不同施氮水平下再生水灌溉对土壤细菌群落结构影响研究

微生物是土壤环境变化的敏感因子,为探明再生水灌溉和氮素减量施用对土壤环境的影响,以温室棚栽番茄为研究对象,借助Miseq高通量技术,比较研究了再生水灌溉下氮素常规施肥和氮肥减量施用对土壤细菌群落结构所产生的影响,并采用冗余分析(Redundancy Analysis,RDA)方法分析导致土壤细菌群落结构差异的因素.结果表明:再生水灌溉对土壤硝化螺菌门(Nitrospirae)、芽单胞菌门(Gemmatimonadetes)、厚壁菌门(Firmicutes)、变形菌门(Proteobacteria)和放线菌门(Actinobacteria)群落结构的影响明显;再生水灌溉土壤细菌共53个属,其中41个属是再生水灌溉和清水灌溉土壤的共有菌属,其余12个属是再生水灌溉土壤的特有菌属.随氮素施用水平的降低,土壤细菌种群优势度呈先增加后降低然后再增加的趋势,减少氮肥施用有利于土壤细菌种群丰富度和多样性的增加.土壤微生物群落结构受土壤化学特性的影响.再生水灌溉能够促进与土壤碳、氮转化相关的微生物的增长,改变土壤微生物的群落结构.     

模拟酸雨对毛竹阔叶林过渡带土壤真菌结构及其多样性的影响

为探究酸雨对毛竹扩张形成的竹阔混交林土壤真菌群落的影响程度,于2017～2018年在浙江省杭州临安天目山国家级自然保护区开展酸雨模拟实验,选取T1(pH=4.0)和T2(pH=2.5)两个模拟酸雨梯度,并以CK(pH=5.5)对照,利用Illumina MiSeq高通量测序技术,分析不同强度酸雨胁迫下,土壤真菌群落多样性变化及影响因素.结果表明与对照相比,T1处理显著提高了真菌群落的OTU数量、Chao1指数和Ace指数(P0.05).竹阔混交林土壤主要由13个门类群的菌群组成,优势菌群包括子囊菌门(Ascomycota)、担子菌门(Basidiomycota)、被孢霉门(Mortierellomycota)和毛霉门(Mucoromycota).主坐标(PCoA)分析和相似性检验结果表明模拟酸雨改变了土壤真菌结构.Bifiguratu属、Geminibasidium属、Purpureocillium属和Oidiodendron属相对丰度变化显著,可作为酸雨胁迫下土壤真菌群落结构变化的指示种.冗余分析(RDA)和相关性分析表明,土壤pH和全氮对土壤真菌群落结构影响显著(P0.05).综上所述,酸雨提高了真菌群落多样性指数,改变土壤真菌群落结构.该研究结果有助于了解森林生态系统中的真菌群落,以及土壤真菌作为影响因子在预测环境变异中的作用.     

Effect of vegetation of transgenic Bt rice lines and their straw amendment on soil enzymes, respiration, functional diversity and community structure of soil microorganisms under field conditions

With the development of transgenic crops, there is an increasing concern about the possible adverse effects of their vegetation and residues on soil environmental quality. This study was carried out to evaluate the possible effects of the vegetation of transgenic Bt rice lines Huachi B6 (HC) and TT51 (TT) followed by the return of their straw to the soil on soil enzymes (catalase, urease, neutral phosphatase and invertase), anaerobic respiration activity, microbial utilization of carbon substrates and community structure, under field conditions. The results indicated that the vegetation of the two transgenic rice lines (HC and TT) and return of their straw had few adverse effects on soil enzymes and anaerobic respiration activity compared to their parent and distant parent, although some transient differences were observed. The vegetation and subsequent straw amendment of Bt rice HC and TT did not appear to have a harmful effect on the richness, evenness and community structure of soil microorganisms. No different pattern of impact due to plant species was found between HC and TT. It could be concluded that the vegetation of transgenic Bt rice lines and the return of their straw as organic fertilizer may not alter soil microbe-mediated functions.     

