Limiting factors in plant residues of low biodegradability

Agriculture and Environment Pub Date : 1981-11-01 DOI:10.1016/0304-1131(81)90005-9

Peter J. Van Soest

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引用次数: 80

Abstract

The resistances of low quality plant residues to anaerobic digestion are related to the high content of total structural matter and its intrinsic physicochemical characteristics. Natural factors include lignin, tannins and biogenic silica, while processing and storing further reduce quality through non-enzymatic browning reactions, and changes in particle size and physical surface properties. Delignified materials may exhibit greater lag and lower rates of digestion. Exchange capacity is much reduced in treated materials. Individually plant residues vary in the nature of their principal limiting factors. Silica is the primary factor in rice straw and lignin in most other crop residues. The effect of lignin depends on covalent linkage with structural carbohydrate and lignin obligately protects 1.4 times its own weight of carbohydrate in untreated materials. Lignin cleaved by alkali treatment is soluble in neutral detergent as evidence by ultraviolet absorption of neutral detergent extracts. It may lower digestibility of solubles through dilution and tanning reactions. The efficiency of alkali treatment of graminaceous straws can be assayed by the measurement of saponifiable groups within the residual structural matter.

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低可生物降解性植物残留物的限制因素

低质量植物残渣对厌氧消化的抗性与其总结构物质的高含量及其固有的理化特性有关。天然因素包括木质素、单宁和生物二氧化硅，而加工和储存通过非酶褐变反应、粒度和物理表面性质的变化进一步降低了质量。脱木质素物质可能表现出较大的滞后性和较低的消化率。处理过的材料的交换能力大大降低。个别植物残留物在其主要限制因素的性质上各不相同。二氧化硅是水稻秸秆和木质素在大多数其他作物秸秆的主要因素。木质素的作用依赖于与结构碳水化合物的共价键，木质素在未经处理的材料中有义务保护其自重1.4倍的碳水化合物。碱解木质素可溶于中性洗涤剂，这是中性洗涤剂提取物紫外吸收的证据。它可以通过稀释和鞣制反应降低可溶物的消化率。碱法处理禾草秸秆的效率可以通过测量残余结构物质中的皂化基团来测定。

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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Agriculture and Environment

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