Alpine treeline of western North America: Linking organism-to-landscape dynamics
Although the ecological dynamics of the alpine treeline ecotone are influenced by climate, it is an imperfect indicator of climate change. Mechanistic processes that shape the ecotone—seed rain, seed germination, seedling establishment and subsequent tree growth form, or, conversely tree dieback—dep...
| Main Authors: | , , , , , , , , , , , , , , , |
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| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Taylor & Francis Ltd.
2007
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| Subjects: | |
| Online Access: | http://www.tandfonline.com/toc/tphy20/28/5 |
| _version_ | 1821733379123445760 |
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| author | Malanson, G P Butler, D R Fagre, D B Walsh, Stephen J Tomback, D F Daniels, L D Resler, L M Smith, W K Weiss, D J Peterson, D L Bunn, A G Hiemstra, C A Liptzin, D Bourgeron, P S Shen, Z Millar, C I |
| author_facet | Malanson, G P Butler, D R Fagre, D B Walsh, Stephen J Tomback, D F Daniels, L D Resler, L M Smith, W K Weiss, D J Peterson, D L Bunn, A G Hiemstra, C A Liptzin, D Bourgeron, P S Shen, Z Millar, C I |
| author_sort | Malanson, G P |
| collection | University of the Sunshine Coast, Queensland, Australia: COAST Research Database |
| description | Although the ecological dynamics of the alpine treeline ecotone are influenced by climate, it is an imperfect indicator of climate change. Mechanistic processes that shape the ecotone—seed rain, seed germination, seedling establishment and subsequent tree growth form, or, conversely tree dieback—depend on microsite patterns. Growth forms affect wind and snow, and so develop positive and negative feedback loops that create these microsites. As a result, complex landscape patterns are generated at multiple spatial scales. Although these mechanistic processes are fundamentally the same for all forest-tundra ecotones across western North America, factors such as prior climate, underlying geology and geomorphology, and genetic constraints of dominant tree species lead to geographic differences in the responses of particular ecotones to climate change. |
| format | Article in Journal/Newspaper |
| genre | Tundra |
| genre_facet | Tundra |
| id | ftunivscoast:usc:16577 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivscoast |
| op_relation | usc:16577 URN:ISSN: 0272-3646 |
| publishDate | 2007 |
| publisher | Taylor & Francis Ltd. |
| record_format | openpolar |
| spelling | ftunivscoast:usc:16577 2025-01-17T01:11:56+00:00 Alpine treeline of western North America: Linking organism-to-landscape dynamics Malanson, G P Butler, D R Fagre, D B Walsh, Stephen J Tomback, D F Daniels, L D Resler, L M Smith, W K Weiss, D J Peterson, D L Bunn, A G Hiemstra, C A Liptzin, D Bourgeron, P S Shen, Z Millar, C I 2007 http://www.tandfonline.com/toc/tphy20/28/5 eng eng Taylor & Francis Ltd. usc:16577 URN:ISSN: 0272-3646 FoR 0401 (Atmospheric Sciences) FoR 0406 (Physical Geography and Environmental Geoscience) climate change ecotone establishment geomorphology landscape scale Journal Article 2007 ftunivscoast 2018-08-20T22:25:05Z Although the ecological dynamics of the alpine treeline ecotone are influenced by climate, it is an imperfect indicator of climate change. Mechanistic processes that shape the ecotone—seed rain, seed germination, seedling establishment and subsequent tree growth form, or, conversely tree dieback—depend on microsite patterns. Growth forms affect wind and snow, and so develop positive and negative feedback loops that create these microsites. As a result, complex landscape patterns are generated at multiple spatial scales. Although these mechanistic processes are fundamentally the same for all forest-tundra ecotones across western North America, factors such as prior climate, underlying geology and geomorphology, and genetic constraints of dominant tree species lead to geographic differences in the responses of particular ecotones to climate change. Article in Journal/Newspaper Tundra University of the Sunshine Coast, Queensland, Australia: COAST Research Database |
| spellingShingle | FoR 0401 (Atmospheric Sciences) FoR 0406 (Physical Geography and Environmental Geoscience) climate change ecotone establishment geomorphology landscape scale Malanson, G P Butler, D R Fagre, D B Walsh, Stephen J Tomback, D F Daniels, L D Resler, L M Smith, W K Weiss, D J Peterson, D L Bunn, A G Hiemstra, C A Liptzin, D Bourgeron, P S Shen, Z Millar, C I Alpine treeline of western North America: Linking organism-to-landscape dynamics |
| title | Alpine treeline of western North America: Linking organism-to-landscape dynamics |
| title_full | Alpine treeline of western North America: Linking organism-to-landscape dynamics |
| title_fullStr | Alpine treeline of western North America: Linking organism-to-landscape dynamics |
| title_full_unstemmed | Alpine treeline of western North America: Linking organism-to-landscape dynamics |
| title_short | Alpine treeline of western North America: Linking organism-to-landscape dynamics |
| title_sort | alpine treeline of western north america: linking organism-to-landscape dynamics |
| topic | FoR 0401 (Atmospheric Sciences) FoR 0406 (Physical Geography and Environmental Geoscience) climate change ecotone establishment geomorphology landscape scale |
| topic_facet | FoR 0401 (Atmospheric Sciences) FoR 0406 (Physical Geography and Environmental Geoscience) climate change ecotone establishment geomorphology landscape scale |
| url | http://www.tandfonline.com/toc/tphy20/28/5 |