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  • 1
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    Copernicus Marine Service Ocean State Report, Issue 3 (2019)
    In:  EPIC3Journal of Operational Oceanography, 12(sup1), pp. S1-S123, ISSN: 1755-876X
    Details
    Publication Date: 2020-07-08
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , isiRev
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    PAPER (OA)
  • 2
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    Package seacarb (2009)
    PANGAEA
    In:  EPIC3Laboratoire d Océanographie de Villefranche (LOV) France., Bremerhaven, PANGAEA
    Details
    Publication Date: 2019-07-17
    Repository Name: EPIC Alfred Wegener Institut
    Type: PANGAEA Documentation , notRev
    Format: application/pdf
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    PAPER (OA)
  • 3
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    Global compilation of chlorophyll fluorescence profiles from several data bases, and from published and unpublished individual sources (2015)
    PANGAEA
    In:  Supplement to: Sauzède, Raphaëlle; Lavigne, Héloïse; Claustre, Hervé; Uitz, Julia; Schmechtig, Catherine; D'Ortenzio, Fabrizio; Guinet, Christophe; Pesant, Stephane (2015): Vertical distribution of chlorophyll a concentration and phytoplankton community composition from in situ fluorescence profiles: a first database for the global ocean. Earth System Science Data, 7(2), 261-273, https://doi.org/10.5194/essd-7-261-2015
    Details
    Publication Date: 2023-02-24
    Description: The present data set includes 268,127 vertical in situ fluorescence profiles obtained from several available online databases and from published and unpublished individual sources. Metadata about each profiles are given in the file provided here in further details. The majority of profiles comes from the National Oceanographic Data Center (NODC) and the fluorescence profiles acquired by Bio-Argo floats available on the Oceanographic Autonomous Observations (OAO) platform (63.7% and 12.5% respectively). Different modes of acquisition were used to collect the data presented in this study: (1) CTD profiles are acquired using a fluorometer mounted on a CTD-rosette; (2) OSD (Ocean Station Data) profiles are derived from water samples and are defined as low resolution profiles; (3) the UOR (Undulating Oceanographic Recorder) profiles are acquired by a 〈fish〉 equipped with a fluorometer and towed by a research vessel; (4) PA profiles are acquired by autonomous platforms (here profiling floats or elephant seals equipped with a fluorometer). Data acquired from gliders are not included in the compilation.
    Keywords: Bio-Argo; French Bio-Argo project (funded by CNES-TOSCA); RemOcean; Remotely Sensed Biogeochemical Cycles in the Ocean
    Type: Dataset
    Format: application/zip, 639.3 MBytes
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    DATA PANGAEA
  • 4
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    Global data product of chlorophyll a concentration and phytoplankton community composition (microphytoplankton, nanophytoplankton and picophytoplankton) computed from in situ fluorescence profiles (2015)
    PANGAEA
    In:  Supplement to: Sauzède, Raphaëlle; Lavigne, Héloïse; Claustre, Hervé; Uitz, Julia; Schmechtig, Catherine; D'Ortenzio, Fabrizio; Guinet, Christophe; Pesant, Stephane (2015): Vertical distribution of chlorophyll a concentration and phytoplankton community composition from in situ fluorescence profiles: a first database for the global ocean. Earth System Science Data, 7(2), 261-273, https://doi.org/10.5194/essd-7-261-2015
    Details
    Publication Date: 2023-02-24
    Description: In vivo chlorophyll a fluorescence, a proxy of chlorophyll a concentration, is one of the most frequently measured biogeochemical property in the ocean. Thousands of profiles are available from historical databases and the integration of fluorescence sensors to autonomous platforms led to a significant increase of chlorophyll fluorescence profiles acquisition. To date, benefits of such numerous data available have not yet been included in global analysis. A total of 268,184 raw chlorophyll fluorescence profiles were collected and subjected to a 10-steps quality control procedure (see supplementary literature publication). The present data product was generated from the remaining 48,600 chlorophyll fluorescence profiles. These were inter-calibrated, converted to total chlorophyll a concentration and phytoplankton community composition (i.e. microphytoplankton, nanophytoplankton and picophytoplankton) using the FLAVOR method (see further details). The data span a time period of 1958-2015, with observations from all oceanic basins and all seasons, and with depths ranging from the surface to a median sampling maximum depth of around 700m. The present data product was obtained by modelling phytoplankton biomass and composition from in situ fluorescence profiles and therefore, individual profiles should NOT BE USED as discrete observations. The correct use of the present data product is to investigate regional or temporal trends, for example to improve the open ocean climatologies of chlorophyll a concentration. This data product is intended as a living data set, with the expectation to retrieve and model additional in situ chlorophyll fluorescence profiles, especially from autonomous acquisition platforms.
    Keywords: Bio-Argo; French Bio-Argo project (funded by CNES-TOSCA); RemOcean; Remotely Sensed Biogeochemical Cycles in the Ocean
    Type: Dataset
    Format: application/zip, 397 MBytes
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  • 5
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    The HYPERMAQ dataset (2022)
    PANGAEA
    Details
    Publication Date: 2023-06-24
    Description: The HYPERMAQ dataset contributes to a better description of marine optics in optically complex water bodies by providing optical and biogeochemical parameters for 180 sampling stations with turbidity and chlorophyll-a concentration ranging between 1 to 700 FNU and between 0.9 to 180 mg m-3 respectively. The HYPERMAQ dataset is composed of biogeochemical parameters (i.e. turbidity, suspended particulate matter, chlorophyll-a and other phytoplankton pigments concentrations), apparent optical properties (i.e. water reflectance from above water measurements) and inherent optical properties (i.e. absorption and attenuation coefficients) from six different study areas. These study areas include large estuaries (i.e. the Rio de la Plata in Argentina, the Yangtze Estuary in China and the Gironde Estuary in France), inland waters (i.e. the Spuikom in Belgium and Chascomus Lake in Argentina) and coastal waters (Belgium). All data were collected between April and September 2018.
