Add to ORKGSimulations of effects of black carbon aerosols on temperature, precipitation, and radiation flux. This view covers the simulation of added black carbon in the atmosphere based on measurements from INDOEX and industrial regions in China. It starts showing temperature changes (blue is cooler, red is warmer), fades to precipitation changes (blue is wetter, brown is dryer) and finally radiate flux at ground level (black is less, yellow is more). Educational levels: Undergraduate lower division, Undergraduate upper division, Graduate or professional
Black carbon (BC) aerosols have a considerable impact on humans because they not only cause environm...
The aerosol–cloud interactions due to black carbon (BC) aerosols, as well as the implied climate res...
Using idealized climate model simulations, we investigate the effectiveness of black carbon (BC) aer...
Simulations of effects of black carbon aerosols on temperature, precipitation, and radiation flux. ...
[1] A three-dimensional interactive aerosol-climate model has been developed and used to study the c...
AbstractCarbonaceous aerosol is one of the main ingredients of the atmospheric aerosol, which includ...
The climatic effects of various types of aerosol in China have been investigated by using the atmosp...
[1] The climatic effects of various types of aerosol in China have been investigated by using the at...
Recently, attention has been drawn towards black carbon aerosols as a likely short-term climate warm...
Black carbon (BC) aerosols can strongly absorb solar radiation in very broad spectral wavebands, fro...
Black carbon aerosol plays a unique and important role in Earth's climate system. Black carbon ...
International audienceBlack carbon (BC) aerosol emission is an important contributor to particulate ...
The response of East Asian Summer Monsoon (EASM) precipitation to long term changes of anthropogenic...
Black carbon aerosol play a unique and important role in Earth's climate system. Black carbon is a t...
Black carbon (BC) from the burning of fossil fuel and biomass absorbs solar radiation and might inte...
Black carbon (BC) aerosols have a considerable impact on humans because they not only cause environm...
The aerosol–cloud interactions due to black carbon (BC) aerosols, as well as the implied climate res...
Using idealized climate model simulations, we investigate the effectiveness of black carbon (BC) aer...
Simulations of effects of black carbon aerosols on temperature, precipitation, and radiation flux. ...
[1] A three-dimensional interactive aerosol-climate model has been developed and used to study the c...
AbstractCarbonaceous aerosol is one of the main ingredients of the atmospheric aerosol, which includ...
The climatic effects of various types of aerosol in China have been investigated by using the atmosp...
[1] The climatic effects of various types of aerosol in China have been investigated by using the at...
Recently, attention has been drawn towards black carbon aerosols as a likely short-term climate warm...
Black carbon (BC) aerosols can strongly absorb solar radiation in very broad spectral wavebands, fro...
Black carbon aerosol plays a unique and important role in Earth's climate system. Black carbon ...
International audienceBlack carbon (BC) aerosol emission is an important contributor to particulate ...
The response of East Asian Summer Monsoon (EASM) precipitation to long term changes of anthropogenic...
Black carbon aerosol play a unique and important role in Earth's climate system. Black carbon is a t...
Black carbon (BC) from the burning of fossil fuel and biomass absorbs solar radiation and might inte...
Black carbon (BC) aerosols have a considerable impact on humans because they not only cause environm...
The aerosol–cloud interactions due to black carbon (BC) aerosols, as well as the implied climate res...
Using idealized climate model simulations, we investigate the effectiveness of black carbon (BC) aer...