Vermiculations from karst caves: The case of Pertosa-Auletta system (Italy)

Unlike the spectacular speleothems that can often be found in numerous caves, vermiculations are rather unassuming formations, whose origin and evolution still subject of several heated debates. In order to provide a quantitative basis for the understanding of the nature and evolution of vermiculati...

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Veröffentlicht in:Catena (Giessen) 2019-11, Vol.182, p.104178, Article 104178
Hauptverfasser: Addesso, Rosangela, Bellino, Alessandro, D'Angeli, Ilenia Maria, De Waele, Jo, Miller, Ana Zélia, Carbone, Cristina, Baldantoni, Daniela
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Sprache:eng
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Zusammenfassung:Unlike the spectacular speleothems that can often be found in numerous caves, vermiculations are rather unassuming formations, whose origin and evolution still subject of several heated debates. In order to provide a quantitative basis for the understanding of the nature and evolution of vermiculations in karst environments, the geochemical properties of one of the most important karst systems of southern Italy, the Pertosa-Auletta Cave, were studied through a comprehensive approach which included elemental, mineralogical and microscopy analyses. The chemical element abundances, mineral composition and microstructure of the vermiculations covering the entire range of morphologies and colours observed in the case-study cave were investigated, thus providing the first quantitative record of these traits. The vermiculations presented exceptional diversity in their morphology, colour, chemical and mineral composition, with it being due to exogenous determinants such as the deposition of stream sediments or organic matter as well as the development of photoautotrophic communities. They were invariably composed of calcite, associated to quartz as well as clays and other secondary minerals, the formation of which may be biologically mediated. This occurrence, and the evidences of microbial activity observed through dissolution traces, support the possible involvement of biogenic processes in vermiculation development. •Morphology, chemistry and mineralogy of vermiculations have been investigated.•Vermiculations from Pertosa-Auletta Cave exhibit exceptional diversity.•Local and broad-scale factors contribute to vermiculation diversity.•Clays and other minerals on a calcite matrix constitute vermiculations.•Microbial involvement in micro-scale vermiculation traits has been documented.
ISSN:0341-8162
1872-6887
DOI:10.1016/j.catena.2019.104178