Late Pennsylvanian carbonate platform facies and coral reef: new insights from southern China (Guizhou Province).

IF 1.8 3区 地球科学 Q1 GEOLOGY
Facies Pub Date : 2021-01-01 Epub Date: 2020-11-10 DOI:10.1007/s10347-020-00613-w
Marine Maillet, Wen-Tao Huang, Xiao Li, Zhen-Yuan Yang, Chang-Qing Guan, Yong-Li Zhang, En-Pu Gong, Katsumi Ueno, Elias Samankassou
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引用次数: 6

Abstract

The Pennsylvanian is characterized by intense paleoenvironmental changes related to glacio-eustatic sea-level fluctuations and major tectonic events, which affected the evolution of biocommunities. Most known Pennsylvanian tropical reefs and mounds are predominantly composed of calcareous algae (e.g. phylloid algae, Archaeolithophyllum), calcareous sponges, fenestrate bryozoans, Tubiphytes, and microbialites. However, in Houchang (southern China), the Late Pennsylvanian carbonate platform records a large coral reef lacking any analogs in age (Gzhelian), size (80-100 m thick) and composition (high biodiversity). The large coral reef developed at the border of the Luodian intraplatform basin. The intraplatform basin is characterized by the deposition of green algal grainstone, coated grain grainstone and bioclastic packstone, grainstone, floatstone and rudstone in shallow-waters. In the deep-water shelf, lithofacies are composed of burrowed bioclastic wackestone, microbioclastic peloidal packstone, grainstone, and fine-grained burrowed wackestone and packstone. In this context, the coral reef developed on a deep-shelf margin, in a moderate to low energy depositional environment, below the FWWB. The scarcity of Pennsylvanian coral reefs suggests global unfavorable conditions, which can be attributed to a complex pattern of several environmental factors, including seawater chemistry (aragonite seas), paleoclimatic cooling related to continental glaciation, and the biological competition with the more opportunistic and adaptive phylloid algal community that occupied similar platform margin paleoenvironments. The existence of the large Bianping coral reef in southern China, as well as a few additional examples of Pennsylvanian coralliferous bioconstructions, provides evidence that coral communities were able to endure the Late Paleozoic fluctuating paleoenvironmental conditions in specific settings. One of such settings appears to have been the deep shelf margin, where low light levels decreased competition with the phylloid algal community.

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晚宾夕法尼亚期碳酸盐岩台地相与珊瑚礁:中国南方(贵州)的新认识。
宾夕法尼亚纪具有强烈的古环境变化特征,这些变化与冰川-海平面上升和重大构造事件有关,影响了生物群落的演化。大多数已知的宾夕法尼亚热带珊瑚礁和土丘主要由钙质藻类(如phylloid藻类,Archaeolithophyllum),钙质海绵,窗状苔藓虫,管生动物和微生物组成。然而,在中国南方的后昌,晚宾夕法尼亚期碳酸盐岩台地记录了一个在年龄(Gzhelian)、大小(80-100 m厚)和组成(高生物多样性)上没有任何类似的大型珊瑚礁。罗甸地台内盆地边缘发育大型珊瑚礁。台内盆地以绿藻纹岩、包覆纹岩、生物碎屑包覆岩、浅水纹岩、浮石、硬砂岩沉积为特征。在深水陆架中,岩相主要由穴形生物碎屑碎屑岩、微生物碎屑碎屑碎屑碎屑岩、颗粒岩、细粒穴形碎屑岩和碎屑岩组成。在此背景下,珊瑚礁发育在深水陆架边缘,处于中低能沉积环境中。宾夕法尼亚珊瑚礁的稀缺表明全球不利条件,这可归因于多种环境因素的复杂模式,包括海水化学(文石海),与大陆冰川相关的古气候冷却,以及与占据类似台地边缘古环境的更具机会主义和适应性的叶状藻类群落的生物竞争。中国南方大型汴平珊瑚礁的存在,以及宾夕法尼亚珊瑚系生物构造的一些例子,提供了珊瑚群落在特定环境下能够承受晚古生代波动的古环境条件的证据。其中一种环境似乎是深陆架边缘,那里的低光照水平减少了与叶状藻类群落的竞争。
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来源期刊
Facies
Facies 地学-地质学
CiteScore
3.70
自引率
5.60%
发文量
15
审稿时长
>12 weeks
期刊介绍: The journal is open to papers dealing with the interpretation of ancient and modern biotopes and carbonate depositional environments by means of facies analysis in its broadest sense. Once the central part of research in hydrocarbon exploration, facies analysis more and more integrates modern and ancient biogeological processes of a changing earth. Special emphasis is laid on paleobiology and -ecology, basin evolution, sedimentology including diagenesis and geochemistry, as well as studies emphasising the impact of life on earth history. The main part of the target group will be people in academia.
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