GLORIA — GEOMAR Library Ocean Research Information Access

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Rapid decline of the CO2buffering capacity in the North Sea and implications for the North Atlantic Ocean (2007)

Thomas, Helmuth ; Prowe, A.E. Friederike ; van Heuven, Steven ; [et al.]

AGU (American Geophysical Union)

In: Global Biogeochemical Cycles, 21 (4). GB4001.

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Publication Date: 2018-12-14

Description: New observations from the North Sea, a NW European shelf sea, show that between 2001 and 2005 the CO2 partial pressure (pCO2) in surface waters rose by 22 μatm, thus faster than atmospheric pCO2, which in the same period rose approximately 11 μatm. The surprisingly rapid decline in air‐sea partial pressure difference (ΔpCO2) is primarily a response to an elevated water column inventory of dissolved inorganic carbon (DIC), which, in turn, reflects mostly anthropogenic CO2 input rather than natural interannual variability. The resulting decline in the buffering capacity of the inorganic carbonate system (increasing Revelle factor) sets up a theoretically predicted feedback loop whereby the invasion of anthropogenic CO2 reduces the ocean's ability to uptake additional CO2. Model simulations for the North Atlantic Ocean and thermodynamic principles reveal that this feedback should be stronger, at present, in colder midlatitude and subpolar waters because of the lower present‐day buffer capacity and elevated DIC levels driven either by northward advected surface water and/or excess local air‐sea CO2 uptake. This buffer capacity feedback mechanism helps to explain at least part of the observed trend of decreasing air‐sea ΔpCO2 over time as reported in several other recent North Atlantic studies.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/2006GB002825

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OceanRep: Article in a Scientific Journal - peer-reviewed

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Hydrochemistry measured on water bottle samples during PELAGIA cruise 64PE190 (2006)

Thomas, Helmuth

PANGAEA

In: Department of Oceanography, Dalhousie University, Halifax

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Publication Date: 2023-03-14

