The origin of a complex breccia body within the Upper Cretaceous/Early Eocene succession on Pag Island (Karst Dinarides, Croatia): karstic dissolution and collapse or dilational faulting and collapse origin?

IF 1.1 4区地球科学 Q3 GEOLOGY

Geologia Croatica Pub Date : 2022-06-23 DOI:10.4154/gc.2022.15

Dražen Kurtanjek, Damir Bucković, D. Tibljaš, B. Cvetko Tešović

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引用次数: 1

Abstract

A kilometre west of Pag Town on Pag Island, Croatia, within the Upper Cretaceous shallow-water carbonate succession, there is a large breccia body that has an irregular, quasi-circular shape and a subvertical-oblique position in relation to the bedding of the host rock. The breccia clasts and fragments consist almost entirely of the Upper Cretaceous host rock with only sporadic clasts of the Lower Eocene foraminiferal (alveolinid) limestones. In the brecciated body, there are three breccia types. 1) crackle breccia, 2) mosaic breccia, and 3) chaotic breccia. Based on the textural and structural characteristics of these types of breccia such as chaotic appearance and random fabric, very poorly sorted material, angular fragments, the composition reflecting only the host rock lithology, two genetic scenarios or concepts for the origin of Pag Town breccia body were considered, with observations supporting each of them. The first concept involves host rock dissolution resulting in a widened dissolution cavity into which wall and roof rocks progressively collapsed, and the second concept involves the collapse of voids produced by dilational fault displacement. A common prerequisite to both opposing scenarios is the existence of a subsurface cavity or void where the accumulation of rock clasts and fragments occurred. It is assumed that the timing of the cavity formation is related mainly to karstification during the Late Cretaceous-Early Eocene emersion phase or is related to dilational faulting during the Palaeogene Dinarides thrusting event.

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帕格岛上白垩纪/始新世早期序列中复杂角砾岩体的起源（克罗地亚喀斯特二元区）：岩溶溶解和坍塌还是扩张断层作用和坍塌起源？

克罗地亚帕格岛帕格镇以西一公里处，在上白垩纪浅水碳酸盐岩序列内，有一个大型角砾岩体，其形状不规则，呈准圆形，相对于主岩层理呈近垂直倾斜位置。角砾岩碎屑和碎片几乎完全由上白垩纪主岩组成，只有下始新世有孔虫（肺泡状）石灰岩的零星碎屑。在角砾岩体中，有三种角砾类型。1）裂纹角砾岩，2）镶嵌角砾岩，和3）混乱角砾岩。根据这些类型角砾岩的结构和结构特征，如混乱的外观和随机的组构、分选非常差的材料、有角的碎片、仅反映主岩岩性的成分，考虑了帕格镇角砾岩体起源的两种成因场景或概念，并对每种情况进行了观测。第一个概念涉及主岩溶解，导致溶解腔变宽，围岩和顶板逐渐坍塌，第二个概念涉及扩张断层位移产生的孔隙坍塌。两种相反情况的一个共同前提是存在地下洞穴或空隙，在那里发生了岩石碎屑和碎片的堆积。据推测，洞穴形成的时间主要与晚白垩世-始新世早期出露期的岩溶作用有关，或与古近系Dinarides逆冲事件期间的扩张断层作用有关。

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来源期刊

Geologia Croatica GEOSCIENCES, MULTIDISCIPLINARY-

CiteScore

2.90

自引率

23.10%

发文量

审稿时长

>12 weeks

期刊介绍： Geologia Croatica welcomes original scientific papers dealing with diverse aspects of geology and geological engineering, the history of the Earth, and the physical changes that the Earth has undergone or it is undergoing. The Journal covers a wide spectrum of geology disciplines (palaeontology, stratigraphy, mineralogy, sedimentology, petrology, geochemistry, structural geology, karstology, hydrogeology and engineering geology) including pedogenesis, petroleum geology and environmental geology. Papers especially concerning the Pannonian Basin, Dinarides, the Adriatic/Mediterranean region, as well as notes and reviews interesting to a wider audience (e.g. review papers, book reviews, and notes) are welcome.