Mountain building, climate cooling and the richness of cold‐adapted plants in the Northern Hemisphere
[eng] Aim The summits of mountain ranges at mid‐latitude in the Northern Hemisphere share many ecological properties with the Arctic, including comparable climates and similar flora. We hypothesize that the orogeny during the Oligocene‐Miocene combined with global cooling led to the origin and early...
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| Format: | Article in Journal/Newspaper |
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| Online Access: | http://hdl.handle.net/11201/155416 |
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ftunillesbalears:oai:dspace.uib.es:11201/155416 2023-05-15T14:30:59+02:00 Mountain building, climate cooling and the richness of cold‐adapted plants in the Northern Hemisphere Hagen, Oskar Vaterlaus, Lisa Albouy, Camille Brown, Andrew Leugger, Flurin Onstein, Renske E. Novaes de Santana, Charles Scotese, Christopher R. Pellissier, Loïc application/pdf http://hdl.handle.net/11201/155416 unknown Versió preprint del document publicat a: https://onlinelibrary.wiley.com/doi/full/10.1111/jbi.13653 Journal of Biogeography, 2019, vol. 46, num. 8, p. 1792-1807 http://hdl.handle.net/11201/155416 info:eu-repo/semantics/embargoedAccess 57 - Biologia Geografia 502 - Natura. Estudi conservació i protecció de la natura 57 - Biological sciences in general Geography 502 - The environment and its protection info:eu-repo/semantics/article info:eu-repo/semantics/submittedVersion ftunillesbalears 2021-06-25T17:57:50Z [eng] Aim The summits of mountain ranges at mid‐latitude in the Northern Hemisphere share many ecological properties with the Arctic, including comparable climates and similar flora. We hypothesize that the orogeny during the Oligocene‐Miocene combined with global cooling led to the origin and early diversification of cold‐adapted plant lineages in these regions. Before the establishment of the Arctic cryosphere, adaptation and speciation in high elevation areas of these mountain ranges may have led to higher species richness compared to the Arctic. Subsequent colonization from mid‐latitude mountain ranges to the Arctic may explain similar but poorer flora. Location Arctic‐Alpine regions of the Northern Hemisphere. Methods We mapped the cold climate in the Northern Hemisphere for most of the Cenozoic (60 Ma until present) based on paleoclimate proxies coupled with paleoelevations. We generated species distribution maps from occurrences and regional atlases for 5,464 plant species from 756 genera occupying cold climates. We fitted a generalized linear model to evaluate the association between cold‐adapted plant species richness and environmental, as well as geographic variables. Finally, we performed a meta‐analysis of studies which inferred and dated the ancestral geographic origin of cold‐adapted lineages using phylogenies. Results We found that the subalpine‐alpine areas of the mid‐latitude mountain ranges comprise higher cold‐adapted plant species richness than the Palearctic and Nearctic polar regions. The topo‐climatic reconstructions indicate that the cold climatic niche appeared in mid‐latitude mountain ranges (42-38 Ma), specifically in the Himalayan region, and only later in the Arctic (22-18 Ma). The meta‐analysis of the dating of the origin of cold‐adapted lineages indicates that most clades originated in central Asia between 39-7 Ma. Main conclusions Our results support the hypothesis that the orogeny and progressive cooling in the Oligocene‐Miocene generated cold climates in mid‐latitude mountain ranges before the appearance of cold climates in most of the Arctic. Early cold mountainous regions likely allowed for the evolution and diversification of cold‐adapted plant lineages followed by the subsequent colonization of the Arctic. Our results follow Humboldt's vision of integrating biological and geological context in order to better understand the processes underlying the origin of arctic‐alpine plant assemblages. Article in Journal/Newspaper arctic cryosphere Arctic UIB Repositori (University of the Balearic Islands) Arctic |
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Open Polar |
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UIB Repositori (University of the Balearic Islands) |
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ftunillesbalears |
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unknown |
| topic |
57 - Biologia Geografia 502 - Natura. Estudi conservació i protecció de la natura 57 - Biological sciences in general Geography 502 - The environment and its protection |
| spellingShingle |
