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火电厂周边不同生物结皮细菌群落特征差异及其影响因素
引用本文:樊瑾,李诗瑶,杜雅仙,王融融,余海龙,黄菊莹. 火电厂周边不同生物结皮细菌群落特征差异及其影响因素[J]. 应用生态学报, 2021, 32(11): 4107-4118. DOI: 10.13287/j.1001-9332.202111.036
作者姓名:樊瑾  李诗瑶  杜雅仙  王融融  余海龙  黄菊莹
作者单位:1.宁夏大学地理科学与规划学院, 银川 750021;2.兰州大学生命科学学院, 兰州 730000;.;3.宁夏大学生态环境学院, 银川 750021
基金项目:本文由国家自然科学基金项目(41961001,31760144)和宁夏自然科学基金项目(2021AAC03007)资助
摘    要:为探究大气降尘重金属污染对矿区周边不同类型生物结皮细菌群落结构的影响,利用高通量测序技术分析位于宁东能源化工基地典型火电厂周边的3类生物结皮(藻结皮ZB、混生结皮HB、苔藓结皮TB)和对照(CK,裸土)的细菌丰度和群落结构,并探讨了影响细菌群落结构的环境因子。结果表明: 不同类型生物结皮的理化性质和重金属含量存在差异,且由于生物结皮对大气降尘重金属的富集作用造成各类结皮均达重度污染级别。在相对丰度排名前10的优势细菌门中,芽单胞菌门、蓝细菌门在不同类型生物结皮之间差异显著。细菌群落α多样性由高到低排序依次为CK>TB>HB>ZB。非度量多维排序(NMDS)结果显示,裸土细菌群落与其他3种生物结皮存在明显差异。相关性分析表明,生物结皮演替对细菌群落组成具有显著影响,细菌多样性和组成与pH、养分、重金属含量等密切相关。放线菌门、绿弯菌门相对丰度与pH值呈显著正相关关系,而与全氮(TN)、全磷(TP)、Pb、Zn、Cd均呈显著负相关关系;冗余分析结果表明,TN、pH、TP、有机碳(SOC)是影响3种生物结皮细菌群落α多样性以及一些优势菌群相对丰度的主要土壤环境因子,而重金属Pb、Zn、Cd是影响细菌群落结构的主要重金属元素,对细菌群落数量和多样性有抑制或刺激作用。说明pH、重金属和养分是影响结皮细菌群落组成的关键因子。总体而言,长期的重金属富集作用会对生物结皮的细菌多样性和群落组成产生影响。

关 键 词:大气降尘   重金属污染   生物结皮   细菌群落   高通量测序  

Differences of bacterial communities in different biological soil crusts around thermal power plant and their influencing factors
FAN Jin,LI Shi-yao,DU Ya-xian,WANG Rong-rong,YU Hai-long,HUANG Ju-ying. Differences of bacterial communities in different biological soil crusts around thermal power plant and their influencing factors[J]. The journal of applied ecology, 2021, 32(11): 4107-4118. DOI: 10.13287/j.1001-9332.202111.036
Authors:FAN Jin  LI Shi-yao  DU Ya-xian  WANG Rong-rong  YU Hai-long  HUANG Ju-ying
Affiliation:1.Institute of Geographical Sciences and Planning, Ningxia University, Yinchuan 750021, China;2.School of Life Sciences, Lanzhou University, Lanzhou 730070, China;3.Institute of Ecology and Environment, Ningxia University, Yinchuan 750021, China
Abstract:To understand the effects of heavy metal pollution derived from atmospheric dust fall on bacterial community structure under different types of biological soil crusts near mining area, we measured the diversity, community composition, and relative abundance of bacteria communities in three different developmental stages of biological soil crusts (BSCs), including algae (ZB), mixed (HB), and moss (TB) crusts, and control (CK, bare soil) around a typical thermal power plant in Ningdong Energy Industrial Base, using the high-throughput sequencing technique. Environmental factors affecting the bacterial community structure were further investigated. The results showed that there were significant differences in physicochemical properties and heavy metal contents among different BSCs. The BSCs were heavily polluted due to the enrichment of heavy metals from atmospheric dust fall. Among the top ten dominant bacterial phyla, Gemmatimonadetes and Cyanobacteria were significantly distinct among different BSCs. Bacterial α diversity decreased in an order of CK>TB>HB>ZB. The NMDS ordination plots indicated that there were significant differences in the bacteria community composition of the three kinds of BSCs and the CK. The correlation analysis showed that the succession of BSCs significantly affected bacterial community composition in BSCs. Bacterial diversity and composition were closely related to pH, nutrients, and heavy metal contents. The relative abundance of Actinomycetes and Chloroflexi was positively correlated with pH, but negatively correlated with total N, total P, and the contents of heavy metal Pb, Zn, Cd. Results of the redundancy analysis showed that organic carbon, pH, total N, and total P were the major soil factors affecting bacterial α diversity, relative abundance of some dominant phyla, whereas heavy metal contents of Zn, Cd, Pb were the major heavy metals affecting structure of bacterial community which inhibited or stimulated the abundance and diversity of bacterial communities. We concluded that pH, heavy metals, and nutrients were the key factors affecting soil bacteria community composition. The succession of BSCs would improve their physicochemical properties and significantly impacted bacterial community composition. Long term heavy metals enrichment would affect bacterial diversity and community composition of BSCs.
Keywords:atmospheric dust fall   heavy metals contamination   biological soil crusts   bacterial community   high-throughput sequencing.  
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