Your search keyword '"Pan Baotian"' showing total 9 results

1. Multiple paleolakes caused by glacier river-blocking on the southeastern Tibetan plateau in response to climate changes since the last glacial maximum

Author

Wang, Meng, Wang, Xianyan, Pan, Baotian, Yi, Shuangwen, Van Balen, Ronald, Zhao, Zhijun, Dong, Xiaolu, Vandenberghe, Jef, Wang, Youwei, Lu, Huayu, Wang, Meng, Wang, Xianyan, Pan, Baotian, Yi, Shuangwen, Van Balen, Ronald, Zhao, Zhijun, Dong, Xiaolu, Vandenberghe, Jef, Wang, Youwei, and Lu, Huayu

Abstract

The detailed evolution of valley-damming by glaciers on the southeastern Tibetan Plateau, including the large Gega paleolake, is reconstructed based on observed sediment sequences, and optically stimulated luminescence (OSL) dating. In total, six main lithofacies associations are inferred that represent three relevant sedimentary environments associated with the paleolakes, i.e. lacustrine, deltaic and fluvial. Since the local last glacial maximum (LGM), there have been at least three river-blocking episodes and consequent phases of lacustrine development in the Gega and Jiedexiu dammed lakes. They occurred at ca. 25–17 ka, 14–11 ka, and ∼4 ka. Sedimentological evidence shows that the glacier-dammed lakes were not stable; they experienced oscillations of lake level through short-time drainage events. The damming events and subsequent outburst floods were likely triggered by changes in the extent and thickness of glaciers, caused by rapid climatic changes. This seems to be consistent with proglacial lakes occurring elsewhere, although the dynamics of glacier-dammed lakes can be highly variable between catchments and through time due to the influence of climate-dependent factors on the proglacial lakes.

Published

2023

2. Decoupled Chinese Loess Plateau dust deposition and Asian aridification at millennial and tens of millennial timescales

Author

Peng, Fei, Nie, Junsheng, Stevens, Thomas, Pan, Baotian, Peng, Fei, Nie, Junsheng, Stevens, Thomas, and Pan, Baotian

Abstract

It is generally assumed that increased dust accumulation rate (DAR) on the Chinese Loess Plateau (CLP) is associated with intensified inland Asian aridification. However, the timescales and area that any such association operates over is unclear. In this study, we demonstrate a lack of correlation between the southern CLP loess DAR variations and aridification over the past 130 ka, which does not support a direct link between high DAR and intensified inland Asian aridification over millennial to tens of millennial timescales. Instead, we propose that loess DAR variation is more likely determined by wet-dry cycles and associated loose sediment production and availability via fluvial and glacial processes.

Published

2022

3. Testing contrasting models of the formation of the upper Yellow River usingheavy-mineral data from the Yinchuan Basin drill cores

Author

Wang, Zhang, Nie, Junsheng, Wang, Junping, Zhang, Haobo, Peng, Wenbin, Garzanti, Eduardo, Hu, Xiaofei, Stevens, Thomas, Pfaff, Katharina, Pan, Baotian, Wang, Zhang, Nie, Junsheng, Wang, Junping, Zhang, Haobo, Peng, Wenbin, Garzanti, Eduardo, Hu, Xiaofei, Stevens, Thomas, Pfaff, Katharina, and Pan, Baotian

Abstract

The upper Yellow River drains the central and northeastern Tibetan Plateau. Understanding the origin of this river is essential for unraveling the interplay between fluvial incision, basement uplift, and climate change. However, the formation age of the upper Yellow River is highly debated, with estimates ranging from Eocene to late Pleistocene. In order to clarify the history of the upper Yellow River, we present a heavy-mineral dataset from drill core in the Yinchuan Basin, a depositional sink at the end of the upper Yellow River course. Our results reveal that the drainage area of the upper Yellow River (i.e., northeastern Tibetan Plateau) has been serving as a major sediment source region for the Yinchuan Basin since at least 3.3 Ma. A late Pleistocene formation of the upper Yellow River, and erosion of neighboring deserts or bounding mountains as an explanation for thick sediment accumulations in this area, is thus ruled out.

Published

2019

4. Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment

Author

Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, Pan, Baotian, Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, and Pan, Baotian

Abstract

Marine accumulations of terrigenous sediment are widely assumed to accurately record climatic- and tectonic-controlled mountain denudation and play an important role in understanding late Cenozoic mountain uplift and global cooling. Underpinning this is the assumption that the majority of sediment eroded from hinterland orogenic belts is transported to and ultimately stored in marine basins with little lag between erosion and deposition. Here we use a detailed and multi-technique sedimentary provenance dataset from the Yellow River to show that substantial amounts of sediment eroded from Northeast Tibet and carried by the river/'s upper reach are stored in the Chinese Loess Plateau and the western Mu Us desert. This finding revises our understanding of the origin of the Chinese Loess Plateau and provides a potential solution for mismatches between late Cenozoic terrestrial sedimentation and marine geochemistry records, as well as between global CO2 and erosion records., Supplementary information available for this article at http://www.nature.com/ncomms/2015/151009/ncomms9511/suppinfo/ncomms9511_S1.html

Published

2015

5. Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment

Author

Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, Pan, Baotian, Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, and Pan, Baotian

