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矿区不同植被复垦模式对土壤细菌群落结构的影响
引用本文:贺龙,李艳琴,李彬春,李君剑. 矿区不同植被复垦模式对土壤细菌群落结构的影响[J]. 环境科学, 2017, 38(2): 752-759
作者姓名:贺龙  李艳琴  李彬春  李君剑
作者单位:山西大学生物技术研究所, 化学生物学与分子工程教育部重点实验室, 太原 030006,山西大学生物技术研究所, 化学生物学与分子工程教育部重点实验室, 太原 030006,山西大学生物技术研究所, 化学生物学与分子工程教育部重点实验室, 太原 030006,山西大学黄土高原研究所, 太原 030006
摘    要:以安太堡露天煤矿复垦区为研究对象,用PCR-DGGE技术分析不同复垦植被(榆树、落叶松、杏树、云杉和刺槐)及复垦年限(15年和20年)对土壤细菌的影响.土壤细菌多样性分析结果表明:复垦20年组,榆树最高,杏树最低,其余3个植被无显著差异;复垦15年组,云杉显著高于刺槐;刺槐随复垦年限延长,其土壤细菌多样性显著增高,而云杉却反之.相似性系数分析、聚类分析和PCA均显示,相同复垦年限的土样细菌群落结构相似性高.相关性分析表明细菌多样性指数和土壤pH显著正相关.优势和差异条带测序鉴定出Nitrospira、Sphingomonas、Arthrobacter、Brachybacterium、Rhizobium以及Mesorhizobium等或参与氮循环、或降解多环芳烃及杂环有机物的细菌属.本研究说明榆树和云杉有利于土壤细菌多样性的恢复;复垦区土壤的优势菌群多为有利于污染土壤的生态修复和肥力恢复的功能细菌属.

关 键 词:PCR-DGGE  复垦矿区  植被复垦模式  细菌群落结构和多样性  功能细菌
收稿时间:2016-07-28
修稿时间:2016-09-08

Effects of Different Vegetation Types and Reclamation Years on Soil Bacterial Community Structure in Reclaimed Mine Areas
HE Long,LI Yan-qin,LI Bin-chun and LI Jun-jian. Effects of Different Vegetation Types and Reclamation Years on Soil Bacterial Community Structure in Reclaimed Mine Areas[J]. Chinese Journal of Environmental Science, 2017, 38(2): 752-759
Authors:HE Long  LI Yan-qin  LI Bin-chun  LI Jun-jian
Affiliation:Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Biotechnology, Shanxi University, Taiyuan 030006, China,Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Biotechnology, Shanxi University, Taiyuan 030006, China,Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Biotechnology, Shanxi University, Taiyuan 030006, China and Institute of Loess Plateau, Shanxi University, Taiyuan 030006, China
Abstract:Effects of different vegetation types (Ulmus pumila, Larix gmelinii, Armeniaca vulgaris, Picea asperata and Robinia pseudoacacia) and reclamation years (15 and 20 years) on soil bacterial community structure in reclaimed Antaibao opencast mine areas were investigated using polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) and clone sequencing. For 20-year reclaimed soils, the significantly highest and lowest bacterial diversity were found in U. pumila and A. vulgaris stand, respectively, whereas no significant differences were found between the other three vegetation types. Under 15-year plantations, soil bacterial diversity index of P. asperata was significantly higher than that of R. pseudoacacia. Soil bacterial diversity index significantly increased in R. pseudoacacia planted soils but decreased in P. asperata treatment with the increase of reclaimed years. No significant change of soil bacterial community structure was observed in the same reclamation years based on the similarity coefficient analysis, cluster analysis and principal component analysis (PCA). Pearson correlation analysis demonstrated that bacterial diversity index was significantly positively correlated with soil pH. Nitrospira, Sphingomonas, Arthrobacter, Brachybacterium, Rhizobium as well as Mesorhizobium, which play important roles in the nitrogen cycle, degradation of polycyclic aromatic hydrocarbons and other organic matter, were identified by clone sequencing of the DGGE bands. Our results indicated that U. pumila and P. asperata were conducive to the recovery of soil bacterial diversity. The most dominant bacterial community from reclaimed mine soil would be beneficial for restoring wasteland contaminated soil and improving soil fertility.
Keywords:PCR-DGGE  reclaimed mine areas  vegetation reclamation pattern  bacterial community structure and diversity  functional bacteria
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