In:
eLife, eLife Sciences Publications, Ltd, Vol. 5 ( 2016-12-20)
Kurzfassung:
The Amazon rainforest in South America is the largest tropical forest in the world. Along with being home to a huge variety of plants and wildlife, rainforests also play an important role in storing an element called carbon, which is a core component of all life on Earth. Certain forms of carbon, such as the gas carbon dioxide, contribute to climate change so researchers want to understand what factors affect how much carbon is stored in rainforests. Trees and other plants absorb carbon dioxide from the atmosphere and then incorporate the carbon into carbohydrates and other biological molecules. The Amazon rainforest alone holds around 30% of the total carbon stored in land-based ecosystems. Humans selectively harvest certain species of tree that produce wood with commercial value from the Amazon rainforest. This “selective logging” results in the loss of stored carbon from the rainforest, but the loss can be compensated for in the medium to long term if the forest is left to regrow. New trees and trees that survived the logging grow to fill the gaps left by the felled trees. However, it is not clear how differences in the forest (for example, forest maturity), environmental factors (such as climate or soil) and the degree of the disturbance caused by the logging affect the ability of the forest ecosystem to recover the lost carbon. Piponiot et al. used computer modeling to analyze data from over a hundred different forest plots across the Amazon rainforest. The models show that the forest’s ability to recover carbon after selective logging greatly differs between regions. For example, the overall amount of carbon recovered in the first ten years is predicted to be higher in a region in the north known as the Guiana Shield than in the south of the Amazonian basin where the climate is less favorable. The findings of Piponiot et al. highlight the key role the trees that survive selective logging play in carbon recovery. The next step would be to couple this model to historical maps of logging to estimate how the areas of the rainforest that are managed by selective logging shape the overall carbon balance of the Amazon rainforest.
Materialart:
Online-Ressource
ISSN:
2050-084X
DOI:
10.7554/eLife.21394.001
DOI:
10.7554/eLife.21394.002
DOI:
10.7554/eLife.21394.003
DOI:
10.7554/eLife.21394.004
DOI:
10.7554/eLife.21394.005
DOI:
10.7554/eLife.21394.006
DOI:
10.7554/eLife.21394.007
DOI:
10.7554/eLife.21394.008
DOI:
10.7554/eLife.21394.009
DOI:
10.7554/eLife.21394.010
DOI:
10.7554/eLife.21394.011
DOI:
10.7554/eLife.21394.012
DOI:
10.7554/eLife.21394.013
DOI:
10.7554/eLife.21394.014
DOI:
10.7554/eLife.21394.019
DOI:
10.7554/eLife.21394.020
DOI:
10.7554/eLife.21394.015
DOI:
10.7554/eLife.21394.016
Sprache:
Englisch
Verlag:
eLife Sciences Publications, Ltd
Publikationsdatum:
2016
ZDB Id:
2687154-3
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