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  • 11
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    Unknown
    Trace metal data from water samples during METEOR cruise M135 (2021)
    PANGAEA
    Details
    Publication Date: 2023-10-28
    Description: The file contains dissolved and total dissolvable trace metal concentrations (Fe, Co, Mn, Ni, Cd, Cu, Pb, Zn and V), hydrogen peroxide (H2O2), Fe(II), and iodide and iodate concentrations of surface water samples and station depth profiles. Trace metal concentrations were measured by ICP-MS after preconcentration (Rapp et al. 2017, Anal. Chim. Acta). Fe(II) and H2O2 were analyzed on-board using chemiluminescence flow injection analysis (Hopwood et al. 2017, Sci. Rep.). Iodide concentrations were analyzed by cathodic stripping square wave voltammetry (Luther et al. 1988, Anal. Chem.) and Iodate concentrations were measured spectrophotometrically (Chapman and Liss 1977, Mar. Chem.).
    Keywords: Bottle number; Cadmium; Climate - Biogeochemistry Interactions in the Tropical Ocean; CT; CTD/Rosette, ultra clean; CTD-UC; DATE/TIME; DEPTH, water; Event label; Flag; Iron; LATITUDE; LONGITUDE; M135; M135_254-1; M135_259-2; M135_261-1; M135_264-1; M135_266-1; M135_269-1; M135_271-1; M135_273-2; M135_275-1; M135_277-1; M135_279-1; M135_281-1; M135_288-1; M135_290-2; M135_293-1; M135_297-2; M135_299-1; M135_301-1; M135_303-1; M135_308-1; M135_313-2; M135_315-2; M135_317-2; M135_320-1; M135_324-2; M135_328-1; M135-track; Meteor (1986); Nitrate; Nitrite; Nitrogen, organic, dissolved; Nitrogen, reduced; Oxygen; Phosphate; Phosphorus, organic, dissolved; Sample code/label; SFB754; SFB754/POSTRE-II; Silicate; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 8317 data points
    Location Call Number Limitation Availability
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  • 12
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    Unknown
    Trace metal data from water samples during METEOR cruise M136 (2021)
    PANGAEA
    Details
    Publication Date: 2023-10-28
    Description: The file contains dissolved and total dissolvable trace metal concentrations (Fe, Co, Mn, Ni, Cd, Cu, Pb, Zn and V), hydrogen peroxide (H2O2), Fe(II), and iodide and iodate concentrations of surface water samples and station depth profiles. Trace metal concentrations were measured by ICP-MS after preconcentration (Rapp et al. 2017, Anal. Chim. Acta). Fe(II) and H2O2 were analyzed on-board using chemiluminescence flow injection analysis (Hopwood et al. 2017, Sci. Rep.). Iodide concentrations were analyzed by cathodic stripping square wave voltammetry (Luther et al. 1988, Anal. Chem.) and Iodate concentrations were measured spectrophotometrically (Chapman and Liss 1977, Mar. Chem.).
    Keywords: Alkalinity, total; Ammonium; Bottle number; Cadmium; Carbon, inorganic, dissolved; Climate - Biogeochemistry Interactions in the Tropical Ocean; CT; CTD/Rosette, ultra clean; CTD-UC; DATE/TIME; DEPTH, water; Event label; Flag; Iron; Iron II, ferrous iron; LATITUDE; LONGITUDE; M136; M136_354-1; M136_366-1; M136_377-1; M136_394-1; M136_403-1; M136_413-1; M136_427-1; M136_443-1; M136_457-1; M136_465-1; M136_474-1; M136_487-1; M136_499-1; M136_535-1; M136_556-1; M136_572-1; M136_589-1; M136-track; Meteor (1986); Nitrate; Nitrite; Nitrogen, reduced; Phosphate; Sample code/label; SFB754; Silicate; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 3831 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 13
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    Trace metal data from water samples during METEOR cruise M138 (2021)
    PANGAEA
    Details
    Publication Date: 2023-10-28
    Description: The file contains dissolved and total dissolvable trace metal concentrations (Fe, Co, Mn, Ni, Cd, Cu, Pb, Zn and V), hydrogen peroxide (H2O2), Fe(II), and iodide and iodate concentrations of surface water samples and station depth profiles. Trace metal concentrations were measured by ICP-MS after preconcentration (Rapp et al. 2017, Anal. Chim. Acta). Fe(II) and H2O2 were analyzed on-board using chemiluminescence flow injection analysis (Hopwood et al. 2017, Sci. Rep.). Iodide concentrations were analyzed by cathodic stripping square wave voltammetry (Luther et al. 1988, Anal. Chem.) and Iodate concentrations were measured spectrophotometrically (Chapman and Liss 1977, Mar. Chem.).
