Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the Paleoenvironment

Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the Paleoenvironment

The growth of the southern piedmont of the Himalayan boundary and its depositional setting has changed since uplift of the Himalaya due to continental Indian-Eurasian collision, which has resulted in variation in magnetic minerals in marine- and terrestrial-facies sediments. In this paper, we utiliz...

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Main Authors: Dhan Bahadur Khatri, Weilin Zhang, Xiaomin Fang, Qingquan Meng, Tao Zhang, Dawen Zhang, Khum N. Paudayal
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-10-01
Series:Frontiers in Earth Science
Subjects:
rock magnetism
Cretaceous to Eocene strata
paleoenvironment
transgression and regression
Lesser Himalaya
Online Access:https://www.frontiersin.org/articles/10.3389/feart.2021.744063/full
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spelling doaj-a76feb35a19449d08cc355fa438f38822021-10-05T06:27:24ZengFrontiers Media S.A.Frontiers in Earth Science2296-64632021-10-01910.3389/feart.2021.744063744063Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the PaleoenvironmentDhan Bahadur Khatri0Dhan Bahadur Khatri1Weilin Zhang2Xiaomin Fang3Xiaomin Fang4Qingquan Meng5Tao Zhang6Dawen Zhang7Khum N. Paudayal8State Key Laboratory of Tibetan Plateau Earth System, Resources and Environment (TPESRE), Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing, ChinaUniversity of Chinese Academy of Sciences, Beijing, ChinaState Key Laboratory of Tibetan Plateau Earth System, Resources and Environment (TPESRE), Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing, ChinaState Key Laboratory of Tibetan Plateau Earth System, Resources and Environment (TPESRE), Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing, ChinaUniversity of Chinese Academy of Sciences, Beijing, ChinaSchool of Earth Sciences, Key Laboratory of Western China’s Mineral Resources of Gansu Province, Lanzhou University, Lanzhou, ChinaSchool of Earth Sciences, Key Laboratory of Western China’s Mineral Resources of Gansu Province, Lanzhou University, Lanzhou, ChinaCollege of Tourism and Environmental Resource, Zaozhuang University, Zaozhuang, ChinaCentral Department of Geology, Tribhuvan University, Kirtipur, NepalThe growth of the southern piedmont of the Himalayan boundary and its depositional setting has changed since uplift of the Himalaya due to continental Indian-Eurasian collision, which has resulted in variation in magnetic minerals in marine- and terrestrial-facies sediments. In this paper, we utilize rock magnetism data from the late Cretaceous to middle Eocene strata, including the Amile and Bhainskati formations from the Lesser Himalaya (western Nepal), to understand the mechanism controlling magnetic susceptibility (χ). The active tectonics strongly influenced saturation isothermal remanent magnetization (SIRM), HIRM, and hysteresis loops, forming both low-coercivity minerals in sediments with low χ from the terrestrial facies (zones I, IIIA, and V) and high-coercivity minerals in the sediments with high χ from the marine facies (zones II, IIIB and IV). Thermomagnetic κ-T curves and frequency-dependent χ (χfd%) values show that sediments with low χ and high χ carry magnetite with coarse non-superparamagnetic (SP) grains and hematite with SP grains, respectively. Comparing the χ data with the lithologic, sedimentary environments, geomorphic features, and sea level data, we propose that low χ values were mainly produced by an increase in terrigenous detrital influx during the regression period of the Tethys Sea, while high χ values formed in marine sediments, which prompted the appearance of ferromagnetic-antiferromagnetic and paramagnetic minerals during the transgression of the Tethys Sea.https://www.frontiersin.org/articles/10.3389/feart.2021.744063/fullrock magnetismCretaceous to Eocene stratapaleoenvironmenttransgression and regressionLesser Himalaya
collection DOAJ
language English
format Article
sources DOAJ
author Dhan Bahadur Khatri
Dhan Bahadur Khatri
Weilin Zhang
Xiaomin Fang
Xiaomin Fang
Qingquan Meng
Tao Zhang
Dawen Zhang
Khum N. Paudayal
spellingShingle Dhan Bahadur Khatri
Dhan Bahadur Khatri
Weilin Zhang
Xiaomin Fang
Xiaomin Fang
Qingquan Meng
Tao Zhang
Dawen Zhang
Khum N. Paudayal
Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the Paleoenvironment
Frontiers in Earth Science
rock magnetism
Cretaceous to Eocene strata
paleoenvironment
transgression and regression
Lesser Himalaya
author_facet Dhan Bahadur Khatri
Dhan Bahadur Khatri
Weilin Zhang
Xiaomin Fang
Xiaomin Fang
Qingquan Meng
Tao Zhang
Dawen Zhang
Khum N. Paudayal
author_sort Dhan Bahadur Khatri
title Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the Paleoenvironment
title_short Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the Paleoenvironment
title_full Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the Paleoenvironment
title_fullStr Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the Paleoenvironment
title_full_unstemmed Rock Magnetism of Late Cretaceous to Middle Eocene Strata in the Lesser Himalaya, Western Nepal: Inferences Regarding the Paleoenvironment
title_sort rock magnetism of late cretaceous to middle eocene strata in the lesser himalaya, western nepal: inferences regarding the paleoenvironment
publisher Frontiers Media S.A.
series Frontiers in Earth Science
issn 2296-6463
publishDate 2021-10-01
description The growth of the southern piedmont of the Himalayan boundary and its depositional setting has changed since uplift of the Himalaya due to continental Indian-Eurasian collision, which has resulted in variation in magnetic minerals in marine- and terrestrial-facies sediments. In this paper, we utilize rock magnetism data from the late Cretaceous to middle Eocene strata, including the Amile and Bhainskati formations from the Lesser Himalaya (western Nepal), to understand the mechanism controlling magnetic susceptibility (χ). The active tectonics strongly influenced saturation isothermal remanent magnetization (SIRM), HIRM, and hysteresis loops, forming both low-coercivity minerals in sediments with low χ from the terrestrial facies (zones I, IIIA, and V) and high-coercivity minerals in the sediments with high χ from the marine facies (zones II, IIIB and IV). Thermomagnetic κ-T curves and frequency-dependent χ (χfd%) values show that sediments with low χ and high χ carry magnetite with coarse non-superparamagnetic (SP) grains and hematite with SP grains, respectively. Comparing the χ data with the lithologic, sedimentary environments, geomorphic features, and sea level data, we propose that low χ values were mainly produced by an increase in terrigenous detrital influx during the regression period of the Tethys Sea, while high χ values formed in marine sediments, which prompted the appearance of ferromagnetic-antiferromagnetic and paramagnetic minerals during the transgression of the Tethys Sea.
topic rock magnetism
Cretaceous to Eocene strata
paleoenvironment
transgression and regression
Lesser Himalaya
url https://www.frontiersin.org/articles/10.3389/feart.2021.744063/full
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