Keywords: 64PE190; 64PE190-1; 64PE190-10; 64PE190-11; 64PE190-12; 64PE190-13; 64PE190-14; 64PE190-15; 64PE190-16; 64PE190-17; 64PE190-18; 64PE190-19; 64PE190-1a; 64PE190-1b; 64PE190-1c; 64PE190-1d; 64PE190-1e; 64PE190-2; 64PE190-20; 64PE190-21; 64PE190-22; 64PE190-23; 64PE190-24; 64PE190-25; 64PE190-26; 64PE190-27; 64PE190-28; 64PE190-29; 64PE190-3; 64PE190-30; 64PE190-31; 64PE190-32; 64PE190-33; 64PE190-34; 64PE190-35; 64PE190-36; 64PE190-37; 64PE190-38; 64PE190-39; 64PE190-4; 64PE190-40; 64PE190-41; 64PE190-42; 64PE190-43; 64PE190-44; 64PE190-45; 64PE190-46; 64PE190-47; 64PE190-48; 64PE190-49; 64PE190-5; 64PE190-50; 64PE190-51; 64PE190-52; 64PE190-53; 64PE190-54; 64PE190-55; 64PE190-56; 64PE190-57; 64PE190-58; 64PE190-59; 64PE190-6; 64PE190-60; 64PE190-61; 64PE190-62; 64PE190-63; 64PE190-64; 64PE190-65; 64PE190-66; 64PE190-67; 64PE190-68; 64PE190-69; 64PE190-7; 64PE190-70; 64PE190-71; 64PE190-72; 64PE190-73; 64PE190-74; 64PE190-75; 64PE190-76; 64PE190-77; 64PE190-78; 64PE190-79; 64PE190-8; 64PE190-80; 64PE190-81; 64PE190-82; 64PE190-83; 64PE190-84; 64PE190-85; 64PE190-86; 64PE190-87; 64PE190-88; 64PE190-89; 64PE190-9; 64PE190-90; 64PE190-91; 64PE190-92; Alkalinity, total; Ammonium; Bottle number; Calculated; Calculated from depth, temperature, and salinity; CANOBA_III-1; CANOBA_III-10; CANOBA_III-11; CANOBA_III-12; CANOBA_III-13; CANOBA_III-14; CANOBA_III-15; CANOBA_III-16; CANOBA_III-17; CANOBA_III-18; CANOBA_III-19; CANOBA_III-1a; CANOBA_III-1b; CANOBA_III-1c; CANOBA_III-1d; CANOBA_III-1e; CANOBA_III-2; CANOBA_III-20; CANOBA_III-21; CANOBA_III-22; CANOBA_III-23; CANOBA_III-24; CANOBA_III-25; CANOBA_III-26; CANOBA_III-27; CANOBA_III-28; CANOBA_III-29; CANOBA_III-3; CANOBA_III-30; CANOBA_III-31; CANOBA_III-32; CANOBA_III-33; CANOBA_III-34; CANOBA_III-35; CANOBA_III-36; CANOBA_III-37; CANOBA_III-38; CANOBA_III-39; CANOBA_III-4; CANOBA_III-40; CANOBA_III-41; CANOBA_III-42; CANOBA_III-43; CANOBA_III-44; CANOBA_III-45; CANOBA_III-46; CANOBA_III-47; CANOBA_III-48; CANOBA_III-49; CANOBA_III-5; CANOBA_III-50; CANOBA_III-51; CANOBA_III-52; CANOBA_III-53; CANOBA_III-54; CANOBA_III-55; CANOBA_III-56; CANOBA_III-57; CANOBA_III-58; CANOBA_III-59; CANOBA_III-6; CANOBA_III-60; CANOBA_III-61; CANOBA_III-62; CANOBA_III-63; CANOBA_III-64; CANOBA_III-65; CANOBA_III-66; CANOBA_III-67; CANOBA_III-68; CANOBA_III-69; CANOBA_III-7; CANOBA_III-70; CANOBA_III-71; CANOBA_III-72; CANOBA_III-73; CANOBA_III-74; CANOBA_III-75; CANOBA_III-76; CANOBA_III-77; CANOBA_III-78; CANOBA_III-79; CANOBA_III-8; CANOBA_III-80; CANOBA_III-81; CANOBA_III-82; CANOBA_III-83; CANOBA_III-84; CANOBA_III-85; CANOBA_III-86; CANOBA_III-87; CANOBA_III-88; CANOBA_III-89; CANOBA_III-9; CANOBA_III-90; CANOBA_III-91; CANOBA_III-92; CANOBA III; Carbon, inorganic, dissolved; CO2BaseSleipner; Coulometric titration (Knap et al., 1996, IOC Manuals and Guides 29, UNESCO); CTD/Rosette; CTD-RO; Date/Time of event; Density, mass density; DEPTH, water; Event label; Latitude of event; Longitude of event; Nitrate; Nitrite; North Sea; Oxygen; Oxygen, apparent utilization; Oxygen saturation; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagia; pH; Phosphate; Quality code; Salinity; Silicate; Temperature, water

Type: Dataset

Format: text/tab-separated-values, 10526 data points

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Hydrochemistry measured on water bottle samples during PELAGIA cruise 64PE187 (2006)

Thomas, Helmuth

PANGAEA

In: Department of Oceanography, Dalhousie University, Halifax

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Publication Date: 2023-03-03

