Add to ORKGThis contribution presents an overview and an outlook of studies on energy and water cycle over the Tibetan plateau with focuses on the estimation of energy balance terms and turbulent heat fluxes. On the basis of the surface energy balance calculations, we show that the phenomena of the energy imbalance exist in GAME/Tibet experiment data, although the explanations for the reasons are debated now and not resolved yet. We found that the derived latent heat flux is much higher than the measurements. However, the corrected-measurements, which are calculated according to the hypothesis of the energy balance, compare very well with the estimation of SEBS. On this basis it is concluded that the deviation is caused by the energy imbalance of grou...
Most glaciers on the Tibetan Plateau are difficult to assess as they are located in remote regions ...
The Tibetan field observatories, which are constructed in a project of the Japan International Co-op...
As the most prominent and complicated terrain on the globe, the Tibetan Plateau (TP) is often called...
This contribution presents an overview and an outlook of studies on energy and water cycle over the ...
The Tibetan Plateau (TP) has become a focus of strong scientific interest due to its role in the glo...
The energy and water cycle over the Tibetan Plateau play an important role in the Asian monsoon syst...
The energy and water cycle over the Tibetan Plateau play an important role in the Asian monsoon syst...
A parameterization approach of effective roughness length was introduced into the Surface Energy Bal...
Tibetan Plateau plays an important role in the Asian Monsoon and global general circulation system. ...
Understanding the water and heat exchanges across the Tibetan ecosystem is of great importance for m...
Network of eddy covariance observation is measuring long-term carbon and water fluxes in contrasting...
Surface solar radiation is an important parameter in surface energy balance models and in estimation...
This paper explores the potential for documenting regional fields of surface energy fluxes over the ...
The Tibetan Plateau is the source region of five of the largest Asian rivers. The large amount of ic...
The Tibetan Plateau (TP) plays a major role in regional and global climate. The understanding of lat...
Most glaciers on the Tibetan Plateau are difficult to assess as they are located in remote regions ...
The Tibetan field observatories, which are constructed in a project of the Japan International Co-op...
As the most prominent and complicated terrain on the globe, the Tibetan Plateau (TP) is often called...
This contribution presents an overview and an outlook of studies on energy and water cycle over the ...
The Tibetan Plateau (TP) has become a focus of strong scientific interest due to its role in the glo...
The energy and water cycle over the Tibetan Plateau play an important role in the Asian monsoon syst...
The energy and water cycle over the Tibetan Plateau play an important role in the Asian monsoon syst...
A parameterization approach of effective roughness length was introduced into the Surface Energy Bal...
Tibetan Plateau plays an important role in the Asian Monsoon and global general circulation system. ...
Understanding the water and heat exchanges across the Tibetan ecosystem is of great importance for m...
Network of eddy covariance observation is measuring long-term carbon and water fluxes in contrasting...
Surface solar radiation is an important parameter in surface energy balance models and in estimation...
This paper explores the potential for documenting regional fields of surface energy fluxes over the ...
The Tibetan Plateau is the source region of five of the largest Asian rivers. The large amount of ic...
The Tibetan Plateau (TP) plays a major role in regional and global climate. The understanding of lat...
Most glaciers on the Tibetan Plateau are difficult to assess as they are located in remote regions ...
The Tibetan field observatories, which are constructed in a project of the Japan International Co-op...
As the most prominent and complicated terrain on the globe, the Tibetan Plateau (TP) is often called...