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Attributing carbon changes in conterminous U.SAuthor(s): Fangmin Zhang; Jing M. Chen; Yude Pan; Richard A. Birdsey; Shuanghe Shen; Weimin Ju; Liming He
Source: Journal of Geophysical Research: Biogeosciences
Publication Series: Scientific Journal (JRNL)
Station: Northern Research Station
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Related Research Highlights Effects of Disturbance, Climate, and Management on U.S. Forest Carbon
DescriptionRecent climate variability (increasing temperature, droughts) and atmospheric composition changes (nitrogen deposition, rising CO2 concentration) along with harvesting, wildfires, and insect infestations have had significant effects on U.S. forest carbon (C) uptake. In this study, we attribute C changes in the conterminous U.S. forests to disturbance and non-disturbance factors with the help of forest inventory data, a continental stand age map, and an updated Integrated Terrestrial Ecosystem Carbon Cycle model (InTEC). We grouped factors into disturbances (harvesting, fire, insect infestation) and non-disturbances (CO2 concentration, N deposition, and climate variability) and estimated their subsequent impacts on forest regrowth patterns. Results showed that on average, the C sink in the conterminous U.S. forests from 1950 to 2010 was 206 Tg C yr-1 with 87% (180 Tg C yr-1) of the sink in living biomass. Compared with the simulation of all factors combined, the estimated C sink would be reduced by 95 Tg C yr-1 if disturbance factors were omitted, and reduced by 50 Tg C yr
if non-disturbance factors were omitted. Our study also showed diverse regional patterns of C sinks related to the importance of driving factors. During 1980–2010, disturbance effects dominated the C changes in the South and Rocky Mountain regions, were almost equal to non-disturbance effects in the North region, and had minor effects compared with non-disturbance effects in the West Coast region.
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CitationZhang, Fangmin;Chen, Jing M.;Pan, Yude; Birdsey, Richard A.;Shen, Shuanghe;Ju, Weimin;He, Liming. 2012. Attributing carbon changes in conterminous U.S. forests to disturbance and non-disturbance factors from 1901 to 2010. Journal of Geophysical Research: Biogeosciences. 117(G2): 18p.
KeywordsN deposition, carbon sink and source, climate change, disturbances, elevated CO2, forest age
- Attributing carbon changes in conterminous U.S. forests to disturbance and non-disturbance factors from 1901 to 2010
- Attribution of net carbon change by disturbance type across forest lands of the conterminous United States
- From sink to source: Regional variation in U.S. forest carbon futures
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