Keywords: 64PE187; 64PE187-1; 64PE187-10; 64PE187-11; 64PE187-12; 64PE187-13; 64PE187-14; 64PE187-15; 64PE187-16; 64PE187-17; 64PE187-18; 64PE187-19; 64PE187-1a; 64PE187-1b; 64PE187-1c; 64PE187-1d; 64PE187-1e; 64PE187-2; 64PE187-20; 64PE187-21; 64PE187-22; 64PE187-23; 64PE187-24; 64PE187-25; 64PE187-26; 64PE187-27; 64PE187-28; 64PE187-29; 64PE187-3; 64PE187-30; 64PE187-31; 64PE187-32; 64PE187-33; 64PE187-34; 64PE187-35; 64PE187-36; 64PE187-37; 64PE187-38; 64PE187-39; 64PE187-4; 64PE187-40; 64PE187-41; 64PE187-42; 64PE187-43; 64PE187-44; 64PE187-45; 64PE187-46; 64PE187-47; 64PE187-48; 64PE187-49; 64PE187-5; 64PE187-50; 64PE187-51; 64PE187-52; 64PE187-53; 64PE187-54; 64PE187-55; 64PE187-56; 64PE187-57; 64PE187-58; 64PE187-59; 64PE187-6; 64PE187-60; 64PE187-61; 64PE187-62; 64PE187-63; 64PE187-64; 64PE187-65; 64PE187-66; 64PE187-67; 64PE187-68; 64PE187-69; 64PE187-7; 64PE187-70; 64PE187-71; 64PE187-72; 64PE187-73; 64PE187-74; 64PE187-75; 64PE187-76; 64PE187-77; 64PE187-78; 64PE187-79; 64PE187-8; 64PE187-80; 64PE187-81; 64PE187-82; 64PE187-83; 64PE187-84; 64PE187-85; 64PE187-86; 64PE187-87; 64PE187-88; 64PE187-89; 64PE187-9; 64PE187-90; 64PE187-91; 64PE187-92; Alkalinity, total; Ammonium; Bottle number; Calculated from depth, temperature, and salinity; CANOBA_II-1; CANOBA_II-10; CANOBA_II-11; CANOBA_II-12; CANOBA_II-13; CANOBA_II-14; CANOBA_II-15; CANOBA_II-16; CANOBA_II-17; CANOBA_II-18; CANOBA_II-19; CANOBA_II-1a; CANOBA_II-1b; CANOBA_II-1c; CANOBA_II-1d; CANOBA_II-1e; CANOBA_II-2; CANOBA_II-20; CANOBA_II-21; CANOBA_II-22; CANOBA_II-23; CANOBA_II-24; CANOBA_II-25; CANOBA_II-26; CANOBA_II-27; CANOBA_II-28; CANOBA_II-29; CANOBA_II-3; CANOBA_II-30; CANOBA_II-31; CANOBA_II-32; CANOBA_II-33; CANOBA_II-34; CANOBA_II-35; CANOBA_II-36; CANOBA_II-37; CANOBA_II-38; CANOBA_II-39; CANOBA_II-4; CANOBA_II-40; CANOBA_II-41; CANOBA_II-42; CANOBA_II-43; CANOBA_II-44; CANOBA_II-45; CANOBA_II-46; CANOBA_II-47; CANOBA_II-48; CANOBA_II-49; CANOBA_II-5; CANOBA_II-50; CANOBA_II-51; CANOBA_II-52; CANOBA_II-53; CANOBA_II-54; CANOBA_II-55; CANOBA_II-56; CANOBA_II-57; CANOBA_II-58; CANOBA_II-59; CANOBA_II-6; CANOBA_II-60; CANOBA_II-61; CANOBA_II-62; CANOBA_II-63; CANOBA_II-64; CANOBA_II-65; CANOBA_II-66; CANOBA_II-67; CANOBA_II-68; CANOBA_II-69; CANOBA_II-7; CANOBA_II-70; CANOBA_II-71; CANOBA_II-72; CANOBA_II-73; CANOBA_II-74; CANOBA_II-75; CANOBA_II-76; CANOBA_II-77; CANOBA_II-78; CANOBA_II-79; CANOBA_II-8; CANOBA_II-80; CANOBA_II-81; CANOBA_II-82; CANOBA_II-83; CANOBA_II-84; CANOBA_II-85; CANOBA_II-86; CANOBA_II-87; CANOBA_II-88; CANOBA_II-89; CANOBA_II-9; CANOBA_II-90; CANOBA_II-91; CANOBA_II-92; CANOBA II; Carbon, inorganic, dissolved; CO2BaseSleipner; Coulometric titration (Knap et al., 1996, IOC Manuals and Guides 29, UNESCO); CTD/Rosette; CTD-RO; Date/Time of event; Density, mass density; DEPTH, water; Event label; Latitude of event; Longitude of event; Nitrate; Nitrite; North Sea; Oxygen; Pelagia; Phosphate; Quality code; Salinity; Silicate; Temperature, water

Type: Dataset

Format: text/tab-separated-values, 7308 data points

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Hydrochemistry measured on water bottle samples during PELAGIA cruise 64PE184 (2006)

Thomas, Helmuth

PANGAEA

In: Department of Oceanography, Dalhousie University, Halifax

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Publication Date: 2023-03-03

