微生物对天然合成 C 标记木质素的分解:各种天然材料中的木质素生物降解。
Microbial decomposition of synthetic C-labeled lignins in nature: lignin biodegradation in a variety of natural materials.
机构信息
Department of Bacteriology, University of Wisconsin, Madison, Wisconsin 53706.
出版信息
Appl Environ Microbiol. 1977 Jan;33(1):43-51. doi: 10.1128/aem.33.1.43-51.1977.
Abstract
Lignin biodegradation in a variety of natural materials was examined using specifically labeled synthetic C-lignins. Natural materials included soils, sediments, silage, steer bedding, and rumen contents. Both aerobic and anaerobic incubations were used. No C-labeled lignin biodegradation to labeled gaseous products under anaerobic conditions was observed. Aerobic C-labeled lignin mineralization varied with respect to type of natural material used, site, soil type and horizon, and temperature. The greatest observed degradation occurred in a soil from Yellowstone National Park and amounted to over 42% conversion of total radioactivity to CO(2) during 78 days of incubation. Amounts of C-labeled lignin mineralization in Wisconsin soils and sediments were significantly correlated with organic carbon, organic nitrogen, nitrate nitrogen, exchangeable calcium, and exchangeable potassium.
摘要
使用特定标记的合成 C-木质素研究了各种天然材料中的木质素生物降解。天然材料包括土壤、沉积物、青贮料、牛卧床和瘤胃液。使用了需氧和厌氧孵育。在厌氧条件下,未观察到 C-标记木质素生物降解为标记气态产物。需氧 C-标记木质素矿化因所用天然材料的类型、地点、土壤类型和层次以及温度而异。在黄石国家公园的土壤中观察到最大的降解,在 78 天的孵育过程中,总放射性的转化率超过 42%,转化为 CO(2)。威斯康星州土壤和沉积物中 C-标记木质素矿化的量与有机碳、有机氮、硝酸盐氮、可交换钙和可交换钾显著相关。
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