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Elevated CO2 and plant species diversity interact to slow root decomposition

Authors :
Kelly L Rula
Aimée T. Classen
Marie-Anne de Graaff
Christopher W. Schadt
Jennifer A. Schweitzer
Johan Six
Source :
Soil Biology and Biochemistry. 43:2347-2354
Publication Year :
2011
Publisher :
Elsevier BV, 2011.

Abstract

Changes in plant species diversity can result in synergistic increases in decomposition rates, while elevated atmospheric CO2 can slow the decomposition rates; yet it remains unclear how diversity and changes in atmospheric CO2 may interact to alter root decomposition. To investigate how elevated CO2 interacts with changes in root-litter diversity to alter decomposition rates, we conducted a 120-day laboratory incubation. Roots from three species (Trifolium repens, Lespedeza cuneata, and Festuca pratense) grown under ambient or elevated CO2 were incubated individually or in combination in soils that were exposed to ambient or elevated CO2 for five years. Our experiment resulted in two main findings: (1) Roots from T. repens and L. cuneata, both nitrogen (N) fixers, grown under elevated CO2 treatments had significantly slower decomposition rates than similar roots grown under ambient CO2 treatments; but the decomposition rate of F. pratense roots (a non-N-fixing species) was similar regardless of CO2 treatment. (2) Roots of the three species grown under ambient CO2 and decomposed in combination with each other had faster decomposition rates than when they were decomposed as single species. However, roots of the three species grown under elevated CO2 had similar decomposition rates when they were incubated alone or in combination with other species. These data suggest that if elevated CO2 reduces the root decomposition rate of even a few species in the community, it may slow root decomposition of the entire plant community.

Details

ISSN :
00380717
Volume :
43
Database :
OpenAIRE
Journal :
Soil Biology and Biochemistry
Accession number :
edsair.doi...........fbf57610e4bfa86923c0204c501ed373
Full Text :
https://doi.org/10.1016/j.soilbio.2011.07.006