    Keywords: chlorophyll-a concentration; HYPERMAQ; Hyperspectral and multi-mission high resolution optical remote sensing of aquatic environments; inherent optical properties; LifeWatch_BE; LifeWatch BE; optically complex waters; radiometry; Suspended particulate matter; turbidity; water reflectance
    Type: Dataset
    Format: application/zip, 11 datasets
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  • 6
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    Water reflectance standard deviation from six different study areas (in Argentina, China, France and Belgium) measured with TRiOS (2022)
    PANGAEA
    Details
    Publication Date: 2023-08-07
    Keywords: BELGIUM_WATERS_APRIL2018; BELGIUM_WATERS_APRIL2018_ST130; BELGIUM_WATERS_APRIL2018_ST215; BELGIUM_WATERS_APRIL2018_ST230; BELGIUM_WATERS_APRIL2018_ST330; BELGIUM_WATERS_APRIL2018_ST700; BELGIUM_WATERS_APRIL2018_ST710; BELGIUM_WATERS_APRIL2018_ST780; BELGIUM_WATERS_APRIL2018_W07BIS; BELGIUM_WATERS_JULY2018; BELGIUM_WATERS_JULY2018_LW_120; BELGIUM_WATERS_JULY2018_LW_130; BELGIUM_WATERS_JULY2018_LW_215; BELGIUM_WATERS_JULY2018_LW_230; BELGIUM_WATERS_JULY2018_LW_330; BELGIUM_WATERS_JULY2018_LW_700; BELGIUM_WATERS_JULY2018_LW_710; BELGIUM_WATERS_JULY2018_LW_780; BELGIUM_WATERS_JULY2018_LW_Harbour; BELGIUM_WATERS_JULY2018_LW_ZG02; Campaign; CHASCOMUS; CHASCOMUS_C01; CHASCOMUS_C02; CHASCOMUS_C03; CHASCOMUS_C04; CHASCOMUS_C05; chlorophyll-a concentration; DATE/TIME; DEPTH, water; Event label; HYP_0001; HYP_0002; HYP_0003; HYP_0004; HYP_0005; HYP_0006; HYP_0007; HYP_0008; HYP_0010; HYP_0011; HYP_0012; HYP_0013; HYP_0014; HYP_0015; HYP_0016; HYP_0017; HYP_0018; HYP_0019; HYP_0020; HYP_0021; HYP_0022; HYP_0023; HYP_0024; HYP_0081; HYP_0082; HYP_0083; HYP_0084; HYP_0085; HYP_0086; HYP_0087; HYP_0088; HYP_0089; HYP_0090; HYP_0091; HYP_0094; HYP_0095; HYP_0096; HYP_0097; HYP_0098; HYP_0099; HYP_0100; HYP_0101; HYP_0102; HYP_0103; HYP_0104; HYP_0105; HYP_0106; HYP_0107; HYP_0108; HYP_0109; HYP_0110; HYP_0111; HYP_0112; HYP_0113; HYP_0114; HYP_0115; HYP_0117; HYP_0118; HYP_0119; HYP_0120; HYP_0121; HYP_0122; HYP_0123; HYP_0124; HYP_0125; HYP_0126; HYP_0127; HYP_0128; HYP_0129; HYP_0130; HYP_0131; HYP_0132; HYP_0133; HYP_0134; HYP_0135; HYP_0136; HYP_0137; HYP_0138; HYP_0139; HYP_0140; HYP_0141; HYP_0142; HYP_0143; HYP_0144; HYP_0145; HYP_0146; HYP_0153; HYP_0155; HYP_0157; HYP_0158; HYP_0159; HYP_0160; HYP_0161; HYP_0162; HYP_0163; HYP_0164; HYP_0165; HYP_0166; HYP_0167; HYP_0168; HYP_0169; HYP_0170; HYP_0171; HYP_0172; HYP_0173; HYP_0174; HYP_0175; HYP_0176; HYP_0177; HYP_0178; HYP_0179; HYPERMAQ; Hyperspectral and multi-mission high resolution optical remote sensing of aquatic environments; Identification; inherent optical properties; LATITUDE; LE_VERDON; LE_VERDON_GG14; LE_VERDON_GG15; LE_VERDON_GG16; LE_VERDON_GG17; LE_VERDON_GG18; LE_VERDON_GG19; LE_VERDON_GG20; LE_VERDON_GG21; LE_VERDON_GG22; LE_VERDON_GG23; LE_VERDON_GG24; LE_VERDON_GG41; LE_VERDON_GG42; LE_VERDON_GG43; LE_VERDON_GG44; LE_VERDON_GG45; LE_VERDON_GG46; LE_VERDON_GG47; LE_VERDON_GG48; LE_VERDON_GG49; LE_VERDON_GG50; LE_VERDON_GG51; LifeWatch_BE; LifeWatch BE; LONGITUDE; MULT; Multiple investigations; optically complex waters; PAUILLAC; PAUILLAC_GG01; PAUILLAC_GG02; PAUILLAC_GG03; PAUILLAC_GG04; PAUILLAC_GG05; PAUILLAC_GG06; PAUILLAC_GG07; PAUILLAC_GG08; PAUILLAC_GG09; PAUILLAC_GG10; PAUILLAC_GG11; PAUILLAC_GG25; PAUILLAC_GG26; PAUILLAC_GG27; PAUILLAC_GG28; PAUILLAC_GG29; PAUILLAC_GG30; PAUILLAC_GG31; PAUILLAC_GG32; PAUILLAC_GG33; PAUILLAC_GG34; PAUILLAC_GG35; PAUILLAC_GG36; PAUILLAC_GG37; PAUILLAC_GG38; Radiometer, TriOS; radiometry; RIO_DE_LA_PLATA; RIO_DE_LA_PLATA_P01; RIO_DE_LA_PLATA_P02; RIO_DE_LA_PLATA_P03; RIO_DE_LA_PLATA_P04; RIO_DE_LA_PLATA_P05; RIO_DE_LA_PLATA_P06; RIO_DE_LA_PLATA_P07; RIO_DE_LA_PLATA_P08; RIO_DE_LA_PLATA_P09; RIO_DE_LA_PLATA_P10; RIO_DE_LA_PLATA_P11; RIO_DE_LA_PLATA_P12; RIO_DE_LA_PLATA_P13; RIO_DE_LA_PLATA_P14; RIO_DE_LA_PLATA_P15; RIO_DE_LA_PLATA_P16; Rubber boat; Sampling on land; Simon Stevin; SPUIKOM_APRIL2018; SPUIKOM_APRIL2018_SP38; SPUIKOM_APRIL2018_SP39b; SPUIKOM_APRIL2018_SP40b; SPUIKOM_APRIL2018_SP41; SPUIKOM_APRIL2018_SP42; SPUIKOM_APRIL2018_SP43; SPUIKOM_APRIL2018_SP44; SPUIKOM_JULY2018; SPUIKOM_JULY2018_SP50; SPUIKOM_JULY2018_SP51; SPUIKOM_JULY2018_SP52; SPUIKOM_JULY2018_SP53; SPUIKOM_JULY2018_SP54; SPUIKOM_JULY2018_SP55; SPUIKOM_JULY2018_SP56; SPUIKOM_JULY2018_SP57; SPUIKOM_JULY2018_SP58; SPUIKOM_JULY2018_SP59; SPUIKOM_JULY2018_SP60; SPUIKOM_JULY2018_SP62; SPUIKOM_JULY2018_SP63; SPUIKOM_JULY2018_SP64; SPUIKOM_JULY2018_SP65; SPUIKOM_JULY2018_SP66; SPUIKOM_JULY2018_SP67; SPUIKOM_JULY2018_SP68; Station label; Suspended particulate matter; turbidity; water reflectance; Water reflectance at 350 nm, standard deviation; Water reflectance at 352.5 nm, standard deviation; Water reflectance at 355 nm, standard deviation; Water reflectance at 357.5 nm, standard deviation; Water reflectance at 360 nm, standard deviation; Water reflectance at 362.5 nm, standard deviation; Water reflectance at 365 nm, standard deviation; Water reflectance at 367.5 nm, standard deviation; Water reflectance at 370 nm, standard deviation; Water reflectance at 372.5 nm, standard deviation; Water reflectance at 375 nm, standard deviation; Water reflectance at 377.5 nm, standard deviation; Water reflectance at 380 nm, standard deviation; Water reflectance at 382.5 nm, standard deviation; Water reflectance at 385 nm, standard deviation; Water reflectance at 387.5 nm, standard deviation; Water reflectance at 390 nm, standard deviation; Water reflectance at 392.5 nm, standard deviation; Water reflectance at 395 nm, standard deviation; Water reflectance at 397.5 nm, standard deviation; Water reflectance at 400 nm, standard deviation; Water reflectance at 402.5 nm, standard deviation; Water reflectance at 405 nm, standard deviation; Water reflectance at 407.5 nm, standard deviation; Water reflectance at 410 nm, standard