    Keywords: Bottle number; Cadmium; Climate - Biogeochemistry Interactions in the Tropical Ocean; CT; CTD/Rosette, ultra clean; CTD-UC; DATE/TIME; DEPTH, water; Event label; Flag; Iron; LATITUDE; LONGITUDE; M138; M138_882-17; M138_883-13; M138_884-5; M138_885-4; M138_888-5; M138_892-18; M138_897-10; M138_898-4; M138_904-13; M138_906-6; M138-track; Meteor (1986); Nitrate; Nitrite; Nitrogen, reduced; Phosphate; Sample code/label; SFB754; Silicate; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 2072 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 14
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    Trace metal data from water samples during METEOR cruise M137 (2021)
    PANGAEA
    Details
    Publication Date: 2023-10-28
    Description: The file contains dissolved and total dissolvable trace metal concentrations (Fe, Co, Mn, Ni, Cd, Cu, Pb, Zn and V), hydrogen peroxide (H2O2), Fe(II), and iodide and iodate concentrations of surface water samples and station depth profiles. Trace metal concentrations were measured by ICP-MS after preconcentration (Rapp et al. 2017, Anal. Chim. Acta). Fe(II) and H2O2 were analyzed on-board using chemiluminescence flow injection analysis (Hopwood et al. 2017, Sci. Rep.). Iodide concentrations were analyzed by cathodic stripping square wave voltammetry (Luther et al. 1988, Anal. Chem.) and Iodate concentrations were measured spectrophotometrically (Chapman and Liss 1977, Mar. Chem.).
    Keywords: Alkalinity, total; Ammonium; Bottle number; Cadmium; Carbon, inorganic, dissolved; Climate - Biogeochemistry Interactions in the Tropical Ocean; CT; CTD/Rosette, ultra clean; CTD-UC; DATE/TIME; DEPTH, water; Event label; Flag; Iron; LATITUDE; LONGITUDE; M137; M137_613-1; M137_630-1; M137_638-1; M137_653-1; M137_671-1; M137_685-1; M137_699-1; M137_708-1; M137_724-1; M137_738-1; M137_758-1; M137_792-1; M137_803-1; M137_824-1; M137_835-1; M137_859-1; M137_874-1; M137_875-1; M137-track; Meteor (1986); Nitrate; Nitrite; Nitrogen, reduced; Phosphate; Sample code/label; SFB754; Silicate; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 4327 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 15
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    Nutrient data from water samples from MOSES project's cruise stern_1 (2020)
    PANGAEA
    Details
    Publication Date: 2023-09-28
    Description: On the MOSES cruise Sternfahrt_1 water samples were taken on 8 stations. Samples were exchanged between the institutes Alfred-Wegener-Institut Zentrum für Polar- und Meeresforschung (AWI), Helmholtz Centre for Ocean Research Kiel (Geomar) and Helmholtz-Zentrum Geesthacht Centre for Materials and Coastal Research (HZG) for later comparison of the nutrient data.
