Exploration on the application of microbial induced calcium precipitation technology in the protection of palm leaf manuscripts in the Dai area of China

Guangyi Chen

doi:10.54254/2753-8818/60/20241420

Research Article

Open access

Published on 15 November 2024

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Chen,G. (2024). Exploration on the application of microbial induced calcium precipitation technology in the protection of palm leaf manuscripts in the Dai area of China. Theoretical and Natural Science,60,122-127.

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Exploration on the application of microbial induced calcium precipitation technology in the protection of palm leaf manuscripts in the Dai area of China

Guangyi Chen *^,1,

¹ Beijing No.2 Middle school, Beijing, China

* Author to whom correspondence should be addressed.

https://doi.org/10.54254/2753-8818/60/20241420

Abstract

This paper explores the application of biotechnology, specifically the Microbial Induced Calcium Precipitation (MICP) technology, in the protection of Palm Leaf Manuscripts in the Dai area of China. Through the perspective of a Dai student, it reveals the current situation and problems in the protection of Palm Leaf Manuscripts. By comprehensively analyzing the application cases of MICP technology at home and abroad and combining the characteristics of the palm leaf material used in Palm Leaf Manuscripts, this paper demonstrates the feasibility and effectiveness of the application of MICP technology and supplements the general data in the experimental procedures, providing a scientific and feasible solution for the protection of Palm Leaf Manuscripts.

Keywords

Biotechnology, MICP Technology, Palm Leaf Manuscripts, Protection.

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References

[1]. Bajpai VK, Srivastava R. Biomineralization in cultural heritage conservation: A review. Materials Today: Proceedings, 17, 589-596; 2019.

[2]. Chen J, Liu B, Zhong M, Jing C, Guo B. Research status and development of microbial induced calcium carbonate mineralization technology. PLOS ONE, 17(7), e0271761; 2022. Available from: https://doi.org/10.1371/journal.pone.0271761

[3]. Fouladi AS, Arulrajah A, Chu J, Horpibulsuk S. Application of Microbially Induced Calcite Precipitation (MICP) technology in construction materials: A comprehensive review of waste stream contributions. Construction and Building Materials, 388, 131546; 2023. Available from: https://doi.org/10.1016/j.conbuildmat.2023.131546

[4]. De Muynck W, Verstraete, Van de Wiele T. Biocementation by ureolytic bacteria: a critical review on the current status of the technology. Biotechnology Advances, 28(2), 218-229; 2010.

[5]. Guichard F, Dumas C. Cleaning and consolidation treatments of wall paintings in the Louvre Museum: A case study of the "Diana Bathing" room. Studies in Conservation, 62(sup1), s3-s14; 2017.

[6]. D'Amato M, Pintaudi B. Microbial communities and biodeterioration processes in the Louvre Museum: A review. Microbial Biotechnology, 12(4), 799-810; 2019.

[7]. Zhang J, Duan Y, Wang J. Application of microbial induced calcite precipitation for the conservation of stone cultural relics: A review. Construction and Building Materials, 168, 1134-1144; 2018.j

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About volume

Volume title: Proceedings of the 4th International Conference on Biological Engineering and Medical Science

Conference website: https://2024.icbiomed.org/

ISBN：978-1-83558-723-2(Print) / 978-1-83558-724-9(Online)

Conference date: 25 October 2024

Editor：Alan Wang

Series: Theoretical and Natural Science

Volume number: Vol.60

ISSN：2753-8818(Print) / 2753-8826(Online)

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