deviation; Water reflectance at 412.5 nm, standard deviation; Water reflectance at 415 nm, standard deviation; Water reflectance at 417.5 nm, standard deviation; Water reflectance at 420 nm, standard deviation; Water reflectance at 422.5 nm, standard deviation; Water reflectance at 425 nm, standard deviation; Water reflectance at 427.5 nm, standard deviation; Water reflectance at 430 nm, standard deviation; Water reflectance at 432.5 nm, standard deviation; Water reflectance at 435 nm, standard deviation; Water reflectance at 437.5 nm, standard deviation; Water reflectance at 440 nm, standard deviation; Water reflectance at 442.5 nm, standard deviation; Water reflectance at 445 nm, standard deviation; Water reflectance at 447.5 nm, standard deviation; Water reflectance at 450 nm, standard deviation; Water reflectance at 452.5 nm, standard deviation; Water reflectance at 455 nm, standard deviation; Water reflectance at 457.5 nm, standard deviation; Water reflectance at 460 nm, standard deviation; Water reflectance at 462.5 nm, standard deviation; Water reflectance at 465 nm, standard deviation; Water reflectance at 467.5 nm, standard deviation; Water reflectance at 470 nm, standard deviation; Water reflectance at 472.5 nm, standard deviation; Water reflectance at 475 nm, standard deviation; Water reflectance at 477.5 nm, standard deviation; Water reflectance at 480 nm, standard deviation; Water reflectance at 482.5 nm, standard deviation; Water reflectance at 485 nm, standard deviation; Water reflectance at 487.5 nm, standard deviation; Water reflectance at 490 nm, standard deviation; Water reflectance at 492.5 nm, standard deviation; Water reflectance at 495 nm, standard deviation; Water reflectance at 497.5 nm, standard deviation; Water reflectance at 500 nm, standard deviation; Water reflectance at 502.5 nm, standard deviation; Water reflectance at 505 nm, standard deviation; Water reflectance at 507.5 nm, standard deviation; Water reflectance at 510 nm, standard deviation; Water reflectance at 512.5 nm, standard deviation; Water reflectance at 515 nm, standard deviation; Water reflectance at 517.5 nm, standard deviation; Water reflectance at 520 nm, standard deviation; Water reflectance at 522.5 nm, standard deviation; Water reflectance at 525 nm, standard deviation; Water reflectance at 527.5 nm, standard deviation; Water reflectance at 530 nm, standard deviation; Water reflectance at 532.5 nm, standard deviation; Water reflectance at 535 nm, standard deviation; Water reflectance at 537.5 nm, standard deviation; Water reflectance at 540 nm, standard deviation; Water reflectance at 542.5 nm, standard deviation; Water reflectance at 545 nm, standard deviation; Water
    Type: Dataset
    Format: text/tab-separated-values, 20223 data points
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  • 7
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    Spectral downwelling irradiance from six different study areas (in Argentina, China, France and Belgium) measured with TRiOS (2022)
    PANGAEA
    Details
    Publication Date: 2023-08-07
    Keywords: BELGIUM_WATERS_APRIL2018; BELGIUM_WATERS_APRIL2018_ST130; BELGIUM_WATERS_APRIL2018_ST215; BELGIUM_WATERS_APRIL2018_ST230; BELGIUM_WATERS_APRIL2018_ST330; BELGIUM_WATERS_APRIL2018_ST700; BELGIUM_WATERS_APRIL2018_ST710; BELGIUM_WATERS_APRIL2018_ST780; BELGIUM_WATERS_APRIL2018_W07BIS; BELGIUM_WATERS_JULY2018; BELGIUM_WATERS_JULY2018_LW_120; BELGIUM_WATERS_JULY2018_LW_130; BELGIUM_WATERS_JULY2018_LW_215; BELGIUM_WATERS_JULY2018_LW_230; BELGIUM_WATERS_JULY2018_LW_330; BELGIUM_WATERS_JULY2018_LW_700; BELGIUM_WATERS_JULY2018_LW_710; BELGIUM_WATERS_JULY2018_LW_780; BELGIUM_WATERS_JULY2018_LW_Harbour; BELGIUM_WATERS_JULY2018_LW_ZG02; Campaign; CHASCOMUS; CHASCOMUS_C01; CHASCOMUS_C02; CHASCOMUS_C03; CHASCOMUS_C04; CHASCOMUS_C05; chlorophyll-a concentration; DATE/TIME; Event label; HYP_0001; HYP_0002; HYP_0003; HYP_0004; HYP_0005; HYP_0006; HYP_0007; HYP_0008; HYP_0010; HYP_0011; HYP_0012; HYP_0013; HYP_0014; HYP_0015; HYP_0016; HYP_0017; HYP_0018; HYP_0019; HYP_0020; HYP_0021; HYP_0022; HYP_0023; HYP_0024; HYP_0081; HYP_0082; HYP_0083; HYP_0084; HYP_0085; HYP_0086; HYP_0087; HYP_0088; HYP_0089; HYP_0090; HYP_0091; HYP_0094; HYP_0095; HYP_0096; HYP_0097; HYP_0098; HYP_0099; HYP_0100; HYP_0101; HYP_0102; HYP_0103; HYP_0104; HYP_0105; HYP_0106; HYP_0107; HYP_0108; HYP_0109; HYP_0110; HYP_0111; HYP_0112; HYP_0113; HYP_0114; HYP_0115; HYP_0117; HYP_0118; HYP_0119; HYP_0120; HYP_0121; HYP_0122; HYP_0123; HYP_0124; HYP_0125; HYP_0126; HYP_0127; HYP_0128; HYP_0129; HYP_0130; HYP_0131; HYP_0132; HYP_0133; HYP_0134; HYP_0135; HYP_0136; HYP_0137; HYP_0138; HYP_0139; HYP_0140; HYP_0141; HYP_0142; HYP_0143; HYP_0144; HYP_0145; HYP_0146; HYP_0153; HYP_0155; HYP_0157; HYP_0158; HYP_0159; HYP_0160; HYP_0161; HYP_0162; HYP_0163; HYP_0164; HYP_0165; HYP_0166; HYP_0167; HYP_0168; HYP_0169; HYP_0170; HYP_0171; HYP_0172; HYP_0173; HYP_0174; HYP_0175; HYP_0176; HYP_0177; HYP_0178; HYP_0179; HYPERMAQ; Hyperspectral and multi-mission high resolution optical remote sensing of aquatic environments; Identification; inherent optical properties; LATITUDE; LE_VERDON; LE_VERDON_GG14; LE_VERDON_GG15; LE_VERDON_GG16; LE_VERDON_GG17; LE_VERDON_GG18; LE_VERDON_GG19; LE_VERDON_GG20; LE_VERDON_GG21; LE_VERDON_GG22; LE_VERDON_GG23; LE_VERDON_GG24; LE_VERDON_GG41; LE_VERDON_GG42; LE_VERDON_GG43; LE_VERDON_GG44; LE_VERDON_GG45; LE_VERDON_GG46; LE_VERDON_GG47; LE_VERDON_GG48; LE_VERDON_GG49; LE_VERDON_GG50; LE_VERDON_GG51; LifeWatch_BE; LifeWatch BE; LONGITUDE; MULT; Multiple investigations; optically complex