1-20 OF 107 RESULTS FOR

Hegenshan Ocean

Results shown limited to content with bounding coordinates.
Follow your search
Access your saved searches in your account

Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Journal Article
Journal: GSA Bulletin
Published: 01 July 2024
GSA Bulletin (2024)
... closure of the Hegenshan Ocean. Geochronological dating and compilation reveal four phases (ca. 360−355 Ma, 348−320 Ma, 320−310 Ma, and 310−275 Ma) of magmatism in the Uliastai continental margin. The ca. 356 Ma I-type Halatumiao granodiorite and Amanwusu ophiolite relics are subduction-related...
Journal Article
Journal: Lithosphere
Publisher: GSW
Published: 30 October 2023
Lithosphere (2023) 2023 (1): lithosphere_2023_176.
... in the UCM at the end of the Carboniferous, providing new constraints on the Late Carboniferous closure of the Hegenshan Ocean. [email protected] 19 04 2023 29 09 2023 Copyright © 2023. Jianzhou Tang et al. 2023 Exclusive Licensee GeoScienceWorld. Distributed under a Creative...
FIGURES | View All (9)
Series: Geological Society, London, Special Publications
Published: 01 January 2007
DOI: 10.1144/SP280.11
EISBN: 9781862395282
... out on this belt, its tectonic evolution has been a subject of controversy, chiefly because of the lack of reliable geochronological data. Based on a synthesis of newly published geochronological data and our unpublished data for the IMDOB, we define two oceanic basins: Ondor Sum and Hegenshan...
FIGURES | View All (8)
Image
Proposed Paleozoic tectonic evolution of the paleo–Asian <span class="search-highlight">Ocean</span> between the ...
Published: 01 September 2015
Figure 8. Proposed Paleozoic tectonic evolution of the paleo–Asian Ocean between the Mongolian arcs and the North China craton. (A) Late Ordovician to Devonian: Double-sided subduction of the paleo–Asian Ocean along the Uliastai arc and southern accretionary orogeny. (B) Early to Middle
Journal Article
Published: 02 November 2019
Canadian Journal of Earth Sciences (2020) 57 (6): 747–764.
...) and the coeval I-type granites (329–306 Ma) can define the Hegenshan Carboniferous continental arc ( Wei et al. 2017 , 2018 ), indicating an Andean-type active continental margin caused by the northward subduction of the oceanic crust. This Hegenshan Carboniferous continental arc in the Hegenshan ophiolite-arc...
FIGURES | View All (16)
Journal Article
Journal: GSA Bulletin
Published: 01 September 2015
GSA Bulletin (2015) 127 (9-10): 1422–1436.
...Figure 8. Proposed Paleozoic tectonic evolution of the paleo–Asian Ocean between the Mongolian arcs and the North China craton. (A) Late Ordovician to Devonian: Double-sided subduction of the paleo–Asian Ocean along the Uliastai arc and southern accretionary orogeny. (B) Early to Middle...
FIGURES | View All (8)
Journal Article
Published: 18 November 2019
Geological Magazine (2020) 157 (7): 1068–1086.
... Orogenic Belt: final-stage magmatic record of Paleo-Asian Oceanic subduction? Lithos 326 , 265 – 78 . Miao LC , Fan WM , Liu DY , Zhang FQ , Shi YR and Guo F ( 2008 ) Geochronology and geochemistry of the Hegenshan Ophiolitic complex: implications for late-stage...
FIGURES | View All (10)
Journal Article
Published: 05 April 2017
Geological Magazine (2017) 154 (5): 1171–1186.
... et al. 2000 ; Xiao, Yang & Chen 2001 ) and (b) the break-off of the northwards-subducting Mongol–Okhotsk oceanic slab (Meng et al. 2002 , 2003 ; Meng, 2003 ). Erlian Basin Wunite depression pre-existing structure Hegenshan–Heihe suture late Mesozoic Pre-existing structures...
Journal Article
Journal: GSA Bulletin
Published: 02 March 2023
GSA Bulletin (2023) 135 (11-12): 2961–2970.
... area in the north of the HNS ( Feng et al., 2017 ; Zhao et al., 2019 ), which indicates that subduction of the ancient oceanic plate began at least in the early Paleozoic. The typical ophiolite assemblage developed in the southern Hegenshan area, and the ophiolite has been extensively studied in terms...
FIGURES | View All (6)
Journal Article
Journal: GSA Bulletin
Published: 01 May 2017
GSA Bulletin (2017) 129 (5-6): 677–697.
... subduction of the forearc oceanic crust (322–274 Ma) coeval with development of the Hegenshan back-arc basin (354–269 Ma), and final collision (246–228 Ma). The presence of an accretionary belt along the southern margin of the South Mongolian microcontinent reflects the importance of continental growth...
