TY - JOUR
T1 - Flow of Devonian anatectic crust in the accretionary Altai Orogenic Belt, central Asia
T2 - Insights into horizontal and vertical magma transfer
AU - Wang, Sheng
AU - Jiang, Yingde
AU - Weinberg, Roberto
AU - Schulmann, Karel
AU - Zhang, Jian
AU - Li, Pengfei
AU - Xiao, Ming
AU - Xia, Xiao Ping
N1 - Funding Information:
This study was supported by the National Natural Science Foundation of China (41672056, 42022017, 42021002, and 41872222), the National Key Research and Development Program of China (grant no. 2017YFC0601205), Strategic Priority Research Program (B) of the Chinese Academy of Sciences (XDB18020203) and the International Partnership Program of the Chinese Academy of Sciences (132744KYSB20190039, 132744KYSB20200001). A Guangdong Special Support Program to Y.D. Jiang and the Thousand Youth Talents Plan to P.F. Li are also acknowledged. The Czech Science Foundation (GACR grant EXPRO 19-27682X) is acknowledged. This is contribution No.IS-2974 from GIGCAS. Constructive reviews from Benito ?balos and two anonymous reviewers resulted in significant improvements to the paper
Funding Information:
This study was supported by the National Natural Science Foundation of China (41672056, 42022017, 42021002, and 41872222), the National Key Research and Development Program of China (grant no. 2017YFC0601205), Strategic Priority Research Program (B) of the Chinese Academy of Sciences (XDB18020203) and the International Partnership Program of the Chinese Academy of Sciences (132744KYSB20190039, 132744KYSB20200001). A Guangdong Special Support Program to Y.D. Jiang and the Thousand Youth Talents Plan to P.F. Li are also acknowledged. The Czech Science Foundation (GACR grant EX-PRO 19-27682X) is acknowledged. This is contribution No.IS-2974 from GIGCAS. Constructive reviews from Benito Ábalos and two anonymous reviewers resulted in significant improvements to the paper.
Publisher Copyright:
© 2021 Geological Society of America
PY - 2021/11/1
Y1 - 2021/11/1
N2 - Flow of partially molten crust is a key contributor to mass and heat redistribution within orogenic systems, however, this process has not yet been fully understood in accretionary orogens. This issue is addressed in a Devonian migmatite-granite complex from the Chinese Altai through structural, petrological, and geochronological investigations presented in this study. The migmatitegranite complex records a gradual evolution from metatexite, diatexite to granite and preserves a record of two main Devonian phases of deformation designated D1 and D2. The D1 phase was subdivided into an early crustal thickening episode (D1B) and a later extensional episode (D1M) followed by D2 upright folding. The D1M episode is associated with anatexis in the deep crust. Vertical shortening, associated with D1M, gave rise to the segregation of melt and formation of a sub-horizontal layering of stromatic metatexite. This fabric was reworked by the D2 deformation associated with the migration of anatectic magma in the cores of F2 antiforms. Geochronological investigationscombined with petro-structural analysis reveal that: (1) D1M partial melting started probably at 420−410 Ma and formed subhorizontal stromatic metatexites at ˜30 km depth; (2) The anatectic magma accumulated and migrated when a drainage network developed, as attested by the pervasive formation of massive diatexite migmatites, at 410−400 Ma; (3) Soon after, massive flow of the partially molten crust from orogenic lower to orogenic upper crustal levels, assisted by the interplay between D2 upright folding and magma diapirism, led to migmatite-granite emplacement in the cores of regional F2 antiforms that lasted until at least 390 Ma; (4) a terminal stage was manifested by the emplacement of 370−360 Ma granite dykes into the surrounding metamorphic envelope. We propose that Devonian anatexis assisted by deformation governed first the horizontal and then the vertical flow of partially molten orogenic lower crust, which drove crustal flow, mass redistribution, and crustal differentiation in the accretionary system of the Chinese Altai
AB - Flow of partially molten crust is a key contributor to mass and heat redistribution within orogenic systems, however, this process has not yet been fully understood in accretionary orogens. This issue is addressed in a Devonian migmatite-granite complex from the Chinese Altai through structural, petrological, and geochronological investigations presented in this study. The migmatitegranite complex records a gradual evolution from metatexite, diatexite to granite and preserves a record of two main Devonian phases of deformation designated D1 and D2. The D1 phase was subdivided into an early crustal thickening episode (D1B) and a later extensional episode (D1M) followed by D2 upright folding. The D1M episode is associated with anatexis in the deep crust. Vertical shortening, associated with D1M, gave rise to the segregation of melt and formation of a sub-horizontal layering of stromatic metatexite. This fabric was reworked by the D2 deformation associated with the migration of anatectic magma in the cores of F2 antiforms. Geochronological investigationscombined with petro-structural analysis reveal that: (1) D1M partial melting started probably at 420−410 Ma and formed subhorizontal stromatic metatexites at ˜30 km depth; (2) The anatectic magma accumulated and migrated when a drainage network developed, as attested by the pervasive formation of massive diatexite migmatites, at 410−400 Ma; (3) Soon after, massive flow of the partially molten crust from orogenic lower to orogenic upper crustal levels, assisted by the interplay between D2 upright folding and magma diapirism, led to migmatite-granite emplacement in the cores of regional F2 antiforms that lasted until at least 390 Ma; (4) a terminal stage was manifested by the emplacement of 370−360 Ma granite dykes into the surrounding metamorphic envelope. We propose that Devonian anatexis assisted by deformation governed first the horizontal and then the vertical flow of partially molten orogenic lower crust, which drove crustal flow, mass redistribution, and crustal differentiation in the accretionary system of the Chinese Altai
UR - http://www.scopus.com/inward/record.url?scp=85104135542&partnerID=8YFLogxK
U2 - 10.1130/B35645.1
DO - 10.1130/B35645.1
M3 - Article
AN - SCOPUS:85104135542
SN - 0016-7606
VL - 133
SP - 2501
EP - 2523
JO - GSA Bulletin
JF - GSA Bulletin
IS - 11-12
ER -