Ocean fertilization for geoengineering: A review of effectiveness, environmental impacts and emerging governance

Dangerous climate change is best avoided by drastically and rapidly reducing greenhouse gas emissions. Nevertheless, geoengineering options are receiving attention on the basis that additional approaches may also be necessary. Here we review the state of knowledge on large-scale ocean fertilization...

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Bibliographic Details
Published in:Process Safety and Environmental Protection
Main Authors: Williamson, Phillip, Wallace, Douglas W.R., Law, Cliff S., Boyd, Philip W., Collos, Yves, Croot, Peter, Denman, Ken, Riebesell, Ulf, Takeda, Shigenobu, Vivian, Chris
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2012
Subjects:
Southern Ocean
Online Access:https://oceanrep.geomar.de/id/eprint/19615/
https://oceanrep.geomar.de/id/eprint/19615/1/Williamson.pdf
https://doi.org/10.1016/j.psep.2012.10.007
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Summary:Dangerous climate change is best avoided by drastically and rapidly reducing greenhouse gas emissions. Nevertheless, geoengineering options are receiving attention on the basis that additional approaches may also be necessary. Here we review the state of knowledge on large-scale ocean fertilization by adding iron or other nutrients, either from external sources or via enhanced ocean mixing. On the basis of small-scale field experiments carried out to date and associated modelling, the maximum benefits of ocean fertilization as a negative emissions technique are likely to be modest in relation to anthropogenic climate forcing. Furthermore, it would be extremely challenging to quantify with acceptable accuracy the carbon removed from circulation on a long term basis, and to adequately monitor unintended impacts over large space and time-scales. These and other technical issues are particularly problematic for the region with greatest theoretical potential for the application of ocean fertilization, the Southern Ocean. Arrangements for the international governance of further field-based research on ocean fertilization are currently being developed, primarily under the London Convention/London Protocol. Highlights: ► Fertilization using iron can increase the uptake of CO2 across the sea surface. ► But most of this uptake is transient; long-term sequestration is difficult to assess. ► Unintended impacts of ocean fertilization may be far removed in space and time. ► For climate benefits, the Southern Ocean has most potential – also most problems. ► A regulatory framework for ocean fertilization research has been developed.

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