Tibetan garnet records early Eocene initiation of thickening in the Himalaya

Matthijs Arjen Smit; Bradley Hacker; Jeffrey Lee

doi:10.1130/g35524.1

Tibetan garnet records early Eocene initiation of thickening in the Himalaya

Matthijs Arjen Smit, Bradley Hacker, Jeffrey Lee

Geology

57 Citations (Scopus)

Abstract

Tectonic reconstructions of the Himalayan orogeny depend on the age at which crustal thickening commenced. To investigate this age, we analyzed garnet from middle crustal rocks exposed in the north Himalayan Mabja and Kangmar gneiss domes of Tibet using Lu-Hf geochronology. Garnet yielded Lu-Hf ages of 54–52 Ma in Mabja and 51–49 Ma in Kangmar samples. On the basis of microstructural and major element and rare earth element zoning observations, the Lu-Hf ages are interpreted as recording garnet growth during contractional deformation in the middle crust at 54.3 ± 0.6 Ma, followed by variable recrystallization during subsequent high-temperature ductile extension. The new Lu-Hf ages are the first to confirm that crustal thickening and contraction in the Tibetan Himalaya was broadly synchronous with the early Eocene collision between Greater India and the Eurasian plate

Original language	English
Journal	Geology
Volume	42
Issue number	7
Pages (from-to)	591-594
Number of pages	4
ISSN	0091-7613
DOIs	https://doi.org/10.1130/g35524.1
Publication status	Published - May 2014

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title = "Tibetan garnet records early Eocene initiation of thickening in the Himalaya",

abstract = "Tectonic reconstructions of the Himalayan orogeny depend on the age at which crustal thickening commenced. To investigate this age, we analyzed garnet from middle crustal rocks exposed in the north Himalayan Mabja and Kangmar gneiss domes of Tibet using Lu-Hf geochronology. Garnet yielded Lu-Hf ages of 54–52 Ma in Mabja and 51–49 Ma in Kangmar samples. On the basis of microstructural and major element and rare earth element zoning observations, the Lu-Hf ages are interpreted as recording garnet growth during contractional deformation in the middle crust at 54.3 ± 0.6 Ma, followed by variable recrystallization during subsequent high-temperature ductile extension. The new Lu-Hf ages are the first to confirm that crustal thickening and contraction in the Tibetan Himalaya was broadly synchronous with the early Eocene collision between Greater India and the Eurasian plate",

author = "Smit, {Matthijs Arjen} and Bradley Hacker and Jeffrey Lee",

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doi = "10.1130/g35524.1",

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T1 - Tibetan garnet records early Eocene initiation of thickening in the Himalaya

AU - Smit, Matthijs Arjen

AU - Hacker, Bradley

AU - Lee, Jeffrey

PY - 2014/5

Y1 - 2014/5

N2 - Tectonic reconstructions of the Himalayan orogeny depend on the age at which crustal thickening commenced. To investigate this age, we analyzed garnet from middle crustal rocks exposed in the north Himalayan Mabja and Kangmar gneiss domes of Tibet using Lu-Hf geochronology. Garnet yielded Lu-Hf ages of 54–52 Ma in Mabja and 51–49 Ma in Kangmar samples. On the basis of microstructural and major element and rare earth element zoning observations, the Lu-Hf ages are interpreted as recording garnet growth during contractional deformation in the middle crust at 54.3 ± 0.6 Ma, followed by variable recrystallization during subsequent high-temperature ductile extension. The new Lu-Hf ages are the first to confirm that crustal thickening and contraction in the Tibetan Himalaya was broadly synchronous with the early Eocene collision between Greater India and the Eurasian plate

AB - Tectonic reconstructions of the Himalayan orogeny depend on the age at which crustal thickening commenced. To investigate this age, we analyzed garnet from middle crustal rocks exposed in the north Himalayan Mabja and Kangmar gneiss domes of Tibet using Lu-Hf geochronology. Garnet yielded Lu-Hf ages of 54–52 Ma in Mabja and 51–49 Ma in Kangmar samples. On the basis of microstructural and major element and rare earth element zoning observations, the Lu-Hf ages are interpreted as recording garnet growth during contractional deformation in the middle crust at 54.3 ± 0.6 Ma, followed by variable recrystallization during subsequent high-temperature ductile extension. The new Lu-Hf ages are the first to confirm that crustal thickening and contraction in the Tibetan Himalaya was broadly synchronous with the early Eocene collision between Greater India and the Eurasian plate

U2 - 10.1130/g35524.1

DO - 10.1130/g35524.1

M3 - Journal article

SN - 0091-7613

VL - 42

SP - 591

EP - 594

JO - Geology

JF - Geology

IS - 7

ER -

Tibetan garnet records early Eocene initiation of thickening in the Himalaya

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