Lateral structural variations and drainage response along the Misikantage anticline in the western Kuqa fold-and-thrust belt, southern Tianshan, NW China

The Cenozoic Kuqa fold-and-thrust belt (KFTB) along the southern piedmont of the Tianshan Mountains (NW China) provides excellent chances for investigating active deformation and its controls on landscape topography. In contrast to the well-imaged eastern KFTB, the structural deformation in the west...

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Veröffentlicht in:	Tectonophysics 2017-11, Vol.721, p.196-210
Hauptverfasser:	Tang, Pengcheng, Rao, Gang, Li, Shiqin, Yu, Yangli, Pei, Yangwen, Wang, Xin, Shen, Zhongyue, Chen, Ninghua, Zhao, Bo
Format:	Artikel
Sprache:	eng
Schlagworte:	Active control Anticlines Banks (topography) Cenozoic Chronology Deformation Digital Elevation Models Digital imaging Drainage Drainage networks Drainage patterns Earthquakes Fault lines Fold development Folding Geology Kuqa fold-and-thrust belt Landscape Misikantage anticline Morphometry Mountains Palaeomagnetism Paleomagnetism Pattern recognition Profiles Salts Satellite imagery Satellites Seismic analysis Seismic profiles Seismic reflection profiles Seismic surveys Slope Southern Tianshan Strata Structures Thrust Topography Topography (geology) Water wells Well data
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creator	Tang, Pengcheng Rao, Gang Li, Shiqin Yu, Yangli Pei, Yangwen Wang, Xin Shen, Zhongyue Chen, Ninghua Zhao, Bo
description	The Cenozoic Kuqa fold-and-thrust belt (KFTB) along the southern piedmont of the Tianshan Mountains (NW China) provides excellent chances for investigating active deformation and its controls on landscape topography. In contrast to the well-imaged eastern KFTB, the structural deformation in the western part complicated by the development of early-stage salt structures still has not been well investigated. On the basis of seismic reflection profiles, well data and surface geology, combined with previously determined paleomagnetic ages, this study focuses on the deformation style, onset and average shortening rate of the Misikantage anticline in the western KFTB. Together with the morphometric analysis of satellite images and digital elevation models (DEMs), we have demonstrated that: 1) the Misikantage anticline is an asymmetric detachment fold, where the fold geometry, amounts of shortening, outcropping strata and channel network patterns vary along strike; 2) syntectonic growth strata recognized from seismic profiles combined with paleomagnetic ages indicate that the folding started at ~2.4Ma and resulted in ~0.3–0.9km of shortening, yielding an average shortening rate of ~0.12–0.38mm/yr; 3) the landscape topography and drainage networks markedly change in response to lateral structural variations. These findings would provide a basis for further comparisons of compressional structures between the eastern and western KFTB, which are also helpful in better understanding active folding in fold-and-thrust belts particularly where thick salt is involved in deformation. •We analyzed the deformation features of the Misikantage anticline•The folding started at ~2.4Ma, with an average shortening rate of ~0.12–0.38mm/yr•Landscape topography and drainage networks response to lateral structural variations
doi_str_mv	10.1016/j.tecto.2017.10.007
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Together with the morphometric analysis of satellite images and digital elevation models (DEMs), we have demonstrated that: 1) the Misikantage anticline is an asymmetric detachment fold, where the fold geometry, amounts of shortening, outcropping strata and channel network patterns vary along strike; 2) syntectonic growth strata recognized from seismic profiles combined with paleomagnetic ages indicate that the folding started at ~2.4Ma and resulted in ~0.3–0.9km of shortening, yielding an average shortening rate of ~0.12–0.38mm/yr; 3) the landscape topography and drainage networks markedly change in response to lateral structural variations. 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Together with the morphometric analysis of satellite images and digital elevation models (DEMs), we have demonstrated that: 1) the Misikantage anticline is an asymmetric detachment fold, where the fold geometry, amounts of shortening, outcropping strata and channel network patterns vary along strike; 2) syntectonic growth strata recognized from seismic profiles combined with paleomagnetic ages indicate that the folding started at ~2.4Ma and resulted in ~0.3–0.9km of shortening, yielding an average shortening rate of ~0.12–0.38mm/yr; 3) the landscape topography and drainage networks markedly change in response to lateral structural variations. 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In contrast to the well-imaged eastern KFTB, the structural deformation in the western part complicated by the development of early-stage salt structures still has not been well investigated. On the basis of seismic reflection profiles, well data and surface geology, combined with previously determined paleomagnetic ages, this study focuses on the deformation style, onset and average shortening rate of the Misikantage anticline in the western KFTB. Together with the morphometric analysis of satellite images and digital elevation models (DEMs), we have demonstrated that: 1) the Misikantage anticline is an asymmetric detachment fold, where the fold geometry, amounts of shortening, outcropping strata and channel network patterns vary along strike; 2) syntectonic growth strata recognized from seismic profiles combined with paleomagnetic ages indicate that the folding started at ~2.4Ma and resulted in ~0.3–0.9km of shortening, yielding an average shortening rate of ~0.12–0.38mm/yr; 3) the landscape topography and drainage networks markedly change in response to lateral structural variations. These findings would provide a basis for further comparisons of compressional structures between the eastern and western KFTB, which are also helpful in better understanding active folding in fold-and-thrust belts particularly where thick salt is involved in deformation. •We analyzed the deformation features of the Misikantage anticline•The folding started at ~2.4Ma, with an average shortening rate of ~0.12–0.38mm/yr•Landscape topography and drainage networks response to lateral structural variations</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.tecto.2017.10.007</doi><tpages>15</tpages><orcidid>https://orcid.org/0000-0003-3094-0311</orcidid></addata></record>
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source	ScienceDirect Journals (5 years ago - present)
subjects	Active control Anticlines Banks (topography) Cenozoic Chronology Deformation Digital Elevation Models Digital imaging Drainage Drainage networks Drainage patterns Earthquakes Fault lines Fold development Folding Geology Kuqa fold-and-thrust belt Landscape Misikantage anticline Morphometry Mountains Palaeomagnetism Paleomagnetism Pattern recognition Profiles Salts Satellite imagery Satellites Seismic analysis Seismic profiles Seismic reflection profiles Seismic surveys Slope Southern Tianshan Strata Structures Thrust Topography Topography (geology) Water wells Well data
title	Lateral structural variations and drainage response along the Misikantage anticline in the western Kuqa fold-and-thrust belt, southern Tianshan, NW China
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