-I01-S03; OA000-I02-S01; OA000-I02-S02; OA000-I02-S03; OA000-I04-S01; OA000-I04-S04; OA000-I05-S00; OA000-I05-S02; OA000-I05-S03; OA000-I06-S01; OA000-I06-S02; OA000-I06-S03; OA000-I07-S01; OA000-I07-S02; OA000-I07-S03; OA000-I08-S01; OA000-I08-S02; OA000-I08-S03; OA000-I09-S01; OA000-I09-S02; OA000-I09-S03; OA000-I10-S01; OA000-I10-S02; OA000-I10-S03; OA000-I11-S01; OA000-I12-S02; OA000-I13-S01; OA000-I13-S03; OA000-I14-S02; OA000-I14-S03; OA000-I15-S01; OA000-I15-S02; OA000-I15-S03; OA000-I16-S01; OA000-I16-S02; OA000-I16-S03; OA000-I19-S01; OA000-I19-S02; OA000-I19-S03; OA000-I19-S04; OA000-I20-S01; OA000-I20-S02; OA000-I20-S03; OA000-I21-S01; OA000-I21-S02; OA000-I21-S03; OA000-I22-S01; OA000-I22-S02; OA000-I22-S03; OA000-I23-S01; OA000-I23-S02; OA000-I23-S03; OA000-I23-S11; OA000-I23-S12; OA000-I23-S13; OA000-I23-S14; OA000-I23-S15; OA000-I23-S16; OA000-I23-S21; OA000-I23-S22; OA000-I23-S23; OA000-I23-S24; OA000-I23-S25; OA000-I23-S26; OA000-I23-S31; OA000-I23-S32; OA000-I23-S33; OA000-I23-S34; OA000-I23-S35; OA000-I23-S36; OA000-I24-S01; OA000-I24-S02; OA000-I24-S03; OA000-I24-S04; OA000-I25-S01; OA000-I25-S02; OA000-I25-S03; OA000-I25-S04; OA000-I26-S01; OA000-I26-S02; OA000-I26-S03; OA000-I27-S01; OA000-I27-S02; OA000-I28-S01; OA000-I28-S02; OA000-I28-S03; OA000-I29-S01; OA000-I29-S03; OA000-I30-S01; OA000-I31-S01; OA000-I31-S02; OA000-I31-S03; OA000-I32-S01; OA000-I32-S02; OA000-I32-S03; OA000-I32-S04; OA000-TS2-FA1; OA000-TS2-FA3; OA000-TS2-HI1; OA000-TS2-HI2; OA000-TS2-KA1; OA000-TS2-KA2; OA000-TS2-KA3; OA000-TS2-MA1; OA000-TS2-MA2; OA000-TS2-MA3; OA000-TS2-MT1; OA000-TS2-MT2; OA000-TS2-MT3; OA000-TS2-MT4; OA000-TS2-TA1; OA000-TS2-TA2; OA000-TS2-TA3; OA050-I05-S00; OA054-I06-S00; Pacific; Pressure; Salinity; Sample code/label; Sample comment; Sample ID; Sound velocity in water; SV Tara; TARA_20160718T1511Z_D_S-WATER_HANDHELD-CTD; TARA_20160720T2159Z_D_S-WATER_HANDHELD-CTD; TARA_20160721T1532Z_D_S-WATER_HANDHELD-CTD; TARA_20160723T1301Z_D_S-WATER_HANDHELD-CTD; TARA_20160725T1455Z_D_S-WATER_HANDHELD-CTD; TARA_20160903T1525Z_D_S-WATER_HANDHELD-CTD; TARA_20160907T1436Z_D_S-WATER_HANDHELD-CTD; TARA_20160914T2212Z_D_S-WATER_HANDHELD-CTD; TARA_20160915T0136Z_D_I-WATER_HANDHELD-CTD; TARA_20160915T1538Z_D_S-WATER_HANDHELD-CTD; TARA_20160918T0058Z_D_I-WATER_HANDHELD-CTD; TARA_20160921T0808Z_N_I-WATER_HANDHELD-CTD; TARA_20160922T0045Z_D_S-WATER_HANDHELD-CTD; TARA_20160923T1734Z_D_S-WATER_HANDHELD-CTD; TARA_20160925T0031Z_D_S-WATER_HANDHELD-CTD; TARA_20161010T0110Z_D_S-WATER_HANDHELD-CTD; TARA_20161011T0049Z_D_S-WATER_HANDHELD-CTD; TARA_20161011T1733Z_D_S-WATER_HANDHELD-CTD; TARA_20161011T1742Z_D_S-WATER_HANDHELD-CTD; TARA_20161011T2340Z_D_S-WATER_HANDHELD-CTD; TARA_20161012T1906Z_D_S-WATER_HANDHELD-CTD; TARA_20161013T1736Z_D_S-WATER_HANDHELD-CTD; TARA_20161013T2325Z_D_S-WATER_HANDHELD-CTD; TARA_20161014T1820Z_D_S-WATER_HANDHELD-CTD; TARA_20161015T0028Z_D_S-WATER_HANDHELD-CTD; TARA_20161015T1742Z_D_S-WATER_HANDHELD-CTD; TARA_20161016T0038Z_D_S-WATER_HANDHELD-CTD; TARA_20161016T1737Z_D_S-WATER_HANDHELD-CTD; TARA_20161017T0032Z_D_S-WATER_HANDHELD-CTD; TARA_20161017T1725Z_D_S-WATER_HANDHELD-CTD; TARA_20161018T0021Z_D_S-WATER_HANDHELD-CTD; TARA_20161018T1717Z_D_S-WATER_HANDHELD-CTD; TARA_20161018T2354Z_D_S-WATER_HANDHELD-CTD; TARA_20161108T1758Z_D_S-WATER_HANDHELD-CTD; TARA_20161109T0112Z_D_S-WATER_HANDHELD-CTD; TARA_20161109T0321Z_D_S-WATER_HANDHELD-CTD; TARA_20161113T1725Z_D_S-WATER_HANDHELD-CTD; TARA_20161115T1842Z_D_S-WATER_HANDHELD-CTD; TARA_20161116T1728Z_D_S-WATER_HANDHELD-CTD; TARA_20161122T1949Z_D_S-WATER_HANDHELD-CTD; TARA_20161123T1910Z_D_S-WATER_HANDHELD-CTD; TARA_20161124T1939Z_D_S-WATER_HANDHELD-CTD; TARA_20161130T2307Z_D_S-WATER_HANDHELD-CTD; TARA_20161201T1827Z_D_S-WATER_HANDHELD-CTD; TARA_20161202T1816Z_D_S-WATER_HANDHELD-CTD; TARA_20161220T2118Z_D_S-WATER_HANDHELD-CTD; TARA_20170101T0322Z_D_S-WATER_HANDHELD-CTD; TARA_20170108T0342Z_D_S-WATER_HANDHELD-CTD; TARA_20170109T2144Z_D_S-WATER_HANDHELD-CTD; TARA_20170109T2346Z_D_S-WATER_HANDHELD-CTD; TARA_20170121T2050Z_D_S-WATER_HANDHELD-CTD; TARA_20170121T2054Z_D_S-WATER_HANDHELD-CTD; TARA_20170122T0003Z_D_S-WATER_HANDHELD-CTD; TARA_20170122T2205Z_D_S-WATER_HANDHELD-CTD; TARA_20170129T0045Z_D_S-WATER_HANDHELD-CTD; TARA_20170129T2129Z_D_S-WATER_HANDHELD-CTD; TARA_20170130T2141Z_D_S-WATER_HANDHELD-CTD; TARA_20170130T2308Z_D_S-WATER_HANDHELD-CTD; TARA_20170130T2310Z_D_S-WATER_HANDHELD-CTD; TARA_20170209T2253Z_D_S-WATER_HANDHELD-CTD; TARA_20170210T0129Z_D_S-WATER_HANDHELD-CTD; TARA_20170210T2240Z_D_S-WATER_HANDHELD-CTD; TARA_20170211T2310Z_D_S-WATER_HANDHELD-CTD; TARA_20170211T2312Z_D_S-WATER_HANDHELD-CTD; TARA_20170830T0440Z_D_S-WATER_HANDHELD-CTD; TARA_20170830T0442Z_D_S-WATER_HANDHELD-CTD; TARA_20170830T2145Z_D_S-WATER_HANDHELD-CTD; TARA_20170901T2258Z_D_S-WATER_HANDHELD-CTD; TARA_20170901T2300Z_D_S-WATER_HANDHELD-CTD; TARA_20170903T0018Z_D_S-WATER_HANDHELD-CTD; TARA_20170903T2159Z_D_S-WATER_HANDHELD-CTD; TARA_20170903T2203Z_D_S-WATER_HANDHELD-CTD; TARA_20170910T2220Z_D_S-WATER_HANDHELD-CTD; TARA_20170910T2221Z_D_S-WATER_HANDHELD-CTD; TARA_20170911T2104Z_D_S-WATER_HANDHELD-CTD; TARA_20170911T2105Z_D_S-WATER_HANDHELD-CTD; TARA_20170913T0427Z_D_S-WATER_HANDHELD-CTD; TARA_20170913T0429Z_D_S-WATER_HANDHELD-CTD; TARA_20170925T0301Z_D_S-WATER_HANDHELD-CTD; TARA_20170925T2327Z_D_S-WATER_HANDHELD-CTD; TARA_20170927T0140Z_D_S-WATER_HANDHELD-CTD; TARA_20171021T0515Z_D_S-WATER_HANDHELD-CTD; TARA_20171022T2223Z_D_S-WATER_HANDHELD-CTD; TARA_20171023T0647Z_D_S-WATER_HANDHELD-CTD; TARA_20171025T2048Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0413Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0415Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0416Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0418Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0420Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0421Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0424Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0426Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0428Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0429Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0430Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0431Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0433Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0434Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0435Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