Articles | Volume 12, issue 19
https://doi.org/10.5194/bg-12-5831-2015
https://doi.org/10.5194/bg-12-5831-2015
Research article
 | 
13 Oct 2015
Research article |  | 13 Oct 2015

Soil fertility controls soil–atmosphere carbon dioxide and methane fluxes in a tropical landscape converted from lowland forest to rubber and oil palm plantations

E. Hassler, M. D. Corre, A. Tjoa, M. Damris, S. R. Utami, and E. Veldkamp

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Cited articles

Adachi, M., Bekku, Y. S., Konuma, A., Kadir, W. R., Okuda, T., and Koizumi, H.: Required sample size for estimating soil respiration rates in large areas of two tropical forests and of two types of plantation in Malaysia, Forest Ecol. Manag., 210, 455–459, 2005.
Allen, K., Corre, M. D., Tjoa, A., and Veldkamp, E.: Soil nitrogen-cycling responses to conversion of lowland forests to oil palm and rubber plantations in Sumatra, Indonesia, PLoS ONE, 10, e0133325. https://doi.org/10.1371/journal.pone.0133325, 2015.
Arnold, J., Corre, M. D., and Veldkamp, E.: Cold storage and laboratory incubation of intact soil cores do not reflect in-situ nitrogen cycling rates of tropical forest soils, Soil Biol. Biochem., 40, 2480–2483, 2008.
Baldos, A. P., Corre, M. D., and Veldkamp, E.: Response of N cycling to nutrient inputs in forest soils across a 1000–3000m elevation gradient in the Ecuadorian Andes, Ecology, 96, 749–761, 2015.
Bodelier, P. L. E. and Laanbroek, H. J.: Nitrogen as a regulatory factor of methane oxidation in soils and sediments, FEMS Microbiol. Ecol., 47, 265–277, 2004.
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Short summary
We found that in Indonesia, oil palm displayed reduced soil CO2 fluxes compared to forest and rubber plantations; this was mainly caused by reduced litter input. Furthermore, we measured reduced soil CH4 uptake in oil palm and rubber plantations compared to forest; this was due to a decrease in soil N availability in the converted land uses. Our study shows for the first time that differences in soil fertility control soil-atmosphere exchange of CO2 and CH4 in a tropical landscape.
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