Factors limiting the potential range expansion of lodgepole pine in Interior Alaska
Understanding the factors influencing species range limits is increasingly crucial in anticipating migrations due to human‐caused climate change. In the boreal biome, ongoing climate change and the associated increases in the rate, size, and severity of disturbances may alter the distributions of bo...
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| Vydané v: | Ecological applications Ročník 34; číslo 5; s. e2983 - n/a |
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| Hlavní autori: | , , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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Hoboken, USA
John Wiley & Sons, Inc
01.07.2024
Ecological Society of America |
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| ISSN: | 1051-0761, 1939-5582 |
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| Abstract | Understanding the factors influencing species range limits is increasingly crucial in anticipating migrations due to human‐caused climate change. In the boreal biome, ongoing climate change and the associated increases in the rate, size, and severity of disturbances may alter the distributions of boreal tree species. Notably, Interior Alaska lacks native pine, a biogeographical anomaly that carries implications for ecosystem structure and function. The current range of lodgepole pine (Pinus contorta var. latifolia) in the adjacent Yukon Territory may expand into Interior Alaska, particularly with human assistance. Evaluating the potential for pine expansion in Alaska requires testing constraints on range limits such as dispersal limitations, environmental tolerance limits, and positive or negative biotic interactions. In this study, we used field experiments with pine seeds and transplanted seedlings, complemented by model simulations, to assess the abiotic and biotic factors influencing lodgepole pine seedling establishment and growth after fire in Interior Alaska. We found that pine could successfully recruit, survive, grow, and reproduce across our broadly distributed network of experimental sites. Our results show that both mammalian herbivory and competition from native tree species are unlikely to constrain pine growth and that environmental conditions commonly found in Interior Alaska fall well within the tolerance limits for pine. If dispersal constraints are released, lodgepole pine could have a geographically expansive range in Alaska, and once established, its growth is sufficient to support pine‐dominated stands. Given the impacts of lodgepole pine on ecosystem processes such as increases in timber production, carbon sequestration, landscape flammability, and reduced forage quality, natural or human‐assisted migration of this species is likely to substantially alter responses of Alaskan forest ecosystems to climate change. |
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| AbstractList | Understanding the factors influencing species range limits is increasingly crucial in anticipating migrations due to human-caused climate change. In the boreal biome, ongoing climate change and the associated increases in the rate, size, and severity of disturbances may alter the distributions of boreal tree species. Notably, Interior Alaska lacks native pine, a biogeographical anomaly that carries implications for ecosystem structure and function. The current range of lodgepole pine (Pinus contorta var. latifolia) in the adjacent Yukon Territory may expand into Interior Alaska, particularly with human assistance. Evaluating the potential for pine expansion in Alaska requires testing constraints on range limits such as dispersal limitations, environmental tolerance limits, and positive or negative biotic interactions. In this study, we used field experiments with pine seeds and transplanted seedlings, complemented by model simulations, to assess the abiotic and biotic factors influencing lodgepole pine seedling establishment and growth after fire in Interior Alaska. We found that pine could successfully recruit, survive, grow, and reproduce across our broadly distributed network of experimental sites. Our results show that both mammalian herbivory and competition from native tree species are unlikely to constrain pine growth and that environmental conditions commonly found in Interior Alaska fall well within the tolerance limits for pine. If dispersal constraints are released, lodgepole pine could have a geographically expansive range in Alaska, and once established, its growth is sufficient to support pine-dominated stands. Given the impacts of lodgepole pine on ecosystem processes such as increases in timber production, carbon sequestration, landscape flammability, and reduced forage quality, natural or human-assisted migration of this species is likely to substantially alter responses of Alaskan forest ecosystems to climate change. Understanding the factors influencing species range limits is increasingly crucial in anticipating migrations due to human-caused climate change. In the boreal biome, ongoing climate change and the associated increases in the rate, size, and severity of disturbances may alter the distributions of boreal tree species. Notably, Interior Alaska lacks native pine, a biogeographical anomaly that carries implications for ecosystem structure and function. The current range of lodgepole pine (Pinus contorta var. latifolia) in the adjacent Yukon Territory may expand into Interior Alaska, particularly with human assistance. Evaluating the potential for pine expansion in Alaska requires testing constraints on range limits such as dispersal limitations, environmental tolerance limits, and positive or negative biotic interactions. In this study, we used field experiments with pine seeds and transplanted seedlings, complemented by model simulations, to assess the abiotic and biotic factors influencing lodgepole pine seedling establishment and growth after fire in Interior Alaska. We found that pine could successfully recruit, survive, grow, and reproduce across our broadly distributed network of experimental sites. Our results show that both mammalian herbivory and competition