0437Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0438Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0440Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0443Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0448Z_D_S-WATER_HANDHELD-CTD; TARA_20171102T0452Z_D_S-WATER_HANDHELD-CTD; TARA_20171103T2226Z_D_S-WATER_HANDHELD-CTD; TARA_20171105T2330Z_D_S-WATER_HANDHELD-CTD; TARA_20171106T0449Z_D_S-WATER_HANDHELD-CTD; TARA_20171109T2124Z_D_S-WATER_HANDHELD-CTD; TARA_20171112T2231Z_D_S-WATER_HANDHELD-CTD; TARA_20171117T2250Z_D_S-WATER_HANDHELD-CTD; TARA_20171118T0144Z_D_S-WATER_HANDHELD-CTD; TARA_20171119T2231Z_D_S-WATER_HANDHELD-CTD; TARA_20171120T0051Z_D_S-WATER_HANDHELD-CTD; TARA_20171202T0121Z_D_S-WATER_HANDHELD-CTD; TARA_20171222T0506Z_D_S-WATER_HANDHELD-CTD; TARA_20171222T0507Z_D_S-WATER_HANDHELD-CTD; TARA_20171223T2350Z_D_S-WATER_HANDHELD-CTD; TARA_20171225T2307Z_D_S-WATER_HANDHELD-CTD; TARA_20171226T2259Z_D_S-WATER_HANDHELD-CTD; TARA_20171228T0532Z_D_S-WATER_HANDHELD-CTD; TARA_20180105T2345Z_D_S-WATER_HANDHELD-CTD; TARA_20180106T0636Z_D_S-WATER_HANDHELD-CTD; TARA_20180106T2343Z_D_S-WATER_HANDHELD-CTD; TARA_20180107T2357Z_D_S-WATER_HANDHELD-CTD; TARA_20180316T0219Z_D_S-WATER_HANDHELD-CTD; TARA_20180316T2306Z_D_S-WATER_HANDHELD-CTD; TARA_20180321T0803Z_D_S-WATER_HANDHELD-CTD; TARA_20180322T0056Z_D_S-WATER_HANDHELD-CTD; TARA_20180323T0654Z_D_S-WATER_HANDHELD-CTD; TARA_20180324T0304Z_D_S-WATER_HANDHELD-CTD; TARA_20180324T0313Z_D_S-WATER_HANDHELD-CTD; TARA_20180614T1849Z_D_S-WATER_HANDHELD-CTD;
    Type: Dataset
    Format: text/tab-separated-values, 63887 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 14
    facet.materialart.
    Unknown
    Navigation and meteorological data collected during the Tara Pacific Expedition 2016-2018 (2022)
    PANGAEA
    Details
    Publication Date: 2024-01-06
    Description: The Tara Pacific expedition (2016-2018) sampled coral ecosystems around 32 islands in the Pacific Ocean, and sampled the surface of oceanic waters at 249 locations, resulting in the collection of nearly 58,000 samples. The expedition was designed to systematically study corals, fish, plankton, and seawater, and included the collection of samples for advanced biogeochemical, molecular, and imaging analysis. Here we provide the continuous dataset originating from navigation and meteorological instruments acquiring continuously during the full course of the campaign.
    Keywords: Course; DATE/TIME; Humidity, relative; LATITUDE; LONGITUDE; meteorological data; Navigation; Navigation and meteorological acquiring during the full course of the campaign; Pacific Ocean; position; Pressure, atmospheric; Solar azimuth angle; Solar zenith angle; Speed; SV Tara; TARA_2016-2018; Tara_Pacific; TARA_PACIFIC_2016-2018; Tara Pacific Expedition; Temperature, air; Temperature, water; UMS; Underway, multiple sensors; Validation flag/comment; Wind apparent direction, reference angle, bow; Wind apparent direction, reference angle, north; Wind apparent speed; Wind direction, true; Wind speed, true
    Type: Dataset
    Format: text/tab-separated-values, 10873547 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 15
    facet.materialart.
