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  • 1
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    Variable C∕P composition of organic production and its effect on ocean carbon storage in glacial-like model simulations (2020)
    Copernicus
    Details
    Publication Date: 2020-04-22
    Description: During the four most recent glacial maxima, atmospheric CO2 has been lowered by about 90–100 ppm with respect to interglacial concentrations. It is likely that most of the atmospheric CO2 deficit was stored in the ocean. Changes in the biological pump, which are related to the efficiency of the biological carbon uptake in the surface ocean and/or of the export of organic carbon to the deep ocean, have been proposed as a key mechanism for the increased glacial oceanic CO2 storage. The biological pump is strongly constrained by the amount of available surface nutrients. In models, it is generally assumed that the ratio between elemental nutrients, such as phosphorus, and carbon (C∕P ratio) in organic material is fixed according to the classical Redfield ratio. The constant Redfield ratio appears to approximately hold when averaged over basin scales, but observations document highly variable C∕P ratios on regional scales and between species. If the C∕P ratio increases when phosphate availability is scarce, as observations suggest, this has the potential to further increase glacial oceanic CO2 storage in response to changes in surface nutrient distributions. In the present study, we perform a sensitivity study to test how a phosphate-concentration-dependent C∕P ratio influences the oceanic CO2 storage in an Earth system model of intermediate complexity (cGENIE). We carry out simulations of glacial-like changes in albedo, radiative forcing, wind-forced circulation, remineralization depth of organic matter, and mineral dust deposition. Specifically, we compare model versions with the classical constant Redfield ratio and an observationally motivated variable C∕P ratio, in which the carbon uptake increases with decreasing phosphate concentration. While a flexible C∕P ratio does not impact the model's ability to simulate benthic δ13C patterns seen in observational data, our results indicate that, in production of organic matter, flexible C∕P can further increase the oceanic storage of CO2 in glacial model simulations. Past and future changes in the C∕P ratio thus have implications for correctly projecting changes in oceanic carbon storage in glacial-to-interglacial transitions as well as in the present context of increasing atmospheric CO2 concentrations.
    Print ISSN: 1726-4170
    Electronic ISSN: 1726-4189
    Topics: Biology , Geosciences
    Published by Copernicus on behalf of European Geosciences Union.
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  • 2
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    Global-mean marine δ13C and its uncertainty in a glacial state estimate (2015)
    Elsevier
    Details
    Publication Date: 2015-10-01
    Print ISSN: 0277-3791
    Electronic ISSN: 1873-457X
    Topics: Geography , Geosciences
    Published by Elsevier
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  • 3
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    Calibration of the carbon isotope composition (δ13 C) of benthic foraminifera (2017)
    American Geophysical Union
    Details
    Publication Date: 2017-06-01
    Print ISSN: 2572-4517
    Electronic ISSN: 2572-4525
    Topics: Geosciences
    Published by American Geophysical Union
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  • 4
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    Deglacial whole-ocean δ13C change estimated from 480 benthic foraminiferal records (2014)
    American Geophysical Union
    Details
    Publication Date: 2014-06-01
    Print ISSN: 2572-4517
    Electronic ISSN: 2572-4525
    Topics: Geosciences
    Published by American Geophysical Union
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  • 5
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    Variable C/P composition of organic production and its effect onocean carbon storage in glacial model simulations (2019)
    Copernicus
    Details
    Publication Date: 2019-06-03
    Description: During the four most recent glacial maxima, atmospheric CO2 has been lowered by about 90--100 ppm with respect to interglacial concentrations. It is likely that most of the atmospheric CO2 deficit was stored in the ocean. Changes of the biological pump, which are related to the efficiency of the biological carbon uptake in the surface ocean and/or of the export of organic carbon to the deep ocean, have been proposed as a key mechanism for the increased glacial oceanic CO2 storage. The biological pump is strongly constrained by the amount of available surface nutrients. In models, it is generally assumed that the ratio between elemental nutrients, e.g. phosphorus, and carbon (C/P ratio) in organic material is fixed according to the classical Redfield ratio. The constant Redfield ratio appears to hold approximately when averaged over basin scales, but observations document highly variable C/P ratios on regional scales and between species. If the C/P ratio decreases when nutrient availability is scarce, as observations suggest, this has the potential to further increase glacial oceanic CO2 storage in response to changes in surface nutrient distributions. In the present study, we perform a sensitivity study to test how a phosphate--concentration dependent C/P ratio influences the oceanic CO2 storage in an Earth system model of intermediate complexity (cGENIE). We carry out simulations of glacial--like changes in albedo, radiative forcing, wind--forced circulation, remineralisation depth of organic matter, and mineral dust deposition. Specifically, we compare model versions with with the classical constant Redfield ratio and an observationally-motivated variable C/P ratio, in which the carbon uptake increases with decreasing phosphate concentration. While a flexible C/P ratio does not impact the model's ability to simulate benthic d13C patterns seen in observational data, our results indicate that, in production of organic matter, flexible C/P can further increase the oceanic storage of CO2 in glacial model simulations. Past and future changes in the C/P ratio thus have implications for correctly projecting changes in oceanic carbon storage in glacial-to-interglacial transitions as well as in the present context of increasing atmospheric CO2 concentrations.
