从源-汇关系看西特提斯洋的历史与环地中海造山运动的诞生

IF 2.1 3区 地球科学 Q1 GEOLOGY International Geology Review Pub Date : 2023-11-12 DOI:10.1080/00206814.2023.2280787
Salvatore Critelli, Manuel Martín-Martín
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The composition and stratigraphic relations of clastics in diverse sedimentary basins of the CM region reflect a complete record of provenance relations related to the progressive destruction of the Neotethyan Ocean and plate convergence between the two major plates of Europe and Africa, and Iberia, Adria and Mesomediterranean micrplates located between them. The changing nature of clastic wedges reflects the provenance relations from different source rocks involving obduction of the oceanic lithosphere, the uplifted Alpine-Mediterranean Chains, and the accreted previously deformed Mesomediterranean Microplate (AlKaPeCa), as well local neovolcanic sources, within the spatial and temporal evolving geo-puzzle terranes of the CM orogeny. 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引用次数: 1

摘要

摘要沿环地中海(CM)西部和中部边缘,从西班牙南部(Betic Cordillera)到摩洛哥北部(Rif)和意大利(亚平宁)的广大中新生代构造区,包括大量晚古生代以来的沉积记录。这些沉积物是同生的,与泛古超大陆因裂陷和渐进闭合而破碎,以及随后的CM造山运动的诞生有关。CM地区不同沉积盆地的碎屑组成和地层关系完整地记录了新特提斯洋的渐进性破坏和欧洲和非洲两大板块之间的板块收敛以及位于两者之间的伊比利亚、亚德里亚和地中海微板块之间的物源关系。碎屑楔体性质的变化反映了不同烃源岩的物源关系,包括海洋岩石圈的逆冲作用、阿尔卑斯-地中海链的隆升作用、先前变形的中地中海微板块(AlKaPeCa)的增生作用以及当地的新火山物源作用,这些都是在CM造山运动时空演化的地质体中形成的。沉积物的物源演化提供了板块汇聚和大陆碰撞如何指导新生代盆地中由于东部和南部阿尔卑斯-特提斯残余海洋盆地的关闭而形成的沉积物扩散路径,以及先前形成的阿尔卑斯和新生的阿尔卡佩卡的双重扩散路径,以牺牲先前变形的地中海地体为代价。源汇关系证明了幕式变形事件、特提斯盆地的跨时性发育、区分了出土和隆升的阿尔卑斯造山带和CM造山带的沉积物物源,以及新生地中海地区地壳块体的古地理重排。关键词:西特提斯洋环地中海造山源汇分析碎屑模式古构造空间地理特征环地中海造山是对特提斯洋渐进式闭合的响应。地中海板块上的砂岩反映了特提斯王国的最终关闭。砂岩反映了西特提斯洋最终的海洋闭合。碎屑特征性质的变化是对不断演变的地中海造山带的反应。Francesco Guerrera和Agustín Martín Algarra的全面审查改进了组织并强化了逻辑。西班牙教育和科学部研究项目PID2020-114381 GB-I00;阿利坎特大学(CTMA-IGA)研究小组和项目Martín-Martín。披露声明作者未报告潜在的利益冲突。作者署名声明salvatore Critelli:概念化,调查,方法论,写作和编辑。Manuel Martín-Martín:概念化,调查,方法论,写作和编辑。数据可用性声明所有数据均在正文补充表S1中提供。补充材料本文的补充数据可在https://doi.org/10.1080/00206814.2023.2280787Notes1上在线获取。附加信息资金作者报告没有与本文所述工作相关的资金。
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History of western Tethys Ocean and the birth of the circum-mediterranean orogeny as reflected by source-to-sink relations
ABSTRACTA broad region of Mesozoic to Cenozoic tectonism along the western and central Circum-Mediterranean (CM) margins, from southern Spain (Betic Cordillera) to the northern Morocco (Rif) and Italy (Apennines), includes huge volumes of sedimentary record since the Late Paleozoic. These sediments are contemporaneous and related with the fragmentation of the Pangean supercontinent due to the rifting and progressive closure, as well as the following birth of the CM orogeny. The composition and stratigraphic relations of clastics in diverse sedimentary basins of the CM region reflect a complete record of provenance relations related to the progressive destruction of the Neotethyan Ocean and plate convergence between the two major plates of Europe and Africa, and Iberia, Adria and Mesomediterranean micrplates located between them. The changing nature of clastic wedges reflects the provenance relations from different source rocks involving obduction of the oceanic lithosphere, the uplifted Alpine-Mediterranean Chains, and the accreted previously deformed Mesomediterranean Microplate (AlKaPeCa), as well local neovolcanic sources, within the spatial and temporal evolving geo-puzzle terranes of the CM orogeny. The provenance evolution of sediment provides insights into how plate convergence and continental collision direct the sediment dispersal pathway in Cenozoic basins due to closure of eastern and southern Alpine-Tethyan remnant ocean basins and to the dual dispersal pathways from the previously born Alps and the nascent AlKaPeCa at the expenses of the previously deformed Mesomediterranean terranes. The source-to-sink relations testify episodic deformation events, diachronous Tethyan basin development, differentiate sediment provenance from exhumed and uplifted Alpine and CM orogens, and palaeogeographic rearrangement of crustal blocks along the nascent Mediterranean region.KEYWORDS: Western Tethys Oceancircum-Mediterranean orogenysource-to-sink analysisdetrital modespaleotectonicspaleogeography Highlights The Circum-Mediterranean orogeny is in response of progressive closure of the Tethys Ocean.Sandstones over the Mesomediterranean plate reflect final closure of Tethyan realm.Sandstones reflect the final oceanic closure of western Tethys Ocean.The changing nature of detrital signatures is in response of evolving Mediterranean orogens.AcknowledgmentsThorough reviews by Francesco Guerrera and Agustín Martín Algarra improved organization and sharpened logic. Research supported by Research Project PID2020-114381 GB-I00, Spanish Ministry of Education and Science; Research Groups and Projects from M. Martín-Martín, Alicante University (CTMA-IGA).Disclosure statementNo potential conflict of interest was reported by the author(s).CRediT authorship contribution statementSalvatore Critelli: Conceptualization, Investigation, Methodology, writing & editing. Manuel Martín-Martín: Conceptualization, Investigation, Methodology, writing & editing.Data availability statementAll data are available in the main text as Supplementary Table S1.Supplementary materialSupplemental data for this article can be accessed online at https://doi.org/10.1080/00206814.2023.2280787Notes1. MMAdditional informationFundingThe author(s) reported there is no funding associated with the work featured in this article.
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来源期刊
International Geology Review
International Geology Review 地学-地质学
CiteScore
5.20
自引率
3.80%
发文量
121
审稿时长
3 months
期刊介绍: International Geology Review is a monthly publication dedicated to publishing original and timely research papers as well as in-depth scholarly reviews dealing with the petrotectonic framework of the earth and the distribution of mineral and energy resources within that framework. Particularly emphasised are petroleum geology, economic geology, tectonics, geochemistry and petrology. Geographic coverage is global and work on any part of the world is considered. The journal has been published since 1959.
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