The siliciclastics/carbonates shift in the Jurassic of the Western Caucasus (central northern Neo-Tethys): reconsidering research over the last 50 years

IF 0.9 Q3 GEOLOGY
Geologos Pub Date : 2019-08-01 DOI:10.2478/logos-2019-0014
D. Ruban
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引用次数: 3

Abstract

Abstract A chain of carbonate platforms evolved in the northern Neo-Tethys during the Late Jurassic, but current knowledge remains incomplete as long as data from several larger regions, such as the Western Caucasus, are not included. In order to fill this gap, it is here suggested to reconsider the information accumulated chiefly during Soviet times. Although these data are too general, they still matter with regard to some regional characteristics and tentative interpretations. Available data on the spatio-temporal distribution of Bajocian-Callovian sedimentary rocks are summarised in a novel way which permits documentation of depositional trends at six representative localities in the Western Caucasus. The extent of the carbonate platform increased at two localities since the Late Callovian and at a third since the Middle Oxfordian. Three additional sites were characterised either by non-deposition or deep-marine sedimentation. The onset of carbonate platform development marked a remarkable shift from chiefly siliciclastic to carbonate deposition, although this event was not sudden everywhere. The Bathonian pulse of tectonic activity, coupled with the eustatic sea level rise, allowed shelves to expand during the Callovian-Oxfordian, with a reduction in siliciclastic input from islands and sea-water that became well oxygenated and warmer. These conditions were conducive to biogenic carbonate production, allowing the carbonate platform to expand subsequently.
西高加索侏罗纪(新特提斯中北部)的硅化碎屑岩/碳酸盐岩偏移:对过去50年研究的重新思考
摘要晚侏罗世,新特提斯北部形成了一系列碳酸盐岩平台,但只要不包括来自几个较大地区(如西高加索)的数据,目前的知识就不完整。为了填补这一空白,这里建议重新考虑主要在苏联时期积累的信息。尽管这些数据过于笼统,但就一些区域特征和初步解释而言,它们仍然很重要。Bajocian-Callovian沉积岩时空分布的可用数据以一种新颖的方式进行了总结,从而可以记录西高加索六个代表性地区的沉积趋势。碳酸盐岩平台的范围在两个地方自晚卡洛阶以来增加,在第三个地方自中牛津阶以来增加。另外三个地点的特征是非沉积或深海沉积。碳酸盐岩平台发育的开始标志着从主要的硅质碎屑沉积到碳酸盐沉积的显著转变,尽管这一事件并非突然发生。构造活动的巴通阶脉动,加上海平面上升,使陆架在卡洛维-牛津阶扩张,来自岛屿和海水的硅碎屑输入减少,海水变得充氧和温暖。这些条件有利于生物成因碳酸盐的生产,使碳酸盐平台随后扩张。
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来源期刊
Geologos
Geologos GEOLOGY-
CiteScore
1.70
自引率
0.00%
发文量
7
审稿时长
12 weeks
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