Add to ORKGThis study provides a vegetation and climate history of an alpine wetland in the centre of China’s Qinghai–Tibetan Plateau (QTP) over the last 14.8 ka. High resolution climate proxies include vegetation (pollen), geochemical (Ba, Rb, δ13C) and physical (particle size and magnetic susceptibility) data; optically stimulated luminescence (OSL) and AMS radiocarbon dating were used to reconstruct the environmental changes in the wetland ecosystem. Based on physical and geochemical proxies, the sucession divided into five stratigraphic units encompassing time intervals of 14.76–14.31, 14.31–13.17, 13.17–4.47, 4.47–0.51 and 0.51–0 ka. The average sedimentation rate of all these units was 0.098 mm/a. The study showed that this ecosystem was sensiti...
Information on changes in land-surface features on the Tibetan Plateau (TP) during the Holocene may ...
International audienceAlthough alpine ecosystems have been commonly recognized as sensitive to recen...
Dajiuhu, a rare peatland in Central China, has attracted several studies. There are differences in t...
Expansion of the spatial coverage of pollen data is essential to improve understanding of Holocene c...
Congping is a wetland at about 2100 m asl in Chongqing Province. It is surrounded by a shrubby grass...
Reconstructing environmental changes for the last glacial-interglacial cycles in central China plays...
As the largest alpine wetland and peat deposition area in China, the Zoige wetland is climatically s...
Aims Climate change can significantly affect the vegetation worldwide. Thus, paleovegetation and pal...
In this study, late Holocene vegetation, climate and human impacts were investigated using multiprox...
This study has reconstructed the Holocene environmental history of central Tibetan Plateau, a transi...
Knowledge of the past interactions between climate and human land use is essential for understanding...
This paper presents a multi-proxy reconstruction of the climate change in Caotanhu wetland using pol...
The work was supported by the National Natural Science Foundation of China (Grant No. 41971121 and 4...
Climate change and human activities interact to affect the vegetation landscape. We examined the int...
High-resolution palynological analysis on annually laminated sediments of Sihailongwan Maar Lake (SH...
Information on changes in land-surface features on the Tibetan Plateau (TP) during the Holocene may ...
International audienceAlthough alpine ecosystems have been commonly recognized as sensitive to recen...
Dajiuhu, a rare peatland in Central China, has attracted several studies. There are differences in t...
Expansion of the spatial coverage of pollen data is essential to improve understanding of Holocene c...
Congping is a wetland at about 2100 m asl in Chongqing Province. It is surrounded by a shrubby grass...
Reconstructing environmental changes for the last glacial-interglacial cycles in central China plays...
As the largest alpine wetland and peat deposition area in China, the Zoige wetland is climatically s...
Aims Climate change can significantly affect the vegetation worldwide. Thus, paleovegetation and pal...
In this study, late Holocene vegetation, climate and human impacts were investigated using multiprox...
This study has reconstructed the Holocene environmental history of central Tibetan Plateau, a transi...
Knowledge of the past interactions between climate and human land use is essential for understanding...
This paper presents a multi-proxy reconstruction of the climate change in Caotanhu wetland using pol...
The work was supported by the National Natural Science Foundation of China (Grant No. 41971121 and 4...
Climate change and human activities interact to affect the vegetation landscape. We examined the int...
High-resolution palynological analysis on annually laminated sediments of Sihailongwan Maar Lake (SH...
Information on changes in land-surface features on the Tibetan Plateau (TP) during the Holocene may ...
International audienceAlthough alpine ecosystems have been commonly recognized as sensitive to recen...
Dajiuhu, a rare peatland in Central China, has attracted several studies. There are differences in t...