Результаты исследований: Научные публикации в периодических изданиях › обзорная статья › Рецензирование
Geochemical characterization of ophiolites in the Alpine-Himalayan Orogenic Belt : Magmatically and tectonically diverse evolution of the Mesozoic Neotethyan oceanic crust. / Furnes, Harald; Dilek, Yildirim; Zhao, Guochun и др.
в: Earth-Science Reviews, Том 208, 103258, 01.09.2020.Результаты исследований: Научные публикации в периодических изданиях › обзорная статья › Рецензирование
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TY - JOUR
T1 - Geochemical characterization of ophiolites in the Alpine-Himalayan Orogenic Belt
T2 - Magmatically and tectonically diverse evolution of the Mesozoic Neotethyan oceanic crust
AU - Furnes, Harald
AU - Dilek, Yildirim
AU - Zhao, Guochun
AU - Safonova, Inna
AU - Santosh, M.
PY - 2020/9/1
Y1 - 2020/9/1
N2 - Ophiolites are important archives of oceanic crust development and preservation in the rock record, and the Alpine-Himalayan Orogenic Belt (AHOB) is one of the most comprehensive ophiolite depositories in earth's history. We have compiled published data on the field occurrences and geochemistry from 137 AHOB ophiolites, ranging in age from Triassic through Cretaceous, in order to characterize the nature of the Mesozoic Neotethyan oceanic crust. We have used in this synthesis our recent ophiolite classification approach and applied the most effective geochemical discrimination diagrams to categorize the Neotethyan ophiolites within the AHOB. The subduction-related, Backarc (BA), Forearc (FA), Backarc to Forearc (BA-FA) and Volcanic Arc (VA) ophiolites exhibit different geochemical features, with the BA and FA types defining the end-members with low-high and high subduction influence, respectively. The subduction-related ophiolites constitute 76% of the ophiolite record in the AHOB, with the BA type ophiolites being the most dominant group (43%), followed by the BA-FA (19%) and with FA and VA types as subordinate groups (8% and 6%, respectively). The subduction-unrelated ophiolites, making up 24% of the AHOB ophiolite archive, include Mid-Ocean Ridge (MOR), Continental Margin, and Plume type ophiolites. The MOR type comprises 19% of this total and is the dominant type in the western part of the AHOB. Both major ophiolite categories are commonly associated with tholeiitic to alkaline ocean island basalt (OIB) associations, which represent the remnants of plume-proximal magmatism in different Neotethyan seaways. Subduction-unrelated ophiolites in the westernmost end of the Neotethyan realm were derived from downgoing oceanic plates, and were involved in high-pressure, subduction zone metamorphism prior to their exhumation along the suture zones. Subduction-related ophiolites, derived from the upper plates at Neotethyan convergent margins, escaped such high-pressure metamorphism and extreme fragmentation during their emplacement. Therefore, their complete Penrose ophiolite stratigraphy with greenschist facies metamorphic overprint is commonly well preserved in the collision zones of the AHOB. Different subduction contributions (from zero to 100% in the MOR and FA, respectively) may attest to variable slab dip angles and fluctuations in slab-induced elements and sediments into the mantle melt source of ophiolite–forming magmas.
AB - Ophiolites are important archives of oceanic crust development and preservation in the rock record, and the Alpine-Himalayan Orogenic Belt (AHOB) is one of the most comprehensive ophiolite depositories in earth's history. We have compiled published data on the field occurrences and geochemistry from 137 AHOB ophiolites, ranging in age from Triassic through Cretaceous, in order to characterize the nature of the Mesozoic Neotethyan oceanic crust. We have used in this synthesis our recent ophiolite classification approach and applied the most effective geochemical discrimination diagrams to categorize the Neotethyan ophiolites within the AHOB. The subduction-related, Backarc (BA), Forearc (FA), Backarc to Forearc (BA-FA) and Volcanic Arc (VA) ophiolites exhibit different geochemical features, with the BA and FA types defining the end-members with low-high and high subduction influence, respectively. The subduction-related ophiolites constitute 76% of the ophiolite record in the AHOB, with the BA type ophiolites being the most dominant group (43%), followed by the BA-FA (19%) and with FA and VA types as subordinate groups (8% and 6%, respectively). The subduction-unrelated ophiolites, making up 24% of the AHOB ophiolite archive, include Mid-Ocean Ridge (MOR), Continental Margin, and Plume type ophiolites. The MOR type comprises 19% of this total and is the dominant type in the western part of the AHOB. Both major ophiolite categories are commonly associated with tholeiitic to alkaline ocean island basalt (OIB) associations, which represent the remnants of plume-proximal magmatism in different Neotethyan seaways. Subduction-unrelated ophiolites in the westernmost end of the Neotethyan realm were derived from downgoing oceanic plates, and were involved in high-pressure, subduction zone metamorphism prior to their exhumation along the suture zones. Subduction-related ophiolites, derived from the upper plates at Neotethyan convergent margins, escaped such high-pressure metamorphism and extreme fragmentation during their emplacement. Therefore, their complete Penrose ophiolite stratigraphy with greenschist facies metamorphic overprint is commonly well preserved in the collision zones of the AHOB. Different subduction contributions (from zero to 100% in the MOR and FA, respectively) may attest to variable slab dip angles and fluctuations in slab-induced elements and sediments into the mantle melt source of ophiolite–forming magmas.
KW - Alpine-Himalayan orogenic belt
KW - Geochemical discrimination of oceanic lavas
KW - Mantle melt source
KW - Mesozoic Neotethyan ophiolites
KW - Mid-ocean ridges
KW - Suprasubduction zone magmatism
KW - SUPRA-SUBDUCTION ZONE
KW - ZANGBO SUTURE ZONE
KW - MAFIC IGNEOUS ROCKS
KW - METAMORPHIC SOLE ROCKS
KW - POZANTI-KARSANTI OPHIOLITE
KW - U-PB ZIRCON
KW - BANGONG-NUJIANG SUTURE
KW - ZERMATT-SAAS OPHIOLITE
KW - BACK-ARC BASIN
KW - MUSLIM BAGH OPHIOLITE
UR - http://www.scopus.com/inward/record.url?scp=85087173416&partnerID=8YFLogxK
U2 - 10.1016/j.earscirev.2020.103258
DO - 10.1016/j.earscirev.2020.103258
M3 - Review article
AN - SCOPUS:85087173416
VL - 208
JO - Earth-Science Reviews
JF - Earth-Science Reviews
SN - 0012-8252
M1 - 103258
ER -
ID: 24617057