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A global model of the marine ecosystem for long-term simulations: sensitivity to ocean mixing, buoyancy forcing, particle sinking, and dissolved organic matter cycling (2005)

Schmittner, A.

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In: Global biogeochemical cycles, Hoboken, NJ : Wiley, 1987, 19(2005), 1944-9224

In: volume:19

In: year:2005

In: extent:17

Type of Medium: Online Resource

Pages: 17

ISSN: 1944-9224

DOI: 10.1029/2004GB002283

Language: English

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Simulated 21st century's increase in oceanic suboxia by CO2-enhanced biotic carbon export (2008)

Oschlies, Andreas

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In: Global biogeochemical cycles, Hoboken, NJ : Wiley, 1987, 22(2008), 1944-9224

In: volume:22

In: year:2008

In: extent:10

Description / Table of Contents: The primary impacts of anthropogenic CO2 emissions on marine biogeochemical cycles predicted so far include ocean acidification, global warming induced shifts in biogeographical provinces, and a possible negative feedback on atmospheric CO2 levels by CO2-fertilized biological production. Here we report a new potentially significant impact on the oxygen-minimum zones of the tropical oceans. Using a model of global climate, ocean circulation, and biogeochemical cycling, we extrapolate mesocosm-derived experimental findings of a pCO2-sensitive increase in biotic carbon-to-nitrogen drawdown to the global ocean. For a simulation run from the onset of the industrial revolution until A.D. 2100 under a business-as-usualʺ scenario for anthropogenic CO2 emissions, our model predicts a negative feedback on atmospheric CO2 levels, which amounts to 34 Gt C by the end of this century. While this represents a small alteration of the anthropogenic perturbation of the carbon cycle, the model results reveal a dramatic 50% increase in the suboxic water volume by the end of this century in response to the respiration of excess organic carbon formed at higher CO2 levels. This is a significant expansion of the marine dead zonesʺ with severe implications not only for all higher life forms but also for oxygen-sensitive nutrient recycling and, hence, for oceanic nutrient inventories.

Type of Medium: Online Resource

Pages: 10 , graph. Darst

ISSN: 1944-9224

DOI: 10.1029/2007GB003147

Language: English

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Biotic contribution to air-sea fluxes of CO2 and O2 and its relation to new production, export production, and net community production (2004)

Oschlies, Andreas

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In: Global biogeochemical cycles, Hoboken, NJ : Wiley, 1987, 18(2004), 1944-9224

In: volume:18

In: year:2004

In: extent:20

Description / Table of Contents: The contribution of the marine biota to air-sea fluxes of CO2 and O2 is often described in terms of biological production concepts, such as new production, export production, and net community production. We evaluate these three quantities using a basin-scale ecosystem-circulation model of the North Atlantic Ocean based on Redfield stoichiometry into which we introduce an artificial tracer which records the biotic contribution to air-sea exchange of gases like O2 and CO2. It is found that on average the biological production rates overestimate the biotically effected air-sea flux by some 20% and, in some regions, even predict the wrong direction. With primary production restricted to the euphotic zone, but respiration extending to farther below, the discrepancy can largely be attributed to the different integration depths used in the different concepts (euphotic zone, surface mixed layer), and on annual and longer timescales, all rates converge when using the base of the winter mixed layer rather than that of the euphotic zone as the reference depth. For the surface carbon budget, which ultimately controls air-sea exchange of CO2, it is irrelevant whether carbon atoms cross this boundary in organic or inorganic speciation. Hence the transports of biotically generated surpluses or deficits of dissolved inorganic matter must also be accounted for. While their contribution amounts to only a few percent on the basin scale, the subduction of newly remineralized inorganic matter can locally account for about half of the biotically effected air-sea flux, for example, in regions of mode-water formation.

Type of Medium: Online Resource

Pages: 20 , graph. Darst

ISSN: 1944-9224

DOI: 10.1029/2003GB002094

Language: English

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Seasonal cycle of O2 and pCO2 in the central Labrador Sea : atmospheric, biological, and physical implications (2008)

Körtzinger, A.

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In: Global biogeochemical cycles, Hoboken, NJ : Wiley, 1987, 22(2008), 1944-9224

In: volume:22

In: year:2008

In: extent:16

Type of Medium: Online Resource

Pages: 16 , graph. Darst

ISSN: 1944-9224

DOI: 10.1029/2007GB003029

Language: English

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Future changes in climate, ocean circulation, ecosystems, and biogeochemical cycling simulated for a business-as-usual CO2 emission scenario until year 4000 AD (2008)

Schmittner, Andreas ; Oschlies, Andreas ; Matthews, H. Damon ; [et al.]

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In: Global biogeochemical cycles, Hoboken, NJ : Wiley, 1987, 22(2008), 1944-9224

In: volume:22

In: year:2008

In: extent:21

Type of Medium: Electronic Resource

Pages: 21

ISSN: 1944-9224

Language: English

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Methane sources, distributions, and fluxes from cold vent sites at Hydrate Ridge, Cascadia Margin (2005)

Heeschen, Katja U.

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In: Global biogeochemical cycles, Hoboken, NJ : Wiley, 1987, 19(2005), 1944-9224

In: volume:19

In: year:2005

In: extent:21

Type of Medium: Online Resource

Pages: 21 , graph. Darst

ISSN: 1944-9224

DOI: 10.1029/2004GB002266

Language: English

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Inventory changes in anthropogenic carbon from 1997-2003 in the Atlantic Ocean between 20°S and 65°N (2009)

Steinfeldt, Reiner

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In: Global biogeochemical cycles, Hoboken, NJ : Wiley, 1987, 23(2009), 1944-9224

In: volume:23

In: year:2009

In: extent:11

Description / Table of Contents: The oceans absorb and store a significant portion of anthropogenic CO2 emissions, but large uncertainties remain in the quantification of this sink. An improved assessment of the present and future oceanic carbon sink is therefore necessary to provide recommendations for long-term global carbon cycle and climate policies. The formation of North Atlantic Deep Water (NADW) is a unique fast track for transporting anthropogenic CO2 into the ocean's interior, making the deep waters rich in anthropogenic carbon. Thus the Atlantic is presently estimated to hold 38% of the oceanic anthropogenic CO2 inventory, although its volume makes up only 25% of the world ocean. Here we analyze the inventory change of anthropogenic CO2 in the Atlantic between 1997 and 2003 and its relationship to NADW formation. For the whole region between 20°S and 65°N the inventory amounts to 32.5 ± 9.5 Petagram carbon (Pg C) in 1997 and increases up to 36.0 ± 10.5 Pg C in 2003. This result is quite similar to earlier studies. Moreover, the overall increase of anthropogenic carbon is in close agreement with the expected change due to rising atmospheric CO2 levels of 1.69% a-1. On the other hand, when considering the subpolar region only, the results demonstrate that the recent weakening in the formation of Labrador Sea Water, a component of NADW, has already led to a decrease of the anthropogenic carbon inventory in this water mass. As a consequence, the overall inventory for the total water column in the western subpolar North Atlantic increased only by 2% between 1997 and 2003, much less than the 11% that would be expected from the increase in atmospheric CO2 levels.

Type of Medium: Online Resource

Pages: 11 , graph. Darst

ISSN: 1944-9224

DOI: 10.1029/2008GB003311

Language: English

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