锰砂人工湿地对污染物的强化去除

锰砂由于其具有强氧化和吸附作用已被广泛应用于净水领域中,而在人工湿地中以锰砂为填料的相关研究较少.根据前期研究推测,在人工湿地的基质中加入锰砂,其能通过氧化吸附强化去除水中的污染物,而还原生成的Mn （Ⅱ）又能被土壤及根系锰氧化微生物氧化为Mn （Ⅲ/Ⅳ）,进而防止Mn （Ⅱ）在水中的释放.为验证该推测,本研究探讨了加入锰砂的芦苇人工湿地对污染物的强化去除能力及微生物学机制.通过比较加入和未加入锰砂（对照组）的人工湿地的运行效果,发现锰砂人工湿地对溶解性有机碳（DOC）、TN和冬季时期NH₄⁺-N的去除具有显著的提升作用.16S rRNA测序结果表明,锰砂基质能显著提升冬季芦苇根系微生物的丰富度和多样性,但对人工湿地整体的群落结构影响较小,这可能与锰砂湿地强化污染物去除能力有关.本研究为人工湿地工艺优化提供了一种新思路.     

三峡工程对洞庭湖水力梯度及其湿地植物生长的影响

水力梯度是制约洞庭湖湿地植物生长的主要因素.通过分析三峡水库运行前后洞庭湖水力梯度的变化来研究其对洞庭湖湿地植物的影响,能为该区植物多样性及退化生态系统的恢复提供科学依据.研究表明,三峡工程的运行不同程度上降低了洞庭湖的水力梯度,且枯水期的影响大于丰水期.其中东洞庭湖受其影响最为明显,特别是在4月和10月,洞庭湖其他地段水力梯度变化较为平稳.三峡工程对洞庭湖湿地植物的影响是枯水期大于丰水期,除了4月和5月对洞庭湖湿地植物的生长产生不利的影响外,其他月份有着有利的影响或影响不大.     

Effects of vegetation type on soil microbial community structure and catabolic diversity assessed by polyphasic methods in North China

Soil microbes play a major role in ecological processes and are closely associated with the aboveground plant community.In order to understand the effects of vegetation type on the characteristics of soil microbial communities,the soil microbial communities were assessed by plate counts,phospholipid fatty acid (PLFA) and Biolog microplate techniques in five plant communities,i.e.,soybean field (SF),artificial turf (AT),artificial shrub (AS),natural shrub (NS),and maize field (MF) in Jinan,Shandong Province,North China.The results showed that plant diversity had little discernible effect on microbial biomass but a positive impact on the evenness of utilized substrates in Biolog microplate.Legumes could significantly enhance the number of cultural microorganisms,microbial biomass,and community catabolic diversity.Except for SF dominated by legumes,the biomass of fungi and the catabolic diversity of microbial community were higher in less disturbed soil beneath NS than in frequently disturbed soils beneath the other vegetation types.These results confirmed that high number of plant species,legumes,and natural vegetation types tend to support soil microbial communities with higher function.The present study also found a significant correlation between the number of cultured bacteria and catabolic diversity of the bacterial community.Different research methods led to varied results in this study.The combination of several approaches is recommended for accurately describing the characteristics of microbial communities in many respects.     