57 - Biologia Geografia 502 - Natura. Estudi conservació i protecció de la natura 57 - Biological sciences in general Geography 502 - The environment and its protection Hagen, Oskar Vaterlaus, Lisa Albouy, Camille Brown, Andrew Leugger, Flurin Onstein, Renske E. Novaes de Santana, Charles Scotese, Christopher R. Pellissier, Loïc Mountain building, climate cooling and the richness of cold‐adapted plants in the Northern Hemisphere |
| topic_facet |
57 - Biologia Geografia 502 - Natura. Estudi conservació i protecció de la natura 57 - Biological sciences in general Geography 502 - The environment and its protection |
| description |
[eng] Aim The summits of mountain ranges at mid‐latitude in the Northern Hemisphere share many ecological properties with the Arctic, including comparable climates and similar flora. We hypothesize that the orogeny during the Oligocene‐Miocene combined with global cooling led to the origin and early diversification of cold‐adapted plant lineages in these regions. Before the establishment of the Arctic cryosphere, adaptation and speciation in high elevation areas of these mountain ranges may have led to higher species richness compared to the Arctic. Subsequent colonization from mid‐latitude mountain ranges to the Arctic may explain similar but poorer flora. Location Arctic‐Alpine regions of the Northern Hemisphere. Methods We mapped the cold climate in the Northern Hemisphere for most of the Cenozoic (60 Ma until present) based on paleoclimate proxies coupled with paleoelevations. We generated species distribution maps from occurrences and regional atlases for 5,464 plant species from 756 genera occupying cold climates. We fitted a generalized linear model to evaluate the association between cold‐adapted plant species richness and environmental, as well as geographic variables. Finally, we performed a meta‐analysis of studies which inferred and dated the ancestral geographic origin of cold‐adapted lineages using phylogenies. Results We found that the subalpine‐alpine areas of the mid‐latitude mountain ranges comprise higher cold‐adapted plant species richness than the Palearctic and Nearctic polar regions. The topo‐climatic reconstructions indicate that the cold climatic niche appeared in mid‐latitude mountain ranges (42-38 Ma), specifically in the Himalayan region, and only later in the Arctic (22-18 Ma). The meta‐analysis of the dating of the origin of cold‐adapted lineages indicates that most clades originated in central Asia between 39-7 Ma. Main conclusions Our results support the hypothesis that the orogeny and progressive cooling in the Oligocene‐Miocene generated cold climates in mid‐latitude mountain ranges before the appearance of cold climates in most of the Arctic. Early cold mountainous regions likely allowed for the evolution and diversification of cold‐adapted plant lineages followed by the subsequent colonization of the Arctic. Our results follow Humboldt's vision of integrating biological and geological context in order to better understand the processes underlying the origin of arctic‐alpine plant assemblages. |
| format |
Article in Journal/Newspaper |
| author |
Hagen, Oskar Vaterlaus, Lisa Albouy, Camille Brown, Andrew Leugger, Flurin Onstein, Renske E. Novaes de Santana, Charles Scotese, Christopher R. Pellissier, Loïc |
| author_facet |
Hagen, Oskar Vaterlaus, Lisa Albouy, Camille Brown, Andrew Leugger, Flurin Onstein, Renske E. Novaes de Santana, Charles Scotese, Christopher R. Pellissier, Loïc |
| author_sort |
Hagen, Oskar |
| title |
Mountain building, climate cooling and the richness of cold‐adapted plants in the Northern Hemisphere |
| title_short |
Mountain building, climate cooling and the richness of cold‐adapted plants in the Northern Hemisphere |
| title_full |
Mountain building, climate cooling and the richness of cold‐adapted plants in the Northern Hemisphere |
| title_fullStr |
Mountain building, climate cooling and the richness of cold‐adapted plants in the Northern Hemisphere |
| title_full_unstemmed |
Mountain building, climate cooling and the richness of cold‐adapted plants in the Northern Hemisphere |
| title_sort |
mountain building, climate cooling and the richness of cold‐adapted plants in the northern hemisphere |
| url |
http://hdl.handle.net/11201/155416 |
| geographic |
Arctic |
| geographic_facet |
Arctic |
| genre |
arctic cryosphere Arctic |
| genre_facet |
arctic cryosphere Arctic |
| op_relation |
Versió preprint del document publicat a: https://onlinelibrary.wiley.com/doi/full/10.1111/jbi.13653 Journal of Biogeography, 2019, vol. 46, num. 8, p. 1792-1807 http://hdl.handle.net/11201/155416 |
| op_rights |
info:eu-repo/semantics/embargoedAccess |
| _version_ |
1766304729586991104 |