waters; PAUILLAC; PAUILLAC_GG01; PAUILLAC_GG02; PAUILLAC_GG03; PAUILLAC_GG04; PAUILLAC_GG05; PAUILLAC_GG06; PAUILLAC_GG07; PAUILLAC_GG08; PAUILLAC_GG09; PAUILLAC_GG10; PAUILLAC_GG11; PAUILLAC_GG25; PAUILLAC_GG26; PAUILLAC_GG27; PAUILLAC_GG28; PAUILLAC_GG29; PAUILLAC_GG30; PAUILLAC_GG31; PAUILLAC_GG32; PAUILLAC_GG33; PAUILLAC_GG34; PAUILLAC_GG35; PAUILLAC_GG36; PAUILLAC_GG37; PAUILLAC_GG38; Radiometer, TriOS; radiometry; RIO_DE_LA_PLATA; RIO_DE_LA_PLATA_P01; RIO_DE_LA_PLATA_P02; RIO_DE_LA_PLATA_P03; RIO_DE_LA_PLATA_P04; RIO_DE_LA_PLATA_P05; RIO_DE_LA_PLATA_P06; RIO_DE_LA_PLATA_P07; RIO_DE_LA_PLATA_P08; RIO_DE_LA_PLATA_P09; RIO_DE_LA_PLATA_P10; RIO_DE_LA_PLATA_P11; RIO_DE_LA_PLATA_P12; RIO_DE_LA_PLATA_P13; RIO_DE_LA_PLATA_P14; RIO_DE_LA_PLATA_P15; RIO_DE_LA_PLATA_P16; Rubber boat; Sampling on land; Simon Stevin; Spectral irradiance, downward at 350 nm; Spectral irradiance, downward at 352.5 nm; Spectral irradiance, downward at 355 nm; Spectral irradiance, downward at 357.5 nm; Spectral irradiance, downward at 360 nm; Spectral irradiance, downward at 362.5 nm; Spectral irradiance, downward at 365 nm; Spectral irradiance, downward at 367.5 nm; Spectral irradiance, downward at 370 nm; Spectral irradiance, downward at 372.5 nm; Spectral irradiance, downward at 375 nm; Spectral irradiance, downward at 377.5 nm; Spectral irradiance, downward at 380 nm; Spectral irradiance, downward at 382.5 nm; Spectral irradiance, downward at 385 nm; Spectral irradiance, downward at 387.5 nm; Spectral irradiance, downward at 390 nm; Spectral irradiance, downward at 392.5 nm; Spectral irradiance, downward at 395 nm; Spectral irradiance, downward at 397.5 nm; Spectral irradiance, downward at 400 nm; Spectral irradiance, downward at 402.5 nm; Spectral irradiance, downward at 405 nm; Spectral irradiance, downward at 407.5 nm; Spectral irradiance, downward at 410 nm; Spectral irradiance, downward at 412.5 nm; Spectral irradiance, downward at 415 nm; Spectral irradiance, downward at 417.5 nm; Spectral irradiance, downward at 420 nm; Spectral irradiance, downward at 422.5 nm; Spectral irradiance, downward at 425 nm; Spectral irradiance, downward at 427.5 nm; Spectral irradiance, downward at 430 nm; Spectral irradiance, downward at 432.5 nm; Spectral irradiance, downward at 435 nm; Spectral irradiance, downward at 437.5 nm; Spectral irradiance, downward at 440 nm; Spectral irradiance, downward at 442.5 nm; Spectral irradiance, downward at 445 nm; Spectral irradiance, downward at 447.5 nm; Spectral irradiance, downward at 450 nm; Spectral irradiance, downward at 452.5 nm; Spectral irradiance, downward at 455 nm; Spectral irradiance, downward at 457.5 nm; Spectral irradiance, downward at 460 nm; Spectral irradiance, downward at 462.5 nm; Spectral irradiance, downward at 465 nm; Spectral irradiance, downward at 467.5 nm; Spectral irradiance, downward at 470 nm; Spectral irradiance, downward at 472.5 nm; Spectral irradiance, downward at 475 nm; Spectral irradiance, downward at 477.5 nm; Spectral irradiance, downward at 480 nm; Spectral irradiance, downward at 482.5 nm; Spectral irradiance, downward at 485 nm; Spectral irradiance, downward at 487.5 nm; Spectral irradiance, downward at 490 nm; Spectral irradiance, downward at 492.5 nm; Spectral irradiance, downward at 495 nm; Spectral irradiance, downward at 497.5 nm; Spectral irradiance, downward at 500 nm; Spectral irradiance, downward at 502.5 nm; Spectral irradiance, downward at 505 nm; Spectral irradiance, downward at 507.5 nm; Spectral irradiance, downward at 510 nm; Spectral irradiance, downward at 512.5 nm; Spectral irradiance, downward at 515 nm; Spectral irradiance, downward at 517.5 nm; Spectral irradiance, downward at 520 nm; Spectral irradiance, downward at 522.5 nm; Spectral irradiance, downward at 525 nm; Spectral irradiance, downward at 527.5 nm; Spectral irradiance, downward at 530 nm; Spectral irradiance, downward at 532.5 nm; Spectral irradiance, downward at 535 nm; Spectral irradiance, downward at 537.5 nm; Spectral irradiance, downward at 540 nm; Spectral irradiance, downward at 542.5 nm; Spectral irradiance, downward at 545 nm; Spectral irradiance, downward at 547.5 nm; Spectral irradiance, downward at 550 nm; Spectral irradiance, downward at 552.5 nm; Spectral irradiance, downward at 555 nm; Spectral irradiance, downward at 557.5 nm; Spectral irradiance, downward at 560 nm; Spectral irradiance, downward at 562.5 nm; Spectral irradiance, downward at 565 nm; Spectral irradiance, downward at 567.5 nm; Spectral irradiance, downward at 570 nm; Spectral irradiance, downward at 572.5 nm; Spectral irradiance, downward at 575 nm; Spectral irradiance, downward at 577.5 nm; Spectral irradiance, downward at 580 nm; Spectral irradiance, downward at 582.5 nm; Spectral irradiance, downward at 585 nm; Spectral irradiance, downward at 587.5 nm; Spectral irradiance, downward at 590 nm; Spectral irradiance, downward at 592.5 nm; Spectral irradiance, downward at 595 nm; Spectral irradiance, downward at 597.5 nm; Spectral irradiance, downward at 600 nm; Spectral irradiance, downward at 602.5 nm; Spectral irradiance, downward at 605 nm; Spectral irradiance, downward at 607.5 nm; Spectral irradiance, downward at 610 nm; Spectral irradiance, downward at 612.5 nm; Spectral irradiance, downward at 615 nm; Spectral irradiance, downward at 617.5 nm; Spectral irradiance, downward at 620 nm; Spectral irradiance, downward at 622.5 nm; Spectral irradiance, downward at 625 nm; Spectral
    Type: Dataset
    Format: text/tab-separated-values, 24864 data points
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  • 8
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    Measurements of turbidity, chlorophyll-a, suspended particulate matter and suspended particulate inorganic matter in six different study areas (in Argentina, China, France and Belgium) (2022)
    PANGAEA
    Details
    Publication Date: 2023-08-07
