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Increased tropical forest growth could release carbon from the soil

Date:
August 15, 2011
Source:
Centre for Ecology & Hydrology
Summary:
A new study shows that as climate change enhances tree growth in tropical forests, the resulting increase in litterfall could stimulate soil microorganisms leading to a release of stored soil carbon.
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A new study shows that as climate change enhances tree growth in tropical forests, the resulting increase in litterfall could stimulate soil micro-organisms leading to a release of stored soil carbon.

The research was led by scientists from the Centre for Ecology & Hydrology and the University of Cambridge, UK. The results are published online in the journal Nature Climate Change.

The researchers used results from a six-year experiment in a rainforest at the Smithsonian Tropical Research Institute in Panama, Central America, to study how increases in litterfall -- dead plant material such as leaves, bark and twigs which fall to the ground -- might affect carbon storage in the soil. Their results show that extra litterfall triggers an effect called 'priming' where fresh carbon from plant litter provides much-needed energy to micro-organisms, which then stimulates the decomposition of carbon stored in the soil.

Lead author Dr Emma Sayer from the UK's Centre for Ecology & Hydrology said, "Most estimates of the carbon sequestration capacity of tropical forests are based on measurements of tree growth. Our study demonstrates that interactions between plants and soil can have a massive impact on carbon cycling. Models of climate change must take these feedbacks into account to predict future atmospheric carbon dioxide levels."

The study concludes that a large proportion of the carbon sequestered by greater tree growth in tropical forests could be lost from the soil. The researchers estimate that a 30% increase in litterfall could release about 0.6 tonnes of carbon per hectare from lowland tropical forest soils each year. This amount of carbon is greater than estimates of the climate-induced increase in forest biomass carbon in Amazonia over recent decades. Given the vast land surface area covered by tropical forests and the large amount of carbon stored in the soil, this could affect the global carbon balance.

Tropical forests play an essential role in regulating the global carbon balance. Human activities have caused carbon dioxide levels to rise but it was thought that trees would respond to this by increasing their growth and taking up larger amounts of carbon. However, enhanced tree growth leads to more dead plant matter, especially leaf litter, returning to the forest floor and it is unclear what effect this has on the carbon cycle.

Dr Sayer added, "Soils are thought to be a long-term store for carbon but we have shown that these stores could be diminished if elevated carbon dioxide levels and nitrogen deposition boost plant growth."

Co-author Dr Edmund Tanner, from the University of Cambridge, said, "This priming effect essentially means that older, relatively stable soil carbon is being replaced by fresh carbon from dead plant matter, which is easily decomposed. We still don't know what consequences this will have for carbon cycling in the long term."


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Materials provided by Centre for Ecology & Hydrology. Note: Content may be edited for style and length.


Journal Reference:

  1. Emma J. Sayer, Matthew S. Heard, Helen K. Grant, Toby R. Marthews, Edmund V. J. Tanner. Soil carbon release enhanced by increased tropical forest litterfall. Nature Climate Change, 2011; DOI: 10.1038/nclimate1190

Cite This Page:

Centre for Ecology & Hydrology. "Increased tropical forest growth could release carbon from the soil." ScienceDaily. ScienceDaily, 15 August 2011. <www.sciencedaily.com/releases/2011/08/110814141445.htm>.
Centre for Ecology & Hydrology. (2011, August 15). Increased tropical forest growth could release carbon from the soil. ScienceDaily. Retrieved March 28, 2024 from www.sciencedaily.com/releases/2011/08/110814141445.htm
Centre for Ecology & Hydrology. "Increased tropical forest growth could release carbon from the soil." ScienceDaily. www.sciencedaily.com/releases/2011/08/110814141445.htm (accessed March 28, 2024).

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