Geochemical characteristics of Cenozoic basaltic high-K volcanic rocks from Maguan area, eastern Tibet

Wei Qirong; Wang Jianghai

doi:10.1007/bf02841137

Geochemical characteristics of Cenozoic high-K igneous rocks from Liuhe-Xiangduo area, eastern Tibet

Chinese Journal of Geochemistry ◽

10.1007/bf02841160 ◽

2005 ◽

Vol 24 (2) ◽

pp. 158-165

Author(s):

Wei Qirong ◽

Wang Jianghai

Keyword(s):

Geochemical Characteristics ◽

Igneous Rocks ◽

High K ◽

Eastern Tibet

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Early Cretaceous crust–mantle interaction linked to rollback of the Palaeo-Pacific flat-subducting slab: constraints from the intermediate–felsic volcanic rocks of the northern Great Xing’an Range, NE China

Geological Magazine ◽

10.1017/s0016756821000170 ◽

2021 ◽

pp. 1-22

Author(s):

Jia-Hao Jing ◽

Hao Yang ◽

Wen-Chun Ge ◽

Yu Dong ◽

Zheng Ji ◽

...

Keyword(s):

Early Cretaceous ◽

Volcanic Rocks ◽

Geochemical Data ◽

Calc Alkaline ◽

Ne China ◽

Asthenospheric Mantle ◽

High K ◽

Wide Range ◽

Great Xing’An Range ◽

Subducting Slab

Abstract Late Mesozoic igneous rocks are important for deciphering the Mesozoic tectonic setting of NE China. In this paper, we present whole-rock geochemical data, zircon U–Pb ages and Lu–Hf isotope data for Early Cretaceous volcanic rocks from the Tulihe area of the northern Great Xing’an Range (GXR), with the aim of evaluating the petrogenesis and genetic relationships of these rocks, inferring crust–mantle interactions and better constraining extension-related geodynamic processes in the GXR. Zircon U–Pb ages indicate that the rhyolites and trachytic volcanic rocks formed during late Early Cretaceous time (c. 130–126 Ma). Geochemically, the highly fractionated I-type rhyolites exhibit high-K calc-alkaline, metaluminous to weakly peraluminous characteristics. They are enriched in light rare earth elements (LREEs) and large-ion lithophile elements (LILEs) but depleted in high-field-strength elements (HFSEs), with their magmatic zircons ϵHf(t) values ranging from +4.1 to +9.0. These features suggest that the rhyolites were derived from the partial melting of a dominantly juvenile, K-rich basaltic lower crust. The trachytic volcanic rocks are high-K calc-alkaline series and exhibit metaluminous characteristics. They have a wide range of zircon ϵHf(t) values (−17.8 to +12.9), indicating that these trachytic volcanic rocks originated from a dominantly lithospheric-mantle source with the involvement of asthenospheric mantle materials, and subsequently underwent extensive assimilation and fractional crystallization processes. Combining our results and the spatiotemporal migration of the late Early Cretaceous magmatic events, we propose that intense Early Cretaceous crust–mantle interaction took place within the northern GXR, and possibly the whole of NE China, and that it was related to the upwelling of asthenospheric mantle induced by rollback of the Palaeo-Pacific flat-subducting slab.

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The relationship between gold mineralization, high K calc-alkaline to alkaline volcanic rocks, and A-type granite: Formation of the Daxiyingzi gold deposit in northern North China Craton

Ore Geology Reviews ◽

10.1016/j.oregeorev.2021.104383 ◽

2021 ◽

pp. 104383

Author(s):

Changfeng Liu ◽

Shouheng Zhao ◽

Wencan Liu

Keyword(s):

Gold Deposit ◽

North China Craton ◽

North China ◽

Gold Mineralization ◽

Volcanic Rocks ◽

Calc Alkaline ◽

Granite Formation ◽

High K ◽

Type Granite ◽

The Relationship

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Geochemistry, Petrology, and U–Pb dating of high‐K volcanic rocks in wells WC‐1 and Y‐2 from the northern Junggar Basin, northwestern China: Implications for the closure of the Keramaili oceanic basin during the Carboniferous

Geological Journal ◽

10.1002/gj.3373 ◽

2018 ◽

Vol 54 (6) ◽

pp. 3921-3939 ◽

Cited By ~ 1

Author(s):

Sijie Han ◽

Shuxun Sang ◽

Jingjing Liang ◽

Wenfeng Wang ◽

Guanlong Zhang ◽

...

Keyword(s):

Volcanic Rocks ◽

Junggar Basin ◽

Northwestern China ◽

Oceanic Basin ◽

High K

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Peran Kontaminasi Kerak pada Diferensiasi Magma Pembentuk Batuan Vulkanik Sungai Ampalas, Mamuju, Sulawesi Barat

EKSPLORIUM ◽

10.17146/eksplorium.2020.41.2.6040 ◽

2020 ◽

Vol 41 (2) ◽

pp. 73

Author(s):

Windi Anarta Draniswari ◽

Sekar Indah Tri Kusuma ◽

Tyto Baskara Adimedha ◽

I Gde Sukadana

Keyword(s):

