Frequent fires in ancient shrub tundra: implications of paleorecords for arctic environmental change

Understanding feedbacks between terrestrial and atmospheric systems is vital for predicting the consequences of global change, particularly in the rapidly changing Arctic. Fire is a key process in this context, but the consequences of altered fire regimes in tundra ecosystems are rarely considered,...

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Veröffentlicht in:	PloS one 2008-03, Vol.3 (3), p.e0001744
Hauptverfasser:	Higuera, Philip E, Brubaker, Linda B, Anderson, Patricia M, Brown, Thomas A, Kennedy, Alison T, Hu, Feng Sheng
Format:	Artikel
Sprache:	eng
Schlagworte:	Abundance Age Alaska Arctic environments Arctic Regions Arctic zone Atmosphere Boreal forests Burning Carbon Charcoal Climate change Earth science Ecology Ecology/Community Ecology and Biodiversity Ecology/Ecosystem Ecology Ecology/Global Change Ecology Ecosystem Ecosystems Environmental changes Environmental Monitoring ENVIRONMENTAL SCIENCES Fires Fires - history Forests History, 20th Century History, 21st Century History, Ancient Lake sediments Organic carbon Paleoclimate paleoclimatology Paleoecology Paleography Plant Biology Plant Biology/Plant-Environment Interactions Plant Development Polar environments Pollen Sediments Taiga Taiga & tundra Terrestrial environments Trees - growth & development Tundra Tundra ecology Vegetation cover wildfires
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description	Understanding feedbacks between terrestrial and atmospheric systems is vital for predicting the consequences of global change, particularly in the rapidly changing Arctic. Fire is a key process in this context, but the consequences of altered fire regimes in tundra ecosystems are rarely considered, largely because tundra fires occur infrequently on the modern landscape. We present paleoecological data that indicate frequent tundra fires in northcentral Alaska between 14,000 and 10,000 years ago. Charcoal and pollen from lake sediments reveal that ancient birch-dominated shrub tundra burned as often as modern boreal forests in the region, every 144 years on average (+/- 90 s.d.; n = 44). Although paleoclimate interpretations and data from modern tundra fires suggest that increased burning was aided by low effective moisture, vegetation cover clearly played a critical role in facilitating the paleofires by creating an abundance of fine fuels. These records suggest that greater fire activity will likely accompany temperature-related increases in shrub-dominated tundra predicted for the 21(st) century and beyond. Increased tundra burning will have broad impacts on physical and biological systems as well as on land-atmosphere interactions in the Arctic, including the potential to release stored organic carbon to the atmosphere.
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Fire is a key process in this context, but the consequences of altered fire regimes in tundra ecosystems are rarely considered, largely because tundra fires occur infrequently on the modern landscape. We present paleoecological data that indicate frequent tundra fires in northcentral Alaska between 14,000 and 10,000 years ago. Charcoal and pollen from lake sediments reveal that ancient birch-dominated shrub tundra burned as often as modern boreal forests in the region, every 144 years on average (+/- 90 s.d.; n = 44). Although paleoclimate interpretations and data from modern tundra fires suggest that increased burning was aided by low effective moisture, vegetation cover clearly played a critical role in facilitating the paleofires by creating an abundance of fine fuels. These records suggest that greater fire activity will likely accompany temperature-related increases in shrub-dominated tundra predicted for the 21(st) century and beyond. Increased tundra burning will have broad impacts on physical and biological systems as well as on land-atmosphere interactions in the Arctic, including the potential to release stored organic carbon to the atmosphere.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>18320025</pmid><doi>10.1371/journal.pone.0001744</doi><oa>free_for_read</oa></addata></record>
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subjects	Abundance Age Alaska Arctic environments Arctic Regions Arctic zone Atmosphere Boreal forests Burning Carbon Charcoal Climate change Earth science Ecology Ecology/Community Ecology and Biodiversity Ecology/Ecosystem Ecology Ecology/Global Change Ecology Ecosystem Ecosystems Environmental changes Environmental Monitoring ENVIRONMENTAL SCIENCES Fires Fires - history Forests History, 20th Century History, 21st Century History, Ancient Lake sediments Organic carbon Paleoclimate paleoclimatology Paleoecology Paleography Plant Biology Plant Biology/Plant-Environment Interactions Plant Development Polar environments Pollen Sediments Taiga Taiga & tundra Terrestrial environments Trees - growth & development Tundra Tundra ecology Vegetation cover wildfires
title	Frequent fires in ancient shrub tundra: implications of paleorecords for arctic environmental change
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