Keywords: 64PE184; 64PE184-1; 64PE184-10; 64PE184-11; 64PE184-12; 64PE184-13; 64PE184-14; 64PE184-15; 64PE184-16; 64PE184-17; 64PE184-18; 64PE184-19; 64PE184-1a; 64PE184-1b; 64PE184-1c; 64PE184-1d; 64PE184-1e; 64PE184-2; 64PE184-20; 64PE184-21; 64PE184-22; 64PE184-23; 64PE184-24; 64PE184-25; 64PE184-26; 64PE184-27; 64PE184-28; 64PE184-29; 64PE184-3; 64PE184-30; 64PE184-31; 64PE184-32; 64PE184-33; 64PE184-34; 64PE184-35; 64PE184-36; 64PE184-37; 64PE184-38; 64PE184-39; 64PE184-4; 64PE184-40; 64PE184-41; 64PE184-42; 64PE184-43; 64PE184-44; 64PE184-45; 64PE184-46; 64PE184-47; 64PE184-48; 64PE184-49; 64PE184-5; 64PE184-50; 64PE184-51; 64PE184-52; 64PE184-53; 64PE184-54; 64PE184-55; 64PE184-56; 64PE184-57; 64PE184-58; 64PE184-59; 64PE184-6; 64PE184-60; 64PE184-61; 64PE184-62; 64PE184-63; 64PE184-64; 64PE184-65; 64PE184-66; 64PE184-67; 64PE184-68; 64PE184-69; 64PE184-7; 64PE184-70; 64PE184-71; 64PE184-72; 64PE184-73; 64PE184-74; 64PE184-75; 64PE184-76; 64PE184-77; 64PE184-78; 64PE184-79; 64PE184-8; 64PE184-80; 64PE184-81; 64PE184-82; 64PE184-83; 64PE184-84; 64PE184-85; 64PE184-86; 64PE184-87; 64PE184-88; 64PE184-89; 64PE184-9; 64PE184-90; 64PE184-91; 64PE184-92; Alkalinity, total; Ammonium; Bottle number; Calculated from depth, temperature, and salinity; CANOBA_I-1; CANOBA_I-10; CANOBA_I-11; CANOBA_I-12; CANOBA_I-13; CANOBA_I-14; CANOBA_I-15; CANOBA_I-16; CANOBA_I-17; CANOBA_I-18; CANOBA_I-19; CANOBA_I-1a; CANOBA_I-1b; CANOBA_I-1c; CANOBA_I-1d; CANOBA_I-1e; CANOBA_I-2; CANOBA_I-20; CANOBA_I-21; CANOBA_I-22; CANOBA_I-23; CANOBA_I-24; CANOBA_I-25; CANOBA_I-26; CANOBA_I-27; CANOBA_I-28; CANOBA_I-29; CANOBA_I-3; CANOBA_I-30; CANOBA_I-31; CANOBA_I-32; CANOBA_I-33; CANOBA_I-34; CANOBA_I-35; CANOBA_I-36; CANOBA_I-37; CANOBA_I-38; CANOBA_I-39; CANOBA_I-4; CANOBA_I-40; CANOBA_I-41; CANOBA_I-42; CANOBA_I-43; CANOBA_I-44; CANOBA_I-45; CANOBA_I-46; CANOBA_I-47; CANOBA_I-48; CANOBA_I-49; CANOBA_I-5; CANOBA_I-50; CANOBA_I-51; CANOBA_I-52; CANOBA_I-53; CANOBA_I-54; CANOBA_I-55; CANOBA_I-56; CANOBA_I-57; CANOBA_I-58; CANOBA_I-59; CANOBA_I-6; CANOBA_I-60; CANOBA_I-61; CANOBA_I-62; CANOBA_I-63; CANOBA_I-64; CANOBA_I-65; CANOBA_I-66; CANOBA_I-67; CANOBA_I-68; CANOBA_I-69; CANOBA_I-7; CANOBA_I-70; CANOBA_I-71; CANOBA_I-72; CANOBA_I-73; CANOBA_I-74; CANOBA_I-75; CANOBA_I-76; CANOBA_I-77; CANOBA_I-78; CANOBA_I-79; CANOBA_I-8; CANOBA_I-80; CANOBA_I-81; CANOBA_I-82; CANOBA_I-83; CANOBA_I-84; CANOBA_I-85; CANOBA_I-86; CANOBA_I-87; CANOBA_I-88; CANOBA_I-89; CANOBA_I-9; CANOBA_I-90; CANOBA_I-91; CANOBA_I-92; CANOBA I; Carbon, inorganic, dissolved; CO2BaseSleipner; Coulometric titration (Knap et al., 1996, IOC Manuals and Guides 29, UNESCO); CTD/Rosette; CTD-RO; Date/Time of event; Density, mass density; DEPTH, water; Event label; Latitude of event; Longitude of event; Nitrate; Nitrite; North Sea; Oxygen; Pelagia; Phosphate; Quality code; Salinity; Silicate; Temperature, water

