Climate change, species thermal emergence, and conservation design: a case study in the Canadian Northwest Atlantic
Marine Protected Areas (MPAs) are conservation tools that promote biodiversity by regulating human impacts. However, because MPAs are fixed in space and, by design, difficult to change, climate change may challenge their long-term effectiveness. It is therefore imperative to consider anticipated eco...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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Canadian Science Publishing
2023
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| Online Access: | http://dx.doi.org/10.1139/facets-2022-0191 https://facetsjournal.com/doi/pdf/10.1139/facets-2022-0191 |
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crcansciencepubl:10.1139/facets-2022-0191 |
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crcansciencepubl:10.1139/facets-2022-0191 2024-10-06T13:51:39+00:00 Climate change, species thermal emergence, and conservation design: a case study in the Canadian Northwest Atlantic Lewis, Shaylyn A. Stortini, Christine H. Boyce, Daniel G. Stanley, Ryan R.E. Gregory-Eaves, Irene 2023 http://dx.doi.org/10.1139/facets-2022-0191 https://facetsjournal.com/doi/pdf/10.1139/facets-2022-0191 en eng Canadian Science Publishing https://creativecommons.org/licenses/by/4.0/deed.en_GB FACETS volume 8, page 1-16 ISSN 2371-1671 journal-article 2023 crcansciencepubl https://doi.org/10.1139/facets-2022-0191 2024-09-12T04:13:26Z Marine Protected Areas (MPAs) are conservation tools that promote biodiversity by regulating human impacts. However, because MPAs are fixed in space and, by design, difficult to change, climate change may challenge their long-term effectiveness. It is therefore imperative to consider anticipated ecological changes in their design. We predict the time of emergence (ToE: year when temperatures will exceed a species’ tolerance) of 30 fish and invertebrate species in the Scotian Shelf-Bay of Fundy draft network of conservation areas based on climate projections under two contrasting emission scenarios (RCP 2.6 and RCP 8.5). We demonstrate a strong Southwest-to-Northeast gradient of change under both scenarios. Cold water-associated species had earlier ToEs, particularly in southwesterly areas. Under low emissions, 20.0% of habitat and 12.6% of species emerged from the network as a whole by 2100. Under high emissions, 51% of habitat and 42% of species emerged. These impacts are expected within the next 30–50 years in some southwestern areas. The magnitude and velocity of change will be tempered by reduced emissions. Our identification of high- and low-risk areas for species of direct and indirect conservation interest can support decisions regarding site and network design (and designation scheduling), promoting climate resilience. Article in Journal/Newspaper Northwest Atlantic Canadian Science Publishing FACETS 8 1 16 |
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Open Polar |
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Canadian Science Publishing |
| op_collection_id |
crcansciencepubl |
| language |
English |
| description |
Marine Protected Areas (MPAs) are conservation tools that promote biodiversity by regulating human impacts. However, because MPAs are fixed in space and, by design, difficult to change, climate change may challenge their long-term effectiveness. It is therefore imperative to consider anticipated ecological changes in their design. We predict the time of emergence (ToE: year when temperatures will exceed a species’ tolerance) of 30 fish and invertebrate species in the Scotian Shelf-Bay of Fundy draft network of conservation areas based on climate projections under two contrasting emission scenarios (RCP 2.6 and RCP 8.5). We demonstrate a strong Southwest-to-Northeast gradient of change under both scenarios. Cold water-associated species had earlier ToEs, particularly in southwesterly areas. Under low emissions, 20.0% of habitat and 12.6% of species emerged from the network as a whole by 2100. Under high emissions, 51% of habitat and 42% of species emerged. These impacts are expected within the next 30–50 years in some southwestern areas. The magnitude and velocity of change will be tempered by reduced emissions. Our identification of high- and low-risk areas for species of direct and indirect conservation interest can support decisions regarding site and network design (and designation scheduling), promoting climate resilience. |
| author2 |
Gregory-Eaves, Irene |
| format |
Article in Journal/Newspaper |
| author |
Lewis, Shaylyn A. Stortini, Christine H. Boyce, Daniel G. Stanley, Ryan R.E. |
| spellingShingle |
Lewis, Shaylyn A. Stortini, Christine H. Boyce, Daniel G. Stanley, Ryan R.E. Climate change, species thermal emergence, and conservation design: a case study in the Canadian Northwest Atlantic |
| author_facet |
Lewis, Shaylyn A. Stortini, Christine H. Boyce, Daniel G. Stanley, Ryan R.E. |
| author_sort |
Lewis, Shaylyn A. |
| title |
Climate change, species thermal emergence, and conservation design: a case study in the Canadian Northwest Atlantic |
| title_short |
Climate change, species thermal emergence, and conservation design: a case study in the Canadian Northwest Atlantic |
| title_full |
Climate change, species thermal emergence, and conservation design: a case study in the Canadian Northwest Atlantic |
| title_fullStr |
Climate change, species thermal emergence, and conservation design: a case study in the Canadian Northwest Atlantic |
| title_full_unstemmed |
Climate change, species thermal emergence, and conservation design: a case study in the Canadian Northwest Atlantic |
| title_sort |
climate change, species thermal emergence, and conservation design: a case study in the canadian northwest atlantic |
| publisher |
Canadian Science Publishing |
| publishDate |
2023 |
| url |
http://dx.doi.org/10.1139/facets-2022-0191 https://facetsjournal.com/doi/pdf/10.1139/facets-2022-0191 |
| genre |
Northwest Atlantic |
| genre_facet |
Northwest Atlantic |
| op_source |
FACETS volume 8, page 1-16 ISSN 2371-1671 |
| op_rights |
https://creativecommons.org/licenses/by/4.0/deed.en_GB |
| op_doi |
https://doi.org/10.1139/facets-2022-0191 |
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FACETS |
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8 |
| container_start_page |
1 |
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16 |
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1812179874202255360 |