Vermiculations in painted caves: New inputs from laboratory experiments and field observations

IF 1.3 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

International Journal of Speleology Pub Date : 2020-11-17 DOI:10.5038/1827-806x.50.3.2390

P. Freydier, E. Weber, Jérôme Martin, P. Jeannin, B. Guerrier, F. Doumenc

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Abstract

Vermiculations are aggregates of small particles commonly found on cave walls. They are a major concern for the conservation of painted caves, as they can potentially alter valuable prehistoric cave paintings. A previous rheological study of fine sediment deposits on cave walls revealed that this material can undergo a solid-to-liquid transition triggered by variations in the chemical composition of the water film on the wall. Such a transition could occur at the origin of vermiculations by allowing the sediment to flow under low mechanical stress. In this work, we provide quantitative information on the conditions leading to this transition and show the importance of the chemical composition of the water film on the cave walls. A complete understanding of the phenomenon will, however, require more field information. This includes monitoring of the evolution of vermiculations, for which we have developed a dedicated observation protocol. Based on the combination of photogrammetry and a geographic information system we were able to precisely map the walls of the Hall of Bulls in Lascaux cave from past and future photographs. To better understand the vermiculation process, pictures need to be taken regularly, and the chemical composition of the thin water film covering cave walls needs to be analyzed with a similar time step. The correlation between the evolution of vermiculations, the humidification phases of the walls, temperature changes and the chemical monitoring of the water film should shed new light on conditions triggering vermiculations.

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彩绘洞穴中的蚯蚓：来自实验室实验和实地观察的新输入

蛭体是洞穴壁上常见的小颗粒聚集体。它们是彩绘洞穴保护的一个主要问题，因为它们可能会改变有价值的史前洞穴壁画。先前对洞穴壁上细沉积物的流变学研究表明，这种物质可以经历由壁上水膜化学成分的变化引发的固体到液体的转变。这种转变可以发生在蠕变的起源，允许沉积物在低机械应力下流动。在这项工作中，我们提供了导致这种转变的条件的定量信息，并显示了洞穴壁上水膜化学成分的重要性。然而，要完全了解这一现象，还需要更多的现场信息。这包括监测蠕虫的演变，为此我们制定了专门的观察方案。基于摄影测量学和地理信息系统的结合，我们能够从过去和未来的照片中精确地绘制出拉斯科洞穴公牛大厅的墙壁。为了更好地了解蠕化过程，需要定期拍摄照片，并以类似的时间步长分析覆盖洞穴壁的薄水膜的化学成分。蠕变的演变，壁的加湿阶段，温度变化和水膜的化学监测之间的相关性应该为引发蠕变的条件提供新的线索。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Speleology 地学-地球科学综合

CiteScore

3.10

自引率

23.10%

发文量

审稿时长

>12 weeks

期刊介绍： The International Journal of Speleology has the aim to get cave and karst science known to an increasing number of scientists and scholars. The journal therefore offers the opportunity to all scientists working in and on karst to publish their original research articles or their review papers in an open access, high quality peer reviewed scientific journal at no cost. The journal offers the authors online first, open access, a free PDF of their article, and a wide range of abstracting and indexing services.