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Reconciling biodiversity and carbon conservation

Reconciling biodiversity and carbon conservation
Reconciling biodiversity and carbon conservation
Climate change is leading to the development of land-based mitigation and adaptation strategies that are likely to have substantial impacts on global biodiversity. Of these, approaches to maintain carbon within existing natural ecosystems could have particularly large benefits for biodiversity. However, the geographical distributions of terrestrial carbon stocks and biodiversity differ. Using conservation planning analyses for the New World and Britain, we conclude that a carbon-only strategy would not be effective at conserving biodiversity, as have previous studies. Nonetheless, we find that a combined carbon-biodiversity strategy could simultaneously protect 90% of carbon stocks (relative to a carbon-only conservation strategy) and > 90% of the biodiversity (relative to a biodiversity-only strategy) in both regions. This combined approach encapsulates the principle of complementarity, whereby locations that contain different sets of species are prioritised, and hence disproportionately safeguard localised species that are not protected effectively by carbon-only strategies. It is efficient because localised species are concentrated into small parts of the terrestrial land surface, whereas carbon is somewhat more evenly distributed; and carbon stocks protected in one location are equivalent to those protected elsewhere. Efficient compromises can only be achieved when biodiversity and carbon are incorporated together within a spatial planning process
1461-023X
39-47
Thomas, Chris D.
bbcfba65-4f02-4a50-9a9e-04b8e046671d
Anderson, Barbara J.
9cda6238-a0dc-4fad-b3a8-7849ba033766
Moilanen, Atte
689c2da6-9a45-42aa-b5c0-edade9f45fa5
Eigenbrod, Felix
43efc6ae-b129-45a2-8a34-e489b5f05827
Heinemeyer, Andreas
4014ceb3-f411-42fc-8251-99c4a608eb7e
Quaife, Tristan
824fedaa-f810-4568-a91d-d73a39ca0eef
Roy, David B.
75efe5f9-82d3-42c6-bfbb-1c3997dc1221
Gillings, Simon
a3908516-53f4-41f2-9f9d-d20137044f79
Armsworth, Paul R.
b139013b-4201-4c71-804f-b3f9c01316b3
Gaston, Kevin J.
8d5f7517-9d47-442a-a11c-1a53304041e3
Thomas, Chris D.
bbcfba65-4f02-4a50-9a9e-04b8e046671d
Anderson, Barbara J.
9cda6238-a0dc-4fad-b3a8-7849ba033766
Moilanen, Atte
689c2da6-9a45-42aa-b5c0-edade9f45fa5
Eigenbrod, Felix
43efc6ae-b129-45a2-8a34-e489b5f05827
Heinemeyer, Andreas
4014ceb3-f411-42fc-8251-99c4a608eb7e
Quaife, Tristan
824fedaa-f810-4568-a91d-d73a39ca0eef
Roy, David B.
75efe5f9-82d3-42c6-bfbb-1c3997dc1221
Gillings, Simon
a3908516-53f4-41f2-9f9d-d20137044f79
Armsworth, Paul R.
b139013b-4201-4c71-804f-b3f9c01316b3
Gaston, Kevin J.
8d5f7517-9d47-442a-a11c-1a53304041e3

Thomas, Chris D., Anderson, Barbara J., Moilanen, Atte, Eigenbrod, Felix, Heinemeyer, Andreas, Quaife, Tristan, Roy, David B., Gillings, Simon, Armsworth, Paul R. and Gaston, Kevin J. (2013) Reconciling biodiversity and carbon conservation. Ecology Letters, 16 (S1), 39-47. (doi:10.1111/ele.12054).

Record type: Article

Abstract

Climate change is leading to the development of land-based mitigation and adaptation strategies that are likely to have substantial impacts on global biodiversity. Of these, approaches to maintain carbon within existing natural ecosystems could have particularly large benefits for biodiversity. However, the geographical distributions of terrestrial carbon stocks and biodiversity differ. Using conservation planning analyses for the New World and Britain, we conclude that a carbon-only strategy would not be effective at conserving biodiversity, as have previous studies. Nonetheless, we find that a combined carbon-biodiversity strategy could simultaneously protect 90% of carbon stocks (relative to a carbon-only conservation strategy) and > 90% of the biodiversity (relative to a biodiversity-only strategy) in both regions. This combined approach encapsulates the principle of complementarity, whereby locations that contain different sets of species are prioritised, and hence disproportionately safeguard localised species that are not protected effectively by carbon-only strategies. It is efficient because localised species are concentrated into small parts of the terrestrial land surface, whereas carbon is somewhat more evenly distributed; and carbon stocks protected in one location are equivalent to those protected elsewhere. Efficient compromises can only be achieved when biodiversity and carbon are incorporated together within a spatial planning process

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More information

e-pub ahead of print date: 20 December 2012
Published date: May 2013
Organisations: Centre for Biological Sciences

Identifiers

Local EPrints ID: 346578
URI: http://eprints.soton.ac.uk/id/eprint/346578
ISSN: 1461-023X
PURE UUID: 5cd23682-3878-48ef-b6d0-f0e52ca92321
ORCID for Felix Eigenbrod: ORCID iD orcid.org/0000-0001-8982-824X

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Date deposited: 03 Jan 2013 08:39
Last modified: 15 Mar 2024 03:36

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Contributors

Author: Chris D. Thomas
Author: Barbara J. Anderson
Author: Atte Moilanen
Author: Felix Eigenbrod ORCID iD
Author: Andreas Heinemeyer
Author: Tristan Quaife
Author: David B. Roy
Author: Simon Gillings
Author: Paul R. Armsworth
Author: Kevin J. Gaston

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