    Unknown
    Aerosol concentration and size distribution (25-685nm) measured with a scanning mobility particle sizer [SMPS] during the Tara Pacific Expedition 2016-2018 (2022)
    PANGAEA
    Details
    Publication Date: 2024-01-06
    Description: The Tara Pacific expedition (2016-2018) sampled coral ecosystems around 32 islands in the Pacific Ocean, and sampled the surface of oceanic waters at 249 locations, resulting in the collection of nearly 58,000 samples. The expedition was designed to systematically study corals, fish, plankton, and seawater, and included the collection of samples for advanced biogeochemical, molecular, and imaging analysis. Here we provide the continuous dataset originating from scanning mobility particle sizer ([SMPS], SMPS-C GRIMM Aerosol Technik Ainring GmbH & Co. KG, Ainring, Germany) instruments acquiring continuously during the full course of the campaign. Aerosols pumped through one of the ([MAST-PUMP]) inlets were channeled through a conductive tubing of 1.9 cm inner diameter to four parallel 47mm filter holders installed in the rear hold using a vacuum pump (Diaphragm pumpME16 NT, VACUUBRAND BmbH & Co KG, Wertheim, Germany) at a minimum flow rate of 30 lpm (20lpm prior to may 2016). Air was conducted to a scanning mobility particle sizer ([SMPS], SMPS-C GRIMM Aerosol Technik Ainring GmbH & Co. KG, Ainring, Germany) measuring particles in the size range 0.025 – 0.70 µm. The SMPS was set to perform a full scan of particle distribution every 5 min. Data from [SMPS] are averaged at the 30 minute scale and provided both at the scale of particle concentration (nb cm-3) together with its normalized size distribution (dN/dlogDp (nb cm-3) i.e., the concentration divided by the log of the width of the bin).
    Keywords: aerosols; DATE/TIME; Fondation Tara Expeditions; FondTara; LATITUDE; Log-normal particle size distribution, normalized concentration at particle diameter 101.82 nm; Log-normal particle size distribution, normalized concentration at particle diameter 101.82 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 105.54 nm; Log-normal particle size distribution, normalized concentration at particle diameter 105.54 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 109.41 nm; Log-normal particle size distribution, normalized concentration at particle diameter 109.41 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 113.42 nm; Log-normal particle size distribution, normalized concentration at particle diameter 113.42 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 117.57 nm; Log-normal particle size distribution, normalized concentration at particle diameter 117.57 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 121.88 nm; Log-normal particle size distribution, normalized concentration at particle diameter 121.88 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 126.35 nm; Log-normal particle size distribution, normalized concentration at particle diameter 126.35 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 130.97 nm; Log-normal particle size distribution, normalized concentration at particle diameter 130.97 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 135.77 nm; Log-normal particle size distribution, normalized concentration at particle diameter 135.77 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 140.75 nm; Log-normal particle size distribution, normalized concentration at particle diameter 140.75 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 145.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 145.9 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 151.25 nm; Log-normal particle size distribution, normalized concentration at particle diameter 151.25 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 156.79 nm; Log-normal particle size distribution, normalized concentration at particle diameter 156.79 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 162.53 nm; Log-normal particle size distribution, normalized concentration at particle diameter 162.53 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 168.49 nm; Log-normal particle size distribution, normalized concentration at particle diameter 168.49 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 174.66 nm; Log-normal particle size distribution, normalized concentration at particle diameter 174.66 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 181.06 nm; Log-normal particle size distribution, normalized concentration at particle diameter 181.06 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 187.69 nm; Log-normal particle size distribution, normalized concentration at particle diameter 187.69 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 194.56 nm; Log-normal particle size distribution, normalized concentration at particle diameter 194.56 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 201.69 nm; Log-normal particle size distribution, normalized concentration at particle diameter 201.69 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 209.08 nm; Log-normal particle size distribution, normalized concentration at particle diameter 209.08 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 216.74 nm; Log-normal particle size distribution, normalized concentration at particle diameter 216.74 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 224.68 nm; Log-normal particle size distribution, normalized concentration at particle diameter 224.68 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 232.91 nm; Log-normal particle size distribution, normalized concentration at particle diameter 232.91 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 241.44 nm; Log-normal particle size distribution, normalized concentration at particle diameter 241.44 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 25.03 nm; Log-normal particle size distribution, normalized concentration at particle diameter 25.03 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 25.95 nm; Log-normal particle size distribution, normalized concentration at particle diameter 25.95 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 250.29 nm; Log-normal particle size distribution, normalized concentration at particle diameter 250.29 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 259.46 nm; Log-normal particle size distribution, normalized concentration at particle diameter 259.46 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 26.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 26.9 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 268.96 nm; Log-normal particle size distribution, normalized concentration at particle diameter 268.96 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 27.88 nm; Log-normal particle size distribution, normalized concentration at particle diameter 27.88 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 278.81 nm; Log-normal particle size distribution, normalized concentration at particle diameter 278.81 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 28.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 28.9 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 289.03 nm; Log-normal particle size distribution, normalized concentration at particle diameter 289.03 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 29.96 nm; Log-normal particle size distribution, normalized concentration at particle diameter 29.96 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 299.61 nm; Log-normal particle size distribution, normalized concentration at particle diameter 299.61 nm, standard deviation; Log-normal particle size distribution, normalized concentration at particle diameter 31.06 nm; Log-
    Type: Dataset
    Format: text/tab-separated-values, 2410457 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 16
    facet.materialart.
