College of Environmental Science and Engineering, Hunan University, Changsha 410082, PR China.
Bioresour Technol. 2011 May;102(10):5905-11. doi: 10.1016/j.biortech.2011.02.088. Epub 2011 Feb 24.
Two composting piles were prepared by adding to a mixture of rice straw, vegetables and bran: (i) raw soil free from pentachlorophenol (PCP) contamination (pile A) and (ii) PCP-contaminated soil (pile B). It was shown by the results that compost maturity characterized by water soluble carbon (WSC), TOC/TN ratio, germination index (GI) and dehydrogenase activity (DA) was significantly affected by PCP exposure, which resulted in an inferior degree of maturity for pile B. DGGE analysis revealed an inhibited effect of PCP on compost microbial abundance. The bacteria community shifts were mainly consistent with composting factors such as temperature, pH, moisture content and substrates. By contrast, the fungal communities were more sensitive to PCP contamination due to the significant correlation between fungal community shifts and PCP removal. Therefore, the different microbial community compositions for properly evaluating the degree of maturity and PCP contamination were suggested.
两个堆肥堆是通过向水稻秸秆、蔬菜和麸皮的混合物中添加以下物质制备的:(i) 不含五氯苯酚(PCP)污染的原土(堆 A)和 (ii) PCP 污染的土壤(堆 B)。结果表明,PCP 暴露显著影响了堆肥成熟度的特征,如水溶性碳(WSC)、TOC/TN 比、发芽指数(GI)和脱氢酶活性(DA),导致堆 B 的成熟度降低。DGGE 分析表明,PCP 对堆肥微生物丰度有抑制作用。细菌群落的变化主要与堆肥的温度、pH 值、水分含量和基质等因素一致。相比之下,真菌群落对 PCP 污染更为敏感,因为真菌群落的变化与 PCP 的去除有显著相关性。因此,建议使用不同的微生物群落组成来正确评估成熟度和 PCP 污染程度。