Nubecularia-coralline algal-serpulid-microbial bioherms of the Paratethys Sea—Distribution and paleoecological significance (upper Serravallian, upper Sarmatian, Middle Miocene)

IF 2.7 2区 地球科学 Q2 BIOLOGY Geobiology Pub Date : 2024-03-12 DOI:10.1111/gbi.12590
Werner E. Piller, Mathias Harzhauser
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Abstract

Nubecularia bioherms represent unique bioconstructions that are restricted to the upper Serravallian of the Paratethys and have been reported since the 19th century. They occur in the Central Paratethys in the late Sarmatian and the Eastern Paratethys in the Bessarabian both regional stages of the respective Paratethyan areas. In this study, several locations in the Vienna and Styrian basins of the Central Paratethys were studied out of which four localities were documented in detail (Wolfsthal, Maustrenk, St. Margarethen—Zollhaus, Vienna—Ruzickagasse) to reconstruct their sedimentary setting, their internal composition, and their indications of environmental parameters. The detailed studies included logging of outcrop sections, petrographic, facies and biotic analyses of polished slabs and thin sections and also cathodoluminescence analyses. These concluded that these bioconstructions are not only composed of the foraminifer Nubecularia but represent a complex mixture and interrelationships of Nubecularia, serpulids and microbial carbonate. Four boundstone types can be differentiated: Nubecularia boundstone, Nubecularia-coralline algal boundstone, stromatolitic/thrombolitic boundstone and serpulid-nubeculariid-microbial boundstone. The first 3 types are characteristic of specific localities; the fourth type occurs in all studied locations and represents the terminal association on top of the three other types. The three basal boundstones are predominantly of columnar growth form irrespective of dominance of Nubecularia, coralline algae or microbial carbonate, and the terminal boundstone is widely irregularly organized. The general depositional environment is characterized by cross-bedded oolitic grainstones with abundant quartz grains, miliolid foraminifers and mollusks. Intercalated are microbial carbonates mostly stromatolites but also thrombolites. This indicates a general high water energy environment interrupted by more calm periods when the microbial carbonate was built. The 3 basal types of bioconstructions are interpreted to reflect decreasing food supply and/or oxygenation from Nubecularia over Nubecularia-coralline algal to stromatolitic/thrombolitic boundstone. The serpulid-nubeculariid-microbial boundstone reflects an internal succession with a decrease of the same parameters. Water depth is considered very shallow ranging from 0 to a few meters, and salinity was normal marine to hypersaline. The reconstructed paleoenvironment with dominating oolite shoals and seagrass meadows was not restricted to the Central Paratethys but extended over the entire Paratethys and represented the largest oolite facies area of the entire Cenozoic!

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Paratethys 海的 Nubecularia-珊瑚藻-浆藻-微生物生物群落--分布和古生态学意义(上 Serravallian、上 Sarmatian、中新世)。
Nubecularia 生物鞘是一种独特的生物构造,仅限于帕拉泰西的上塞拉瓦利期,自 19 世纪以来就有报道。它们分别出现在中帕拉泰西的萨尔马特晚期和东帕拉泰西的贝萨拉布期,这两个阶段都是各自帕拉泰西期的区域阶段。本研究对中帕拉泰西期维也纳盆地和施蒂里亚盆地的几个地点进行了研究,其中对四个地点(沃尔夫施塔尔、莫斯特伦克、圣玛格丽特-佐尔豪斯、维也纳-鲁齐卡加斯)进行了详细记录,以重建其沉积环境、内部组成及其环境参数指示。详细研究包括对露头部分进行测井,对抛光板块和薄片进行岩相、岩相和生物分析,以及阴极发光分析。这些分析得出结论,这些生物构造不仅由有孔虫 Nubecularia 组成,而且代表了 Nubecularia、蛇虫和微生物碳酸盐的复杂混合物和相互关系。结合岩可分为四种类型:Nubecularia 界石、Nubecularia-珊瑚藻界石、叠层/血栓质界石和蛇绿藻-Nubeculariid-微生物界石。前三种类型是特定地点的特征;第四种类型出现在所有研究地点,是其他三种类型之上的终端结合体。三种基底结合岩主要呈柱状生长,而不论藻类、珊瑚藻类或微生物碳酸盐是否占优势,末端结合岩则广泛呈不规则组织。总体沉积环境的特点是横层鲕粒岩,含有丰富的石英颗粒、有孔虫和软体动物。夹杂着微生物碳酸盐,主要是叠层石,也有血栓岩。这表明,在微生物碳酸盐形成时,水能环境总体较高,但也有较为平静的时期。根据解释,这三种基底类型的生物构造反映了食物供应和/或含氧量的减少,从努贝壳藻类到努贝壳藻类-珊瑚藻类,再到叠层石/血栓质结合岩。蛇尾藻-贝壳藻-微生物结合岩反映了相同参数下降的内部演替。水深被认为很浅,从 0 米到几米不等,盐度为正常海洋盐度到高盐度。以鲕粒浅滩和海草草甸为主的重建古环境并不局限于中帕拉特提斯,而是扩展到了整个帕拉特提斯,代表了整个新生代最大的鲕粒面区域!
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来源期刊
Geobiology
Geobiology 生物-地球科学综合
CiteScore
6.80
自引率
5.40%
发文量
56
审稿时长
3 months
期刊介绍: The field of geobiology explores the relationship between life and the Earth''s physical and chemical environment. Geobiology, launched in 2003, aims to provide a natural home for geobiological research, allowing the cross-fertilization of critical ideas, and promoting cooperation and advancement in this emerging field. We also aim to provide you with a forum for the rapid publication of your results in an international journal of high standing. We are particularly interested in papers crossing disciplines and containing both geological and biological elements, emphasizing the co-evolutionary interactions between life and its physical environment over geological time. Geobiology invites submission of high-quality articles in the following areas: Origins and evolution of life Co-evolution of the atmosphere, hydrosphere and biosphere The sedimentary rock record and geobiology of critical intervals Paleobiology and evolutionary ecology Biogeochemistry and global elemental cycles Microbe-mineral interactions Biomarkers Molecular ecology and phylogenetics.
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