Type: Dataset

Format: text/tab-separated-values, 8657 data points

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Hydrochemistry measured on water bottle samples during PELAGIA cruise 64PE195 (2006)

Thomas, Helmuth

PANGAEA

In: Department of Oceanography, Dalhousie University, Halifax

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Publication Date: 2023-03-03

Keywords: 64PE195; 64PE195-1; 64PE195-10; 64PE195-11; 64PE195-12; 64PE195-13; 64PE195-14; 64PE195-15; 64PE195-16; 64PE195-17; 64PE195-18; 64PE195-19; 64PE195-1a; 64PE195-1b; 64PE195-1c; 64PE195-1d; 64PE195-1e; 64PE195-2; 64PE195-20; 64PE195-21; 64PE195-22; 64PE195-23; 64PE195-24; 64PE195-25; 64PE195-26; 64PE195-27; 64PE195-28; 64PE195-29; 64PE195-3; 64PE195-30; 64PE195-31; 64PE195-32; 64PE195-33; 64PE195-34; 64PE195-35; 64PE195-36; 64PE195-37; 64PE195-38; 64PE195-39; 64PE195-4; 64PE195-40; 64PE195-41; 64PE195-42; 64PE195-43; 64PE195-44; 64PE195-45; 64PE195-46; 64PE195-47; 64PE195-48; 64PE195-49; 64PE195-5; 64PE195-50; 64PE195-51; 64PE195-52; 64PE195-53; 64PE195-54; 64PE195-55; 64PE195-56; 64PE195-57; 64PE195-58; 64PE195-59; 64PE195-6; 64PE195-60; 64PE195-61; 64PE195-62; 64PE195-63; 64PE195-64; 64PE195-65; 64PE195-66; 64PE195-67; 64PE195-68; 64PE195-69; 64PE195-7; 64PE195-70; 64PE195-71; 64PE195-72; 64PE195-73; 64PE195-74; 64PE195-75; 64PE195-76; 64PE195-77; 64PE195-78; 64PE195-79; 64PE195-8; 64PE195-80; 64PE195-81; 64PE195-82; 64PE195-83; 64PE195-84; 64PE195-85; 64PE195-86; 64PE195-87; 64PE195-88; 64PE195-89; 64PE195-9; 64PE195-90; 64PE195-91; 64PE195-92; Alkalinity, total; Ammonium; Bottle number; Calculated from depth, temperature, and salinity; CANOBA_IV-1; CANOBA_IV-10; CANOBA_IV-11; CANOBA_IV-12; CANOBA_IV-13; CANOBA_IV-14; CANOBA_IV-15; CANOBA_IV-16; CANOBA_IV-17; CANOBA_IV-18; CANOBA_IV-19; CANOBA_IV-1a; CANOBA_IV-1b; CANOBA_IV-1c; CANOBA_IV-1d; CANOBA_IV-1e; CANOBA_IV-2; CANOBA_IV-20; CANOBA_IV-21; CANOBA_IV-22; CANOBA_IV-23; CANOBA_IV-24; CANOBA_IV-25; CANOBA_IV-26; CANOBA_IV-27; CANOBA_IV-28; CANOBA_IV-29; CANOBA_IV-3; CANOBA_IV-30; CANOBA_IV-31; CANOBA_IV-32; CANOBA_IV-33; CANOBA_IV-34; CANOBA_IV-35; CANOBA_IV-36; CANOBA_IV-37; CANOBA_IV-38; CANOBA_IV-39; CANOBA_IV-4; CANOBA_IV-40; CANOBA_IV-41; CANOBA_IV-42; CANOBA_IV-43; CANOBA_IV-44; CANOBA_IV-45; CANOBA_IV-46; CANOBA_IV-47; CANOBA_IV-48; CANOBA_IV-49; CANOBA_IV-5; CANOBA_IV-50; CANOBA_IV-51; CANOBA_IV-52; CANOBA_IV-53; CANOBA_IV-54; CANOBA_IV-55; CANOBA_IV-56; CANOBA_IV-57; CANOBA_IV-58; CANOBA_IV-59; CANOBA_IV-6; CANOBA_IV-60; CANOBA_IV-61; CANOBA_IV-62; CANOBA_IV-63; CANOBA_IV-64; CANOBA_IV-65; CANOBA_IV-66; CANOBA_IV-67; CANOBA_IV-68; CANOBA_IV-69; CANOBA_IV-7; CANOBA_IV-70; CANOBA_IV-71; CANOBA_IV-72; CANOBA_IV-73; CANOBA_IV-74; CANOBA_IV-75; CANOBA_IV-76; CANOBA_IV-77; CANOBA_IV-78; CANOBA_IV-79; CANOBA_IV-8; CANOBA_IV-80; CANOBA_IV-81; CANOBA_IV-82; CANOBA_IV-83; CANOBA_IV-84; CANOBA_IV-85; CANOBA_IV-86; CANOBA_IV-87; CANOBA_IV-88; CANOBA_IV-89; CANOBA_IV-9; CANOBA_IV-90; CANOBA_IV-91; CANOBA_IV-92; CANOBA IV; Carbon, inorganic, dissolved; CO2BaseSleipner; Coulometric titration (Knap et al., 1996, IOC Manuals and Guides 29, UNESCO); CTD/Rosette; CTD-RO; Date/Time of event; Density, mass density; DEPTH, water; Event label; Latitude of event; Longitude of event; Nitrate; Nitrite; North Sea; Oxygen; Pelagia; Phosphate; Quality code; Salinity; Silicate; Temperature, water