    Print ISSN: 1810-6277
    Electronic ISSN: 1810-6285
    Topics: Biology , Geosciences
    Published by Copernicus on behalf of European Geosciences Union.
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  • 6
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    Deglacial carbon cycle changes observed in a compilation of 127 benthic δ13C time series (20–6 ka) (2018)
    Copernicus
    Details
    Publication Date: 2018-08-16
    Description: We present a compilation of 127 time series δ13C records from Cibicides wuellerstorfi spanning the last deglaciation (20–6 ka) which is well-suited for reconstructing large-scale carbon cycle changes, especially for comparison with isotope-enabled carbon cycle models. The age models for the δ13C records are derived from regional planktic radiocarbon compilations (Stern and Lisiecki, 2014). The δ13C records were stacked in nine different regions and then combined using volume-weighted averages to create intermediate, deep, and global δ13C stacks. These benthic δ13C stacks are used to reconstruct changes in the size of the terrestrial biosphere and deep ocean carbon storage. The timing of change in global mean δ13C is interpreted to indicate terrestrial biosphere expansion from 19–6 ka. The δ13C gradient between the intermediate and deep ocean, which we interpret as a proxy for deep ocean carbon storage, matches the pattern of atmospheric CO2 change observed in ice core records. The presence of signals associated with the terrestrial biosphere and atmospheric CO2 indicates that the compiled δ13C records have sufficient spatial coverage and time resolution to accurately reconstruct large-scale carbon cycle changes during the glacial termination.
    Print ISSN: 1814-9324
    Electronic ISSN: 1814-9332
    Topics: Geosciences
    Published by Copernicus on behalf of European Geosciences Union.
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  • 7
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    Lower oceanic δ13C during the last interglacial period compared to the Holocene (2021)
    Copernicus
    Details
    Publication Date: 2021-02-25
    Description: The last time in Earth's history when high latitudes were warmer than during pre-industrial times was the last interglacial period (LIG, 129–116 ka BP). Since the LIG is the most recent and best documented interglacial, it can provide insights into climate processes in a warmer world. However, some key features of the LIG are not well constrained, notably the oceanic circulation and the global carbon cycle. Here, we use a new database of LIG benthic δ13C to investigate these two aspects. We find that the oceanic mean δ13C was  ∼  0.2 ‰ lower during the LIG (here defined as 125–120 ka BP) when compared to the Holocene (7–2 ka BP). A lower terrestrial carbon content at the LIG than during the Holocene could have led to both lower oceanic δ13C and atmospheric δ13CO2 as observed in paleo-records. However, given the multi-millennial timescale, the lower oceanic δ13C most likely reflects a long-term imbalance between weathering and burial of carbon. The δ13C distribution in the Atlantic Ocean suggests no significant difference in the latitudinal and depth extent of North Atlantic Deep Water (NADW) between the LIG and the Holocene. Furthermore, the data suggest that the multi-millennial mean NADW transport was similar between these two time periods.
    Print ISSN: 1814-9324
    Electronic ISSN: 1814-9332
    Topics: Geosciences
    Published by Copernicus on behalf of European Geosciences Union.