    Unknown
    Sampling events from the Tara Pacific Expedition 2016-2018 (2022)
    PANGAEA
    Details
    Publication Date: 2024-04-20
    Description: The Tara Pacific expedition (2016-2018) sampled coral ecosystems around 32 islands in the Pacific Ocean, and sampled the surface of oceanic waters at 249 locations, resulting in the collection of nearly 58,000 samples. The expedition was designed to systematically study corals, fish, plankton, and seawater, and included the collection of samples for advanced biogeochemical, molecular, and imaging analysis. Here we provide the dataset obtained with a small CTD probe (Castaway CTD) deployed from the dinghy down to the reef (generally ~5 to 10m) to record temperature and conductivity profiles.
    Keywords: Binary Object; BOAT-PIPE; Conductivity; DATE/TIME; Device type; Distance; DOLPHIN-CARBOY; DOLPHIN-CARTRIDGE-300; DOLPHIN-DECKNET-20; DOLPHIN-UBAT; Event label; EXP; Experiment; Fondation Tara Expeditions; FondTara; HANDHELD-BOW-POLE; HANDHELD-BUCKET; HANDHELD-CTD; HANDHELD-MICROTOPS; HANDHELD-NISKIN; HANDHELD-SIMBADA; HSN-NET-20; HSN-NET-300; INLINE-PUMP; INSITU-UBAT; LATITUDE; LONGITUDE; MANTA-NET-300; MAST-PUMP; OA000-I00-S00; OA000-I01-S01; OA000-I01-S02; OA000-I01-S03; OA000-I02-S01; OA000-I02-S02; OA000-I02-S03; OA000-I03-S00; OA000-I03-S01; OA000-I03-S02; OA000-I04-S00; OA000-I04-S01; OA000-I04-S02; OA000-I04-S03; OA000-I04-S04; OA000-I05-S00; OA000-I05-S01; OA000-I05-S02; OA000-I05-S03; OA000-I05-S04; OA000-I06-S01; OA000-I06-S02; OA000-I06-S03; OA000-I06-S04; OA000-I07-S00; OA000-I07-S01; OA000-I07-S02; OA000-I07-S03; OA000-I07-S04; OA000-I08-S00; OA000-I08-S01; OA000-I08-S02; OA000-I08-S03; OA000-I09-S00; OA000-I09-S01; OA000-I09-S02; OA000-I09-S03; OA000-I10-S00; OA000-I10-S01; OA000-I10-S02; OA000-I10-S03; OA000-I10-S04; OA000-I10-S05; OA000-I11-S00; OA000-I11-S01; OA000-I11-S02; OA000-I11-S03; OA000-I12-S00; OA000-I12-S01; OA000-I12-S02; OA000-I12-S03; OA000-I12-S04; OA000-I13-S00; OA000-I13-S01; OA000-I13-S02; OA000-I13-S03; OA000-I13-S04; OA000-I14-S00; OA000-I14-S01; OA000-I14-S02; OA000-I14-S03; OA000-I15-S00; OA000-I15-S01; OA000-I15-S02; OA000-I15-S03; OA000-I16-S00; OA000-I16-S01; OA000-I16-S02; OA000-I16-S03; OA000-I17-S01; OA000-I17-S02; OA000-I17-S03; OA000-I18-S00; OA000-I18-S01; OA000-I18-S02; OA000-I18-S03; OA000-I19-S00; OA000-I19-S01; OA000-I19-S02; OA000-I19-S03; OA000-I19-S04; OA000-I20-S00; OA000-I20-S01; OA000-I20-S02; OA000-I20-S03; OA000-I21-S00; OA000-I21-S01; OA000-I21-S02; OA000-I21-S03; OA000-I22-S00; OA000-I22-S01; OA000-I22-S02; OA000-I22-S03; OA000-I23-S00; OA000-I23-S01; OA000-I23-S02; OA000-I23-S03; OA000-I23-S11; OA000-I23-S12; OA000-I23-S13; OA000-I23-S14; OA000-I23-S15; OA000-I23-S16; OA000-I23-S21; OA000-I23-S22; OA000-I23-S23; OA000-I23-S24; OA000-I23-S25; OA000-I23-S26; OA000-I23-S31; OA000-I23-S32; OA000-I23-S33; OA000-I23-S34; OA000-I23-S35; OA000-I23-S36; OA000-I24-S00; OA000-I24-S01; OA000-I24-S02; OA000-I24-S03