SEARLE, M. P., NOBLE, S. R., HURFORD, A. J., REX, D. C. (1999) Age of crustal melting, emplacement and exhumation history of the Shivling leucogranite, Garhwal Himalaya. Geological Magazine, 136 (5) 513-525 doi:10.1017/s0016756899002885

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Reference Type	Journal (article/letter/editorial)
Title	Age of crustal melting, emplacement and exhumation history of the Shivling leucogranite, Garhwal Himalaya
Journal	Geological Magazine
Authors	SEARLE, M. P.		Author
	NOBLE, S. R.		Author
	HURFORD, A. J.		Author
	REX, D. C.		Author
Year	1999 (September)	Volume	136
Issue	5
Publisher	Cambridge University Press (CUP)
DOI	doi:10.1017/s0016756899002885Search in ResearchGate
	Generate Citation Formats
Mindat Ref. ID	258186	Long-form Identifier	mindat:1:5:258186:0
GUID	0
Full Reference	SEARLE, M. P., NOBLE, S. R., HURFORD, A. J., REX, D. C. (1999) Age of crustal melting, emplacement and exhumation history of the Shivling leucogranite, Garhwal Himalaya. Geological Magazine, 136 (5) 513-525 doi:10.1017/s0016756899002885
Plain Text	SEARLE, M. P., NOBLE, S. R., HURFORD, A. J., REX, D. C. (1999) Age of crustal melting, emplacement and exhumation history of the Shivling leucogranite, Garhwal Himalaya. Geological Magazine, 136 (5) 513-525 doi:10.1017/s0016756899002885
In	(1999, September) Geological Magazine Vol. 136 (5) Cambridge University Press (CUP)
Abstract/Notes	We report a U–Pb monazite age of 23.0±0.2 Ma for the Shivling leucogranite, a tourmaline+muscovite±biotite leucogranite at the top of the High Himalayan slab in the Garhwal Himalaya, north India. The Shivling–Bhagirathi leucogranite is a viscous near-minimum melt, emplaced as a foliation parallel laccolith via a dyke network not far from its source region. Prograde heating occurred soon after the India–Asia collision at c. 50 Ma up to melting at 23 Ma and high temperatures (>550 °C) were maintained for at least 15 Ma after garnet growth. The leucogranite was emplaced at mid-crustal depths along the footwall of the Jhala fault, a large-scale low-angle normal fault, part of the South Tibetan Detachment system, above kyanite and sillimanite grade gneisses. The geometry of the leucogranite laccolith shows biaxial extension and boudinage both perpendicular (north-northeast–south-southwest) and parallel to the strike (west-northwest–east-southeast) of the mountain range. Unroofing occurred by underthrusting beneath the High Himalayan slab along the Main Central Thrust zone, progressively ‘jacking up’ the leucogranites, removal of material above by low-angle normal faulting, and erosion. Very rapid cooling at rates of 200–350 °C/Ma between 23–21 Ma immediately followed crystallization, as tectonic unroofing and erosion removed 24–28 km of overburden during this time. K–Ar muscovite ages are 22±1.0 Ma and fission track ages of zircons from >5000 m on the North Ridge of Shivling are 14.2±2.1 and 8.8±1.2 Ma and apatites are 3.5±0.79 and 2.61±0.23 Ma. Slow steady state cooling at rates of 20–30 °C/Ma from 20–1 Ma shows that maximum erosion rates and unroofing of the leucogranite occurred during the early Miocene. This timing coincides with initiation of low-angle, north-dipping normal faulting along the South Tibetan Detachment system.

	Noble, S. R., Searle, M. P. (1995) Age of crustal melting and leucogranite formation from U-Pb zircon and monazite dating in the western Himalaya, Zanskar, India. Geology, 23 (12) 1135 doi:10.1130/0091-7613(1995)023<1135:aocmal>2.3.co;2
	Searle, M. P., Parrish, R. R., Hodges, K. V., Hurford, A., Ayres, M. W., Whitehouse, M. J. (1997) Shisha Pangma Leucogranite, South Tibetan Himalaya: Field Relations, Geochemistry, Age, Origin, and Emplacement. The Journal of Geology, 105 (3) 295-318 doi:10.1086/515924
	(1993) Field relations, petrogenesis and emplacement of the Bhagirathi leucogranite, Garhwal Himalaya. Special Publication, 74. Geological Society of London. 429-444 doi:10.1144/gsl.sp.1993.074.01.29
	Sachan, H. K., Kohn, M. J., Saxena, A., Corrie, S. L. (2010) The Malari leucogranite, Garhwal Himalaya, northern India: Chemistry, age, and tectonic implications. Geological Society of America Bulletin, 122 (11) 1865-1876 doi:10.1130/b30153.1
	STEPHENSON, B. J., SEARLE, M. P., WATERS, D. J., REX, D. C. (2001) Structure of the Main Central Thrust zone and extrusion of the High Himalayan deep crustal wedge, Kishtwar–Zanskar Himalaya. Journal of the Geological Society, 158 (4) 637-652 doi:10.1144/jgs.158.4.637
	Searle, M. P., Cottle, J. M., Streule, M. J., Waters, D. J. (2009) Crustal melt granites and migmatites along the Himalaya: melt source, segregation, transport and granite emplacement mechanisms. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 100 (1). 219-233 doi:10.1017/s175569100901617x
	*Noble, S. R., Searle, M. P., Walker, C. B. (2001) Age and Tectonic Significance of Permian Granites in Western Zanskar, High Himalaya. The Journal of Geology, 109 (1) 127-135 doi:10.1086/317966*
	SEARLE, M. P., WINDLEY, B. F., COWARD, M. P., COOPER, D.J.W., REX, A. J., REX, D., TINGDONG, LI, XUCHANG, XIAO, JAN, M. Q., THAKUR, V. C., KUMAR, S. (1987) The closing of Tethys and the tectonics of the Himalaya. Geological Society of America Bulletin, 98 (6) 678 doi:10.1130/0016-7606(1987)98<678:tcotat>2.0.co;2
	Singh, Paramjeet, Patel, R. C. (2017) Post-emplacement kinematics and exhumation history of the Almora klippe of the Kumaun–Garhwal Himalaya, NW India: revealed by fission track thermochronology. International Journal of Earth Sciences, 106 (6) 2189-2202 doi:10.1007/s00531-016-1422-0
	*Old, R. A., Rex, D. C. (1971) Rubidium and Strontium age determination of some Pre-Cambrian granitic rocks, S.E. Uganda. Geological Magazine, 108 (5) 353-360 doi:10.1017/s0016756800056375*
	SEARLE, M. P., PARRISH, R. R., TIRRUL, R., REX, D. C. (1990) Age of crystallization and cooling of the K2 gneiss in the Baltoro Karakoram. Journal of the Geological Society, 147 (4) 603-606 doi:10.1144/gsjgs.147.4.0603

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SEARLE, M. P., NOBLE, S. R., HURFORD, A. J., REX, D. C. (1999) Age of crustal melting, emplacement and exhumation history of the Shivling leucogranite, Garhwal Himalaya. Geological Magazine, 136 (5) 513-525 doi:10.1017/s0016756899002885

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