We investigate the climate response to changing US anthropogenic aerosol sources over the 1950–2050 period by using the NASA GISS general circulation model (GCM) and comparing to observed US temperature trends. Time-dependent aerosol distributions are generated from the GEOS-Chem chemical transport model applied to historical emission inventories and future projections. Radiative forcing from US anthropogenic aerosols peaked in 1970–1990 and has strongly declined since due to air quality regulations. We find that the regional radiative forcing from US anthropogenic aerosols elicits a strong regional climate response, cooling the central and eastern US by 0.5–1.0 °C on average during 1970–1990, with the strongest effects on maximum daytime t...
Limiting global warming to 1.5 or 2.0 deg C requires strong mitigation of anthropogenic greenhouse g...
Given the importance of aerosol particles to radiative transfer via aerosol-radiation interactions, ...
In this paper, we compare constructed records of concentrations of black carbon (BC)--an indicator o...
We investigate the climate response to changing US anthropogenic aerosol sources over the 1950–2050 ...
We investigate the climate response to changing US anthropogenic aerosol sources over the 1950-2050 ...
We calculate decadal aerosol direct and indirect (warm cloud) radiative forcings from US anthropogen...
We calculate decadal aerosol direct and indirect (warm cloud) radiative forcings from US anthropogen...
We use a general circulation model (NASA Goddard Institute for Space Studies GCM 3) to investigate t...
Extreme temperatures, heat waves, heavy rainfall events, drought, and extreme air pollution events h...
Aerosol indirect effects (AIE) are a principal source of uncertainty in future climate predictions. ...
We use a general circulation model (NASA Goddard Institute for Space Studies GCM 3) to investigate t...
Changes in extreme temperatures, heat waves, heavy rainfall events, and precipitation frequency can ...
Anthropogenic aerosols have increased significantly since the industrial revolution, driven largely ...
We use the global atmospheric GCM aerosol model ECHAM5-HAM to asses possible impacts of future air p...
We investigate aerosol effects on climate for 1980, 1995 (meant to reflect present-day) and 2030 usi...
Limiting global warming to 1.5 or 2.0 deg C requires strong mitigation of anthropogenic greenhouse g...
Given the importance of aerosol particles to radiative transfer via aerosol-radiation interactions, ...
In this paper, we compare constructed records of concentrations of black carbon (BC)--an indicator o...
We investigate the climate response to changing US anthropogenic aerosol sources over the 1950–2050 ...
We investigate the climate response to changing US anthropogenic aerosol sources over the 1950-2050 ...
We calculate decadal aerosol direct and indirect (warm cloud) radiative forcings from US anthropogen...
We calculate decadal aerosol direct and indirect (warm cloud) radiative forcings from US anthropogen...
We use a general circulation model (NASA Goddard Institute for Space Studies GCM 3) to investigate t...
Extreme temperatures, heat waves, heavy rainfall events, drought, and extreme air pollution events h...
Aerosol indirect effects (AIE) are a principal source of uncertainty in future climate predictions. ...
We use a general circulation model (NASA Goddard Institute for Space Studies GCM 3) to investigate t...
Changes in extreme temperatures, heat waves, heavy rainfall events, and precipitation frequency can ...
Anthropogenic aerosols have increased significantly since the industrial revolution, driven largely ...
We use the global atmospheric GCM aerosol model ECHAM5-HAM to asses possible impacts of future air p...
We investigate aerosol effects on climate for 1980, 1995 (meant to reflect present-day) and 2030 usi...
Limiting global warming to 1.5 or 2.0 deg C requires strong mitigation of anthropogenic greenhouse g...
Given the importance of aerosol particles to radiative transfer via aerosol-radiation interactions, ...
In this paper, we compare constructed records of concentrations of black carbon (BC)--an indicator o...