; OA000-I24-S04; OA000-I25-S00; OA000-I25-S01; OA000-I25-S02; OA000-I25-S03; OA000-I25-S04; OA000-I25-S05; OA000-I26-S00; OA000-I26-S01; OA000-I26-S02; OA000-I26-S03; OA000-I26-S04; OA000-I27-S00; OA000-I27-S01; OA000-I27-S02; OA000-I28-S00; OA000-I28-S01; OA000-I28-S02; OA000-I28-S03; OA000-I29-S00; OA000-I29-S01; OA000-I29-S02; OA000-I29-S03; OA000-I30-S00; OA000-I30-S01; OA000-I30-S02; OA000-I30-S03; OA000-I30-S04; OA000-I31-S00; OA000-I31-S01; OA000-I31-S02; OA000-I31-S03; OA000-I31-S04; OA000-I32-S00; OA000-I32-S01; OA000-I32-S02; OA000-I32-S03; OA000-I32-S04; OA000-I32-S05; OA000-TS2-FA1; OA000-TS2-FA2; OA000-TS2-FA3; OA000-TS2-HI1; OA000-TS2-HI2; OA000-TS2-KA1; OA000-TS2-KA2; OA000-TS2-KA3; OA000-TS2-MA1; OA000-TS2-MA2; OA000-TS2-MA3; OA000-TS2-MT1; OA000-TS2-MT2; OA000-TS2-MT3; OA000-TS2-MT4; OA000-TS2-S11; OA000-TS2-S12; OA000-TS2-S21; OA000-TS2-S22; OA000-TS2-S23; OA000-TS2-S24; OA000-TS2-S31; OA000-TS2-S33; OA000-TS2-S41; OA000-TS2-S42; OA000-TS2-S43; OA000-TS2-S51; OA000-TS2-S52; OA000-TS2-S53; OA000-TS2-S54; OA000-TS2-S61; OA000-TS2-S62; OA000-TS2-TA1; OA000-TS2-TA2; OA000-TS2-TA3; OA000-TS3-S99; OA000-TS4-S00; OA000-TS4-S03; OA000-TS4-S12; OA000-TS4-S15; OA000-TS4-S17; OA000-TS4-S18; OA000-TS4-S20; OA000-TS5-S00; OA000-TS5-S11; OA000-TS5-S12; OA000-TS5-S21; OA000-TS5-S22; OA000-TS5-S31; OA000-TS5-S41; OA000-TS5-S51; OA000-TS6-S00; OA000-TS6-S11; OA000-TS6-S12; OA000-TS6-S21; OA000-TS6-S22; OA000-TS7-P01; OA000-TS7-P02; OA000-TS7-P03; OA000-TS7-P04; OA000-TS7-P05; OA000-TS7-P06; OA000-TS7-P07; OA000-TS7-P08; OA000-TS7-P09; OA000-TS7-S00; OA000-TS9-S00; OA000-TS9-S1A; OA000-TS9-S1C; OA000-TS9-S2A; OA000-TS9-S2C; OA000-TS9-S3C; OA000-TS9-S99; OA001-I00-S00; OA002-I00-S00; OA003-I00-S00; OA004-I00-S00; OA005-I00-S00; OA006-I00-S00; OA007-I00-S00; OA008-I00-S00; OA009-I00-S00; OA010-I00-S00; OA011-I00-S00; OA012-I00-S00; OA013-I00-S00; OA014-I00-S00; OA015-I00-S00; OA016-I00-S00; OA017-I00-S00; OA018-I00-S00; OA019-I00-S00; OA020-I00-S00; OA021-I00-S00; OA022-I00-S00; OA023-I00-S00; OA024-I00-S00; OA025-I00-S00; OA026-I00-S00; OA027-I00-S00; OA028-I00-S00; OA029-I03-S00; OA030-I03-S00; OA031-I00-S00; OA032-I00-S00; OA033-I00-S00; OA034-I00-S00; OA035-I00-S00; OA036-I00-S00; OA037-I00-S00; OA038-I00-S00; OA039-I00-S00; OA040-I00-S00; OA041-I04-S00; OA042-I04-S00; OA043-I04-S00; OA044-I04-S00; OA045-I00-S00; OA046-I00-S00; OA047-I00-S00; OA048-I05-S00; OA048-I05-S01; OA049-I05-S00; OA050-I05-S00; OA051-I00-S00; OA052-I00-S00; OA053-I06-S00; OA054-I06-S00; OA055-I06-S00; OA056-I00-S00; OA057-I00-S00; OA058-I00-S00; OA059-I07-S00; OA060-I07-S00; OA061-I07-S00; OA062-I00-S00; OA063-I08-S00; OA063-I08-S01; OA064-I08-S00; OA065-I00-S00; OA066-I09-S00; OA067-I09-S00; OA068-I10-S00; OA069-I10-S00; OA070-I10-S00; OA071-I10-S00; OA072-I11-S00; OA073-I11-S00; OA074-I11-S00; OA075-I12-S00; OA076-I12-S00; OA076-I12-S01; OA077-I12-S00; OA078-I00-S00; OA079-I00-S00; OA080-I13-S00; OA081-I13-S00; OA082-I13-S00; OA083-I13-S