    Keywords: Ammonium; AWI; Colorimetric using QuAAtro39 AA (Seal Analytical); Comment; Cruise/expedition; DATE/TIME; DEPTH, water; Depth comment; Event label; Geomar; HZG; KON_stern_1; L19-03_stern_1; LATITUDE; Littorina; LONGITUDE; Ludwig Prandtl; Modular Observation Solutions for Earth Systems; MOSES; MOSES_stern1_nutrients; MYA2019/04_stern_1; Mya II; Name; Nitrate; Nitrite; Nitrogen, organic, total; NO2; NO3; Phosphate; PO4; Sample ID; SEAL Analytical, AutoAnalyzer 3 HR (AA3 HR), XY-2 Sampler; SEAL Analytical, AutoAnalyzer 3 HR (AA3 HR), XY-2 Sampler, method No. G-062-92 Rev. 2; SEAL Analytical, AutoAnalyzer 3 HR (AA3 HR), XY-2 Sampler, method No. G-170-96 Rev. 1; SEAL Analytical, AutoAnalyzer 3 HR (AA3 HR), XY-2 Sampler, method No. G-171-96 Rev. 14; SEAL Analytical, AutoAnalyzer 3 HR (AA3 HR), XY-2 Sampler, method No. G-177-96 Rev. 8; SEAL Analytical, AutoAnalyzer QuAAtro39, method No. Q-064-05 Rev. 4; SEAL Analytical, AutoAnalyzer QuAAtro39, method No. Q-066-05 Rev. 3; SEAL Analytical, AutoAnalyzer QuAAtro39, method No. Q-068-05 Rev. 6; SEAL Analytical, AutoAnalyzer QuAAtro39, method No. Q-080-06 Rev. 2; Si; Silicate; stern_1-100; stern_1-101; stern_1-102; stern_1-103; stern_1-104; stern_1-105; stern_1-56; stern_1-57; stern_1-58; stern_1-59; stern_1-60; stern_1-61; stern_1-62; stern_1-63; stern_1-64; stern_1-65; stern_1-66; stern_1-67; stern_1-68; stern_1-69; stern_1-70; stern_1-71; stern_1-72; stern_1-73; stern_1-74; stern_1-75; stern_1-76; stern_1-77; stern_1-78; stern_1-79; stern_1-80; stern_1-81; stern_1-82; stern_1-83; stern_1-84; stern_1-85; stern_1-86; stern_1-87; stern_1-88; stern_1-89; stern_1-90; stern_1-91; stern_1-92; stern_1-93; stern_1-94; stern_1-95; stern_1-96; stern_1-97; stern_1-98; stern_1-99; Sternfahrt 1, KON, 20190239; Sternfahrt 1, L19-03, 20190193; Sternfahrt 1, MYA2019/04; Type; Water sample; WS
    Type: Dataset
    Format: text/tab-separated-values, 935 data points
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  • 16
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    Single water samples from MOSES project's stern cruises (2020)
    PANGAEA
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    Publication Date: 2023-09-28
    Keywords: dissolved methane; Modular Observation Solutions for Earth Systems; MOSES; Salinity; sediment methane; turbidity
    Type: Dataset
    Format: application/zip, 3 datasets
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 17
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    Single water samples from MOSES project's cruise stern_3 (2020)
    PANGAEA
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    Publication Date: 2024-02-12
    Description: During Stern_3 single water samples were taken either from a rosette (vertical) or from on the way systems. For the on the way systems a time off-set was calculated and subtracted from the original time. The aim of the sampling was mainly to counter-check with different sensors. More details can be found in the expedition report (Fahrtbericht Moses Sternfahrten). For methane concentrations, water was transferred to glass bottles (120 ml) and stored cold (4°).
