As land use change (LUC), including deforestation, is a patchy process, estimating the impact of LUC on carbon emissions requires spatially accurate underlying data on biomass distribution and change. The methods currently adopted to estimate the spatial variation of above- and below-ground biomass in tropical forests, in particular the Brazilian Amazon, are usually based on remote sensing analyses coupled with field datasets, which tend to be relatively scarce and often limited in their spatial distribution. There are notable differences among the resulting biomass maps found in the literature. These differences subsequently result in relatively high uncertainties in the carbon emissions calculated from land use change, and have a larger i...
Uncertainties in biomass estimates in Amazonian forests result in a broad range of possible magnitud...
The Amazon Forest, the largest contiguous tropical forest in the world, stores a significant fractio...
Deforestation in Brazilian Amazonia makes a substantial contribution to global emissions of greenhou...
As land use change (LUC), including deforestation, is a patchy process, estimating the impact of LUC...
Aim The accurate mapping of forest carbon stocks is essential for understanding the global carbon c...
Wood density is an important variable in estimates of forest biomass and greenhouse-gas emissions fr...
Deforestation rates have declined in the Brazilian Amazon since 2005, yet degradation from logging, ...
Deforestation rates have declined in the Brazilian Amazon since 2005, yet degradation from logging, ...
BackgroundTropical forests are critical for the global carbon budget, yet they have been threatened ...
Forest fragmentation due to deforestation is one of the major causes of forest degradation in the Am...
The scale of information required to inform global climate change and biodiversity initiatives goes ...
International audienceSpatial–temporal dynamics of aboveground biomass (AGB) and forest area affect ...
In the last year, Brazil announced the voluntary commitment to reduce its greenhouse gas emissions f...
The implementation of an international programme for reducing carbon emissions from deforestation an...
Uncertainties in biomass estimates in Amazonian forests result in a broad range of possible magnitud...
The Amazon Forest, the largest contiguous tropical forest in the world, stores a significant fractio...
Deforestation in Brazilian Amazonia makes a substantial contribution to global emissions of greenhou...
As land use change (LUC), including deforestation, is a patchy process, estimating the impact of LUC...
Aim The accurate mapping of forest carbon stocks is essential for understanding the global carbon c...
Wood density is an important variable in estimates of forest biomass and greenhouse-gas emissions fr...
Deforestation rates have declined in the Brazilian Amazon since 2005, yet degradation from logging, ...
Deforestation rates have declined in the Brazilian Amazon since 2005, yet degradation from logging, ...
BackgroundTropical forests are critical for the global carbon budget, yet they have been threatened ...
Forest fragmentation due to deforestation is one of the major causes of forest degradation in the Am...
The scale of information required to inform global climate change and biodiversity initiatives goes ...
International audienceSpatial–temporal dynamics of aboveground biomass (AGB) and forest area affect ...
In the last year, Brazil announced the voluntary commitment to reduce its greenhouse gas emissions f...
The implementation of an international programme for reducing carbon emissions from deforestation an...
Uncertainties in biomass estimates in Amazonian forests result in a broad range of possible magnitud...
The Amazon Forest, the largest contiguous tropical forest in the world, stores a significant fractio...
Deforestation in Brazilian Amazonia makes a substantial contribution to global emissions of greenhou...