Add to ORKGThe effect of anthropogenic aerosols on clouds is one of the most important and least understood aspects of human-induced climate change. Small changes in the amount of cloud coverage can produce a climate forcing equivalent in magnitude and opposite in sign to that caused by anthropogenic greenhouse gases, and changes in cloud height can shift the effect of clouds from cooling to warming. Focusing on the Amazon, we show a smooth transition between two opposing effects of aerosols on clouds: the microphysical and the radiative. We show how a feedback between the optical properties of aerosols and the cloud fraction can modify the aerosol forcing, changing the total radiative energy and redistributing it over the atmospheric column
A study of the potential role of aerosols in modifying clouds and precipitation is presented using a...
Earth's climate is thought to be quite sensitive to changes in radiative fluxes that are quite small...
Abstract It is often assumed that effective radiative forcings, regardless of forcing agent, are ad...
Smoke particles from biomass burning can generate forcing of climate by modifying cloud microphysics...
Absorbing aerosol from biomass burning impacts the hydrological cycle and radiation fluxes both dire...
Biomass burning (BB) aerosols can influence regional and global climate through interactions with ra...
Smoke particles from biomass burning can generate forcing of climate by modifying cloud microphysics...
[1] Biomass burning in the Amazon provides strong input of aerosols into the atmosphere, with potent...
Heavy smoke from forest fires in the Amazon was observed to reduce cloud droplet size and so delay t...
The effects of aerosol particles and updraft speed on warm-phase cloud microphysical properties are ...
NOAA Advanced Very High Resolution Radiometer images taken over the Brazilian Amazon Basin during th...
Ensemble simulations of smoke aerosol radiative effects with a regional climate model in the Amazon ...
The atmosphere above tropical forests plays a very active part in the biogeochemical cycles that are...
Abstract. Earth's climate is thought to be quite sensitive to changes in radiative fluxes that ...
High resolution aerosol, cloud, water vapor, and atmospheric profile data from the Moderate Resoluti...
A study of the potential role of aerosols in modifying clouds and precipitation is presented using a...
Earth's climate is thought to be quite sensitive to changes in radiative fluxes that are quite small...
Abstract It is often assumed that effective radiative forcings, regardless of forcing agent, are ad...
Smoke particles from biomass burning can generate forcing of climate by modifying cloud microphysics...
Absorbing aerosol from biomass burning impacts the hydrological cycle and radiation fluxes both dire...
Biomass burning (BB) aerosols can influence regional and global climate through interactions with ra...
Smoke particles from biomass burning can generate forcing of climate by modifying cloud microphysics...
[1] Biomass burning in the Amazon provides strong input of aerosols into the atmosphere, with potent...
Heavy smoke from forest fires in the Amazon was observed to reduce cloud droplet size and so delay t...
The effects of aerosol particles and updraft speed on warm-phase cloud microphysical properties are ...
NOAA Advanced Very High Resolution Radiometer images taken over the Brazilian Amazon Basin during th...
Ensemble simulations of smoke aerosol radiative effects with a regional climate model in the Amazon ...
The atmosphere above tropical forests plays a very active part in the biogeochemical cycles that are...
Abstract. Earth's climate is thought to be quite sensitive to changes in radiative fluxes that ...
High resolution aerosol, cloud, water vapor, and atmospheric profile data from the Moderate Resoluti...
A study of the potential role of aerosols in modifying clouds and precipitation is presented using a...
Earth's climate is thought to be quite sensitive to changes in radiative fluxes that are quite small...
Abstract It is often assumed that effective radiative forcings, regardless of forcing agent, are ad...