Biodiversity in tropical forests matters in storing carbon. A large team of international scientists found that high biodiversity enhances the storage capacity of the forests in the world's tropical regions. These results of the EU-funded ROBIN project, led by researchers from Wageningen University and Research centre, have just been published in the journal Global Ecology and Biogeography.
Tropical forests store 25% of the global carbon and harbour 96% of the world's tree species. But it was not clear whether this high biodiversity really matters for high carbon storage. Now, researchers of the ROBIN project have found out. This is especially important giving the United Nations climate negotiations in Paris, where countries need to agree on a mechanism to preserve the carbon locked up in forest biomass, while at the same conserving biodiversity as an additional benefit.
The researchers of the ROBIN project, in which many members of Wageningen University and Research centre are involved -- amongst others Lourens Poorter, Masha van der Sande, Eric Arets, and Marielos Peña-Claros, measured the biomass above ground in relation to the structure and biodiversity in tropical forests. They also took into account environmental drivers like annual rainfall and soil fertility. They investigated the data from 144,000 trees, 2050 forest plots and 59 forest sites. The sites span the complete latitudinal and climatic gradients in the lowland Neotropics, with rainfall ranging from 750 to 4350 mm per year.
The team found that species richness (biodiversity) increased carbon storage above ground, because an additional species can still make a difference in terms of complementary resource use.
Buffering carbon uptake
Lead author Professor Lourens Poorter says: "There are good ecological reasons why biodiversity conservation should matter for ecosystem functioning. Ecological theories indicate that species richness can enhance carbon uptake; species have different strategies to acquire and use resources, and they are therefore more efficient together. Species respond also differently to climatic fluctuations, which means that a high biodiversity buffers the carbon uptake and storage of the ecosystem against climatic variation. These ideas have been tested for relatively simple systems such as temperate grasslands, but never for hyper-diverse tropical forests."
The research team related for 59 neotropical forest sites above-ground biomass to forest attributes (tree diversity and forest structure) and environmental drivers (rainfall and soil fertility). They found across these hyper-diverse tropical forests that species richness had a positive, independent effect on above ground biomass, indicating that diversity is a requirement for enhancing carbon storage.
The team pleas therefore that biodiversity conservation should be an integral component of the REDD+ mechanism (Reducing Emission from Deforestation and Degradation of the UN). Researcher Marielos Peña-Claros says: "We have brought this message last month to the EU-parliament in Brussels, where we presented the results and implications of the ROBIN project. These results are also very important for the climate negotiations in Paris; they indicate that high biodiversity is not only nice to have, but that it is also important for the carbon storage potential of tropical forests."
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