00; OA084-I00-S00; OA085-I00-S00; OA086-I00-S00; OA087-I00-S00; OA088-I00-S00; OA089-I14-S00; OA090-I14-S00; OA091-I14-S00; OA092-I15-S00; OA093-I15-S00; OA094-I00-S00; OA095-I00-S00; OA095-I16-S00; OA096-I00-S00; OA097-I00-S00; OA098-I00-S00; OA099-I00-S00; OA100-I00-S00; OA101-I00-S00; OA102-I00-S00; OA103-I00-S00; OA104-I00-S00; OA105-I00-S00; OA106-I00-S00; OA107-I00-S00; OA108-I00-S00; OA109-I00-S00; OA110-I00-S00; OA111-I00-S00; OA112-I00-S00; OA113-I00-S00; OA114-I00-S00; OA115-I00-S00; OA116-I00-S00; OA117-I00-S00; OA118-I00-S00; OA119-I00-S00; OA120-I00-S00; OA121-I00-S00; OA122-I00-S00; OA123-I00-S00; OA124-I00-S00; OA125-I00-S00; OA126-I00-S00; OA127-I18-S00; OA128-I18-S00; OA129-I18-S00; OA130-I18-S00; OA131-I00-S00; OA132-I00-S00; OA133-I00-S00; OA134-I00-S00; OA135-I00-S00; OA136-I00-S00; OA137-I00-S00; OA138-I00-S00; OA139-I00-S00; OA140-I19-S00; OA141-I19-S00; OA142-I19-S00; OA143-I19-S00; OA144-I00-S00; OA145-I00-S00; OA145-I20-S00; OA146-I20-S00; OA147-I00-S00; OA148-I21-S00; OA149-I21-S00; OA150-I00-S00; OA151-I00-S00; OA152-I00-S00; OA153-I00-S00; OA154-I00-S00; OA155-I22-S00; OA156-I23-S00; OA157-I23-S00; OA158-I23-S00; OA159-I23-S00; OA160-I24-S00; OA161-I24-S00; OA162-I24-S00; OA163-I00-S00; OA164-I00-S00; OA165-I00-S00; OA166-I25-S00; OA167-I26-S00; OA168-I26-S00; OA169-I00-S00; OA170-I27-S00; OA171-I27-S00; OA172-I28-S00; OA173-I00-S00; OA174-I00-S00; OA175-I00-S00; OA176-I00-S00; OA177-I00-S00; OA178-I00-S00; OA179-I00-S00; OA180-I00-S00; OA181-I00-S00; OA182-I00-S00; OA183-I00-S00; OA184-I00-S00; OA185-I00-S00; OA186-I00-S00; OA187-I00-S00; OA188-I00-S00; OA189-I00-S00; OA190-I29-S00; OA191-I29-S00; OA192-I00-S00; OA193-I00-S00; OA194-I00-S00; OA195-I00-S00; OA196-I00-S00; OA197-I00-S00; OA198-I00-S00; OA199-I00-S00; OA200-I00-S00; OA201-I00-S00; OA202-I00-S00; OA203-I00-S00; OA204-I00-S00; OA205-I00-S00; OA206-I00-S00; OA207-I00-S00; OA208-I00-S00; OA209-I00-S00; OA210-I00-S00; OA211-I00-S00; OA212-I00-S00; OA213-I00-S00; OA214-I00-S00; OA216-I30-S00; OA217-I00-S00; OA218-I00-S00; OA220-I31-S00; OA221-I31-S00; OA222-I00-S00; OA223-I00-S00; OA224-I00-S00; OA225-I00-S00; OA226-I00-S00; OA227-I00-S00; OA228-I00-S00; OA229-I00-S00; OA230-I32-S00; OA232-I32-S00; OA233-I00-S00; OA234-I00-S00; OA235-I00-S00; OA236-I00-S00; OA237-I00-S00; OA238-I00-S00; OA239-I00-S00; OA240-I00-S00; OA241-I00-S00; OA242-I00-S00; OA243-I00-S00; OA244-I00-S00; OA245-I00-S00; OA246-I00-S00; OA247-I00-S00; OA249-I00-S00; Pacific; Reference/source; Salinity; Sample code/label; Sample comment; Sampling date; SCUBA-3X10; SCUBA-CORER; SCUBA-NET-20; SCUBA-PUMP; SCUBA-SURVEY; SNORKLE-SPEAR; Speed; stanopump-UBAT; SV Tara; TARA_20160528T1915Z_ND_O-ATM_MAST-PUMP; TARA_20160529T0725Z_D_O-SRF_HSN-NET-300; TARA_20160529T1513Z_D_O-SRF_DOLPHIN-CARBOY; TARA_20160529T1543Z_D_O-SRF_DOLPHIN-
    Type: Dataset
    Format: text/tab-separated-values, 75470 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 17
    facet.materialart.