Bacterial diversity in soils around a lead and zinc mine

Five samples of soil collected from a lead and zinc mine were used to assess the effect of combined contamination of heavy metals on soil bacterial communities using a polyphasic approach including characterization of isolates by culture method, community level catabolic profiling in BIOLOG GN microplates, and genetic community fingerprinting by denaturing gradient gel electrophoresis of 16S rDNA fragments amplified by PCR from community DNA （PCR-DGGE）. The structure of the bacterial community was affected to a certain extent by heavy metals. The PCR-DGGE analysis of 16S rRNA genes showed that there were significant differences in the structure of the microbial community among the soil samples, which were related to the contamination levels. The number of bacteria and the number of denaturing gradient gel electrophoresis （DGGE） bands in the soils increased with increasing distance from the lead and zinc mine tailing, whereas the concentration of lead （Pb） and cadmium （Cd） was decreased. Heavily polluted soils could be characterized by a community that differs from those of lightly polluted soils in richness and structure of dominating bacterial populations. The clustering analysis of the DGGE profiles showed that the bacteria in all the five samples of soil belonged to three clusters. The data from the BIOLOG analysis also showed the same result. This study showed that heavy metal contamination decreased both the biomass and diversity of the bacterial community in soil.     

Effect of heavy metals on soil microbial activity and diversity in a reclaimed mining wasteland of red soil area

The microbial biomass, basal respiration and substrate utilization pattern in copper mining wasteland of red soil area, southern China, were investigated. The results indicated that soil microflora were obviously different compared with that of the non-mine soil. Microbial biomass and basal respiration were negatively affected by the elevated heavy metal levels. Two important microbial ecophysiological parameters, namely, the ratio of microbial biomass C（ Cmic ）/organic C（ Corg ） and metabolic quotient（qCO2 ） were closely correlated to heavy metal stress. There was a significant decrease in the Cmic/Corg ratio and an increase in the metabolic quotient with increasing metal concentration. Multivariate analysis of Biolog data for sole carbon source utilization pattern demonstrated that heavy metal pollution had a significant impact on microbial community structure and functional diversity. All the results showed that soil microbiological parameters had great potential to become the early sensitive, effective and liable indicators of the stresses or perturbations in soils of mining ecosystems.     

堆肥过程多阶段强化接种对细菌群落多样性的影响

以生活垃圾为原料进行好氧堆肥,采用多阶段的方式强化接种功能微生物菌剂,利用PCR-DGGE方法并结合聚类分析和Shannon-Weaver指数变化来研究堆肥过程中多阶段强化接种对细菌群落多样性的影响,同时监测木质纤维素降解率的变化.结果表明,多阶段接种堆肥能有效提高堆体降温期和二次发酵期的温度;和普通接种堆肥相比可使半...     

不同作物农田土壤抗生素抗性基因多样性

土壤作为地球关键带最为活跃的组成部分,在保障粮食安全和维持生态环境平衡中发挥着重要作用.农田土壤抗生素抗性基因（antibiotic resistance genes,ARGs）污染特征和传播扩散机制受到了广泛的关注.为全面探究不同作物种植情况下农田土壤抗生素抗性基因污染特征,明确不同作物农田土壤抗性基因的多样性及其影响因素,本文采用抗生素抗性基因高通量qPCR技术（HT-qPCR）,对不同作物农田土壤抗生素抗性基因的多样性展开了研究.结果表明,农田土壤总计检出187种抗生素抗性基因,种植柑橘（GJ）、花生（HS）、水稻（SD）、甘蔗（GZ）和香蕉（XJ）的土壤中分别检测出抗生素抗性基因89、147、143、157和159种,它们的丰度介于6.47×10⁹~1.41×10¹⁰ copies·g^-1之间,其中多重耐药抗性基因在农田土壤中占据显著优势.基于R软件的envfit分析显示,As、Co、Cr、Mo、Ni和Pb显著影响农田土壤抗生素抗性基因组成（P<0.05）,冗余分析（RDA）显示这些重金属元素对农田土壤抗生素抗性基因变化的总解释量达到了59.3%.本研究证明,农田土壤是抗生素抗性基因的重要存储库,不同作物农田土壤抗性基因组成有显著差异（P<0.05）,重金属元素对土壤抗性基因的赋存和扩散可能具有重要作用,种植不同作物对农田土壤抗生素抗性基因多样性产生了显著影响.