Add to ORKGInternational audienceCloud radiative forcing is a very important concept to understand what kind of role the clouds play in climate change with thermal effect or albedo effect. In spite of that much progress has been achieved, the clouds are still poorly described in the climate models. Due to the complex aerosol-cloud-radiation interactions, high surface albedo of snow and ice cover, and without solar radiation in long period of the year, the Arctic strong warming caused by increasing greenhouse gases (as most GCMs suggested) has not been verified by the observations. In this study, we were dedicated to quantify the aerosol effect on the Arctic cloud radiative forcing by Northern Aerosol Regional Climate Model (NARCM). Major aerosol speci...
Aerosols, transported from distant source regions, influence the Arctic surface radiation budget. Wh...
Thesis: S.B., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary...
thesisDuring the Arctic winter and spring, enhanced levels of aerosol particles and trace gases form...
An annual cycle of cloud and radiation measurements made as part of the Surface Heat Budget of the A...
The Arctic climate has changed significantly in the last decades, experiencing a dramatic loss of se...
Clouds in the Arctic differ from clouds elsewhere in that they have a net warming effect at the surf...
The Arctic climate has changed significantly in the last decades, experiencing a dramatic loss of se...
The cloud radiative forcing (CRF) quantifies the warming or cooling effects of clouds. To derive the...
In this thesis, the radiative effect of Arctic clouds during early summer is investigated based on o...
This study is based on ground-based measurements of downward surface shortwave irradiance (SW), colu...
For the first time, the cloud radiative effect (CRE) has been characterized for the Arctic site Ny-...
Increases in anthropogenic aerosols in the atmosphere tend to increase the reflectance of solar (sho...
The radiative energy budget in the Arctic undergoes a rapid transformation compared to global mean c...
This study is based on ground-based measurements of downward surface shortwave irradiance (SW), colu...
The mechanisms behind Arctic warming and associated climate changes are difficult to discern. Also, ...
Aerosols, transported from distant source regions, influence the Arctic surface radiation budget. Wh...
Thesis: S.B., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary...
thesisDuring the Arctic winter and spring, enhanced levels of aerosol particles and trace gases form...
An annual cycle of cloud and radiation measurements made as part of the Surface Heat Budget of the A...
The Arctic climate has changed significantly in the last decades, experiencing a dramatic loss of se...
Clouds in the Arctic differ from clouds elsewhere in that they have a net warming effect at the surf...
The Arctic climate has changed significantly in the last decades, experiencing a dramatic loss of se...
The cloud radiative forcing (CRF) quantifies the warming or cooling effects of clouds. To derive the...
In this thesis, the radiative effect of Arctic clouds during early summer is investigated based on o...
This study is based on ground-based measurements of downward surface shortwave irradiance (SW), colu...
For the first time, the cloud radiative effect (CRE) has been characterized for the Arctic site Ny-...
Increases in anthropogenic aerosols in the atmosphere tend to increase the reflectance of solar (sho...
The radiative energy budget in the Arctic undergoes a rapid transformation compared to global mean c...
This study is based on ground-based measurements of downward surface shortwave irradiance (SW), colu...
The mechanisms behind Arctic warming and associated climate changes are difficult to discern. Also, ...
Aerosols, transported from distant source regions, influence the Arctic surface radiation budget. Wh...
Thesis: S.B., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary...
thesisDuring the Arctic winter and spring, enhanced levels of aerosol particles and trace gases form...