Type: Dataset

Format: text/tab-separated-values, 8158 data points

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Underway pCO2 measurements in the North Sea of Pelagia cruise 64PE20050817 (2006)

Thomas, Helmuth ; Borges, Alberto Vieira

PANGAEA

In: Department of Oceanography, Dalhousie University, Halifax

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Publication Date: 2023-09-12

Keywords: 64PE20050817; 64PE20050817-EQL-track; CARBOOCEAN; CO2BaseSleipner; DATE/TIME; DEPTH, water; EQL; Equilibrator; Fluorescence; Humidity, relative; LATITUDE; LONGITUDE; Marine carbon sources and sinks assessment; North Sea; Partial pressure of carbon dioxide (ambient atmosphere); Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagia; Pressure, atmospheric; Salinity; Temperature, air; Temperature, water; Temperature at equilibration; Wind direction; Wind speed

Type: Dataset

Format: text/tab-separated-values, 174690 data points

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Hydrochemistry measured on water bottle samples during PELAGIA cruise 64PE239 (2006)

Thomas, Helmuth ; Borges, Alberto Vieira

PANGAEA

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Publication Date: 2024-02-27

Keywords: 64PE239; 64PE239-1; 64PE239-10; 64PE239-11; 64PE239-12; 64PE239-13; 64PE239-14; 64PE239-15; 64PE239-16; 64PE239-17; 64PE239-18; 64PE239-19; 64PE239-2; 64PE239-20; 64PE239-21; 64PE239-22; 64PE239-23; 64PE239-24; 64PE239-25; 64PE239-26; 64PE239-27; 64PE239-28; 64PE239-29; 64PE239-3; 64PE239-30; 64PE239-31; 64PE239-32; 64PE239-33; 64PE239-35; 64PE239-36; 64PE239-37; 64PE239-38; 64PE239-39; 64PE239-4; 64PE239-40; 64PE239-41; 64PE239-42; 64PE239-43; 64PE239-44; 64PE239-45; 64PE239-46; 64PE239-47; 64PE239-48; 64PE239-49; 64PE239-5; 64PE239-50; 64PE239-51; 64PE239-52; 64PE239-53; 64PE239-54; 64PE239-55; 64PE239-56; 64PE239-57; 64PE239-58; 64PE239-59; 64PE239-6; 64PE239-60; 64PE239-61; 64PE239-62; 64PE239-63; 64PE239-64; 64PE239-65; 64PE239-66; 64PE239-67; 64PE239-68; 64PE239-69; 64PE239-7; 64PE239-70; 64PE239-71; 64PE239-72; 64PE239-73; 64PE239-74; 64PE239-75; 64PE239-76; 64PE239-77; 64PE239-78; 64PE239-79; 64PE239-8; 64PE239-80; 64PE239-81; 64PE239-82; 64PE239-83; 64PE239-84; 64PE239-85; 64PE239-86; 64PE239-88; 64PE239-89; 64PE239-9; 64PE239-90; 64PE239-91; 64PE239-92; Alkalinity, Gran titration (Gran, 1950); Alkalinity, total; Ammonium; Bottle number; Calculated; Carbon, inorganic, dissolved; CARBOOCEAN; CO2BaseSleipner; CTD, Sea-Bird SBE 911plus; CTD/Rosette; CTD-RO; Date/Time of event; Density, mass density; DEPTH, water; Elevation of event; Event label; Latitude of event; Longitude of event; Marine carbon sources and sinks assessment; Nitrate; Nitrite; North Sea; Oxygen; Pelagia; pH; pH, Electrode; Phosphate; Salinity; Silicate; Temperature, water

Type: Dataset

