A 1,500-year synthesis of wildfire activity stratified by elevation from the U.S. Rocky Mountains. Carter, V. A., Power, M. J., Lundeen, Z. J., Morris, J. L., Petersen, K. L., Brunelle, A., Anderson, R. S., Shinker, J. J., Turney, L., Koll, R., & Bartlein, P. J. Quaternary International, 488:107–119, September, 2018.
doi  abstract   bibtex   
A key task in fire-climate research in the western United States is to characterize potential future fire-climate linkages across different elevational gradients. Using thirty-seven sedimentary charcoal records, here we present a 1500-year synthesis of wildfire activity across different elevational gradients to characterize fire-climate linkages. From our results, we have identified three periods of elevated fire occurrence centered on the 20th century, 900 cal yr BP, and 1350 cal yr BP. During the 20th century, fire activity has occurred primarily in the northern Rocky Mountains, with mid-elevations experiencing the greatest increase in wildfire activity. While wildfires occurred primarily in the SRM region ∼900 cal yr BP, the greatest increase in high-elevations occurred in the NRM at this time. Finally, synchronous wildfires occurred in both northern and southern Rocky Mountain mid-elevations ∼1350 cal yr BP, suggesting a potential analog for future wildfire conditions in response to warmer temperatures and more protracted droughts. We conclude that wildfire activity increased in most elevations during periods of protracted summer drought, warmer-than-average temperatures, and based on modern climate analogs, reduced atmospheric humidity.
@article{carter_1500-year_2018,
	series = {The {Fire}-{Human}-{Climate}-{Vegetation} {Nexus}},
	title = {A 1,500-year synthesis of wildfire activity stratified by elevation from the {U}.{S}. {Rocky} {Mountains}},
	volume = {488},
	issn = {1040-6182},
	doi = {10.1016/j.quaint.2017.06.051},
	abstract = {A key task in fire-climate research in the western United States is to characterize potential future fire-climate linkages across different elevational gradients. Using thirty-seven sedimentary charcoal records, here we present a 1500-year synthesis of wildfire activity across different elevational gradients to characterize fire-climate linkages. From our results, we have identified three periods of elevated fire occurrence centered on the 20th century, 900 cal yr BP, and 1350 cal yr BP. During the 20th century, fire activity has occurred primarily in the northern Rocky Mountains, with mid-elevations experiencing the greatest increase in wildfire activity. While wildfires occurred primarily in the SRM region ∼900 cal yr BP, the greatest increase in high-elevations occurred in the NRM at this time. Finally, synchronous wildfires occurred in both northern and southern Rocky Mountain mid-elevations ∼1350 cal yr BP, suggesting a potential analog for future wildfire conditions in response to warmer temperatures and more protracted droughts. We conclude that wildfire activity increased in most elevations during periods of protracted summer drought, warmer-than-average temperatures, and based on modern climate analogs, reduced atmospheric humidity.},
	urldate = {2019-01-22},
	journal = {Quaternary International},
	author = {Carter, Vachel A. and Power, Mitchell J. and Lundeen, Zachary J. and Morris, Jesse L. and Petersen, Kenneth L. and Brunelle, Andrea and Anderson, R. Scott and Shinker, Jacqueline J. and Turney, Lovina and Koll, Rebecca and Bartlein, Patrick J.},
	month = sep,
	year = {2018},
	keywords = {Charcoal, Climate, Fire, Paleofire, Rocky Mountains},
	pages = {107--119},
}

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