Stable isotope systematics of surface water bodies in the Himalayan and Trans-Himalayan (Kashmir) region

Stable isotope systematics of surface water bodies in the Himalayan and Trans-Himalayan (Kashmir) region

Stable hydrogen (δD) and oxygen (δ^sup 18^O) isotope ratios of the headwaters of the Indus and its tributaries, surface ice in glaciers, saline and fresh water lakes and thermal springs in the Himalayan and Trans-Himalayan (Kashmir) region are reported. The δ5D-δ^sup 18^ relationship for the river s...

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Veröffentlicht in:Academy Proceedings in Earth and Planetary Sciences 2000-03, Vol.109 (1), p.109-115
Hauptverfasser: Pande, Kanchan, Padia, J. T., Ramesh, R., Sharma, K. K.
Format: Artikel
Sprache:eng
Schlagworte:
Altitude
Altitude effects
Deuterium
Fractionation
Fresh water
Freshwater
Freshwater lakes
Geothermal springs
Glaciers
Headwaters
Hot springs
Inland water environment
Isotope ratios
Lakes
Oxygen
Saline environments
Stable isotopes
Surface water
Systematics
Thermal springs
Water bodies
Water sampling
Water springs
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Zusammenfassung:Stable hydrogen (δD) and oxygen (δ^sup 18^O) isotope ratios of the headwaters of the Indus and its tributaries, surface ice in glaciers, saline and fresh water lakes and thermal springs in the Himalayan and Trans-Himalayan (Kashmir) region are reported. The δ5D-δ^sup 18^ relationship for the river samples shows a slope of 9.12 +-0.29 which agrees well with the estimate of 8.99 ±0.33 based on a simple Rayleigh fractionation model. The unique signature of a higher deuterium excess (d) of the 'Western Disturbance' is preserved in these samples. An altitude effect of -0.9 per mil/km is observed in the δ^sup 18^O of Indus waters. At a lower altitude (Beas) the altitude effect is almost double, indicating that the altitude effect decreases with elevation in this region.[PUBLICATION ABSTRACT]
ISSN:0253-4126
0973-774X
DOI:10.1007/BF02719154