Intra-specific variation in phenology offers resilience to climate change for Eriophorum vaginatum

Phenology of arctic plants is an important determinant of the pattern of carbon uptake and may be highly sensitive to continued rapid climate change. Eriophorum vaginatum has a disproportionate influence over ecosystem processes in moist acidic tundra, but it is unclear whether its growth and phenol...

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Bibliographic Details
Published in:Arctic Science
Main Authors: Parker, Thomas C, Unger, Steven L, Moody, Michael L, Tang, Jianwu, Fetcher, Ned
Other Authors: National Science Foundation, Biological and Environmental Sciences, Florida International University, University of Texas, El Paso, Marine Biological Laboratory, Wilkes University, orcid:0000-0002-3648-5316
Format: Article in Journal/Newspaper
Language:English
Published: Canadian Science Publishing 2021
Subjects:
Phenology
Tundra
Eriophorum vaginatum
Ecotype
Climate Change
Arctic
Climate change
Eriophorum
Online Access:http://hdl.handle.net/1893/32622
https://doi.org/10.1139/as-2020-0039
http://dspace.stir.ac.uk/retrieve/54be230e-3e69-4f09-8dff-c0f41a898f6e/as-2020-0039.pdf
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Summary:Phenology of arctic plants is an important determinant of the pattern of carbon uptake and may be highly sensitive to continued rapid climate change. Eriophorum vaginatum has a disproportionate influence over ecosystem processes in moist acidic tundra, but it is unclear whether its growth and phenology will remain competitive in the future. We asked whether northern tundra ecotypes of E. vaginatum could extend their growing season in response to direct warming and transplanting into southern ecosystems. At the same time, we asked whether southern ecotypes could adjust their growth patterns in order to thrive further north, should they disperse quickly enough. Detailed phenology measurements across three reciprocal transplant gardens and two years showed that some northern ecotypes were capable of growing for longer when conditions were favourable, but their biomass and growing season length was still shorter than the southern ecotype. Southern ecotypes retained large leaf length when transplanted north and mirrored the growing season length better than the others, mainly due to immediate green-up after snowmelt. All ecotypes retained the same senescence timing, regardless of environment, indicating a strong genetic control. E. vaginatum may remain competitive in a warming world if southern ecotypes can migrate north. Output Status: Forthcoming/Available Online

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