Abstract High-elevation (> 2500 m asl) environments pose severe challenges for human
adaptation, and the timing and catalysts of their sustained year-round occupation remain a …

With global warming and increasing anthropogenic activities, the ecosystems on the Tibetan
Plateau are becoming increasingly fragile, exacerbating the risk of soil erosion in the area …

Understanding the impact of meltwater discharge during the final stage of the Laurentide Ice
Sheet (LIS) has important implications for predicting sea level rise and climate change. Here …

In this paper, we undertake a high-resolution palynological analysis of a sediment core
covering the last 1500 years obtained from Lake Ayakum in the northern Tibetan Plateau, to …

The mid-Holocene is generally regarded as a relatively warm period, and therefore
reconstructing land cover change from the mid-Holocene onwards may help predict future …

The Tibetan Plateau (TP) is the largest and highest terrain on the Earth, comprising more
than 80% of continents higher than 4000 m above sea level. The extremely high elevation …

Pollen and grain-size records from a small lake (Saiyong Co) in the source region of the
Yangtze River, central Tibetan Plateau are presented and used to reveal vegetation and …

The article is devoted to highlighting the results of field studies conducted during 2019–2021
on the influence of multifunctional growth-regulating drugs with a fungicidal effect …

Solar radiation is the external driving force of the Earth's climate system. In different spatial
and temporal scales, meteorological elements have different responses and lag periods to …

By studying the forging and heat treatment processes of CrMo alloy structural steel OPGW
fittings under extreme cold conditions, comparing the process performance of several …