    Keywords: BAOZHEN; BAOZHEN_0604S1; BAOZHEN_0604S2; BAOZHEN_0604S3; BAOZHEN_0604S4; BAOZHEN_0604S5; BAOZHEN_0605S1; BAOZHEN_0605S2; BAOZHEN_0605S3; BAOZHEN_0605S4; BAOZHEN_0605S5; BAOZHEN_0605S6; BAOZHEN_0605S7; BAOZHEN_0605S8; BAOZHEN_0606S1; BAOZHEN_0606S2; BAOZHEN_0606S3; BAOZHEN_0606S4; BAOZHEN_0606S5; BAOZHEN_0606S6; BAOZHEN_0606S7; BAOZHEN_0606S8; BAOZHEN_0607S1; BAOZHEN_0607S2; BAOZHEN_0607S3; BAOZHEN_0607S4; BAOZHEN_0607S5; BAOZHEN_0607S6; BAOZHEN_0607S7; BAOZHEN_0607S8; BAOZHEN_0608S1; BAOZHEN_0608S2; BAOZHEN_0608S3; BAOZHEN_0608S4; BAOZHEN_0608S5; BAOZHEN_0608S6; BAOZHEN_0608S7; BAOZHEN_0608S8; BELGIUM_WATERS_APRIL2018; BELGIUM_WATERS_APRIL2018_ST130; BELGIUM_WATERS_APRIL2018_ST215; BELGIUM_WATERS_APRIL2018_ST230; BELGIUM_WATERS_APRIL2018_ST330; BELGIUM_WATERS_APRIL2018_ST700; BELGIUM_WATERS_APRIL2018_ST710; BELGIUM_WATERS_APRIL2018_ST780; BELGIUM_WATERS_APRIL2018_W07BIS; BELGIUM_WATERS_APRIL2018_ZG02; BELGIUM_WATERS_JULY2018; BELGIUM_WATERS_JULY2018_LW_120; BELGIUM_WATERS_JULY2018_LW_130; BELGIUM_WATERS_JULY2018_LW_215; BELGIUM_WATERS_JULY2018_LW_230; BELGIUM_WATERS_JULY2018_LW_330; BELGIUM_WATERS_JULY2018_LW_700; BELGIUM_WATERS_JULY2018_LW_710; BELGIUM_WATERS_JULY2018_LW_780; BELGIUM_WATERS_JULY2018_LW_Harbour; BELGIUM_WATERS_JULY2018_LW_ZG02; Campaign; CHASCOMUS; CHASCOMUS_C01; CHASCOMUS_C02; CHASCOMUS_C03; CHASCOMUS_C04; CHASCOMUS_C05; Chlorophyll a; chlorophyll-a concentration; CHONGXI; CHONGXI_0531S1; CHONGXI_0531S2; CHONGXI_0601S1; CHONGXI_0601S2; CHONGXI_0601S3; CHONGXI_0601S4; CHONGXI_0601S5; CHONGXI_0601S6; CHONGXI_0601S7; CHONGXI_0601S8; CHONGXI_0603S1; CHONGXI_0603S2; CHONGXI_0603S3; CHONGXI_0603S4; CHONGXI_0603S5; CHONGXI_0603S6; CHONGXI_0603S7; CHONGXI_0603S8; DATE/TIME; DEPTH, water; Event label; HYP_0001; HYP_0002; HYP_0003; HYP_0004; HYP_0005; HYP_0006; HYP_0007; HYP_0008; HYP_0009; HYP_0010; HYP_0011; HYP_0012; HYP_0013; HYP_0014; HYP_0015; HYP_0016; HYP_0017; HYP_0018; HYP_0019; HYP_0020; HYP_0021; HYP_0022; HYP_0023; HYP_0024; HYP_0025; HYP_0026; HYP_0027; HYP_0028; HYP_0029; HYP_0030; HYP_0031; HYP_0032; HYP_0033; HYP_0034; HYP_0035; HYP_0036; HYP_0037; HYP_0038; HYP_0039; HYP_0040; HYP_0041; HYP_0042; HYP_0043; HYP_0044; HYP_0045; HYP_0046; HYP_0047; HYP_0048; HYP_0049; HYP_0050; HYP_0051; HYP_0052; HYP_0053; HYP_0054; HYP_0055; HYP_0056; HYP_0057; HYP_0058; HYP_0059; HYP_0060; HYP_0061; HYP_0062; HYP_0063; HYP_0064; HYP_0065; HYP_0066; HYP_0067; HYP_0068; HYP_0069; HYP_0070; HYP_0071; HYP_0072; HYP_0073; HYP_0074; HYP_0075; HYP_0076; HYP_0077; HYP_0078; HYP_0079; HYP_0080; HYP_0081; HYP_0082; HYP_0083; HYP_0084; HYP_0085; HYP_0086; HYP_0087; HYP_0088; HYP_0089; HYP_0090; HYP_0091; HYP_0092; HYP_0093; HYP_0094; HYP_0095; HYP_0096; HYP_0097; HYP_0098; HYP_0099; HYP_0100; HYP_0101; HYP_0102; HYP_0103; HYP_0104; HYP_0105; HYP_0106; HYP_0107; HYP_0108; HYP_0109; HYP_0110; HYP_0111; HYP_0112; HYP_0113; HYP_0114; HYP_0115; HYP_0116; HYP_0117; HYP_0118; HYP_0119; HYP_0120; HYP_0121; HYP_0122; HYP_0123; HYP_0124; HYP_0125; HYP_0126; HYP_0127; HYP_0128; HYP_0129; HYP_0130; HYP_0131; HYP_0132; HYP_0133; HYP_0134; HYP_0135; HYP_0136; HYP_0137; HYP_0138; HYP_0139; HYP_0140; HYP_0141; HYP_0142; HYP_0143; HYP_0144; HYP_0145; HYP_0146; HYP_0147; HYP_0148; HYP_0149; HYP_0150; HYP_0151; HYP_0152; HYP_0153; HYP_0154; HYP_0155; HYP_0156; HYP_0157; HYP_0158; HYP_0159; HYP_0160; HYP_0161; HYP_0162; HYP_0163; HYP_0164; HYP_0165; HYP_0166; HYP_0167; HYP_0168; HYP_0169; HYP_0170; HYP_0171; HYP_0172; HYP_0173; HYP_0174; HYP_0175; HYP_0176; HYP_0177; HYP_0178; HYP_0179; HYPERMAQ; Hyperspectral and multi-mission high resolution optical remote sensing of aquatic environments; Identification; inherent optical properties; LATITUDE; LE_VERDON; LE_VERDON_GG13; LE_VERDON_GG14; LE_VERDON_GG15; LE_VERDON_GG16; LE_VERDON_GG17; LE_VERDON_GG18; LE_VERDON_GG19; LE_VERDON_GG20; LE_VERDON_GG21; LE_VERDON_GG22; LE_VERDON_GG23; LE_VERDON_GG24; LE_VERDON_GG39; LE_VERDON_GG40; LE_VERDON_GG41; LE_VERDON_GG42; LE_VERDON_GG43; LE_VERDON_GG44; LE_VERDON_GG45; LE_VERDON_GG46; LE_VERDON_GG47; LE_VERDON_GG48; LE_VERDON_GG49; LE_VERDON_GG50; LE_VERDON_GG51; LifeWatch_BE; LifeWatch BE; LONGITUDE; MULT; Multiple investigations; optically complex waters; PAUILLAC; PAUILLAC_GG01; PAUILLAC_GG02; PAUILLAC_GG03; PAUILLAC_GG04; PAUILLAC_GG05; PAUILLAC_GG06; PAUILLAC_GG07; PAUILLAC_GG08; PAUILLAC_GG09; PAUILLAC_GG10; PAUILLAC_GG11; PAUILLAC_GG12; PAUILLAC_GG25; PAUILLAC_GG26; PAUILLAC_GG27; PAUILLAC_GG28; PAUILLAC_GG29; PAUILLAC_GG30; PAUILLAC_GG31; PAUILLAC_GG32; PAUILLAC_GG33; PAUILLAC_GG34; PAUILLAC_GG35; PAUILLAC_GG36; PAUILLAC_GG37; PAUILLAC_GG38; radiometry; RIO_DE_LA_PLATA; RIO_DE_LA_PLATA_P01; RIO_DE_LA_PLATA_P02; RIO_DE_LA_PLATA_P03; RIO_DE_LA_PLATA_P04; RIO_DE_LA_PLATA_P05; RIO_DE_LA_PLATA_P06; RIO_DE_LA_PLATA_P07; RIO_DE_LA_PLATA_P08; RIO_DE_LA_PLATA_P09; RIO_DE_LA_PLATA_P10; RIO_DE_LA_PLATA_P11; RIO_DE_LA_PLATA_P12; RIO_DE_LA_PLATA_P13; RIO_DE_LA_PLATA_P14; RIO_DE_LA_PLATA_P15; RIO_DE_LA_PLATA_P16; RIO_DE_LA_PLATA_P17; RIO_DE_LA_PLATA_P18; RIO_DE_LA_PLATA_P19; RIO_DE_LA_PLATA_P20; RIO_DE_LA_PLATA_P21; RIO_DE_LA_PLATA_P22; Rubber boat; Sampling on land; Simon Stevin; SPUIKOM_APRIL2018; SPUIKOM_APRIL2018_SP38; SPUIKOM_APRIL2018_SP39a; SPUIKOM_APRIL2018_SP39b; SPUIKOM_APRIL2018_SP40a; SPUIKOM_APRIL2018_SP40b; SPUIKOM_APRIL2018_SP41; SPUIKOM_APRIL2018_SP42; SPUIKOM_APRIL2018_SP43; SPUIKOM_APRIL2018_SP44; SPUIKOM_JULY2018; SPUIKOM_JULY2018_SP50; SPUIKOM_JULY2018_SP51; SPUIKOM_JULY2018_SP52; SPUIKOM_JULY2018_SP53; SPUIKOM_JULY2018_SP54; SPUIKOM_JULY2018_SP55; SPUIKOM_JULY2018_SP56; SPUIKOM_JULY2018_SP57; SPUIKOM_JULY2018_SP58; SPUIKOM_JULY2018_SP59; SPUIKOM_JULY2018_SP60; SPUIKOM_JULY2018_SP62; SPUIKOM_JULY2018_SP63; SPUIKOM_JULY2018_SP64; SPUIKOM_JULY2018_SP65; SPUIKOM_JULY2018_SP66; SPUIKOM_JULY2018_SP67; SPUIKOM_JULY2018_SP68; Station label; Suspended particulate inorganic matter; Suspended particulate inorganic matter, standard deviation; Suspended particulate matter; Suspended particulate matter, standard deviation; turbidity; Turbidity, standard deviation; Turbidity (Formazin Backscatter Unit); Turbidity (Formazin nephelometric unit); Turbidity meter, HACH, portable; Turbidity meter, OBS501; water reflectance
    Type: Dataset
    Format: text/tab-separated-values, 1765 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 9
    facet.materialart.
