<p>Differences are expressed as percentages of the mean rate measured in controls from May 2004 to July 2007; CT is control, L+ is litter addition, L– is litter removal.</p
Predicting future impacts of anthropogenic change on tropical forests requires a clear understanding...
The principal objective of this study was to determine if there is consistent temporal variability i...
The principal objective of this study was to determine if there is consistent temporal variability i...
<p>The differences are calculated as a percentage of the average respiration measured in the control...
Tree species-rich tropical rainforests are characterized by a highly variable quality of leaf litter...
The high spatial variability of soil respiration in tropical rainforests is well evaluated, but infl...
International audienceHeterotrophic soil respiration (SRH) alone can contribute up to 50% of total e...
Soil respiration plays a significant role in the carbon cycle of Amazonian tropical forests, althoug...
Heterotrophic soil respiration (SRH) alone can contribute up to 50% of total ecosystem respiration i...
The high spatial variability of soil respiration in tropical rainforests is well evaluated, but infl...
The high spatial variability of soil respiration in tropical rainforests is well evaluated, but infl...
Aboveground litter production in forests is likely to increase as a consequence of elevated atmosphe...
Soil respiration in tropical forests is a major source of atmospheric CO2. The ability to partition ...
Soil respiration in tropical forests is a major source of atmospheric CO2. The ability to partition ...
Global change is affecting primary productivity in forests worldwide, and this, in turn, will alter ...
Predicting future impacts of anthropogenic change on tropical forests requires a clear understanding...
The principal objective of this study was to determine if there is consistent temporal variability i...
The principal objective of this study was to determine if there is consistent temporal variability i...
<p>The differences are calculated as a percentage of the average respiration measured in the control...
Tree species-rich tropical rainforests are characterized by a highly variable quality of leaf litter...
The high spatial variability of soil respiration in tropical rainforests is well evaluated, but infl...
International audienceHeterotrophic soil respiration (SRH) alone can contribute up to 50% of total e...
Soil respiration plays a significant role in the carbon cycle of Amazonian tropical forests, althoug...
Heterotrophic soil respiration (SRH) alone can contribute up to 50% of total ecosystem respiration i...
The high spatial variability of soil respiration in tropical rainforests is well evaluated, but infl...
The high spatial variability of soil respiration in tropical rainforests is well evaluated, but infl...
Aboveground litter production in forests is likely to increase as a consequence of elevated atmosphe...
Soil respiration in tropical forests is a major source of atmospheric CO2. The ability to partition ...
Soil respiration in tropical forests is a major source of atmospheric CO2. The ability to partition ...
Global change is affecting primary productivity in forests worldwide, and this, in turn, will alter ...
Predicting future impacts of anthropogenic change on tropical forests requires a clear understanding...
The principal objective of this study was to determine if there is consistent temporal variability i...
The principal objective of this study was to determine if there is consistent temporal variability i...
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