Climate engineering by artificial ocean upwelling: channelling the sorcerer's apprentice
Climate engineering by artificial ocean upwelling: channelling the sorcerer's apprentice
Recent suggestions to reduce the accumulation of anthropogenic carbon dioxide in the atmosphere have included ocean fertilization by artificial upwelling. Our coupled carbon-climate model simulations suggest that artificial upwelling may, under most optimistic assumptions, be able to sequester atmospheric CO2 at a rate of about 0.9 PgC/yr. However, the model predicts that about 80% of the carbon sequestered is stored on land, as a result of reduced respiration at lower air temperatures brought about by upwelling of cold waters. This remote and distributed carbon sequestration would make monitoring and verification particularly challenging. A second caveat predicted by our simulations is that whenever artificial upwelling is stopped, simulated surface temperatures and atmospheric CO2 concentrations rise quickly and for decades to centuries to levels even somewhat higher than experienced in a world that never engaged in artificial upwelling.
L04701
Oschlies, A.
1e17ff79-6084-4a56-b130-7d39dcd7568f
Pahlow, M.
6d26a9ea-d2f6-408a-8b6b-9311de387f77
Yool, A.
882aeb0d-dda0-405e-844c-65b68cce5017
Matear, R.J.
22d47009-8b64-4a5d-a173-8edab042105c
2010
Oschlies, A.
1e17ff79-6084-4a56-b130-7d39dcd7568f
Pahlow, M.
6d26a9ea-d2f6-408a-8b6b-9311de387f77
Yool, A.
882aeb0d-dda0-405e-844c-65b68cce5017
Matear, R.J.
22d47009-8b64-4a5d-a173-8edab042105c
Oschlies, A., Pahlow, M., Yool, A. and Matear, R.J.
(2010)
Climate engineering by artificial ocean upwelling: channelling the sorcerer's apprentice.
Geophysical Research Letters, 37, .
(doi:10.1029/2009GL041961).
Abstract
Recent suggestions to reduce the accumulation of anthropogenic carbon dioxide in the atmosphere have included ocean fertilization by artificial upwelling. Our coupled carbon-climate model simulations suggest that artificial upwelling may, under most optimistic assumptions, be able to sequester atmospheric CO2 at a rate of about 0.9 PgC/yr. However, the model predicts that about 80% of the carbon sequestered is stored on land, as a result of reduced respiration at lower air temperatures brought about by upwelling of cold waters. This remote and distributed carbon sequestration would make monitoring and verification particularly challenging. A second caveat predicted by our simulations is that whenever artificial upwelling is stopped, simulated surface temperatures and atmospheric CO2 concentrations rise quickly and for decades to centuries to levels even somewhat higher than experienced in a world that never engaged in artificial upwelling.
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Published date: 2010
Organisations:
Marine Systems Modelling, National Oceanography Centre,Southampton
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Local EPrints ID: 72484
URI: http://eprints.soton.ac.uk/id/eprint/72484
ISSN: 0094-8276
PURE UUID: e8053db0-60fc-492d-a1e7-fa08e9b5478e
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Date deposited: 15 Feb 2010
Last modified: 13 Mar 2024 21:31
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Author:
A. Oschlies
Author:
M. Pahlow
Author:
A. Yool
Author:
R.J. Matear
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