    Keywords: Cruise/expedition; CTD/Rosette; CTD-RO; DATE/TIME; DEPTH, water; dissolved methane; Event label; KON_stern_3; L19-11_stern_3; LATITUDE; Littorina; LONGITUDE; Ludwig Prandtl; Methane; Methane, sediment; Name; OPTIMARE Precision Salinometer System; Salinity; Sample ID; sediment methane; Sediment sample; SES; stern_3-1; stern_3-10; stern_3-100; stern_3-101; stern_3-102; stern_3-103; stern_3-104; stern_3-105; stern_3-106; stern_3-107; stern_3-108; stern_3-109; stern_3-11; stern_3-110; stern_3-111; stern_3-112; stern_3-113; stern_3-114; stern_3-115; stern_3-116; stern_3-117; stern_3-118; stern_3-119; stern_3-12; stern_3-120; stern_3-121; stern_3-122; stern_3-123; stern_3-124; stern_3-125; stern_3-126; stern_3-127; stern_3-128; stern_3-129; stern_3-13; stern_3-130; stern_3-131; stern_3-132; stern_3-133; stern_3-134; stern_3-135; stern_3-136; stern_3-137; stern_3-138; stern_3-139; stern_3-14; stern_3-140; stern_3-141; stern_3-142; stern_3-143; stern_3-144; stern_3-145; stern_3-146; stern_3-147; stern_3-148; stern_3-149; stern_3-15; stern_3-150; stern_3-151; stern_3-152; stern_3-153; stern_3-154; stern_3-155; stern_3-156; stern_3-157; stern_3-158; stern_3-16; stern_3-17; stern_3-18; stern_3-19; stern_3-2; stern_3-20; stern_3-21; stern_3-22; stern_3-23; stern_3-24; stern_3-25; stern_3-26; stern_3-27; stern_3-28; stern_3-29; stern_3-3; stern_3-30; stern_3-31; stern_3-32; stern_3-33; stern_3-34; stern_3-35; stern_3-36; stern_3-37; stern_3-38; stern_3-39; stern_3-4; stern_3-40; stern_3-41; stern_3-42; stern_3-43; stern_3-44; stern_3-45; stern_3-46; stern_3-47; stern_3-48; stern_3-49; stern_3-5; stern_3-50; stern_3-51; stern_3-52; stern_3-53; stern_3-54; stern_3-55; stern_3-56; stern_3-57; stern_3-58; stern_3-59; stern_3-6; stern_3-60; stern_3-61; stern_3-62; stern_3-63; stern_3-64; stern_3-65; stern_3-66; stern_3-67; stern_3-68; stern_3-69; stern_3-7; stern_3-70; stern_3-71; stern_3-72; stern_3-73; stern_3-74; stern_3-75; stern_3-76; stern_3-77; stern_3-78; stern_3-79; stern_3-8; stern_3-80; stern_3-81; stern_3-82; stern_3-83; stern_3-84; stern_3-85; stern_3-86; stern_3-87; stern_3-88; stern_3-89; stern_3-9; stern_3-90; stern_3-91; stern_3-92; stern_3-93; stern_3-94; stern_3-95; stern_3-96; stern_3-97; stern_3-98; stern_3-99; Sternfahrt 3, KON; Sternfahrt 3, L19-11, 20190201; Sternfahrt 3, UT09; Time in seconds; turbidity; Turbidity; Turbidity meter, Hach, 2100N IS; Type; UT09_stern_3; Uthörn; Water sample; WS
    Type: Dataset
    Format: text/tab-separated-values, 1089 data points
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  • 18
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    Unknown
    Single water samples from MOSES project's cruise stern_1 (2020)
    PANGAEA
    Details
    Publication Date: 2024-02-12
    Description: During Stern_1 single water samples were taken either from a rosette (vertical) or from on the way systems. For the on the way systems a time off-set was calculated and subtracted from the original time. The aim of the sampling was mainly to counter-check with different sensors. More details can be found in the expedition report (Fahrtbericht Moses Sternfahrten). For methane concentrations, water was transferred to glass bottles (120 ml) and stored cold (4°). In the home laboratory a 20 ml head space was created and analyzed via gas chromatography. Magen et al. (2014).
