Add to ORKGGlacial successions in the Anyemaqen and Nianbaoyeze Mountains of northeastern Tibet are reassessed and new glacial chronologies are presented for these regions. Cosmogenic radionuclide and optically stimulated luminescence dating indicates that two glacial advances occurred in marine isotope stage (MIS)-3 and MIS-2. In the Anyemaqen Mountains, a third advance occurred in the Early Holocene. We suggest that glaciation was synchronous in the Anyemaqen and Nianbaoyeze Mountains, as well as in other glaciated areas of Tibet and the Himalaya that are influenced by the Asian monsoon. The maximum extent of glaciation occurred early in the last glacial cycle (MIS-3) during a time of increased insolation when the monsoon intensified and supplied ab...
It has long been observed that the timing of glacial advances is asynchronous across the Himalaya–Ka...
Moraine successions in glaciated valleys south of Mount Everest provide evidence for at least eight ...
It has long been observed that the timing of glacial advances is asynchronous across the Himalaya–Ka...
Glacial successions in the Anyemaqen and Nianbaoyeze Mountains of northeastern Tibet are reassessed ...
Glacial landforms and sediments provide evidence for the existence of two Late Pleistocene major gla...
Abundant glacial geologic evidence present throughout Tibet and the bordering mountains shows that g...
It is highly debated whether glacial advances on the Qinghai-Tibetan Plateau (QTP) occurred as a res...
The Burhan Budai Shan in NE Tibet represents a key location for examining the variable influence of ...
During the last glacial termination, a warming trend was generally interrupted by rapid millennium-s...
Quantifying the timing and extent of late Quaternary glaciations across the Tibetan Plateau (TP) is ...
The eastern Nyainqêntanglha Range is located at the southeastern fringe of the Tibetan Plateau, repr...
Late Pleistocene glaciations on Mt. Diancang and Mt. Gongwang were investigated and the chronostrati...
The Tibetan Plateau, its surrounding mountains, and the high mountains in eastern China hold evidenc...
ABSTRACT: A compilation of 53 14C ages on moraines constrains the Holocene glacial history of Tibet ...
Moraines along the southwestern slopes of the Qilian Shan were dated using cosmogenic radionuclide (...
It has long been observed that the timing of glacial advances is asynchronous across the Himalaya–Ka...
Moraine successions in glaciated valleys south of Mount Everest provide evidence for at least eight ...
It has long been observed that the timing of glacial advances is asynchronous across the Himalaya–Ka...
Glacial successions in the Anyemaqen and Nianbaoyeze Mountains of northeastern Tibet are reassessed ...
Glacial landforms and sediments provide evidence for the existence of two Late Pleistocene major gla...
Abundant glacial geologic evidence present throughout Tibet and the bordering mountains shows that g...
It is highly debated whether glacial advances on the Qinghai-Tibetan Plateau (QTP) occurred as a res...
The Burhan Budai Shan in NE Tibet represents a key location for examining the variable influence of ...
During the last glacial termination, a warming trend was generally interrupted by rapid millennium-s...
Quantifying the timing and extent of late Quaternary glaciations across the Tibetan Plateau (TP) is ...
The eastern Nyainqêntanglha Range is located at the southeastern fringe of the Tibetan Plateau, repr...
Late Pleistocene glaciations on Mt. Diancang and Mt. Gongwang were investigated and the chronostrati...
The Tibetan Plateau, its surrounding mountains, and the high mountains in eastern China hold evidenc...
ABSTRACT: A compilation of 53 14C ages on moraines constrains the Holocene glacial history of Tibet ...
Moraines along the southwestern slopes of the Qilian Shan were dated using cosmogenic radionuclide (...
It has long been observed that the timing of glacial advances is asynchronous across the Himalaya–Ka...
Moraine successions in glaciated valleys south of Mount Everest provide evidence for at least eight ...
It has long been observed that the timing of glacial advances is asynchronous across the Himalaya–Ka...