Format: text/tab-separated-values, 9828 data points

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Cruise Report of the cruise 64PE239, Texel, NL - Peterhead, UK, 17.08.2005-06.09.2005 (2006)

Thomas, Helmuth

NIOZ

In: EPIC3Texel, Netherlands, NIOZ

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Publication Date: 2019-07-17

Repository Name: EPIC Alfred Wegener Institut

Type: PANGAEA Documentation , notRev

Format: application/pdf

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Strong margin influence on the Arctic Ocean Barium Cycle revealed by pan‐Arctic synthesis (2022)

Whitmore, Laura M. ; Shiller, Alan M. ; Horner, Tristan J. ; [et al.]

American Geophysical Union

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Publication Date: 2022-10-26

Description: © The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Whitmore, L., Shiller, A., Horner, T., Xiang, Y., Auro, M., Bauch, D., Dehairs, F., Lam, P., Li, J., Maldonado, M., Mears, C., Newton, R., Pasqualini, A., Planquette, H., Rember, R., & Thomas, H. Strong margin influence on the Arctic Ocean Barium Cycle revealed by pan‐Arctic synthesis. Journal of Geophysical Research: Oceans, 127(4), (2022): e2021JC017417, https://doi.org/10.1029/2021jc017417.

Description: Early studies revealed relationships between barium (Ba), particulate organic carbon and silicate, suggesting applications for Ba as a paleoproductivity tracer and as a tracer of modern ocean circulation. But, what controls the distribution of barium (Ba) in the oceans? Here, we investigated the Arctic Ocean Ba cycle through a one-of-a-kind data set containing dissolved (dBa), particulate (pBa), and stable isotope Ba ratio (δ138Ba) data from four Arctic GEOTRACES expeditions conducted in 2015. We hypothesized that margins would be a substantial source of Ba to the Arctic Ocean water column. The dBa, pBa, and δ138Ba distributions all suggest significant modification of inflowing Pacific seawater over the shelves, and the dBa mass balance implies that ∼50% of the dBa inventory (upper 500 m of the Arctic water column) was supplied by nonconservative inputs. Calculated areal dBa fluxes are up to 10 μmol m−2 day−1 on the margin, which is comparable to fluxes described in other regions. Applying this approach to dBa data from the 1994 Arctic Ocean Survey yields similar results. The Canadian Arctic Archipelago did not appear to have a similar margin source; rather, the dBa distribution in this section is consistent with mixing of Arctic Ocean-derived waters and Baffin Bay-derived waters. Although we lack enough information to identify the specifics of the shelf sediment Ba source, we suspect that a sedimentary remineralization and terrigenous sources (e.g., submarine groundwater discharge or fluvial particles) are contributors.