    Keywords: Cruise/expedition; DATE/TIME; DEPTH, water; dissolved methane; Event label; KON_stern_1; L19-03_stern_1; LATITUDE; Littorina; LONGITUDE; Ludwig Prandtl; Methane; MYA2019/04_stern_1; Mya II; Name; OPTIMARE Precision Salinometer System; Salinity; Sample ID; stern_1-1; stern_1-10; stern_1-11; stern_1-12; stern_1-13; stern_1-14; stern_1-15; stern_1-16; stern_1-17; stern_1-18; stern_1-19; stern_1-2; stern_1-20; stern_1-21; stern_1-22; stern_1-23; stern_1-24; stern_1-25; stern_1-26; stern_1-27; stern_1-28; stern_1-29; stern_1-3; stern_1-30; stern_1-31; stern_1-32; stern_1-33; stern_1-34; stern_1-35; stern_1-36; stern_1-37; stern_1-38; stern_1-39; stern_1-4; stern_1-40; stern_1-41; stern_1-42; stern_1-43; stern_1-44; stern_1-45; stern_1-46; stern_1-47; stern_1-48; stern_1-49; stern_1-5; stern_1-50; stern_1-51; stern_1-52; stern_1-53; stern_1-54; stern_1-55; stern_1-6; stern_1-7; stern_1-8; stern_1-9; Sternfahrt 1, KON, 20190239; Sternfahrt 1, L19-03, 20190193; Sternfahrt 1, MYA2019/04; Time in seconds; turbidity; Turbidity; Turbidity meter, Hach, 2100N IS; Type; Water sample; WS
    Type: Dataset
    Format: text/tab-separated-values, 404 data points
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  • 19
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    Hydrochemistry of lakes and coastal sites in the MacKenzie River Delta in summer 2018 (2020)
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    Publication Date: 2024-03-20
    Description: Water samples were taken at the surface and the bottom in transects crossing the lake or coastal site from locations with observed erosion to presumably undisturbed locations. The water sampler (1.5 L Uwitec, Austria) was attached to a graduated rope, lowered by hand and filled twice. Combined water samples were transferred to 2 L Nalgene bottles, filled to the top and subsampled at the field station for further analysis. pH, dissolved oxygen concentration and electrical conductivity: pH, dissolved oxygen concentration and electrical conductivity were measured in the laboratory with a WTW 340i Multiprobe. Before each measurement the sensor was calibrated for oxygen and pH. Dissolved methane: At the coastal sites, 120 ml glass bottles were filled without bubbles and capped with butyl septa and aluminum crimps. After adding 10 ml of synthetic air (Alphagaz 1), we added 0.2 ml of 8 N NaOH. For the lakes, 60 ml syringes were filled with 40 ml of water and 20 ml of air. After shaking for 2 minutes, 10 ml of the headspace (containing the methane) was transferred into 20-ml vials, which had been filled completely with saturated NaCl solution. Methane concentrations in the headspace were measured with a Shimadzu GC 2014, a Rt Alumina Bond column and at 50° for 2 min in the laboratory in Germany. Further calculations of the amount of dissolved methane were performed according to Magen et al. (2014). Dissolved inorganic carbon and total alkalinity: Water samples for dissolved inorganic carbon and total alkalinitiy (DIC and TA) were filtered through a pre-rinsed Pall AcroPak 1000 Supor Membrane 0.8/0.2 μm filter. The filtered water sample was filled into 250 ml Pyrex borosilicate glass bottles. One end of silicone tubing from the filter was placed at the bottom of the glass bottle and the bottle was rotated while filling to ensure no bubbles