Degradation of Lead-Contaminated Lignocellulosic Waste by Phanerochaete chrysosporium and the Reduction of Lead Toxicity

白腐真菌 化学 生物降解 生物转化 木质纤维素生物量 生物修复 生物量(生态学) 木质素 环境化学 黄孢菌 发酵 废物管理 制浆造纸工业 污染 食品科学 有机化学 农学 生物 工程类 生态学
作者
Danlian Huang,Guangming Zeng,Chongling Feng,Shuang Hu,Xiaoyun Jiang,Lin Tang,Feng-Feng Su,Yu Zhang,Wei Zeng,Hongliang Liu
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:42 (13): 4946-4951 被引量:283
标识
DOI:10.1021/es800072c
摘要

Lead, as one of the most hazardous heavy metals to the environment interferes with lignocellulosic biomass bioconversion and carbon cycles in nature. The degradation of lead-polluted lignocellulosic waste and the restrain of lead hazards by solid-state fermentation with Phanerochaete chrysosporium were studied. Phanerochaete chrysosporium effectively degraded lignocellulose, formed humus and reduced active lead ions, even at the concentration of 400 mg/kg dry mass of lead. The highest lignocellulose degradation (56.8%) and organic matter loss (64.0%) were found at the concentration of 30 mg/kg of lead, and at low concentration of lead the capability of selective lignin biodegradation was enhanced. Microbial growth was delayed in polluted substrate at the initial stage of fermentation, and organic matter loss is correlated positively with microbial biomass after 12 day fermentation. It might be because Phanerochaete chrysosporium developed active defense mechanism to alleviate the lead toxicity. Scanning electron micrographs with energy spectra showed that lead was immobilized via two possible routes: adsorption and cation exchange on hypha, and the chelation by fungal metabolite. The present findings will improve the understandings about the degradation process and the lead immobilization pathway, which could be used as references for developing a fungi-based treatment technology for metal-contaminated lignocellulosic waste.
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