真菌对历史遗迹的影响,以恰蒂斯加尔邦的马哈德夫神庙为例

Dr. Sanjay Prasad Gupta, Manoj Kumar
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引用次数: 0

摘要

由于生活在生物膜中的不同微生物种群,建筑遗产的材料面临着生物退化的风险。这些生物膜的微生物代谢物会导致底层基质的恶化,并可能导致石头的物理弱化和变色。真菌产生色素和有机酸的能力在文物中不同类型石头的变色和降解中起着至关重要的作用。此外,石质物体可能支持在生物降解过程中活跃的新型微生物群落。本研究着重于对来自恰蒂斯加尔邦巴斯塔尔Mahadev寺庙的微生物生物膜进行真菌学分析,该微生物生物膜由砂岩制成,被真菌大量定殖。从砂石上分离出8种真菌。石质结构中常见曲霉属。鉴定的微真菌通过机械菌丝渗透和产生深色色素和有机酸来分析建筑石材的变色和机械剥落。
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Impact of fungi on historical monument with reference to Mahadev temple Bastar of Chhatisgarh
Materials of built heritage are at risk of bio-deterioration caused by diverse populations of microorganisms living in biofilms. The microbial metabolites of these biofilms are responsible for the deterioration of the underlying substratum and may lead to physical weakening and discoloration of stone. Fungal ability in production of pigments and organic acids have crucial role in discoloration and degradation of different types of stone in cultural heritage objects. Additionally, stone objects may support novel communities of microorganism that are active in bio-deterioration process this investigation focused on mycological analyses of microbial biofilm from Mahadev temple, Bastar of Chhattisgarh state which is made of sand stone and which were heavily colonized by fungi. The eight fungal species on sand stone were isolated. Aspergillus sp. was common in stone structure. The identified micro fungi cause discoloration as well as mechanical exfoliation of building stone material that was analyzed through mechanical hyphae penetration and production of dark pigments and organic acids.
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