Magma Mixing ◽

Volcanic Rocks ◽

Geochemical Characteristics ◽

X Ray ◽

Radioactive Mineral ◽

Alkaline Feldspar ◽

High Alkalinity ◽

Preliminary Study ◽

Xrf Analyses

ABSTRAK Anomali radiometri telah ditemukan di area Sungai Amplas pada bongkah batuan vulkanik. Nilai yang terukur dari spektrometer gama adalah 787 ppm eU dan 223 ppm eTh. Penemuan ini menarik untuk pengembangan eksplorasi. Studi lebih lanjut diperlukan untuk mengetahui karekteristik batuan pembawa mineral radioaktif dari sampel in-situ. Penelitian ini bertujuan untuk mengetahui karakteristik petrologi dan geokimia batuan vulkanik Ampalas sebagai studi awal untuk mengetahui proses akumulasi mineral radioaktif pada batuan vulkanik Ampalas. Metodologi yang digunakan meliputi pengamatan lapangan, pengambilan sampel batuan, analisis petrografi dan X-Ray Fluorescence (XRF). Batuan vulkanik ampalas tersusun atas ponolit, foidit, dan foid-syenit. Tekstur batuannya terdiri dari porfiritik, aliran, rim piroksen, zoning, pseudo-leusit, korosi, inklusi mafik, dan sieve. Karakteristik geokimia menunjukkan alkalinitas tinggi dan indikasi pengayaan mineral radioaktif yang tersebar dalam batuan. Proses magmatis yang berperan dalam pembentukan batuan vulkanik adalah fraksionasi kristal (fraksionasi leusit dan alkali felspar), asimilasi kerak kontinen, dan pencampuran magma. Interaksi antara magma dan kerak menyebabkan diferensiasi magma berkelanjutan yang menghasilkan akumulasi uranium dan torium lebih tinggi.ABSTRACT Anomalous radiometry has been found in Ampalas River Area on volcanic rock boulder. The values measured from gamma spectrometer are 787 ppm eU and 223 ppm eTh. This discovery is promising for exploration development. Further study need to figure the radioactive mineral bearing rock characteristic from in-situ samples. The research aim is to determine the petrology and geochemical characteristics of Ampalas volcanic rocks as preliminary study to find radioactive mineral accumulation process of Ampalas volcanic rocks. The methodologies are field observation, rock sampling, petrography, and X-Ray fluorescence (XRF) analyses. The Ampalas volcanic rocks consist of phonolite, phoidite, and phoid syenite. Their textures are porphyritic, flow, pyroxene rim, zoning, pseudo-leucite, corrosion, mafic inclusions, and sieve. The geochemical characteristics show high alkalinity and radioactive mineral enrichment disseminating on rock. The magmatic processes which play a significant role in radioactive mineral-bearing rocks formation are crystal fractionations (leucite and alkaline feldspar fractionations), continental crust assimilation, and magma mixing. Long interaction between magma and crust creates advanced magma differentiation causing higher uranium and thorium accumulation.

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Identifying Early Carboniferous bimodal volcanic rocks and geochemical characteristics in the Atengtao Mountain, Yili Block (Chinese western Tianshan)

Geological Journal ◽

10.1002/gj.3148 ◽

2018 ◽

Vol 53 ◽

pp. 148-162 ◽

Cited By ~ 6

Author(s):

Zuopeng Wang ◽

Yongjun Li ◽

Lili Tong ◽

Gaoxue Yang ◽

Pengfei Ren ◽

...

Keyword(s):

Volcanic Rocks ◽

Early Carboniferous ◽

Geochemical Characteristics ◽

Western Tianshan

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Geochemical characteristics of boninite- and tholeiite-series volcanic rocks from the Mariana forearc and the role of an incompatible element–enriched fluid in arc petrogenesis

Geological Society of America Special Papers - Mantle Metasomatism and Alkaline Magmatism ◽

10.1130/spe215-p151 ◽

1987 ◽

pp. 151-164 ◽

Cited By ~ 19

Author(s):

Sherman H. Bloomer

Keyword(s):

Incompatible Element ◽

Volcanic Rocks ◽

Geochemical Characteristics ◽

Tholeiite Series ◽

Mariana Forearc

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Chapter 3.1b Antarctic Peninsula and South Shetland Islands: petrology

Geological Society London Memoirs ◽

10.1144/m55-2018-68 ◽

2021 ◽

pp. M55-2018-68 ◽

Cited By ~ 7

Author(s):

Philip T. Leat ◽

Teal R. Riley

Keyword(s):

Antarctic Peninsula ◽

Continental Margin ◽

Volcanic Rocks ◽

Oceanic Lithosphere ◽

Contact Metamorphism ◽

South Shetland Islands ◽

Calc Alkaline ◽

The Pacific ◽

High K ◽

The Antarctic

AbstractThe Antarctic Peninsula contains a record of continental-margin volcanism extending from Jurassic to Recent times. Subduction of the Pacific oceanic lithosphere beneath the continental margin developed after Late Jurassic volcanism in Alexander Island that was related to extension of the continental margin. Mesozoic ocean-floor basalts emplaced within the Alexander Island accretionary complex have compositions derived from Pacific mantle. The Antarctic Peninsula volcanic arc was active from about Early Cretaceous times until the Early Miocene. It was affected by hydrothermal alteration, and by regional and contact metamorphism generally of zeolite to prehnite–pumpellyite facies. Distinct geochemical groups recognized within the volcanic rocks suggest varied magma generation processes related to changes in subduction dynamics. The four groups are: calc-alkaline, high-Mg andesitic, adakitic and high-Zr, the last two being described in this arc for the first time. The dominant calc-alkaline group ranges from primitive mafic magmas to rhyolite, and from low- to high-K in composition, and was generated from a mantle wedge with variable depletion. The high-Mg and adakitic rocks indicate periods of melting of the subducting slab and variable equilibration of the melts with mantle. The high-Zr group is interpreted as peralkaline and may have been related to extension of the arc.

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