accumulated inside. Overflowing was allowed to avoid the persistence of any minute bubbles. Samples were preserved by adding 100 μl of 50% saturated HgCl2 solution after removing 2.5 ml of sampled water for headspace (Dickson et al., 2007). A thin layer of silicone grease was applied around the glass stoppers and the bottles were sealed and stored in the dark for later analysis at GEOMAR. Analysis was performed using a conventional titration method for TA and coulometric titration for DIC on a SOMMA (Marianda) analyzer Dissolved organic carbon and nitrogen: Water samples for dissolved organic carbon (DOC) and nitrogen (DON) were filtered through a pre-rinsed Pall AcroPak 1000 Supor Membrane 0.8/0.2 μm filter. The filtered water was collected directly into pre-combusted 30 ml borosilicate glass vials and 100 µl of 4M HCl was added to preserve the samples by lowering the pH of the solution values less than 2. Samples were analyzed by a Shimadzu TOC V series analyzer at Geomar (Germany). Inorganic nutrients: Water samples for inorganic nutrients (nitrate/nitrite, phosphate and silicate) were taken from 2 L Nalgene bottles in the laboratory within a few hours of sampling. During sampling, latex gloves were worn to avoid contamination. A pre-rinsed Pall AcroPak 1000 Supor Membrane 0.8/0.2 μm filter (with pre-filter) was used to transfer samples into acid washed (10% HCl) 50 ml polypropylene conical centrifuge tubes from Jet Biofil. Samples were preserved with the addition of 100 μl 4M HCl since freezing was not an option. Samples were analyzed at GEOMAR using a Seal QuAAtro AutoAnalyzer (precision and accuracy values: ± 2.20 µmol/kg and ± 5 µmol/kg). Dissolved organic carbon, cations, anions, stable isotopes: Water samples for dissolved organic carbon (DOC) were filtered through a pre-rinsed disposable syringe with a GF/F filter of 0.7 μm pore size. For DOC, 20 ml of filtrate was placed into a glass vial and 25 μl of 30 % HCl was added for conservation. Samples were also collected for the analyses of stable isotopes of water (unfiltered, 30 ml), major cation/total element concentrations (15 ml, filtered through 0.45 μm pore size cellulose acetate filters and conserved with 65% HNO3), and major anion concentrations (8 ml, filtered through 0.45 μm pore size cellulose acetate filters). DOC was measured with a Shimadzu Total Organic Carbon Analyzer (TOC-VCPH). Anion concentrations were analyzed with ion chromatography (IC) using a DIONEX/Thermo ICS-2100 measuring device. Cation concentrations were measured with inductively coupled plasma optical emission spectrometry (ICP-OES) on a Perkin Elmer Optima 8300DV. Stable water isotopes were measured with an Isotope Ratio Mass Spectrometer (IRMS: Delta-S (DIFE)).
    Keywords: Alkalinity, total; Aluminium; AWI Arctic Land Expedition; Barium 2+; Bromide; CA-Land_2018_TrailValleyCreek; Calcium; Carbon, inorganic, dissolved; Carbon, organic, dissolved; Chloride; Conductivity, electrical; Continuous Segmented Flow Analyzer, SEAL Analytical, QuAAtro39; Coulometric titration; Date/Time of event; DEPTH, water; Deuterium excess; Event label; Fluoride; Gas chromatograph, Shimadzu 2014; Inductively coupled plasma optical emission spectrometry (ICP-OES), Perkin-Elmer, Optima 8300DV; Iron; Latitude of event; Location; Longitude of event; Magnesium; Manganese; Mass