Webb10 apr. 2024 · This prediction is supported by the terrestrial water storage and glacial runoff projections on the Inner Tibetan Plateau. The results of this study highlight the importance of water resource mitigation and adaptation to avoid flood threats from increased LWS on the Inner Tibetan Plateau. Webb12 sep. 2024 · Long-term groundwater storage (GWS; the amount of water stored in the pores, fissures, and caves of soil and rocks within the underground saturated zone) …
Quantifying episodic erosion and transient storage on the western ...
WebbState Key Laboratory of Tibetan Plateau Earth System, Environment and Resources (TPESER), Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing, PR China Contribution: Methodology (supporting) Search for more papers by this author Nicole Börner, Nicole Börner orcid.org/0000-0001-8833-6665 Webb24 dec. 2024 · Geodiversity is considered a new tool to exploit the resources of regional and local geotourism. Hitherto, few assessments of geodiversity have been conceived for huge geographic units. The spatial pattern of geodiversity in the Tibetan Plateau (TP) is the purpose of this study. A total of 96 abiotic units in six geo-groups of hydrology, pedology, … tartan dishware
ESSD - High-temporal-resolution water level and storage change …
Webb30 aug. 2024 · With the highest elevation in the world's mid-latitude region, the Qinghai-Tibet Plateau is highly sensitive to the impact of global warming. The region is known as "the water tower of Asia" as it houses abundant glaciers vital to the regional water cycle and water resources in downstream areas. WebbThe Inner Tibetan Plateau (TP) is an endorheic basin with densely distributed lakes that serve as "sentinels" of climate change. With climate warming and humidification, the lakes on the Inner TP have experienced a dramatic expansion; drainage reorganization events can occur, which in turn, pose a flood risk to surrounding villages and roads or break … WebbFör 1 dag sedan · A new study in Nature Geoscience reveals that mass loss of lake-terminating glaciers in the greater Himalaya has been significantly underestimated by 6.5% due to satellite limitations in detecting underwater changes. This has major implications for future projections of glacier disappearance and water resources in the region. 骨格診断 ウェーブ 男性 芸能人