Wildlife species benefitting from a greener Arctic are most sensitive to shrub cover at leading range edges
Widespread expansion of shrubs is occurring across the Arctic. Shrub expansion will substantially alter arctic wildlife habitats. Identifying which wildlife species are most affected by shrubification is central to predicting future arctic community composition. Through meta-analysis, we synthesized...
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2018
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| Online Access: | https://figshare.com/articles/journal_contribution/Wildlife_species_benefitting_from_a_greener_Arctic_are_most_sensitive_to_shrub_cover_at_leading_range_edges/23777502 |
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ftangliruskinfig:oai:figshare.com:article/23777502 2023-11-12T04:10:21+01:00 Wildlife species benefitting from a greener Arctic are most sensitive to shrub cover at leading range edges Helen C. Wheeler Toke T. Høye Jens-Christian Svenning 2018-01-01T00:00:00Z https://figshare.com/articles/journal_contribution/Wildlife_species_benefitting_from_a_greener_Arctic_are_most_sensitive_to_shrub_cover_at_leading_range_edges/23777502 unknown 10779/aru.23777502.v1 https://figshare.com/articles/journal_contribution/Wildlife_species_benefitting_from_a_greener_Arctic_are_most_sensitive_to_shrub_cover_at_leading_range_edges/23777502 CC BY 4.0 birds climate change global warming Text Journal contribution 2018 ftangliruskinfig 2023-10-13T12:20:33Z Widespread expansion of shrubs is occurring across the Arctic. Shrub expansion will substantially alter arctic wildlife habitats. Identifying which wildlife species are most affected by shrubification is central to predicting future arctic community composition. Through meta-analysis, we synthesized the published evidence for effects of canopy-forming shrubs on birds and mammals in the Arctic and Subarctic. We examined variation in species behaviour, distribution and population dynamics in birds and mammals in response to shrub cover (including shrub cover indicators such as shrub occurrence, extent, density and height). We also assessed the degree of heterogeneity in wildlife responses to shrub cover and synthesized the remaining literature that did not fit the criteria for our quantitative meta-analyses. Species from higher green vegetation biomass habitats (high Normalized Difference Vegetation Index, NDVI, across their distribution) were more likely to respond positively to shrub cover, demonstrating the potential for species to expand from boreal to arctic habitats under shrubification. Wildlife populations located in the lowest vegetation biomass (low NDVI) areas of their species’ range had the greatest proportion of positive responses to shrub cover, highlighting how increases in performance at leading edges of invaders distributions may be particularly rapid. This demonstrates the need to study species at these leading edges to accurately predict expansion potential. Arctic specialists were poorly represented across studies (limited to 5 bird and 0 mammal species), this knowledge gap potentially explains the few reported negative effects of shrub cover (3 of 29 species). Species responses to shrub cover showed substantial heterogeneity and varied among sites and years in all studies with sufficient replication to detect such variation. Our study highlights the importance of responses at species range edges in determining outcomes of shrubification for arctic birds and mammals and the need for greater ... Article in Journal/Newspaper Arctic birds Arctic Climate change Global warming Subarctic Anglia Ruskin University: Figshare Arctic |
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Open Polar |
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Anglia Ruskin University: Figshare |
| op_collection_id |
ftangliruskinfig |
| language |
unknown |
| topic |
birds climate change global warming |
| spellingShingle |
birds climate change global warming Helen C. Wheeler Toke T. Høye Jens-Christian Svenning Wildlife species benefitting from a greener Arctic are most sensitive to shrub cover at leading range edges |
| topic_facet |
birds climate change global warming |
| description |
Widespread expansion of shrubs is occurring across the Arctic. Shrub expansion will substantially alter arctic wildlife habitats. Identifying which wildlife species are most affected by shrubification is central to predicting future arctic community composition. Through meta-analysis, we synthesized the published evidence for effects of canopy-forming shrubs on birds and mammals in the Arctic and Subarctic. We examined variation in species behaviour, distribution and population dynamics in birds and mammals in response to shrub cover (including shrub cover indicators such as shrub occurrence, extent, density and height). We also assessed the degree of heterogeneity in wildlife responses to shrub cover and synthesized the remaining literature that did not fit the criteria for our quantitative meta-analyses. Species from higher green vegetation biomass habitats (high Normalized Difference Vegetation Index, NDVI, across their distribution) were more likely to respond positively to shrub cover, demonstrating the potential for species to expand from boreal to arctic habitats under shrubification. Wildlife populations located in the lowest vegetation biomass (low NDVI) areas of their species’ range had the greatest proportion of positive responses to shrub cover, highlighting how increases in performance at leading edges of invaders distributions may be particularly rapid. This demonstrates the need to study species at these leading edges to accurately predict expansion potential. Arctic specialists were poorly represented across studies (limited to 5 bird and 0 mammal species), this knowledge gap potentially explains the few reported negative effects of shrub cover (3 of 29 species). Species responses to shrub cover showed substantial heterogeneity and varied among sites and years in all studies with sufficient replication to detect such variation. Our study highlights the importance of responses at species range edges in determining outcomes of shrubification for arctic birds and mammals and the need for greater ... |
| format |
Article in Journal/Newspaper |
| author |
Helen C. Wheeler Toke T. Høye Jens-Christian Svenning |
| author_facet |
Helen C. Wheeler Toke T. Høye Jens-Christian Svenning |
| author_sort |
Helen C. Wheeler |
| title |
Wildlife species benefitting from a greener Arctic are most sensitive to shrub cover at leading range edges |
| title_short |
Wildlife species benefitting from a greener Arctic are most sensitive to shrub cover at leading range edges |
| title_full |
Wildlife species benefitting from a greener Arctic are most sensitive to shrub cover at leading range edges |
| title_fullStr |
Wildlife species benefitting from a greener Arctic are most sensitive to shrub cover at leading range edges |
| title_full_unstemmed |
Wildlife species benefitting from a greener Arctic are most sensitive to shrub cover at leading range edges |
| title_sort |
wildlife species benefitting from a greener arctic are most sensitive to shrub cover at leading range edges |
| publishDate |
2018 |
| url |
https://figshare.com/articles/journal_contribution/Wildlife_species_benefitting_from_a_greener_Arctic_are_most_sensitive_to_shrub_cover_at_leading_range_edges/23777502 |
| geographic |
Arctic |
| geographic_facet |
Arctic |
| genre |
Arctic birds Arctic Climate change Global warming Subarctic |
| genre_facet |
Arctic birds Arctic Climate change Global warming Subarctic |
| op_relation |
10779/aru.23777502.v1 https://figshare.com/articles/journal_contribution/Wildlife_species_benefitting_from_a_greener_Arctic_are_most_sensitive_to_shrub_cover_at_leading_range_edges/23777502 |
| op_rights |
CC BY 4.0 |
| _version_ |
1782329861985009664 |