Add to ORKGOver the past few decades a large increase in carbon storage has been observed in undisturbed forests across Amazonia.[br/] The reason for such a sink is unclear, although many possible mechanisms have been suggested, including changes in temperature, carbon dioxide, precipitation, clouds, and solar radiation. In this work we focus on one such mechanism, namely the increase in plant photosynthesis due to changes in diffuse radiation caused by atmospheric aerosols from large-scale deforestation fires that now occur throughout the Amazon region. We estimate that this mechanism has increased dry season (August-September) net primary productivity (NPP) by up to 30% across wide regions of the Amazon.[br/] We conclude that aerosol from deforestat...
Amazonia hosts the Earth’s largest tropical forests and has been shown to be an important carbon sin...
International audienceEarth system models predict that increases in atmospheric and soil dryness wil...
We investigated the seasonal patterns of Amazonian forest photosynthetic activity, and the effects t...
©2015. The Authors. Atmospheric aerosol scatters solar radiation increasing the fraction of diffuse ...
Every year, a dense smoke haze covers a large portion of South America originating from fires in the...
Every year, a dense smoke haze covers a large portion of South America originating from fires in the...
Diffuse light conditions can increase the efficiency of photosynthesis and carbon uptake by vegetati...
Every year, a dense smoke haze covers a large portion of South America originating from fires in the...
Tropical deforestation contributes to the build-up of atmospheric carbon dioxide in the atmosphere. ...
Fire-driven deforestation is the major source of carbon emissions from Amazonia. Recent expansion of...
Deforestation rates have declined substantially across the Brazilian Legal Amazon (BLA) over the per...
This paper addresses the Amazonian shortwave radiative budget over cloud-free conditions after consi...
Understanding the mechanism of photosynthetic seasonality in Amazonian evergreen forests is critical...
Amazonia hosts the Earth’s largest tropical forests and has been shown to be an important carbon sin...
International audienceEarth system models predict that increases in atmospheric and soil dryness wil...
We investigated the seasonal patterns of Amazonian forest photosynthetic activity, and the effects t...
©2015. The Authors. Atmospheric aerosol scatters solar radiation increasing the fraction of diffuse ...
Every year, a dense smoke haze covers a large portion of South America originating from fires in the...
Every year, a dense smoke haze covers a large portion of South America originating from fires in the...
Diffuse light conditions can increase the efficiency of photosynthesis and carbon uptake by vegetati...
Every year, a dense smoke haze covers a large portion of South America originating from fires in the...
Tropical deforestation contributes to the build-up of atmospheric carbon dioxide in the atmosphere. ...
Fire-driven deforestation is the major source of carbon emissions from Amazonia. Recent expansion of...
Deforestation rates have declined substantially across the Brazilian Legal Amazon (BLA) over the per...
This paper addresses the Amazonian shortwave radiative budget over cloud-free conditions after consi...
Understanding the mechanism of photosynthetic seasonality in Amazonian evergreen forests is critical...
Amazonia hosts the Earth’s largest tropical forests and has been shown to be an important carbon sin...
International audienceEarth system models predict that increases in atmospheric and soil dryness wil...
We investigated the seasonal patterns of Amazonian forest photosynthetic activity, and the effects t...