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. 2021 Jan;28(3):2987-2994.
doi: 10.1007/s11356-020-10681-8. Epub 2020 Sep 8.

Factors inducing bryophyte growth on prehistoric pigments and effect of UV-C treatment

Stéphane Pfendler  1 Olympe Einhorn  2 Laurence Alaoui-Sossé  2 Faisl Bousta  3 Badr Alaoui-Sossé  2 Lotfi Aleya  2
Affiliations

Factors inducing bryophyte growth on prehistoric pigments and effect of UV-C treatment

Stéphane Pfendler et al. Environ Sci Pollut Res Int. 2021 Jan.

Abstract

In La Glacière cave (France), the touristic activity has been conducted to an environmental parameter change that has led to photosynthetic organism proliferation (microalgae, diatoms, cyanobacteria, bryophytes). The present study is focused on bryophyte development occurring in the show cave that was responsible of limestone biodeterioration. In order to understand the colonization process of limestone, we have maintained limestone blocks under optimal Lampenflora growth conditions. Moreover, some limestone blocks were painted with several pigments that were used in the prehistory (e.g., red ocher, bone char). Microorganisms and bryophyte growth were monitored during 1 year, and then, the block samples were treated using UV-C light (254 nm). Thus, obtained results were compared with in situ treatment in La Glacière cave. Results have showed dense bryophyte propagation on the several blocks. However, the growth rate was correlated with the chemical composition of the pigment. In fact, the presence of some chemical elements such as As, Cr, Ti, and Co contributed to reduce bryophyte growth. Finally, moss treatment using UV-C light has demonstrated high efficiency under in situ condition, while a fast recolonization has been observed for samples maintained in laboratory. This difference was explained by the high bryophyte density under laboratory conditions that make UV-C light penetration difficult.

Keywords: Bryophyte; Cave; Conservation; Mineral pigment; UV-C irradiation.

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