FIGURES | View All (11)
Journal Article
Published: 14 December 2017
Journal of the Geological Society (2018) 175 (3): 543–559.
... The SE Central Asian Orogenic Belt is situated to the north of the North China Craton and is bounded by the Chifeng–Bayan Obo Fault ( Fig. 1b ). Ophiolitic mélanges in the Solonker and Hegenshan areas have been proposed as two separate oceanic relics ( Song et al. 2015 ). Published U–Pb zircon ages...
FIGURES | View All (12)
Image
(A) I Sr (t) versus ε Nd (t) diagram showing the Sr-Nd isotope composition ...
Published: 20 December 2023
from NE Asia. Data are from this work and literature ( Bars et al., 2018 ; Deng et al., 2019 ; Guo et al., 2010 ; Sun et al., 2013 ; Tang et al., 2022 ; Yang et al., 2022a ; Zhang et al., 2008b ). The mid-oceanic-ridge basalt (MORB), enriched mantle-1 (EM1) and enriched mantle-2 (EM2) end-members
Image
Cartoons showing the Paleozoic tectonic evolution of the northern accretion...
Published: 01 May 2017
Figure 11. Cartoons showing the Paleozoic tectonic evolution of the northern accretionary zone of the eastern Central Asian orogenic belt (CAOB; modified from Y.L. Li et al., 2014b , 2016 ). (A) Northward intra-oceanic subduction of the Paleo–Asian oceanic slab beneath the South Mongolian
Journal Article
Published: 08 July 2020
Journal of the Geological Society (2020) 177 (5): 981–996.
...Huichuan Liu; Jichun Wang; Chun-Kit Lai; Yinglei Li; Jingfan Wang; Chongyu Song; Jiadong Zhang; Xin Zhao; Jiangdong Qin Abstract The timing and processes of the Paleo-Asian Ocean (PAO) closure are still controversial issues due to ambiguous interpretation of the regional geological records. We...
FIGURES | View All (11)
Journal Article
Published: 07 May 2020
Canadian Journal of Earth Sciences (2020) 57 (12): 1478–1491.
.... The Xing’an Block is located adjacent to the southeast of the Erguna Block and to the northwest of the Songliao Block ( Fig. 1 c ). The Hegenshan–Heihe suture zone records the closure of the Paleo-Asian Ocean between the Xing’an and Songliao blocks ( Wu et al. 2011 ; Liu et al. 2017 , Yang et al. 2018...
FIGURES | View All (10)
Journal Article
Published: 17 November 2021
Canadian Journal of Earth Sciences (2022) 59 (1): 46–58.
...-Asian Ocean, namely: ( i ) the Paleo-Asian Ocean closed along the Solonker–Hegenshan ophiolite belt ( Cao et al. 1986 ); ( ii ) it closed along the Solonker–Linxi ophiolite belt ( Wang 1986 , 1991 ; Xiao et al. 2003 ); ( iii ) it closed along the Solonker – Xar Moron River – YanJi suture during...
FIGURES | View All (11)
Journal Article
Published: 20 July 2022
Geological Magazine (2022) 159 (9): 1513–1528.
...Yan Jing; Wen-chun Ge; Hao Yang; Yu Dong; Zheng Ji; Jun-hui Bi; Hong-ying Zhou; Dehe Xing Abstract Late Palaeozoic igneous rock associations in response to subduction, accretion, and final closure of the eastern Palaeo-Asian Ocean play a significant role in understanding the geodynamic evolution...
FIGURES | View All (12)
Journal Article
Journal: GSA Bulletin
Published: 05 April 2022
GSA Bulletin (2022) 134 (11-12): 3189–3204.
... contents, high Mg # values, mid-ocean ridge basalt (MORB)-like Nd-Hf isotope compositions and young Nd-Hf model ages of 600–298 Ma. These features indicate that the parental magmas of the Xi Ujimqin I-type granitoids originated from a depleted lithospheric mantle that had been metasomatized by fluids...
FIGURES | View All (8)
Journal Article
Journal: GSA Bulletin
Published: 21 June 2021
GSA Bulletin (2022) 134 (3-4): 629–657.
... are capable of offering an integral testimony for substantiating the feasibility of archipelago-type multiple-arc paradigm in the NCSM tract. Shifting in setting affinity from earlier West Ujimqinqi ophiolite of forearc oceanic crust ( Li et al., 2018b , 2020 ) to later Hegenshan ophiolite of backarc oceanic...
FIGURES | View All (14)
Journal Article
Published: 01 March 2001
Geological Magazine (2001) 138 (2): 101–115.
... formed at 430 Ma (the age of the Hegenshan ophiolite), the oceanic crust must have returned into the mantle in about 120 Ma. We conjecture that the subduction slab stayed in the mantle for more than 40 Ma before it rose to surface at 270 Ma in the form of magma eruption. ...
FIGURES | View All (10)