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Newly elected members of Dharamshala-based 17th Tibetan parliament-in-exile conducted oath taking ceremony on Wednesday. First of all, one of the senior most members, Dawa Tsering took oath as Protem/Interim Speaker in front of the Chief Justice Commissioner, Sonam Dagpo and then other MPs followed. All the proceedings were kept indoor and they did not allow any media to cover the oath ceremony due to Covid-19 protocol. Dolma Tsering, an MP said, There is a lot of enthusiasm we have lots of newcomers, new faces with new zeal and new ambition and a new vision so we re looking forward to work with them and their contribution towards the community.
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Credit: Dr Shufeng Li
A study has revealed for the first time the ancient origins of one of the world s most important ecosystems by unlocking the mechanism which determined the evolution of its mountains and how they shaped the weather there as well as its flora and fauna.
It was previously thought Southern Tibet and the Himalaya were instrumental in turning the once barren land of eastern Asia into lush forests and abundant coastal regions which became home to a rich array of plant, animal and marine life, including some of the world s rarest species. But new findings, published today in the journal
Credit: ZUO Linren
Pioneering work led by a joint China-UK consortium has revealed the origin of one of the world s most important ecosystems, the East Asian biodiversity hotspot, thus solving a longstanding riddle as to what prompted its formation and evolution.
In a recent study published in
Science Advances, a joint research team led by scientists from Xishuangbanna Tropical Botanical Garden (XTBG) of the Chinese Academy of Sciences, the University of Bristol (UK) and the Open University (UK) has revealed the first direct mechanism explaining how the growth of mountains in Northern Tibet drastically altered climate, vegetation and plant diversity in East Asia.