Impact of sea-level rise over the last deglacial transition on the strength of the continental shelf CO2 pump

Tom P. Rippeth; James D. Scourse; Katsuto Uehara; Stephanie McKeown

doi:10.1029/2008GL035880

Impact of sea-level rise over the last deglacial transition on the strength of the continental shelf CO₂ pump

Tom P. Rippeth, James D. Scourse, Katsuto Uehara, Stephanie McKeown

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

Although shelf seas account for only 7% of the oceanic surface area, recent observations demonstrate that they host significant ocean-atmosphere CO ₂ fluxes. A mechanism implicated in driving a significant CO ₂ sink in the temperate shelf seas is the Continental Shelf Pump. Here we present an analysis of the impact of sea-level rise, and the consequent flooding of continental shelves, on the growth of the continental shelf CO ₂ pump over the last deglacial transition. Wc combine reconstructions of shelf palaeogeography, bathymetry and tides, with contemporary shelf sea - atmosphere CO₂ flux estimates, to demonstrate the potential of the expanding shelf seas to have impacted on the global carbon cycle, via the continental shelf CO₂ pump, over the past 21,000 years and, by inference, earlier glacial-interglacial cycles.

Original language	English
Article number	L24604
Journal	Geophysical Research Letters
Volume	35
Issue number	24
DOIs	https://doi.org/10.1029/2008GL035880
Publication status	Published - Dec 28 2008

All Science Journal Classification (ASJC) codes

Geophysics
Earth and Planetary Sciences(all)

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10.1029/2008GL035880

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title = "Impact of sea-level rise over the last deglacial transition on the strength of the continental shelf CO2 pump",

abstract = "Although shelf seas account for only 7% of the oceanic surface area, recent observations demonstrate that they host significant ocean-atmosphere CO 2 fluxes. A mechanism implicated in driving a significant CO 2 sink in the temperate shelf seas is the Continental Shelf Pump. Here we present an analysis of the impact of sea-level rise, and the consequent flooding of continental shelves, on the growth of the continental shelf CO 2 pump over the last deglacial transition. Wc combine reconstructions of shelf palaeogeography, bathymetry and tides, with contemporary shelf sea - atmosphere CO2 flux estimates, to demonstrate the potential of the expanding shelf seas to have impacted on the global carbon cycle, via the continental shelf CO2 pump, over the past 21,000 years and, by inference, earlier glacial-interglacial cycles.",

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AU - Rippeth, Tom P.

AU - Scourse, James D.

AU - Uehara, Katsuto

AU - McKeown, Stephanie

PY - 2008/12/28

Y1 - 2008/12/28

N2 - Although shelf seas account for only 7% of the oceanic surface area, recent observations demonstrate that they host significant ocean-atmosphere CO 2 fluxes. A mechanism implicated in driving a significant CO 2 sink in the temperate shelf seas is the Continental Shelf Pump. Here we present an analysis of the impact of sea-level rise, and the consequent flooding of continental shelves, on the growth of the continental shelf CO 2 pump over the last deglacial transition. Wc combine reconstructions of shelf palaeogeography, bathymetry and tides, with contemporary shelf sea - atmosphere CO2 flux estimates, to demonstrate the potential of the expanding shelf seas to have impacted on the global carbon cycle, via the continental shelf CO2 pump, over the past 21,000 years and, by inference, earlier glacial-interglacial cycles.

AB - Although shelf seas account for only 7% of the oceanic surface area, recent observations demonstrate that they host significant ocean-atmosphere CO 2 fluxes. A mechanism implicated in driving a significant CO 2 sink in the temperate shelf seas is the Continental Shelf Pump. Here we present an analysis of the impact of sea-level rise, and the consequent flooding of continental shelves, on the growth of the continental shelf CO 2 pump over the last deglacial transition. Wc combine reconstructions of shelf palaeogeography, bathymetry and tides, with contemporary shelf sea - atmosphere CO2 flux estimates, to demonstrate the potential of the expanding shelf seas to have impacted on the global carbon cycle, via the continental shelf CO2 pump, over the past 21,000 years and, by inference, earlier glacial-interglacial cycles.

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Impact of sea-level rise over the last deglacial transition on the strength of the continental shelf CO₂ pump

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