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Native and exotic plant cover vary inversely along a climate gradient 11 years following stand-replacing wildfire in a dry coniferous forest, Oregon, USA

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Title Native and exotic plant cover vary inversely along a climate gradient 11 years following stand-replacing wildfire in a dry coniferous forest, Oregon, USA
Names Dodson, Erich K. (creator)
Root, Heather T. (creator)
Date Issued 2015-02 (iso8601)
Note This is an author's peer-reviewed final manuscript, as accepted by the publisher. The published article is copyrighted by John Wiley & Sons, Ltd., and can be found at: http://onlinelibrary.wiley.com/journal/10.1111/%28ISSN%291365-2486
Abstract Community re-assembly following future disturbances will often occur under warmer
and more moisture-limited conditions than when current communities assembled. Because
the establishment stage is regularly the most sensitive to climate and competition, the
trajectory of recovery from disturbance in a changing environment is uncertain, but has
important consequences for future ecosystem functioning. To better understand how ongoing
warming and rising moisture limitation may affect recovery, we studied native and exotic
plant composition 11 years following complete stand-replacing wildfire in a dry coniferous
forest spanning a large gradient in climatic moisture deficit (CMD) from warm and dry low
elevation sites to relatively cool and moist higher elevations sites. We then projected future
precipitation, temperature and CMD at our study locations for four scenarios selected to
encompass a broad range of possible future conditions for the region. Native perennials
dominated relatively cool and moist sites 11 years after wildfire, but were very sparse at the
warmest and driest (high CMD) sites, particularly when combined with high topographic sun
exposure. In contrast, exotic species (primarily annual grasses) were dominant or co-dominant
at the warmest and driest sites, especially with high topographic sun exposure. All
future scenarios projected increasing temperature and CMD in coming decades (e.g., from
4.5% to 29.5% higher CMD by the 2080’s compared to the 1971-2000 average), even in
scenarios where growing season (May-September) precipitation increased. These results
suggest increasing temperatures and moisture limitation could facilitate longer-term (over a
decade) transitions toward exotic-dominated communities after severe wildfire when a
suitable exotic seed source is present.
Genre Article
Topic cheatgrass
Identifier Dodson, E. K., & Root, H. T. (2015). Native and exotic plant cover vary inversely along a climate gradient 11 years following stand-replacing wildfire in a dry coniferous forest, Oregon, USA. Global Change Biology, 21(2), 666–675. doi: 10.1111/gcb.12775

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