    Unknown
    Water reflectance from six different study areas (in Argentina, China, France and Belgium) measured with TRiOS (2022)
    PANGAEA
    Details
    Publication Date: 2023-08-07
    Keywords: BELGIUM_WATERS_APRIL2018; BELGIUM_WATERS_APRIL2018_ST130; BELGIUM_WATERS_APRIL2018_ST215; BELGIUM_WATERS_APRIL2018_ST230; BELGIUM_WATERS_APRIL2018_ST330; BELGIUM_WATERS_APRIL2018_ST700; BELGIUM_WATERS_APRIL2018_ST710; BELGIUM_WATERS_APRIL2018_ST780; BELGIUM_WATERS_APRIL2018_W07BIS; BELGIUM_WATERS_JULY2018; BELGIUM_WATERS_JULY2018_LW_120; BELGIUM_WATERS_JULY2018_LW_130; BELGIUM_WATERS_JULY2018_LW_215; BELGIUM_WATERS_JULY2018_LW_230; BELGIUM_WATERS_JULY2018_LW_330; BELGIUM_WATERS_JULY2018_LW_700; BELGIUM_WATERS_JULY2018_LW_710; BELGIUM_WATERS_JULY2018_LW_780; BELGIUM_WATERS_JULY2018_LW_Harbour; BELGIUM_WATERS_JULY2018_LW_ZG02; Campaign; CHASCOMUS; CHASCOMUS_C01; CHASCOMUS_C02; CHASCOMUS_C03; CHASCOMUS_C04; CHASCOMUS_C05; chlorophyll-a concentration; DATE/TIME; DEPTH, water; Event label; HYP_0001; HYP_0002; HYP_0003; HYP_0004; HYP_0005; HYP_0006; HYP_0007; HYP_0008; HYP_0010; HYP_0011; HYP_0012; HYP_0013; HYP_0014; HYP_0015; HYP_0016; HYP_0017; HYP_0018; HYP_0019; HYP_0020; HYP_0021; HYP_0022; HYP_0023; HYP_0024; HYP_0081; HYP_0082; HYP_0083; HYP_0084; HYP_0085; HYP_0086; HYP_0087; HYP_0088; HYP_0089; HYP_0090; HYP_0091; HYP_0094; HYP_0095; HYP_0096; HYP_0097; HYP_0098; HYP_0099; HYP_0100; HYP_0101; HYP_0102; HYP_0103; HYP_0104; HYP_0105; HYP_0106; HYP_0107; HYP_0108; HYP_0109; HYP_0110; HYP_0111; HYP_0112; HYP_0113; HYP_0114; HYP_0115; HYP_0117; HYP_0118; HYP_0119; HYP_0120; HYP_0121; HYP_0122; HYP_0123; HYP_0124; HYP_0125; HYP_0126; HYP_0127; HYP_0128; HYP_0129; HYP_0130; HYP_0131; HYP_0132; HYP_0133; HYP_0134; HYP_0135; HYP_0136; HYP_0137; HYP_0138; HYP_0139; HYP_0140; HYP_0141; HYP_0142; HYP_0143; HYP_0144; HYP_0145; HYP_0146; HYP_0153; HYP_0155; HYP_0157; HYP_0158; HYP_0159; HYP_0160; HYP_0161; HYP_0162; HYP_0163; HYP_0164; HYP_0165; HYP_0166; HYP_0167; HYP_0168; HYP_0169; HYP_0170; HYP_0171; HYP_0172; HYP_0173; HYP_0174; HYP_0175; HYP_0176; HYP_0177; HYP_0178; HYP_0179; HYPERMAQ; Hyperspectral and multi-mission high resolution optical remote sensing of aquatic environments; Identification; inherent optical properties; LATITUDE; LE_VERDON; LE_VERDON_GG14; LE_VERDON_GG15; LE_VERDON_GG16; LE_VERDON_GG17; LE_VERDON_GG18; LE_VERDON_GG19; LE_VERDON_GG20; LE_VERDON_GG21; LE_VERDON_GG22; LE_VERDON_GG23; LE_VERDON_GG24; LE_VERDON_GG41; LE_VERDON_GG42; LE_VERDON_GG43; LE_VERDON_GG44; LE_VERDON_GG45; LE_VERDON_GG46; LE_VERDON_GG47; LE_VERDON_GG48; LE_VERDON_GG49; LE_VERDON_GG50; LE_VERDON_GG51; LifeWatch_BE; LifeWatch BE; LONGITUDE; MULT; Multiple investigations; optically complex waters; PAUILLAC; PAUILLAC_GG01; PAUILLAC_GG02; PAUILLAC_GG03; PAUILLAC_GG04; PAUILLAC_GG05; PAUILLAC_GG06; PAUILLAC_GG07; PAUILLAC_GG08; PAUILLAC_GG09; PAUILLAC_GG10; PAUILLAC_GG11; PAUILLAC_GG25; PAUILLAC_GG26; PAUILLAC_GG27; PAUILLAC_GG28; PAUILLAC_GG29; PAUILLAC_GG30; PAUILLAC_GG31; PAUILLAC_GG32; PAUILLAC_GG33; PAUILLAC_GG34; PAUILLAC_GG35; PAUILLAC_GG36; PAUILLAC_GG37; PAUILLAC_GG38; Radiometer, TriOS; radiometry; RIO_DE_LA_PLATA; RIO_DE_LA_PLATA_P01; RIO_DE_LA_PLATA_P02; RIO_DE_LA_PLATA_P03; RIO_DE_LA_PLATA_P04; RIO_DE_LA_PLATA_P05; RIO_DE_LA_PLATA_P06; RIO_DE_LA_PLATA_P07; RIO_DE_LA_PLATA_P08; RIO_DE_LA_PLATA_P09; RIO_DE_LA_PLATA_P10; RIO_DE_LA_PLATA_P11; RIO_DE_LA_PLATA_P12; RIO_DE_LA_PLATA_P13; RIO_DE_LA_PLATA_P14; RIO_DE_LA_PLATA_P15; RIO_DE_LA_PLATA_P16; Rubber boat; Sampling on land; Simon Stevin; SPUIKOM_APRIL2018; SPUIKOM_APRIL2018_SP38; SPUIKOM_APRIL2018_SP39b; SPUIKOM_APRIL2018_SP40b; SPUIKOM_APRIL2018_SP41; SPUIKOM_APRIL2018_SP42; SPUIKOM_APRIL2018_SP43; SPUIKOM_APRIL2018_SP44; SPUIKOM_JULY2018; SPUIKOM_JULY2018_SP50; SPUIKOM_JULY2018_SP51; SPUIKOM_JULY2018_SP52; SPUIKOM_JULY2018_SP53; SPUIKOM_JULY2018_SP54; SPUIKOM_JULY2018_SP55; SPUIKOM_JULY2018_SP56; SPUIKOM_JULY2018_SP57; SPUIKOM_JULY2018_SP58; SPUIKOM_JULY2018_SP59; SPUIKOM_JULY2018_SP60; SPUIKOM_JULY2018_SP62; SPUIKOM_JULY2018_SP63; SPUIKOM_JULY2018_SP64; SPUIKOM_JULY2018_SP65; SPUIKOM_JULY2018_SP66; SPUIKOM_JULY2018_SP67; SPUIKOM_JULY2018_SP68; Station label; Suspended particulate matter; turbidity; water reflectance; Water reflectance at 350 nm; Water reflectance at 352.5 nm; Water reflectance at 355 nm; Water reflectance at 357.5 nm; Water reflectance at 360 nm; Water reflectance at 362.5 nm; Water reflectance at 365 nm; Water reflectance at 367.5 nm; Water reflectance at 370 nm; Water reflectance at 372.5 nm; Water reflectance at 375 nm; Water reflectance at 377.5 nm; Water reflectance at 380 nm; Water reflectance at 382.5 nm; Water reflectance at 385 nm; Water reflectance at 387.5 nm; Water reflectance at 390 nm; Water reflectance at 392.5 nm; Water reflectance at 395 nm; Water reflectance at 397.5 nm; Water reflectance at 400 nm; Water reflectance at 402.5 nm; Water reflectance at 405 nm; Water reflectance at 407.5 nm; Water reflectance at 410 nm; Water reflectance at 412.5 nm; Water reflectance at 415 nm; Water reflectance at 417.5 nm; Water reflectance at 420 nm; Water reflectance at 422.5 nm; Water reflectance at 425 nm; Water reflectance at 427.5 nm; Water reflectance at 430 nm; Water reflectance at 432.5 nm; Water reflectance at 435 nm; Water reflectance at 437.5 nm; Water reflectance at 440 nm; Water reflectance at 442.5 nm; Water reflectance at 445 nm; Water reflectance at 447.5 nm; Water reflectance at 450 nm; Water reflectance at 452.5 nm; Water reflectance at 455 nm; Water reflectance at 457.5 nm; Water reflectance at 