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1.
G. M. Zenova M. S. Dubrova T. A. Gracheva A. I. Kuznetsova O. A. Stepanova I. Yu. Chernov A. S. Manucharov 《Moscow University Soil Science Bulletin》2016,71(4-5):174-177
Ecological and taxonomic characteristics of the actinomycete complex of solonchak soils and light chestnut soils in the Lake Elton region have been presented. Data on the abundance and taxonomic structure have confirmed the ecological importance of actinomycetes in soils with evident signs of salinity. 相似文献
2.
稻虾共作是水稻种植与克氏螯虾共作形成的互利共生的稻田种养复合生态模式。目前对稻虾共作模式稻田反硝化微生物多样性和群落结构的影响尚不清楚。本研究以江汉平原常规中稻模式(MR)为对照,设置连续3年(2014—2016年)稻虾共作模式(CR)为处理,通过特异引物提取中稻抽穗期稻田土壤nirK基因,采用Illumina Miseq高通量测序技术,探讨稻虾共作模式对稻田土壤nirK反硝化微生物多样性和群落结构的影响。结果表明:稻虾共作模式显著提升水稻抽穗期稻田土壤中硝态氮、全氮及全碳的含量,对土壤碳氮比、碱解氮和铵态氮含量没有显著影响。稻虾共作模式显著增加稻田土壤nirK基因微生物的丰富度指数,但对nirK基因微生物的多样性指数影响不显著。稻虾共作模式改变了nirK基因微生物在目、科、属、种水平的群落组成,较常规中稻模式,稻虾共作模式在各分类水平组成类群均减少;稻虾共作模式较常规中稻模式改变了目的种类,对共有目相对丰度没有显著性改变。RDA分析表明稻虾共作模式对土壤nirK基因菌群的群落结构有一定的改变,但稻虾共作模式与常规中稻模式在群落结构上仍保留着一定的相似性。硝态氮含量是影响nirK反硝化细菌群落结构的主效因子。可见,稻虾共作模式对微生物多样性指数没有显著影响,但显著增加了微生物丰富度指数,改变了稻田土壤nirK反硝化微生物在目、科、属、种的群落结构。 相似文献
3.
Stanislav Pen-Mouratov Cheng Hu Etan Hindin Yosef Steinberger 《Biology and Fertility of Soils》2011,47(4):363-375
The effect of environmental factors and soil properties on microbial and soil free-living nematode communities was investigated
in two desert soil formations, a playa and sandy biological crust. Soil samples were collected from October 2007 to September
2008 from the upper (0–10 cm) soil layers in the Negev Desert area. Unlike microorganisms, soil free-living nematodes were
found to be negatively dependent on monthly rain and positively dependent on water evaporation. We suggest that water evaporation
from pore caves in both soil formations increases the predation success of soil free-living nematodes, while daily rain increases
the survival potential of soil microorganisms since the predators require more time to find their prey. Soil properties were
found to have a different influence on microbial and soil free-living nematode communities in the two soil formations. Microbial
respiration and biomass were negatively correlated with calcium and potassium in the playa area and with sodium in the sandy
biological crust area. The free-living nematode community exhibited a negative correlation with electrical conductivity and
sodium and a positive correlation with potassium in the playa samples, while no dependence on soil properties was found in
the sandy biological crust samples. It can, therefore, be concluded that soil properties affect predation rate in the playa
samples through changes in porosity. Generally accepted ecological indices such as trophic diversity (T), Simpson’s dominance (λ), Shannon–Weaver (H′), maturity (MI), and basal (BI) indices pointed to specific ecological conditions at the two observed soil formations. 相似文献
4.
