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Determination of Crustal Strain Field in Kumaun Himalaya: Using Global Positioning System (GPS) Geodesy epub download

by Rakesh K. Dumka


Here we report geodetic measurements, using the Global Positioning System (GPS), of the rate of contraction across the Himalaya, which we. .The results agree with the strain field in this area from GPS observation.

Here we report geodetic measurements, using the Global Positioning System (GPS), of the rate of contraction across the Himalaya, which we find to be 1. 2 +/- 2 mm yr -1. From the form of the deformation field, we estimate the rate of slip of India beneath Tibet to be 2. +/- 2 mmyr-1.

Determination of Crustal Strain Field in Kumaun Himalaya Using Global Positioning System (GPS) Geodesy. Present-day crustal deformation and geodetic strain in the vicinity of Dholavira-Harappan civilization site, Kachchh, western part of the Indian plate

Determination of Crustal Strain Field in Kumaun Himalaya Using Global Positioning System (GPS) Geodesy. LAP Lambert Academic Publishing, 2011. Crustal strain in the rupture zone of 2001, Bhuj earthquake. ISR report 2011-2012, 2012. Present-day crustal deformation and geodetic strain in the vicinity of Dholavira-Harappan civilization site, Kachchh, western part of the Indian plate. RK Dumka, BS Kotlia, D SuriBabu, P Narain, S Prajapati. Quaternary International 507, 324-332, 2019. В данный момент система не может выполнить эту операцию. Повторите попытку позднее.

Himalaya using global positioning system GPS geodesy. Department of Geology.

Full metadata record. Determination of crustal strain field in kumaun lesser to tethys himalaya using global positioning system GPS geodesy. Dumka, Rakesh K. en US.

GPS sites in different lithitectonic units of Kumaun Himalaya were selected . To understand the present day geodynamics of Kumaun Himalaya, falls in th.

GPS sites in different lithitectonic units of Kumaun Himalaya were selected and three years of GPS data in campaign mode were generated from each site. oceedings{onOC, title {Determination of Crustal Strain Field in Kumaun Himalaya}, author {Rakesh K. Dumka}, year {2011} }. Rakesh K. Dumka. To understand the present day geodynamics of Kumaun Himalaya, falls in the seismically gap area, a study has been carried out with the help of Global Positioning System (GPS) Geodesy.

Crustal strain GPS geodesy GAMIT-GLOBK software Uttarakhand Himalaya. Electronic supplementary material. Dumka RK (2011) Determination of crustal strain field in Kumaun Himalaya using Global Positioning System (GPS) geodesy. Lambert Academic Publishing, Saarbrücken. Dumka RK, Kotlia BS, Kumar K, Satyal G (2014a) Quantification of crustal strain rate in Kumaun Himalaya (India) using GPS measurements of crustal deformation.

To understand the present day geodynamics of Kumaun Himalaya, falls in the seismically gap area, a study has been carried out with the help of Global Positioning System (GPS) Geodesy. GPS sites in different lithitectonic units of Kumaun Himalaya were selected and three years of GPS data in campaign mode were generated from each site. The Kumaun Himalaya is showing a range of 10-18 ± . mm/yr of deformation during the study period and mainly concentrated towards the base of MCT.

Keywords: Global Positioning System (GPS); Milam glacier; Recession rate; Central Himalaya. I. INTRODUCTION For the Indian subcontinent, the regional hydrology and climatic variations are directly influenced by the Himalayan glaciers, which are second after the polar caps and cover about 33,000 sq km area. In the Himalaya, about 1400 km3 of snow/ice is locked, and it spreads over an area of nearly 33,200 km2 in the higher altitudes. Dumka, Determination of Crustal Strain Field in Kumaun Himalaya using Global Positioning System (GPS) Geodesy (Lambert Academic Publishing, ISBN -13: 978-3-8465-0859-6, 2011).

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The foremost Global Positioning System (GPS) derived measurements in the Kumaun Himalaya indicate that . Dumka, Bahadur S. Kotlia, Kireet Kumar, Gokul S. Satyal, Lalit M. Joshi. Published: 26 January 2014.

The foremost Global Positioning System (GPS) derived measurements in the Kumaun Himalaya indicate that most of the crustal motion of the Indian plate i.

It is hoped that the relation between crustal strain and earthquake occurrence will be de fi ned more clearly by.C. Seismic Gap A large earthquake occurs when the earth ’ s crust ruptures after storing strain energy to a certain limit.

It is hoped that the relation between crustal strain and earthquake occurrence will be de fi ned more clearly by this system in the near future. Suchadensenetworkof GPS observation does not seem to exist in other countries.

To understand the present day geodynamics of Kumaun Himalaya, falls in the seismically gap area, a study has been carried out with the help of Global Positioning System (GPS) Geodesy. GPS sites in different lithitectonic units of Kumaun Himalaya were selected and three years of GPS data in campaign mode were generated from each site. The Kumaun Himalaya is showing a range of 10-18 ± 2.3 mm/yr of deformation during the study period and mainly concentrated towards the base of MCT. The crustal strain, evidenced by the presence of microseismic activity of the area, is from Lesser Himalaya to the hanging wall of MCT is showing compressional in nature and changing into extensional towards the Tethys Himalayan segment. The average convergence rate of Kumaun Himalaya during the study period is estimated around 18.66 ± 3.2 mm/yr. Interpretation of results reveal that at present the HFF and MBT are locked with the Indian plate which is evident by only 6.69 mm/yr of horizontal shortening between the IISC and GBPK.

Determination of Crustal Strain Field in Kumaun Himalaya: Using Global Positioning System (GPS) Geodesy epub download

ISBN13: 978-3846508596

ISBN: 3846508594

Author: Rakesh K. Dumka

Category: Math and Science

Subcategory: Earth Sciences

Language: English

Publisher: LAP LAMBERT Academic Publishing (September 26, 2011)

Pages: 92 pages

ePUB size: 1658 kb

FB2 size: 1262 kb

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