460 nm; Water reflectance at 462.5 nm; Water reflectance at 465 nm; Water reflectance at 467.5 nm; Water reflectance at 470 nm; Water reflectance at 472.5 nm; Water reflectance at 475 nm; Water reflectance at 477.5 nm; Water reflectance at 480 nm; Water reflectance at 482.5 nm; Water reflectance at 485 nm; Water reflectance at 487.5 nm; Water reflectance at 490 nm; Water reflectance at 492.5 nm; Water reflectance at 495 nm; Water reflectance at 497.5 nm; Water reflectance at 500 nm; Water reflectance at 502.5 nm; Water reflectance at 505 nm; Water reflectance at 507.5 nm; Water reflectance at 510 nm; Water reflectance at 512.5 nm; Water reflectance at 515 nm; Water reflectance at 517.5 nm; Water reflectance at 520 nm; Water reflectance at 522.5 nm; Water reflectance at 525 nm; Water reflectance at 527.5 nm; Water reflectance at 530 nm; Water reflectance at 532.5 nm; Water reflectance at 535 nm; Water reflectance at 537.5 nm; Water reflectance at 540 nm; Water reflectance at 542.5 nm; Water reflectance at 545 nm; Water reflectance at 547.5 nm; Water reflectance at 550 nm; Water reflectance at 552.5 nm; Water reflectance at 555 nm; Water reflectance at 557.5 nm; Water reflectance at 560 nm; Water reflectance at 562.5 nm; Water reflectance at 565 nm; Water reflectance at 567.5 nm; Water reflectance at 570 nm; Water reflectance at 572.5 nm; Water reflectance at 575 nm; Water reflectance at 577.5 nm; Water reflectance at 580 nm; Water reflectance at 582.5 nm; Water reflectance at 585 nm; Water reflectance at 587.5 nm; Water reflectance at 590 nm; Water reflectance at 592.5 nm; Water reflectance at 595 nm; Water reflectance at 597.5 nm; Water reflectance at 600 nm; Water reflectance at 602.5 nm; Water reflectance at 605 nm; Water reflectance at 607.5 nm; Water reflectance at 610 nm; Water reflectance at 612.5 nm; Water reflectance at 615 nm; Water reflectance at 617.5 nm; Water reflectance at 620 nm; Water reflectance at 622.5 nm; Water reflectance at 625 nm; Water reflectance at 627.5 nm; Water reflectance at 630 nm; Water reflectance at 632.5 nm; Water reflectance at 635 nm; Water reflectance at 637.5 nm; Water reflectance at 640 nm; Water reflectance at 642.5 nm; Water reflectance at 645 nm; Water reflectance at 647.5 nm; Water reflectance at 650 nm; Water reflectance at 652.5 nm; Water reflectance at 655 nm; Water reflectance at 657.5 nm; Water reflectance at 660 nm; Water reflectance at 662.5 nm; Water reflectance at 665 nm; Water reflectance at 667.5 nm; Water reflectance at 670 nm; Water reflectance at 672.5 nm; Water reflectance at 675 nm; Water reflectance at 677.5 nm;
    Type: Dataset
    Format: text/tab-separated-values, 24864 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 10
    facet.materialart.
    Unknown
    Downwelling sky radiance standard deviation from six different study areas (in Argentina, China, France and Belgium) measured with TRiOS (2022)
    PANGAEA
    Details
    Publication Date: 2023-08-07
    Keywords: BELGIUM_WATERS_APRIL2018; BELGIUM_WATERS_APRIL2018_ST130; BELGIUM_WATERS_APRIL2018_ST215; BELGIUM_WATERS_APRIL2018_ST230; BELGIUM_WATERS_APRIL2018_ST330; BELGIUM_WATERS_APRIL2018_ST700; BELGIUM_WATERS_APRIL2018_ST710; BELGIUM_WATERS_APRIL2018_ST780; BELGIUM_WATERS_APRIL2018_W07BIS; BELGIUM_WATERS_JULY2018; BELGIUM_WATERS_JULY2018_LW_120; BELGIUM_WATERS_JULY2018_LW_130; BELGIUM_WATERS_JULY2018_LW_215; BELGIUM_WATERS_JULY2018_LW_230; BELGIUM_WATERS_JULY2018_LW_330; BELGIUM_WATERS_JULY2018_LW_700; BELGIUM_WATERS_JULY2018_LW_710; BELGIUM_WATERS_JULY2018_LW_780; BELGIUM_WATERS_JULY2018_LW_Harbour; BELGIUM_WATERS_JULY2018_LW_ZG02; Campaign; CHASCOMUS; CHASCOMUS_C01; CHASCOMUS_C02; CHASCOMUS_C03; CHASCOMUS_C04; CHASCOMUS_C05; chlorophyll-a concentration; DATE/TIME; Event label; HYP_0001; HYP_0002; HYP_0003; HYP_0004; HYP_0005; HYP_0006; HYP_0007; HYP_0008; HYP_0010; HYP_0011; HYP_0012; HYP_0013; HYP_0014; HYP_0015; HYP_0016; HYP_0017; HYP_0018; HYP_0019; HYP_0020; HYP_0021; HYP_0022; HYP_0023; HYP_0024; HYP_0081; HYP_0082; HYP_0083; HYP_0084; HYP_0085; HYP_0086; HYP_0087; HYP_0088; HYP_0089; HYP_0090; HYP_0091; HYP_0094; HYP_0095; HYP_0096; HYP_0097; HYP_0098; HYP_0099; HYP_0100; HYP_0101; HYP_0102; HYP_0103; HYP_0104; HYP_0105; HYP_0106; HYP_0107; HYP_0108; HYP_0109; HYP_0110; HYP_0111; HYP_0112; HYP_0113; HYP_0114; HYP_0115; HYP_0117; HYP_0118; HYP_0119; HYP_0120; HYP_0121; HYP_0122; HYP_0123; HYP_0124; HYP_0125; HYP_0126; HYP_0127; HYP_0128; HYP_0129; HYP_0130; HYP_0131; HYP_0132; HYP_0133; HYP_0134; HYP_0135; HYP_0136; HYP_0137; HYP_0138; HYP_0139; HYP_0140; HYP_0141; HYP_0142; HYP_0143; HYP_0144; HYP_0145; HYP_0146; HYP_0153; HYP_0155; HYP_0157; HYP_0158; HYP_0159; HYP_0160; HYP_0161; HYP_0162; HYP_0163; HYP_0164; HYP_0165; HYP_0166; HYP_0167; HYP_0168; HYP_0169; HYP_0170; HYP_0171; HYP_0172; HYP_0173; HYP_0174; HYP_0175; HYP_0176; HYP_0177; HYP_0178; HYP_0179; HYPERMAQ; Hyperspectral and multi-mission high resolution optical remote sensing of aquatic environments; Identification; inherent optical properties; LATITUDE; LE_VERDON; LE_VERDON_GG14; LE_VERDON_GG15; LE_VERDON_GG16; LE_VERDON_GG17; LE_VERDON_GG18; LE_VERDON_GG19; LE_VERDON_GG20; LE_VERDON_GG21; LE_VERDON_GG22; LE_VERDON_GG23; LE_VERDON_GG24; LE_VERDON_GG41; LE_VERDON_GG42; LE_VERDON_GG43; LE_VERDON_GG44; LE_VERDON_GG45; LE_VERDON_GG46; LE_VERDON_GG47; LE_VERDON_GG48; LE_VERDON_GG49; LE_VERDON_GG50; LE_VERDON_GG51; LifeWatch_BE; LifeWatch BE; LONGITUDE; MULT; Multiple investigations; optically complex