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  • 8
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    Compilation of 127 benthic δ¹³C time series (20-6 ka) (2018)
    PANGAEA
    Details
    Publication Date: 2023-09-09
    Keywords: File content; File format; File name; File size; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 15 data points
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  • 9
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    Deglacial carbon cycle changes observed in a compilation of 127 benthic δ¹³C time series (20-6 ka) (2018)
    PANGAEA
    In:  Supplement to: Peterson, Carlye D; Lisiecki, Lorraine E (2018): Deglacial carbon cycle changes observed in a compilation of 127 benthic δ¹³C time series (20 - 6 ka). Climate of the Past Discussions, 14, 1229-1252, https://doi.org/10.5194/cp-14-1229-2018
    Details
    Publication Date: 2024-04-11
    Description: We present a compilation of 127 time series δ¹³C records from Cibicides wuellerstorfi spanning the last deglaciation (20-6 ka) which is well-suited for reconstructing large-scale carbon cycle changes, especially for comparison with isotope-enabled carbon cycle models. The age models for the δ¹³C records are derived from regional planktic radiocarbon compilations (Stern and Lisiecki, 2014). The δ¹³C records were stacked in nine different regions and then combined using volume-weighted averages to create intermediate, deep, and global δ¹³C stacks. These benthic δ¹³C stacks are used to reconstruct changes in the size of the terrestrial biosphere and deep ocean carbon storage. The timing of change in global mean δ¹³C is interpreted to indicate terrestrial biosphere expansion from 19-6 ka. The δ¹³C gradient between the intermediate and deep ocean, which we interpret as a proxy for deep ocean carbon storage, matches the pattern of atmospheric CO₂ change observed in ice core records. The presence of signals associated with the terrestrial biosphere and atmospheric CO₂ indicates that the compiled δ¹³C records have sufficient spatial coverage and time resolution to accurately reconstruct large-scale carbon cycle changes during the glacial termination.
    Type: Dataset
    Format: application/zip, 2 datasets
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  • 10
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    Metadata for a compilation of 127 benthic δ¹³C time series (20-6 ka) (2018)
    PANGAEA
    Details
    Publication Date: 2024-04-11
    Keywords: 0016PG; 0021PG; 0026PG; 0032PG; 0036PG; 0038PG; 0044PG; 0050PG; 0055PG; 0058PG; 0066PG; 0071PG; 0075PG; 0082PG; 0091PG; 108-658; 130-807A; 138-846; 154-928; 162-980; 162-982; 162-983; 162-984; 177-1088B; 177-1089; 177-1090; 184-1143; 293; 303-U1308; 311; 52-43; 68-502; 90b; Agadir Canyon; ANT-XI/2; Arabian Sea; Atlantic Ocean; BIGSET; Biscaya; Brazil Basin; BT4; CALYPSO; Calypso Corer; Calypso Square Core System; Canarias Sea; Cape Basin; Caribbean Sea/RIDGE; CASQS; CH73-139; CH73-139C; CH7X; CH8X; Chatham Rise; CHN115-70PC; CHN82-24; Comment; COMPCORE; Composite Core; DRILL; Drilling/drill rig; East Atlantic; ELEVATION; EN06601; EN066-16PG; EN066-21PG; EN066-26PG; EN066-32PG; EN066-36PG; EN066-38PG; EN066-44PG; Endeavor; Event