spectrometer Finnigan Delta-S; mCAN2018_L3-1; mCAN2018_L3-2; mCAN2018_L3-3; mCAN2018_L3-4; mCAN2018_L6-1; mCAN2018_L6-2; mCAN2018_L6-3; mCAN2018_L6-4; mCAN2018_L6-5; mCAN2018_L6-6; mCAN2018_L6-7; mCAN2018_L6-8; mCAN2018_L9-1; mCAN2018_L9-10; mCAN2018_L9-11; mCAN2018_L9-12; mCAN2018_L9-13; mCAN2018_L9-14; mCAN2018_L9-2; mCAN2018_L9-3; mCAN2018_L9-4; mCAN2018_L9-5; mCAN2018_L9-6; mCAN2018_L9-7; mCAN2018_L9-8; mCAN2018_L9-9; mCAN2018_R-1; mCAN2018_R-10; mCAN2018_R-2; mCAN2018_R-3; mCAN2018_R-4; mCAN2018_R-5; mCAN2018_R-6; mCAN2018_R-7; mCAN2018_R-8; mCAN2018_R-9; mCAN2018_T1-1; mCAN2018_T1-10; mCAN2018_T1-11; mCAN2018_T1-12; mCAN2018_T1-2; mCAN2018_T1-3; mCAN2018_T1-4; mCAN2018_T1-5; mCAN2018_T1-6; mCAN2018_T1-7; mCAN2018_T1-8; mCAN2018_T1-9; mCAN2018_T2-1; mCAN2018_T2-10; mCAN2018_T2-11; mCAN2018_T2-12; mCAN2018_T2-2; mCAN2018_T2-3; mCAN2018_T2-4; mCAN2018_T2-5; mCAN2018_T2-6; mCAN2018_T2-7; mCAN2018_T2-8; mCAN2018_T2-9; mCAN2018_T3-1; mCAN2018_T3-2; mCAN2018_T3-3; mCAN2018_T3-4; mCAN2018_T3-5; mCAN2018_T3-6; mCAN2018_T3-7; mCAN2018_T3-8; mCAN2018_T4-1; mCAN2018_T4-10; mCAN2018_T4-11; mCAN2018_T4-12; mCAN2018_T4-2; mCAN2018_T4-3; mCAN2018_T4-4; mCAN2018_T4-5; mCAN2018_T4-6; mCAN2018_T4-7; mCAN2018_T4-8; mCAN2018_T4-9; Methane; Modular Observation Solutions for Earth Systems; MOSES; MOSES, mCan2018; Multiprobe, WTW 340i; Nitrate; Nitrite; Nitrogen, organic, dissolved; Northwest Territories, Canada; Oxygen, dissolved; pH; Phosphate; Phosphorus; Potassium; Sample ID; Shimadzu TOC-VCPH total organic carbon analyzer; Silicate; Silicon; Sodium; Strontium 2+; Sulfate; Thermo Scientific Dionex IonPac AS11-HC-4μm Anion-Exchange Column fitted to a Thermo Scientific Dionex ICS-5000 Ion Chromatography; Water sample; WS; δ18O, water; δ18O, water, standard deviation; δ Deuterium, standard deviation; δ Deuterium, water
    Type: Dataset
    Format: text/tab-separated-values, 2492 data points
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  • 20
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    Colored dissolved organic matter of lakes and coastal sites in the MacKenzie River Delta in summer 2018 (2020)
    PANGAEA
    Details
    Publication Date: 2024-03-20
    Description: Water samples were taken at the surface and the bottom in transects crossing the lake or coastal site from locations with observed erosion to presumably undisturbed locations. The water sampler (1.5 L Uwitec, Austria) was attached to a graduated rope, lowered by hand and filled twice. Combined water samples were transferred to 2 L Nalgene bottles, filled to the top and subsampled at the field station for further analysis. Water samples for colored dissolved organic matter (cDOM) were filtered through a pre-rinsed disposable syringe with a GF/F filter of 0.7 μm pore size. For cDOM, about 40 ml of filtrate was filled into dark glass bottles and placed in cool storage. Absorption by CDOM was measured at the German Research Centre for Geosciences (GFZ), Potsdam, Germany using a LAMBDA 158 950 UV/Vis (PerkinElmer). The median absorbance of three replicate measurements was used to calculate the absorption. Fresh Milli-Q water was used as reference.
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    Type: Dataset
    Format: text/tab-separated-values, 39260 data points
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