Add to ORKGBed sediments of the Yamuna River and its tributaries in the Himalaya (Yamuna River System, YRS) have been analyzed for major elements and trace metals (Sr, Ba, Ni, Cu, Co, Zn, Pb and Cr). These results have been used to charac-terize chemical weathering and transport in the Himalaya, to assess relative mobility of elements during weathering and to understand heavy metal association. Concentrations of major and trace elements of YRS sediments vary between 20 and 50%. In general, elemental variability reduces when data are analyzed individually for the major rivers, suggesting that tributaries draining diverse lithology contribute significant variations. Comparison of sediment chemistry with composi-tion of source rocks and average Upper Con...
The Yarlung Tsangpo–Brahmaputra river drains a large portion of the Himalaya and southern Tibetan pl...
The drainage basin of the modern Indus River is composed of tectonic blocks that include oceanic arc...
An analytical study of major cations and anions of the glacier fed Alaknanda River and its tributari...
The Indus river carries a huge amount of chemical and sediment load while traversing the Himalayas. ...
The trace metal geochemistry in Indian and Chinese rivers in the Asian region was studied to underst...
The Ganga-Brahmaputra, one of the world's largest river systems, is first in terms of sediment trans...
The intense rate of physical erosion in the Himalaya Mountains leads to significant changes in the m...
Systematic measurements of Ba in waters and bed sediments of the Yamuna and many of its tributaries ...
International audienceWe present an extensive river sediment dataset covering the Ganga basin from t...
The Yamuna river is the largest tributary of the Ganges river system. It originates in the Himalayas...
International audienceThe mineralogical and geochemical compositions of the sediments deposited by r...
International audienceTransport of sediment across riverine flood plains contributes a significant b...
International audience[1] A high-resolution study of mineralogy and major element geochemistry combi...
The Yarlung Tsangpo–Brahmaputra river drains a large portion of the Himalaya and southern Tibetan pl...
The drainage basin of the modern Indus River is composed of tectonic blocks that include oceanic arc...
An analytical study of major cations and anions of the glacier fed Alaknanda River and its tributari...
The Indus river carries a huge amount of chemical and sediment load while traversing the Himalayas. ...
The trace metal geochemistry in Indian and Chinese rivers in the Asian region was studied to underst...
The Ganga-Brahmaputra, one of the world's largest river systems, is first in terms of sediment trans...
The intense rate of physical erosion in the Himalaya Mountains leads to significant changes in the m...
Systematic measurements of Ba in waters and bed sediments of the Yamuna and many of its tributaries ...
International audienceWe present an extensive river sediment dataset covering the Ganga basin from t...
The Yamuna river is the largest tributary of the Ganges river system. It originates in the Himalayas...
International audienceThe mineralogical and geochemical compositions of the sediments deposited by r...
International audienceTransport of sediment across riverine flood plains contributes a significant b...
International audience[1] A high-resolution study of mineralogy and major element geochemistry combi...
The Yarlung Tsangpo–Brahmaputra river drains a large portion of the Himalaya and southern Tibetan pl...
The drainage basin of the modern Indus River is composed of tectonic blocks that include oceanic arc...
An analytical study of major cations and anions of the glacier fed Alaknanda River and its tributari...