Description: This research was supported by the National Science Foundation [OCE-1434312 (AMS), OCE-1436666 (RN), OCE-1535854 (PL), OCE-1736949, OCE-2023456 (TJH), and OCE-1829563 (R. Anderson for open access support)], Natural Sciences and Engineering Research Council of Canada (NSERC)-Climate Change and Atmospheric Research (CCAR) Program (MTM), and LEFE-CYBER EXPATE (HP). HT acknowledges support by the Canadian GEOTRACES via NSERC-CCAR and the German Academic Exchange Service (DAAD): MOPGA-GRI (Make Our Planet Great Again—Research Initiative) sponsored by BMBF (Federal German Ministry of Education and Research; Grant No. 57429828).

Keywords: GEOTRACES ; Barium isotopes ; Geochemical cycles ; Climate ; Continental shelves

Repository Name: Woods Hole Open Access Server

Type: Article

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Using Ra-226 and Ra-228 isotopes to distinguish water mass distribution in the Canadian Arctic Archipelago (2020)

Mears, Chantal ; Thomas, Helmuth ; Henderson, Paul B. ; [et al.]

European Geosciences Union

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Publication Date: 2022-05-26

Description: © The Author(s), 2020. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Mears, C., Thomas, H., Henderson, P. B., Charette, M. A., MacIntyre, H., Dehairs, F., Monnin, C., & Mucci, A. Using Ra-226 and Ra-228 isotopes to distinguish water mass distribution in the Canadian Arctic Archipelago. Biogeosciences, 17(20), (2020): 4937-4959, doi:10.5194/bg-17-4937-2020.

Description: As a shelf-dominated basin, the Arctic Ocean and its biogeochemistry are heavily influenced by continental and riverine sources. Radium isotopes (226Ra, 228Ra, 224Ra, and 223Ra), are transferred from the sediments to seawater, making them ideal tracers of sediment–water exchange processes and ocean mixing. As the two long-lived isotopes of the radium quartet, 226Ra and 228Ra (226Ra with a t1∕2 of 1600 years and 228Ra with a t1∕2 of 5.8 years) can provide insight into the water mass compositions, distribution patterns, as well as mixing processes and their associated timescales throughout the Canadian Arctic Archipelago (CAA). The wide range of 226Ra and 228Ra activities, as well as of the 228Ra∕226Ra, measured in water samples collected during the 2015 GEOTRACES cruise, complemented by additional chemical tracers – dissolved inorganic carbon (DIC), total alkalinity (AT), barium (Ba), and the stable oxygen isotope composition of water (δ18O) – highlight the dominant biogeochemical, hydrographic, and bathymetric features of the CAA. Bathymetric features, such as the continental shelf and shallow coastal sills, are critical in modulating circulation patterns within the CAA, including the bulk flow of Pacific waters and the inhibited eastward flow of denser Atlantic waters through the CAA. Using a principal component analysis, we unravel the dominant mechanisms and apparent water mass end-members that shape the tracer distributions. We identify two distinct water masses located above and below the upper halocline layer throughout the CAA and distinctly differentiate surface waters in the eastern and western CAA. Furthermore, we highlight water exchange across 80∘ W, inferring a draw of Atlantic water (originating from Baffin Bay) into the CAA. This underscores the presence of an Atlantic water “U-turn” located at Barrow Strait, where the same water mass is seen along the northernmost edge at 80∘ W as well as along the southeasternmost confines of Lancaster Sound. Overall, this study provides a stepping stone for future research initiatives within the Canadian Arctic Archipelago, revealing how quantifying disparities in the distributions of radioactive tracers can provide valuable information on water mass distributions, flow patterns, and mixing within vulnerable areas such as the CAA.

Description: This research has been supported by Canadian GEOTRACES via NSERC-CCAR, the U.S. GEOTRACES via NSF Chemical Oceanography (grant no. OCE-1458305), and the DAAD, MOPGA-GRI (grant no.57429828).

Repository Name: Woods Hole Open Access Server

Type: Article

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