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Patterns of deoxygenation: sensitivity to natural and anthropogenic drivers (2017)

Oschlies, Andreas ; Duteil, Olaf ; Getzlaff, Julia ; [et al.]

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series A, Mathematical, Physical and Engineering Sciences. 2017; 375(2102): 20160325. Published 2017 Aug 07. doi: 10.1098/rsta.2016.0325.

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Publication Date: 2017-08-07

Description: Observational estimates and numerical models both indicate a significant overall decline in marine oxygen levels over the past few decades. Spatial patterns of oxygen change, however, differ considerably between observed and modelled estimates. Particularly in the tropical thermocline that hosts open-ocean oxygen minimum zones, observations indicate a general oxygen decline, whereas most of the state-of-the-art models simulate increasing oxygen levels. Possible reasons for the apparent model-data discrepancies are examined. In order to attribute observed historical variations in oxygen levels, we here study mechanisms of changes in oxygen supply and consumption with sensitivity model simulations. Specifically, the role of equatorial jets, of lateral and diapycnal mixing processes, of changes in the wind-driven circulation and atmospheric nutrient supply, and of some poorly constrained biogeochemical processes are investigated. Predominantly wind-driven changes in the low-latitude oceanic ventilation are identified as a possible factor contributing to observed oxygen changes in the low-latitude thermocline during the past decades, while the potential role of biogeochemical processes remains difficult to constrain. We discuss implications for the attribution of observed oxygen changes to anthropogenic impacts and research priorities that may help to improve our mechanistic understanding of oxygen changes and the quality of projections into a changing future. This article is part of the themed issue ‘Ocean ventilation and deoxygenation in a warming world’.

Print ISSN: 1364-503X

Electronic ISSN: 1471-2962

Topics: Mathematics , Physics , Technology

Published by The Royal Society

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Ocean ventilation and deoxygenation in a warming world: posters (2017)

Shepherd, John G. ; Brewer, Peter G. ; Oschlies, Andreas ; [et al.]

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series A, Mathematical, Physical and Engineering Sciences. 2017; 375(2102): 20170241. Published 2017 Aug 07. doi: 10.1098/rsta.2017.0241.

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Publication Date: 2017-08-07

Print ISSN: 1364-503X

Electronic ISSN: 1471-2962

Topics: Mathematics , Physics , Technology

Published by The Royal Society

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Ocean ventilation and deoxygenation in a warming world: introduction and overview (2017)

Shepherd, John G. ; Brewer, Peter G. ; Oschlies, Andreas ; [et al.]

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series A, Mathematical, Physical and Engineering Sciences. 2017; 375(2102): 20170240. Published 2017 Aug 07. doi: 10.1098/rsta.2017.0240.

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Publication Date: 2017-08-07

Description: Changes of ocean ventilation rates and deoxygenation are two of the less obvious but important indirect impacts expected as a result of climate change on the oceans. They are expected to occur because of (i) the effects of increased stratification on ocean circulation and hence its ventilation, due to reduced upwelling, deep-water formation and turbulent mixing, (ii) reduced oxygenation through decreased oxygen solubility at higher surface temperature, and (iii) the effects of warming on biological production, respiration and remineralization. The potential socio-economic consequences of reduced oxygen levels on fisheries and ecosystems may be far-reaching and significant. At a Royal Society Discussion Meeting convened to discuss these matters, 12 oral presentations and 23 posters were presented, covering a wide range of the physical, chemical and biological aspects of the issue. Overall, it appears that there are still considerable discrepancies between the observations and model simulations of the relevant processes. Our current understanding of both the causes and consequences of reduced oxygen in the ocean, and our ability to represent them in models are therefore inadequate, and the reasons for this remain unclear. It is too early to say whether or not the socio-economic consequences are likely to be serious. However, the consequences are ecologically, biogeochemically and climatically potentially very significant, and further research on these indirect impacts of climate change via reduced ventilation and oxygenation of the oceans should be accorded a high priority. This article is part of the themed issue ‘Ocean ventilation and deoxygenation in a warming world’.

Print ISSN: 1364-503X

Electronic ISSN: 1471-2962

Topics: Mathematics , Physics , Technology

Published by The Royal Society

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Ocean ventilation and deoxygenation in a warming world: introduction and overview (2017)

Shepherd, John G. ; Brewer, Peter G. ; Oschlies, Andreas ; [et al.]

The Royal Society

In: Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 375 (2102). p. 20170240.

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Publication Date: 2020-02-06

Description: Changes of ocean ventilation rates and deoxygenation are two of the less obvious but important indirect impacts expected as a result of climate change on the oceans. They are expected to occur because of (i) the effects of increased stratification on ocean circulation and hence its ventilation, due to reduced upwelling, deep-water formation and turbulent mixing, (ii) reduced oxygenation through decreased oxygen solubility at higher surface temperature, and (iii) the effects of warming on biological production, respiration and remineralization. The potential socio-economic consequences of reduced oxygen levels on fisheries and ecosystems may be far-reaching and significant. At a Royal Society Discussion Meeting convened to discuss these matters, 12 oral presentations and 23 posters were presented, covering a wide range of the physical, chemical and biological aspects of the issue. Overall, it appears that there are still considerable discrepancies between the observations and model simulations of the relevant processes. Our current understanding of both the causes and consequences of reduced oxygen in the ocean, and our ability to represent them in models are therefore inadequate, and the reasons for this remain unclear. It is too early to say whether or not the socio-economic consequences are likely to be serious. However, the consequences are ecologically, biogeochemically and climatically potentially very significant, and further research on these indirect impacts of climate change via reduced ventilation and oxygenation of the oceans should be accorded a high priority.

Type: Article , PeerReviewed

Format: text

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Patterns of deoxygenation: sensitivity to natural and anthropogenic drivers (2017)

Oschlies, Andreas ; Duteil, Olaf ; Getzlaff, Julia ; [et al.]

The Royal Society

In: Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 375 (2102). p. 20160325.

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Details

Publication Date: 2020-02-06

Description: Observational estimates and numerical models both indicate a significant overall decline in marine oxygen levels over the past few decades. Spatial patterns of oxygen change, however, differ considerably between observed and modelled estimates. Particularly in the tropical thermocline that hosts open-ocean oxygen minimum zones, observations indicate a general oxygen decline, whereas most of the state-of-the-art models simulate increasing oxygen levels. Possible reasons for the apparent model-data discrepancies are examined. In order to attribute observed historical variations in oxygen levels, we here study mechanisms of changes in oxygen supply and consumption with sensitivity model simulations. Specifically, the role of equatorial jets, of lateral and diapycnal mixing processes, of changes in the wind-driven circulation and atmospheric nutrient supply, and of some poorly constrained biogeochemical processes are investigated. Predominantly wind-driven changes in the low-latitude oceanic ventilation are identified as a possible factor contributing to observed oxygen changes in the low-latitude thermocline during the past decades, while the potential role of biogeochemical processes remains difficult to constrain. We discuss implications for the attribution of observed oxygen changes to anthropogenic impacts and research priorities that may help to improve our mechanistic understanding of oxygen changes and the quality of projections into a changing future.

Type: Article , PeerReviewed

Format: text

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