基于高通量测序研究草莓根际微生物群落结构和多样性 总被引:11,自引:3,他引:8
研究草莓根际土壤微生物群落组成和结构,对健康草莓土壤生态系统的构建和保持具有重要意义。以不同地区草莓根际土壤为研究样本,利用MiSeq平台Illumina第二代高通量测序技术并结合相关生物信息学分析土壤细菌16S rRNA基因V4+V5区域和真菌ITS1+ITS2区域的丰富度和多样性指数以及群落结构。结果表明:从15个草莓根际土壤样本中获得4554个细菌分类操作单元OTU和1298个真菌OTU,草莓根际土壤的优势细菌门为变形菌门、厚壁菌门、放线菌门、酸杆菌门和绿弯菌门,主要的优势细菌属有16种;优势真菌门为子囊菌门、接合菌门和担子菌门,主要的优势真菌属有8种。冗余分析(RDA)显示,全氮和pH对土壤微生物群落结构的影响最大,共解释了61%的群落变化,各因子的贡献率大小依次为土壤全氮pH有效磷全钾全磷有机质速效钾碱解氮;相关性分析也表明,土壤理化指标均与不同优势菌门存在密切的相关关系。本研究结果加深了对草莓根际微生物群落结构和多样性的认识,为深入研究草莓根际微生物多样性及功能与环境因子之间的关系提供了借鉴。 相似文献
5.
Lisbet Holm Bach John-Arvid Grytnes Mikael Ohlson 《Soil biology & biochemistry》2010,42(11):1934-1943
Biological communities differ over time and in space, and in the forest these communities often vary according to trees and tree gaps, mediated by mechanisms that are likely to change over time and as a tree are removed. In this paper we ask the questions: What is the influence of individual trees on soil microbial community structure? Does the soil microbial community change in the short-term when a tree is removed, and does this change depend on the initial influence of the tree? We use phospholipid fatty acid (PLFA) analysis and a geostatistical approach to study effects of trees and tree removal (thinning) on soil microbial community structure in a young boreal Norway spruce (Picea abies) forest. An experiment was setup where half (four) of the included trees were cut and soil was collected prior to (t0) and one month after (t1) tree felling. The samples were collected along two perpendicular transects originating from each of the eight study trees. A tree influence index was calculated for each sample point from the distances to neighbouring trees, weighted by tree diameter. We found that individual trees are important in structuring the soil microbial community as microbial community structure responded to the gradient in tree influence. Also strong spatial structure was found corresponding to the patch structure induced by trees. Changes in microbial community structure before and after tree felling (t0 and t1) was found to differ significantly between felled and non-felled trees: samples from felled trees came to resemble samples with a low value of tree influence and samples from below non-felled trees came to resemble samples with a high value for tree influence. We thus found that soil microbial community structure in a boreal forest is spatially structured by the distribution of single trees, and that soil microbial community structure varies seasonally and is affected by tree removal, in an intricate manner that reflects the initial influence of trees. 相似文献
6.
不同类型水稻土微生物群落结构特征及其影响因素 总被引:4,自引:1,他引:4
选取基于我国土壤地理发生分类的不同类型土壤发育的四种水稻土,利用15N2气体示踪法测定生物固氮速率,采用实时荧光定量PCR(Real-time PCR)技术测定细菌丰度,通过16S rRNA基因高通量测序分析微生物群落组成和多样性。结果表明:变形菌门(Proteobacteria)、酸杆菌门(Acidobacteria)、绿弯菌门(Chloroflexi)和蓝藻门(Cyanobacteria)是水稻土中优势微生物类群。四种类型土壤发育的水稻土细菌群落结构差异显著(Stress<0.001),群落结构分异(NMDS1)与土壤pH存在极显著正相关关系(P<0.01)。土壤有机碳和碱解氮含量显著影响水稻土中细菌丰度和群落多样性(P<0.01)。红壤发育的水稻土细菌16S rRNA基因拷贝数显著高于其他三种类型水稻土,但OTU数量、Chao1指数和PD指数均低于其他三种类型水稻土。土壤pH对水稻土生物固氮速率有显著影响(P<0.01),紫色土发育的水稻土具有最高的生物固氮速率(3.2±0.7 mg×kg-1×d-1),其中优势类群细鞘丝藻属(Leptolyngbya)可能是生物固氮的主要贡献者。研究结果丰富了对水稻土微生物多样性的认识,为通过调控土壤pH和微生物群落组成来提高稻田生物固氮潜力提供了理论依据。 相似文献
7.
