Fungal deterioration of cellulosic textiles: a review

International Biodeterioration Pub Date : 1991-01-01 DOI:10.1016/0265-3036(91)90043-Q

D. Montegut, N. Indictor, R.J. Koestler

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引用次数: 57

Abstract

Microbiological agents, such as bacteria, actinomycetes, and fungi, degrade cellulose. The most severe deterioration in indoor environments is primarily caused by cellulolytic fungi, resulting in loss of fiber strength and actual material failure. Other microbial spoilage can occur as a result of the permanent staining from pigmentation and mycelial penetration by both cellulolytic and non-cellulolytic fungi, the latter using food sources ranging from starch sizing to surface dirt, and oils. Much has been written concerning biocidal testing against these microfungal agents from an industrial point of view; less from a conservation standpoint. This paper submits a limited review of current literature (c. 25 years) focusing on the information and its relevance for the conservator. The following topics related to cellulosic deterioration by fungal microbes are covered; 1. current theories about the mechanism of cellulolytic attack; 2. biocides which may be employed in fungal control; and 3. choice of environmental conditions as a means of static control of fungal biodegradative agents. An annotated reference list is provided.

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纤维纺织品真菌退化的研究进展

微生物制剂，如细菌、放线菌和真菌，可以降解纤维素。在室内环境中最严重的恶化主要是由纤维素分解真菌引起的，导致纤维强度损失和实际材料失效。其他微生物腐败的发生可能是由于色素沉着和纤维分解真菌和非纤维分解真菌的菌丝渗透造成的永久性染色，后者使用的食物来源从淀粉浆料到表面污垢和油。从工业的角度来看，关于这些微真菌剂的生物杀灭试验已经写了很多;从环境保护的角度来看更少。本文对目前的文献(约25年)进行了有限的回顾，重点关注这些信息及其对保护人员的相关性。以下与真菌微生物引起的纤维素变质有关的主题被涵盖;1. 纤维素水解作用机理的现有理论研究2. 可用于控制真菌的杀菌剂;和3。选择环境条件作为真菌生物降解剂的静态控制手段。提供了一个带注释的参考列表。

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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