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Rising Atmospheric CO2 Reduces Sequestration of Root-Derived Soil Carbon.

Heath, James
Ayres, Edward
Possell, Malcolm
Bardgett, Richard D.
Black, Helaina I. J.
Grant, Helen
Ineson, Phil
Kerstiens, Gerhard

Publication date

September 2005

DOI

10.1126/science.1110700

Publisher

American Association for the Advancement of Science (AAAS)

ISSN

0036-8075

Citation count (estimate)

117

Abstract

Forests have a key role as carbon sinks, which could potentially mitigate the continuing increase in atmospheric carbon dioxide concentration and associated climate change. We show that carbon dioxide enrichment, although causing short-term growth stimulation in a range of European tree species, also leads to an increase in soil microbial respiration and a marked decline in sequestration of root-derived carbon in the soil. These findings indicate that, should similar processes operate in forest ecosystems, the size of the annual terrestrial carbon sink may be substantially reduced, resulting in a positive feedback on the rate of increase in atmospheric carbon dioxide concentration

Extracted data

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King, John S.
Hanson, Paul J.
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Oren, Ram
Ellsworth, David S. (R11532)
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Phillips, Nathan C. (Nathan Cole)
Ewers, Brent E.
Maier, Chris A.
Schäfer, Karina V.
McCarthy, Heather R.
Hendrey, George
McNulty, Steven G.
Katul, Gabriel G.

January 2001

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