label; EW9209-1JPC; EW9504-05PC; Exp303; FR01/97; FR01/97-12; Franklin; GC; GeoB1041; GeoB1101-4; GeoB1112-3; GeoB1117-2; GeoB1118; GeoB1211; GeoB1214-1; GeoB1710-3; GeoB3004-1; GeoB3104-1; GeoB4216-1; GeoB4240-2; GeoB6718-2; GeoB7920-2; GeoB9508-5; GeoB9526-5; GEOFAR; GEOTROPEX 83, NOAMP I; GGC; Giant box corer; Giant gravity corer; Giant piston corer; GIK11944-2; GIK12328-5; GIK12347-2; GIK12379-3; GIK12392-1; GIK13521-1; GIK15612-2; GIK15666-6; GIK15669-1; GIK15672; GIK16004-1; GIK16006-1; GIK16017; GIK16030-1; GIK16402; GIK16415; GIK17049-6; GIK17050-1; GIK17051; GIK17055-1; GIK17961-2; GIK23414-9; GIK23415-9; GIK23416-4; GIK23417-1; GIK23418-8; GIK23419-8; GIK23519-5; GKG; Glomar Challenger; GPC; Gravity corer; Gravity corer (Kiel type); Greenland Sea; Guinea Basin; Gulf of Aden; Hakurei-Maru No.2 (1980); HM52-43; IMAGES I; IMAGES II; IMAGES III - IPHIS; IMAGES V; IMAGES VII - WEPAMA; IMAGES XV - Pachiderme; Integrated Ocean Drilling Program / International Ocean Discovery Program; IODP; Jean Charcot; Joides Resolution; JOPSII-6; JPC; Jumbo Piston Core; KAL; Kasten corer; KF13; KL-74, AS-12; KN11002; KN159-5; Knorr; KNR110-50; KNR110-55; KNR110-58; KNR110-66; KNR110-71; KNR110-75; KNR110-82; KNR110-91; KNR159-17; KNR159-20; KNR159-33; KNR159-36; KNR159-42; KNR159-5; KNR159-5-125GGC; KNR159-5 17JPC; KNR159-5-22GGC; KNR159-5 30GGC; KNR159-5-30GGC; KNR159-5-33GGC; KNR159-5-36GGC; KNR159-5-63GGC; KNR159-5-78GGC; KNR159-5 90GGC; KNR159-63; KNR159-90; KOL; LATITUDE; Leg108; Leg130; Leg138; Leg154; Leg162; Leg177; Leg184; Leg68; Le Noroit; Le Suroît; LONGITUDE; M11/1; M12/1; M12392-1; M17/2; M20/2; M23; M23_099; M23414; M25; M31/3; M31/3-107_GC; M35/1; M35003-4; M37/1; M39; M53; M53_166; M53_169; M53_172-1; M53/1; M57; M6/6; M60; M65; M65/1; M9/4; Marion Dufresne (1995); MD012378; MD01-2378; MD07-3076; MD07-3076Q; MD101; MD105; MD106; MD114; MD122; MD159; MD952039; MD95-2039; MD952040; MD95-2040; MD96-2080; MD962080, ABS; MD972120; MD97-2120; MD972151; MD97-2151; MD99-2334; Meteor (1964); Meteor (1986); MONITOR MONSUN; N414NGC102; NA87-22; Namibia continental slope; NE-Brazilian continental margin; NH95-1; NH95-1_N414; Nordost-Atlantik-Expedition 1971; North Atlantic; North Atlantic Climate 1; Northeast Atlantic; Northeast Pacific; northern North Atlantic; Norwegian Sea; OCE205-103GGC; OCE205-2-103GGC; Ocean and sea region; off West Africa; Orgon4-KS8; PALEOCINAT; PC; Persistent Identifier; Piston corer; Piston corer (Kiel type); Polarstern; Porcupine Seabight; Porto Seamount; POS210/2; POS265; POS478-2; Poseidon; PS2498-1; PS28; PS28/304; RC13; RC13-110; RC13-114; RC13-228; RC16; RC16-119; RC16-84; Reference/source; Robert Conrad; Sample code/label; SL; SO42; SO42-74KL; SO95; Sonne; South Atlantic; South Atlantic Ocean; South China Sea; Southern Agulhas Bank; South Pacific Ocean; Southwest Pacific; SPC; Sphincter corer; SU90-03; SU90-39; SUBTROPEX 82; Timor Sea; Uniform resource locator/link to reference; V19; V19-27; V22; V22-197; V23; V23-81; V24; V24-109; V24-253; V25; V25-59; V28; V28-127; V28-14; V29; V29-135; V29-202; V30; V30-40; V30-49; Vema; Vema Channel; Victor Hensen; Walvis Ridge; West equatorial Pacific Ocean; Western Atlantic
    Type: Dataset
    Format: text/tab-separated-values, 469 data points
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