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25 avril 2012
- handle: 10670/1.cu70tz
- van Bellen, Simon; Garneau, Michelle; Ali, Adam A. et Bergeron, Yves (2012). « Did fires drive Holocene carbon sequestration in boreal ombrotrophic peatlands of eastern Canada? ». Quaternary Research, 78(01), pp. 50-59.
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http://archipel.uqam.ca/11848/
Ce document est lié à :
http://dx.doi.org/10.1016/j.yqres
Ce document est lié à :
doi:10.1016/j.yqres.2012.03.009
Sujets proches
Carbon capture and storage CCS (Carbon sequestration) Carbon dioxide sequestration Fire losses Buildings--Fires and fire prevention ConflagrationsCiter ce document
Simon van Bellen et al., « Did fires drive Holocene carbon sequestration in boreal ombrotrophic peatlands of eastern Canada? », UQAM Archipel : articles scientifiques, ID : 10670/1.cu70tz
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Résumé
Wildfire is an important factor on carbon sequestration in the North American boreal biomes. Being globally important stocks of organic carbon, peatlands may be less sensitive to burning in comparison with upland forests, especially wet unforested ombrotrophic ecosystems as found in northeastern Canada. We aimed to determine if peatland fires have driven carbon accumulation patterns during the Holocene. To cover spatial variability, six cores from three peatlands in the Eastmain region of Quebec were analyzed for stratigraphic charcoal accumulation. Results show that regional Holocene peatland fire frequency was ~2.4 fires 1000 yrs-1, showing a gradually declining trend since 4000 cal yr BP, although inter- and intra-peatland variability was very high. Charcoal peak magnitudes, however, were significantly higher between 1400 and 400 cal yr BP, possibly reflecting higher charcoal production driven by differential climatic forcing aspects. Carbon accumulation rates generally declined towards the late-Holocene with minimum values of ~10 g m-2 yr-1 around 1500 cal yr BP. The absence of a clear correlation between peatland fire regimes and carbon accumulation indicates that fire regimes have not been a driving factor on carbon sequestration at the millennial timescale.