    Unknown
    Seawater carbonate chemistry and skeletal isotopic composition and calcifying fuid composition in co-occurring Porites and Diploastrea specimens across the Pacifc ocean (2024)
    PANGAEA
    Details
    Publication Date: 2024-05-07
    Description: The Tara Pacifc expedition (2016–2018) provided an opportunity to investigate calcifcation patterns in extant corals throughout thePacifc Ocean. Cores from colonies of the massive Porites and Diploastrea genera were collected fromdiferent environments to assess calcifcation parameters of long-lived reef-building corals. In this study, we compared the calcifcation and carbonate chemistryup-regulation of Diploastrea heliopora and Porites corals from across a range of environments. To this, we analyzed the skeletal geochemistry and growth parameters of 39 colonies of Porites (n=33) and Diploastrea (n=6) collected across the tropical Pacifc Ocean during the Tara Pacifc expedition (2016–2018). Te collected corals represent a suite of cores exposed to various hydrological conditions of seawater temperature (SST: 22.4–29.8 °C), salinity (SSS: 31.5–36.1), and carbonate chemistry (total scale pHsw: 8.01–8.09). Te average chemical composition of the calcifying fuid (pHcf, [CO32−]cf, DICcf, Ωcf) was derived from paired boron isotope (δ11B) and B/Ca analyses of core-top samples corresponding to the last 6 years of growth (2010–2016). Based on these data, we assessed the impact of the ambient seawater properties (SST, salinity, carbonate chemistry) on the cf composition of these slow-growing reef-building genera at the Pacifc basin scale.
    Keywords: Abaiang_Kiribati; Acid-base regulation; Aitutaki_Cook_New_Zeland; Alkalinity, total; Anakena_Isla_de_Pascua_Chile; Animalia; Aragonite saturation state; Benthic animals; Benthos; Bicarbonate ion; Biomass/Abundance/Elemental composition; Boron/Calcium ratio; Calcification/Dissolution; Calcification rate; Calcifying fluid, aragonite saturation state; Calcifying fluid, carbonate ion; Calcifying fluid, dissolved inorganic carbon; Calcifying fluid, pH; Calcite saturation state; Calculated using CO2SYS; Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Clipperton_France; Cnidaria; Coast and continental shelf; Coiba_Panama; CSR_11_Wallis_France; Date/Time of event; Density; DEPTH, water; Diploastrea heliopora; E_Vangunu_Salomon; Event label; Field observation; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Green_Island_Taiwan; Growth/Morphology; Guam_USA; Helen_Reef_Palau_1; Helen_Reef_Palau_2; Heron_S_GBR_Australia; Identification; Kimbe_Hoskins_District_PNG; Koror_Palau; LATITUDE; Linear extension; Location; LONGITUDE; Losuia_Tabungora_Island_PNG; Moorea_French_Polynesia_1; Moorea_French_Polynesia_2; Motu_Taka_Rua_Isla_de_Pascua_Chile; N_Hoskins_District_PNG; North_Palau; North Pacific; Noumea_Lagoon_New_Caledonia; NW_Fiji; OA-ICC; Ocean Acidification International Coordination Centre; Ogasawara_Japan; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); pH; Pisinun_Chuuk_Micronesia; Porites sp.; Potentiometric titration; S_Niue_New_Zeland; Salinity; Sample ID; Secas_islands_Panama; Sesoko_Okinawa_Japan; Single species; South Pacific; Species; SW_Cockatoo_Reef_GBR_Australia; Tekava_Gambier_French_Polynesia; Temperate; Temperature, water; Tropical; Type of study; Upolu_Samoa; W_Niue_New_Zeland; δ11B
    Type: Dataset
    Format: text/tab-separated-values, 1532 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
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