Abstract

Marine accumulations of terrigenous sediment are widely assumed to accurately record climatic- and tectonic-controlled mountain denudation and play an important role in understanding late Cenozoic mountain uplift and global cooling. Underpinning this is the assumption that the majority of sediment eroded from hinterland orogenic belts is transported to and ultimately stored in marine basins with little lag between erosion and deposition. Here we use a detailed and multi-technique sedimentary provenance dataset from the Yellow River to show that substantial amounts of sediment eroded from Northeast Tibet and carried by the river/'s upper reach are stored in the Chinese Loess Plateau and the western Mu Us desert. This finding revises our understanding of the origin of the Chinese Loess Plateau and provides a potential solution for mismatches between late Cenozoic terrestrial sedimentation and marine geochemistry records, as well as between global CO2 and erosion records., Supplementary information available for this article at http://www.nature.com/ncomms/2015/151009/ncomms9511/suppinfo/ncomms9511_S1.html

Published

2015

6. Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment

Author

Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, Pan, Baotian, Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, and Pan, Baotian

Abstract

Marine accumulations of terrigenous sediment are widely assumed to accurately record climatic- and tectonic-controlled mountain denudation and play an important role in understanding late Cenozoic mountain uplift and global cooling. Underpinning this is the assumption that the majority of sediment eroded from hinterland orogenic belts is transported to and ultimately stored in marine basins with little lag between erosion and deposition. Here we use a detailed and multi-technique sedimentary provenance dataset from the Yellow River to show that substantial amounts of sediment eroded from Northeast Tibet and carried by the river/'s upper reach are stored in the Chinese Loess Plateau and the western Mu Us desert. This finding revises our understanding of the origin of the Chinese Loess Plateau and provides a potential solution for mismatches between late Cenozoic terrestrial sedimentation and marine geochemistry records, as well as between global CO2 and erosion records., Supplementary information available for this article at http://www.nature.com/ncomms/2015/151009/ncomms9511/suppinfo/ncomms9511_S1.html

Published

2015

7. Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment

Author

Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, Pan, Baotian, Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, and Pan, Baotian

Abstract

Marine accumulations of terrigenous sediment are widely assumed to accurately record climatic- and tectonic-controlled mountain denudation and play an important role in understanding late Cenozoic mountain uplift and global cooling. Underpinning this is the assumption that the majority of sediment eroded from hinterland orogenic belts is transported to and ultimately stored in marine basins with little lag between erosion and deposition. Here we use a detailed and multi-technique sedimentary provenance dataset from the Yellow River to show that substantial amounts of sediment eroded from Northeast Tibet and carried by the river/'s upper reach are stored in the Chinese Loess Plateau and the western Mu Us desert. This finding revises our understanding of the origin of the Chinese Loess Plateau and provides a potential solution for mismatches between late Cenozoic terrestrial sedimentation and marine geochemistry records, as well as between global CO2 and erosion records., Supplementary information available for this article at http://www.nature.com/ncomms/2015/151009/ncomms9511/suppinfo/ncomms9511_S1.html

Published

2015

8. Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment

Author

Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, Pan, Baotian, Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, and Pan, Baotian

Abstract

Marine accumulations of terrigenous sediment are widely assumed to accurately record climatic- and tectonic-controlled mountain denudation and play an important role in understanding late Cenozoic mountain uplift and global cooling. Underpinning this is the assumption that the majority of sediment eroded from hinterland orogenic belts is transported to and ultimately stored in marine basins with little lag between erosion and deposition. Here we use a detailed and multi-technique sedimentary provenance dataset from the Yellow River to show that substantial amounts of sediment eroded from Northeast Tibet and carried by the river/'s upper reach are stored in the Chinese Loess Plateau and the western Mu Us desert. This finding revises our understanding of the origin of the Chinese Loess Plateau and provides a potential solution for mismatches between late Cenozoic terrestrial sedimentation and marine geochemistry records, as well as between global CO2 and erosion records., Supplementary information available for this article at http://www.nature.com/ncomms/2015/151009/ncomms9511/suppinfo/ncomms9511_S1.html

Published

2015

9. Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment

Author

Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, Pan, Baotian, Nie, Junsheng, Stevens, Thomas, Rittner, Martin, Stockli, Daniel, Garzanti, Eduardo, Limonta, Mara, Bird, Anna, Ando, Sergio, Vermeesch, Pieter, Saylor, Joel, Lu, Huayu, Breecker, Daniel, Hu, Xiaofei, Liu, Shanpin, Resentini, Alberto, Vezzoli, Giovanni, Peng, Wenbin, Carter, Andrew, Ji, Shunchuan, and Pan, Baotian

Abstract

Marine accumulations of terrigenous sediment are widely assumed to accurately record climatic- and tectonic-controlled mountain denudation and play an important role in understanding late Cenozoic mountain uplift and global cooling. Underpinning this is the assumption that the majority of sediment eroded from hinterland orogenic belts is transported to and ultimately stored in marine basins with little lag between erosion and deposition. Here we use a detailed and multi-technique sedimentary provenance dataset from the Yellow River to show that substantial amounts of sediment eroded from Northeast Tibet and carried by the river/'s upper reach are stored in the Chinese Loess Plateau and the western Mu Us desert. This finding revises our understanding of the origin of the Chinese Loess Plateau and provides a potential solution for mismatches between late Cenozoic terrestrial sedimentation and marine geochemistry records, as well as between global CO2 and erosion records., Supplementary information available for this article at http://www.nature.com/ncomms/2015/151009/ncomms9511/suppinfo/ncomms9511_S1.html

Published

2015