waters; PAUILLAC; PAUILLAC_GG01; PAUILLAC_GG02; PAUILLAC_GG03; PAUILLAC_GG04; PAUILLAC_GG05; PAUILLAC_GG06; PAUILLAC_GG07; PAUILLAC_GG08; PAUILLAC_GG09; PAUILLAC_GG10; PAUILLAC_GG11; PAUILLAC_GG25; PAUILLAC_GG26; PAUILLAC_GG27; PAUILLAC_GG28; PAUILLAC_GG29; PAUILLAC_GG30; PAUILLAC_GG31; PAUILLAC_GG32; PAUILLAC_GG33; PAUILLAC_GG34; PAUILLAC_GG35; PAUILLAC_GG36; PAUILLAC_GG37; PAUILLAC_GG38; Radiometer, TriOS; radiometry; RIO_DE_LA_PLATA; RIO_DE_LA_PLATA_P01; RIO_DE_LA_PLATA_P02; RIO_DE_LA_PLATA_P03; RIO_DE_LA_PLATA_P04; RIO_DE_LA_PLATA_P05; RIO_DE_LA_PLATA_P06; RIO_DE_LA_PLATA_P07; RIO_DE_LA_PLATA_P08; RIO_DE_LA_PLATA_P09; RIO_DE_LA_PLATA_P10; RIO_DE_LA_PLATA_P11; RIO_DE_LA_PLATA_P12; RIO_DE_LA_PLATA_P13; RIO_DE_LA_PLATA_P14; RIO_DE_LA_PLATA_P15; RIO_DE_LA_PLATA_P16; Rubber boat; Sampling on land; Simon Stevin; Spectral radiance, downward at 350 nm standard deviation; Spectral radiance, downward at 352.5 nm standard deviation; Spectral radiance, downward at 355 nm standard deviation; Spectral radiance, downward at 357.5 nm standard deviation; Spectral radiance, downward at 360 nm standard deviation; Spectral radiance, downward at 362.5 nm standard deviation; Spectral radiance, downward at 365 nm standard deviation; Spectral radiance, downward at 367.5 nm standard deviation; Spectral radiance, downward at 370 nm standard deviation; Spectral radiance, downward at 372.5 nm standard deviation; Spectral radiance, downward at 375 nm standard deviation; Spectral radiance, downward at 377.5 nm standard deviation; Spectral radiance, downward at 380 nm standard deviation; Spectral radiance, downward at 382.5 nm standard deviation; Spectral radiance, downward at 385 nm standard deviation; Spectral radiance, downward at 387.5 nm standard deviation; Spectral radiance, downward at 390 nm standard deviation; Spectral radiance, downward at 392.5 nm standard deviation; Spectral radiance, downward at 395 nm standard deviation; Spectral radiance, downward at 397.5 nm standard deviation; Spectral radiance, downward at 400 nm standard deviation; Spectral radiance, downward at 402.5 nm standard deviation; Spectral radiance, downward at 405 nm standard deviation; Spectral radiance, downward at 407.5 nm standard deviation; Spectral radiance, downward at 410 nm standard deviation; Spectral radiance, downward at 412.5 nm standard deviation; Spectral radiance, downward at 415 nm standard deviation; Spectral radiance, downward at 417.5 nm standard deviation; Spectral radiance, downward at 420 nm standard deviation; Spectral radiance, downward at 422.5 nm standard deviation; Spectral radiance, downward at 425 nm standard deviation; Spectral radiance, downward at 427.5 nm standard deviation; Spectral radiance, downward at 430 nm standard deviation; Spectral radiance, downward at 432.5 nm standard deviation; Spectral radiance, downward at 435 nm standard deviation; Spectral radiance, downward at 437.5 nm standard deviation; Spectral radiance, downward at 440 nm standard deviation; Spectral radiance, downward at 442.5 nm standard deviation; Spectral radiance, downward at 445 nm standard deviation; Spectral radiance, downward at 447.5 nm standard deviation; Spectral radiance, downward at 450 nm standard deviation; Spectral radiance, downward at 452.5 nm standard deviation; Spectral radiance, downward at 455 nm standard deviation; Spectral radiance, downward at 457.5 nm standard deviation; Spectral radiance, downward at 460 nm standard deviation; Spectral radiance, downward at 462.5 nm standard deviation; Spectral radiance, downward at 465 nm standard deviation; Spectral radiance, downward at 467.5 nm standard deviation; Spectral radiance, downward at 470 nm standard deviation; Spectral radiance, downward at 472.5 nm standard deviation; Spectral radiance, downward at 475 nm standard deviation; Spectral radiance, downward at 477.5 nm standard deviation; Spectral radiance, downward at 480 nm standard deviation; Spectral radiance, downward at 482.5 nm standard deviation; Spectral radiance, downward at 485 nm standard deviation; Spectral radiance, downward at 487.5 nm standard deviation; Spectral radiance, downward at 490 nm standard deviation; Spectral radiance, downward at 492.5 nm standard deviation; Spectral radiance, downward at 495 nm standard deviation; Spectral radiance, downward at 497.5 nm standard deviation; Spectral radiance, downward at 500 nm standard deviation; Spectral radiance, downward at 502.5 nm standard deviation; Spectral radiance, downward at 505 nm standard deviation; Spectral radiance, downward at 507.5 nm standard deviation; Spectral radiance, downward at 510 nm standard deviation; Spectral radiance, downward at 512.5 nm standard deviation; Spectral radiance, downward at 515 nm standard deviation; Spectral radiance, downward at 517.5 nm standard deviation; Spectral radiance, downward at 520 nm standard deviation; Spectral radiance, downward at 522.5 nm standard deviation; Spectral radiance, downward at 525 nm standard deviation; Spectral radiance, downward at 527.5 nm standard deviation; Spectral radiance, downward at 530 nm standard deviation; Spectral radiance, downward at 532.5 nm standard deviation; Spectral radiance, downward at 535 nm standard deviation; Spectral radiance, downward at 537.5 nm standard deviation; Spectral radiance, downward at 540 nm standard deviation; Spectral radiance, downward at 542.5 nm standard deviation; Spectral radiance, downward at 545 nm standard deviation; Spectral
    Type: Dataset
    Format: text/tab-separated-values, 24864 data points
    Location Call Number Expected Availability
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