Widespread severe wildfires under climate change lead to increased forest homogeneity in dry mixed‐conifer forests

Climate warming in the western United States is causing changes to the wildfire regime in mixed‐conifer forests. Rising temperatures, longer fire seasons, increased drought, as well as fire suppression and changes in land use, have led to greater and more severe wildfire activity, all contributing t...

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Vydané v:	Ecosphere (Washington, D.C) Ročník 10; číslo 11
Hlavní autori:	Cassell, Brooke A., Scheller, Robert M., Lucash, Melissa S., Hurteau, Matthew D., Loudermilk, E. Louise
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Washington John Wiley & Sons, Inc 01.11.2019 Wiley
Predmet:	Abies grandis Abies lasiocarpa altitude central Oregon, USA climate Climate change Coniferous forests Drought dry mixed‐conifer forest Elevation fire regime fire suppression forest change forest dynamics Forest fires forest homogenization Forest management Forests Global warming Heterogeneity Homogeneity Land use Landscape landscapes Mountains Oregon Picea engelmannii Pine trees Pinus albicaulis Pinus ponderosa ponderosa pine forest Species composition species distributions species diversity temperature Threatened species Trees wildfire Wildfires Oregon Blue Mountains United States > US
ISSN:	2150-8925, 2150-8925
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Shrnutí:	Climate warming in the western United States is causing changes to the wildfire regime in mixed‐conifer forests. Rising temperatures, longer fire seasons, increased drought, as well as fire suppression and changes in land use, have led to greater and more severe wildfire activity, all contributing to altered forest composition over the past century. To understand future interactions among climate, wildfire, and vegetation in a fire‐prone landscape in the southern Blue Mountains of central Oregon, we used a spatially explicit forest landscape model, LANDIS‐II, to simulate forest and fire dynamics under current management practices and two projected climate scenarios. The results suggest that wildfires will become more frequent, more extensive, and more severe under projected climate than contemporary climate. Furthermore, projected climate change generated a 20% increase in the number of extreme fire years (years with at least 40,000 ha burned). This caused large shifts in tree species composition, characterized by a decline in the sub‐alpine species (Abies lasiocarpa, Picea engelmannii, Pinus albicaulis) and increases in lower‐elevation species (Pinus ponderosa, Abies grandis), resulting in forest homogenization across the elevational gradient. This modeling study suggests that climate‐driven increases in fire activity and severity will make high‐elevation species vulnerable to decline and will reduce landscape heterogeneity. These results underscore the need for forest managers to actively consider climate change, altered fire regimes, and projected declines in sub‐alpine species in their long‐term management plans.
Bibliografia:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23
ISSN:	2150-8925 2150-8925
DOI:	10.1002/ecs2.2934