from native tree species are unlikely to constrain pine growth and that environmental conditions commonly found in Interior Alaska fall well within the tolerance limits for pine. If dispersal constraints are released, lodgepole pine could have a geographically expansive range in Alaska, and once established, its growth is sufficient to support pine-dominated stands. Given the impacts of lodgepole pine on ecosystem processes such as increases in timber production, carbon sequestration, landscape flammability, and reduced forage quality, natural or human-assisted migration of this species is likely to substantially alter responses of Alaskan forest ecosystems to climate change.Understanding the factors influencing species range limits is increasingly crucial in anticipating migrations due to human-caused climate change. In the boreal biome, ongoing climate change and the associated increases in the rate, size, and severity of disturbances may alter the distributions of boreal tree species. Notably, Interior Alaska lacks native pine, a biogeographical anomaly that carries implications for ecosystem structure and function. The current range of lodgepole pine (Pinus contorta var. latifolia) in the adjacent Yukon Territory may expand into Interior Alaska, particularly with human assistance. Evaluating the potential for pine expansion in Alaska requires testing constraints on range limits such as dispersal limitations, environmental tolerance limits, and positive or negative biotic interactions. In this study, we used field experiments with pine seeds and transplanted seedlings, complemented by model simulations, to assess the abiotic and biotic factors influencing lodgepole pine seedling establishment and growth after fire in Interior Alaska. We found that pine could successfully recruit, survive, grow, and reproduce across our broadly distributed network of experimental sites. Our results show that both mammalian herbivory and competition from native tree species are unlikely to constrain pine growth and that environmental conditions commonly found in Interior Alaska fall well within the tolerance limits for pine. If dispersal constraints are released, lodgepole pine could have a geographically expansive range in Alaska, and once established, its growth is sufficient to support pine-dominated stands. Given the impacts of lodgepole pine on ecosystem processes such as increases in timber production, carbon sequestration, landscape flammability, and reduced forage quality, natural or human-assisted migration of this species is likely to substantially alter responses of Alaskan forest ecosystems to climate change. |
| Author | Jean, Mélanie Hewitt, Rebecca Walker, Xanthe J. Johnstone, Jill F. Mack, Michelle C. Hollingsworth, Teresa N. Hart, Sarah Brown, Carissa D. Hansen, Winslow D. Stuart Chapin, F. |
| Author_xml | – sequence: 1 givenname: Xanthe J. orcidid: 0000-0002-2448-691X surname: Walker fullname: Walker, Xanthe J. email: xanthe.walker@nau.edu organization: School of Informatics, Computing and Cyber Systems, Northern Arizona University – sequence: 2 givenname: Sarah surname: Hart fullname: Hart, Sarah organization: Colorado State University – sequence: 3 givenname: Winslow D. orcidid: 0000-0003-3868-9416 surname: Hansen fullname: Hansen, Winslow D. organization: Cary Institute of Ecosystem Studies – sequence: 4 givenname: Mélanie surname: Jean fullname: Jean, Mélanie organization: Université de Moncton – sequence: 5 givenname: Carissa D. orcidid: 0000-0002-1587-6641 surname: Brown fullname: Brown, Carissa D. organization: Memorial University – sequence: 6 givenname: F. surname: Stuart Chapin fullname: Stuart Chapin, F. organization: Institute of Arctic Biology, University of Alaska – sequence: 7 givenname: Rebecca orcidid: 0000-0002-6668-8472 surname: Hewitt fullname: Hewitt, Rebecca organization: Amherst College – sequence: 8 givenname: Teresa N. surname: Hollingsworth fullname: Hollingsworth, Teresa N. organization: Boreal Ecology Team, PNW Research Station Fairbanks – sequence: 9 givenname: Michelle C. surname: Mack fullname: Mack, Michelle C. organization: Northern Arizona University – sequence: 10 givenname: Jill F. orcidid: 0000-0001-6131-9339 surname: Johnstone fullname: Johnstone, Jill F. organization: Institute of Arctic Biology, University of Alaska |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38840517$$D View this record in MEDLINE/PubMed |
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| Keywords | disturbance simulation modeling experiment species distribution range limits boreal forest wildfire Pinus contorta lodgepole pine climate change |
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| Snippet | Understanding the factors influencing species range limits is increasingly crucial in anticipating migrations due to human‐caused climate change. In the boreal... Understanding the factors influencing species range limits is increasingly crucial in anticipating migrations due to human-caused climate change. In the boreal... |
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| SubjectTerms | Alaska Assisted migration Biotic factors boreal forest Carbon sequestration Climate change Constraints disturbance Ecosystem structure ecosystems Environmental conditions Evergreen trees experiment Field tests Flammability forage quality Forest ecosystems forests Geographical distribution herbivores Herbivory humans Immunological tolerance Indigenous species landscapes lodgepole pine Migratory species Pine Pine trees Pinus contorta Pinus contorta var. latifolia plant establishment Plant species Range extension range limits Seed dispersal Seedlings simulation modeling species species distribution Structure-function relationships Terrestrial ecosystems timber production trees wildfire Yukon Territory |
| Title | Factors limiting the potential range expansion of lodgepole pine in Interior Alaska |
| URI | https://onlinelibrary.wiley.com/doi/abs/10.1002%2Feap.2983 https://www.ncbi.nlm.nih.gov/pubmed/38840517 https://www.proquest.com/docview/3092892957 https://www.proquest.com/docview/3065274957 https://www.proquest.com/docview/3153656742 |
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