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Environmental Research Letters Volume 4 Number 4 Create an alert RSS this journal

N M Tchebakova et al 2009 Environ. Res. Lett. 4 045013 doi:10.1088/1748-9326/4/4/045013

The effects of climate, permafrost and fire on vegetation change in Siberia in a changing climate

Climatic and Environmental Change in Northern Eurasia

N M Tchebakova1,3, E Parfenova1 and A J Soja2

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Abstract References Cited By

Part of Climatic and Environmental Change in Northern Eurasia

Observations and general circulation model projections suggest significant temperature increases in Siberia this century that are expected to have profound effects on Siberian vegetation. Potential vegetation change across Siberia was modeled, coupling our Siberian BioClimatic Model with several Hadley Centre climate change scenarios for 2020, 2050 and 2080, with explicit consideration of permafrost and fire activity. In the warmer and drier climate projected by these scenarios, Siberian forests are predicted to decrease and shift northwards and forest–steppe and steppe ecosystems are predicted to dominate over half of Siberia due to the dryer climate by 2080. Despite the large predicted increases in warming, permafrost is not predicted to thaw deep enough to sustain dark (Pinus sibirica, Abies sibirica, and Picea obovata) taiga. Over eastern Siberia, larch (Larix dahurica) taiga is predicted to continue to be the dominant zonobiome because of its ability to withstand continuous permafrost. The model also predicts new temperate broadleaf forest and forest–steppe habitats by 2080. Potential fire danger evaluated with the annual number of high fire danger days (Nesterov index is 4000–10 000) is predicted to increase by 2080, especially in southern Siberia and central Yakutia. In a warming climate, fuel load accumulated due to replacement of forest by steppe together with frequent fire weather promotes high risks of large fires in southern Siberia and central Yakutia, where wild fires would create habitats for grasslands because the drier climate would no longer be suitable for forests.


PACS

92.60.Ry Climatology

92.60.hv Pressure, density, and temperature

91.62.+g Biogeosciences

92.60.Fm Boundary layer structure and processes

93.30.Db Asia

92.60.Bh General circulation

Subjects

Environmental and Earth science

Dates

Issue 4 (October-December 2009)

Received 23 March 2009, accepted for publication 3 September 2009

Published 15 October 2009



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