V. N. Nijampurkar scite author profile

V. N. Nijampurkar

5Publications

72Citation Statements Received

65Citation Statements Given

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Physical Research Laboratory, Tata Institute of Fundamental Research

Publications

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Radiometric Chronology of Neh–nar Glacier, Kashmir

et al. 1982

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Surface and core samples of Neh–nar Glacier in the Kashmir Valley have been analysed for the radionuclides 32Si. 210Pb, 40K, and 137Cs. The lateral and vertical profiles (at an altitude of about 4 140 m) reveal:(1)32Si activity decreasing slowly from the accumulation zone to 4 050 m altitude and then abruptly towards the snout.(2)Five zones of alternating high and low 210Pb activity in the surface samples.(3)An horizon at between 2 and 3 m depth containing 210Pb activity above natural levels. This horizon is also associated with 137Cs and a maximum in total ß activity.The ice samples have been dated on the basis of a simplified two–component model, the “fresh“contribution determined by 2l0Pb and the old component by 32Si. The following conclusions can be drawn from these observations:(1)The model age of the snout ice is c. 850 years.(2)The average rate of ice movement in the lower glacier is about 2 m/year, which compares well with the annual movement rate of 2.65 m/year observed since 1974.

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Annual fallout of32Si,210Pb,22Na,35S and7Be in rains in India

Lal

Nijampurkar

Rajagopalan³

et al. 1979

J Earth Syst Sci

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The concentration of radioisotopes rBe, ~S were measured in Bombay since 1956 and ~2Na, ~a~ z~Si since 1963. In Khandala and other stations such measurements have been made at irregular periods since 1961. In addition several measurements especially that of 32Si were made in 1970. Data available todate from Indian stations is summarised and critically analysed. We conclude that appreciable amounts of ~S, 2~Na and 8JSi, over and above their production by cosmic rays, were produced during the high yield Russian tests as evidenced by their fallout between 1962-66. Based on the bomb produced excess the half period for their removal from the stratosphere is deduced to be less than 1 year. The ' excess' contribution of 3aSi due to bombs is, however, small; about 1~0 of its inventory in the oceans. The present study shows that for stations where orogeny is the principal mer nism of precipitation, the annual fallout is independent of the annual rainfall.

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Accumulation and flow rates of ice on Chhota Shigri glacier, central Himalaya, using radio-active and stable isotopes

Nijampurkar

Rao

1992

J. Glaciol.

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Systematic isotopic studies based on natural and artificial radio-isotopes (32Si, 137Cs), stable isotopes (δ18O) and total β activity measurements have been carried out on Chhota Shigri glacier, Himachal Pradesh, central Himalaya, to study the dynamics of the ice, meltwater composition and to identify the deposition of the Chernobyl fall-out in the Himalayan region.Using 32Si concentrations, the snout ice has been dated at ~ 250 years, based on which the past average surface ice-flow rate has been estimated as ~ 28 m year−1. Based on δ18O variations, in a shallow ice core, the accumulation rate of the ice has been estimated at ~520kgm−2 year−1. 32Si measurements of snout ice and englacial meltwaters indicate that at least 55% of the snow meltwater mixed with 45% of the old ice-melt water that emerged from englacial streams in the month of August 1987. Deposition of the artificial radionuclide (137Cs) and the very high total β activity observed in snow samples on Chhota Shigri glacier give the first evidence of Chernobyl fall-out deposition in the Indian Himalaya.

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Accumulation and flow rates of ice on Chhota Shigri glacier, central Himalaya, using radio-active and stable isotopes

Nijampurkar

Rao

1992

J. Glaciol.

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Systematic isotopic studies based on natural and artificial radio-isotopes (32Si,137Cs), stable isotopes (δ18O) and total β activity measurements have been carried out on Chhota Shigri glacier, Himachal Pradesh, central Himalaya, to study the dynamics of the ice, meltwater composition and to identify the deposition of the Chernobyl fall-out in the Himalayan region.Using32Si concentrations, the snout ice has been dated at ~ 250 years, based on which the past average surface ice-flow rate has been estimated as ~ 28 m year−1. Based on δ18O variations, in a shallow ice core, the accumulation rate of the ice has been estimated at ~520kgm−2year−1.32Si measurements of snout ice and englacial meltwaters indicate that at least 55% of the snow meltwater mixed with 45% of the old ice-melt water that emerged from englacial streams in the month of August 1987. Deposition of the artificial radionuclide (137Cs) and the very high total β activity observed in snow samples on Chhota Shigri glacier give the first evidence of Chernobyl fall-out deposition in the Indian Himalaya.

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Oxygen isotopic ratios of some Himalayan glaciers

Nijampurkar¹,

Bhandari²

1984

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δ18O in ice cores taken from two temperate glaciers, Changme‐Khangpu (CK) and Nehnar. located in the eastern and the western Himalayas respectively, and in fresh precipitation and surface ice at different altitudes on the Changme‐Khangpu glacier has been measured. The fresh precipitation in CK has δ18O in the narrow range of −19 ± 2‰ which is similar to the ice core values. δ18O and dust concentration in Nehnar core is found to be variable. The δ18O values lie in the narrow range of −9.5 ± 1‰ in the upper 46 m section and the fluctuations increase in the 66–102 m section of the ice core.

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V. N. Nijampurkar

Radiometric Chronology of Neh–nar Glacier, Kashmir

Annual fallout of32Si,210Pb,22Na,35S and7Be in rains in India

Accumulation and flow rates of ice on Chhota Shigri glacier, central Himalaya, using radio-active and stable isotopes

Accumulation and flow rates of ice on Chhota Shigri glacier, central Himalaya, using radio-active and stable isotopes

Oxygen isotopic ratios of some Himalayan glaciers

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