Monitoring Water and Energy Cycles at Climate Scale in the Third Pole Environment (CLIMATE-TPE)

Abstract: A better understanding of the water and energy cycles at climate scale in the Third Pole Environment is essential for assessing and understanding the causes of changes in the cryosphere and hydrosphere in relation to changes of plateau atmosphere in the Asian monsoon system and for predicting the possible changes in water resources in South and East Asia. This paper reports the following results: (1) A platform of in situ observation stations is briefly described for quantifying the interactions in hydrosphere… Show more

“…Often referred to as 'the Third Pole' and 'the Roof of the World', the Tibetan Plateau (TP) conserves vast areas of mountain glaciers, permafrost, and seasonally frozen soil and is the largest high-elevation portion of the cryosphere sensitive to global climate change [2]. In this context, quantitative assessment of the land-atmosphere interaction processes, as well as their effects on the TP and its surrounding regions, is not only essential for understanding the energy and water cycles in the cryosphere and hydrosphere but also crucial for understanding the Asian monsoon system and predicting the climate of Asia and the Northern Hemisphere [3].…”

Land-Atmosphere Interactions and Effects on the Climate of the Tibetan Plateau and Surrounding Regions

“…Often referred to as 'the Third Pole' and 'the Roof of the World', the Tibetan Plateau (TP) conserves vast areas of mountain glaciers, permafrost, and seasonally frozen soil and is the largest high-elevation portion of the cryosphere sensitive to global climate change [2]. In this context, quantitative assessment of the land-atmosphere interaction processes, as well as their effects on the TP and its surrounding regions, is not only essential for understanding the energy and water cycles in the cryosphere and hydrosphere but also crucial for understanding the Asian monsoon system and predicting the climate of Asia and the Northern Hemisphere [3].…”

Land-Atmosphere Interactions and Effects on the Climate of the Tibetan Plateau and Surrounding Regions

“…As the world's highest and largest plateau, the Tibetan Plateau (TP) is referred to as 'the Asian Water Tower' and 'the Third Pole of the World' [1]. A better understanding of the water and energy cycles in the TP is not only critical for revealing the mechanisms of regional land-atmosphere interactions, but also essential for assessing the causes of changes in the cryosphere and hydrosphere in relation to changes in the plateau atmosphere in the Asian monsoon system [2]. Since the TP is an ecologically fragile region that is sensitive to climate change [3], the systematic evaluation of land-atmosphere interactions in this region also contributes to the quantitative understanding of climate change.…”

Land–Atmosphere Interactions and Effects on the Climate of the Tibetan Plateau and Surrounding Regions II

“…The energy and water cycles in the Third Pole have great impacts on the atmospheric circulation, Asian monsoon system and global climate change. On the other hand, as the largest high-elevation part of the cryosphere outside the polar regions, with vast areas of mountain glaciers, permafrost and seasonally frozen ground, the Third Pole is characterized as an area sensitive to global climate change [1][2][3]. The Tibetan Plateau (TP) and the surrounding higher elevation area are experiencing evident and rapid environmental changes, such as glacial retreat, snow melting, lake expanding and permafrost degradation.…”

“…All these changes pose potential long-term impacts to water resources of local and surrounding regions. A better understanding of the water and energy cycles is essential for assessing and understanding the causes of changes in the cryosphere and hydrosphere in relation to changes of plateau atmosphere in the Asian monsoon system and for predicting the possible changes in water resources in South and East Asia [3].…”

Energy and Water Cycles in the Third Pole