Bin Zhang Huan Deng Hui-li Wang Rui Yin Bryan S. Griffiths Tim J. Daniell 《Soil biology & biochemistry》2010,42(5):850-859
Re-vegetation of eroded soil restores organic carbon concentrations and improves the physical stability of the soil, which may then extend the range of microhabitats and influence soil microbial activity and functional stability through its effects on soil bacterial community structure. The objectives of this study were (i) to evaluate the restorative effect of re-vegetation on soil physical stability, microbial activity and bacterial community structure; (ii) to examine the effects of soil physical microhabitats on bacterial community structure and diversity and on soil microbial functional stability. Soil samples were collected from an 18-year-old eroded bare soil restored with either Cinnamomum camphora (“Eroded Cc”) or Lespedeza bicolour (“Eroded Lb”). An uneroded soil planted with Pinus massoniana (“Uneroded Pm”) and an eroded bare soil served as references. The effect of microhabitats was assessed by physical destruction with a wet shaking treatment. Soil bacterial community structure and diversity were measured using a terminal restriction fragment length polymorphism (T-RFLP) approach, while soil microbiological stability (resistance and resilience) was determined by measuring short-term (28 days) decomposition rate of added barley (Hordeum vulgare) powder following copper and heat perturbations. The results demonstrated that re-vegetation treatment affected the recovery of physical and biological stability, microbial decomposition and the bacterial community structure. Although the restored soils overshot the Uneroded Pm sample in physical stability, they had lower microbial decomposition and less resilience to copper and heat perturbations than the Uneroded Pm samples. Soil physical destruction by shaking had the same effect on soil physical stability, but different effects on soil microbial functional stability. There were significant effects of vegetation treatment and perturbation type, and interactive effects among vegetation treatment, shaking and perturbation type on bacterial community structure. The destruction of aggregate structure increased resilience of the Eroded Lb sample and also altered its bacterial community structure. Both copper and heat perturbations resulted in significantly different community structure from the unperturbed controls, with a larger effect of copper than heat perturbation. Bacterial diversity (Shannon index) increased following the perturbations, with a more profound effect in the Uneroded Pm sample than in the restored soils. The interactive effects of vegetation treatment and shaking on microbial community and stability suggest that soil aggregation may contribute to the generation of bacterial community structure and mediation of biological stability via the protection afforded by soil organic carbon. Differential effects of re-vegetation treatment suggest that the long-term effects are mediated through changes in the quality and quantity of C inputs to soil. 相似文献
8.
微生物在众多的自然和人工生态系统中发挥着核心的作用,但能够被培养分离的微生物在大部分生态系统中只占极少一部分,极大地限制了人们对微生物组成、功能及其潜在应用的认识。分子生物学方法,尤其是高通量测序技术应用到微生物生态学研究中,为认识微生物多样性、群落结构组成及其生态功能提供了有利手段。高通量测序作为一种新兴的免培养分子生物学技术,具备检测快速、准确、信息全面丰富等特点。随着高通量测序技术的不断升级换代,测序通量、读长和准确度的不断提升以及成本的大幅下降,该技术在过去十几年间被迅速应用于土壤、水体和肠道等微生物区系的研究中。本文简述了基于高通量测序技术的PCR产物测序技术和宏基因组学测序技术的原理、发展历程、数据分析方法与应用,以及宏基因组学测序技术在病毒学领域的应用,以期为微生物分子生态学研究提供参考。 相似文献
9.
A comparative study of the microbial communities of the buried soils under the Anna Ioannovna mound (1718–1720) and the modern
soils developed on different geomorphic positions (watershed, slope, and high floodplain) in the Sakarka River basin (the
Privolzhskaya Upland) in the dry steppe zone was performed. The varying soil and ecological conditions of the different relief
features were established to dictate the differences in the characteristics of the microbial community of the buried and modern
soils, in particular, concerning the number of microorganisms belonging to different trophic groups (those restricted to sparse
nutrients, humus-consuming ones, and those utilizing easily available organic matter), the ecologo-trophic structure, and
the mycelia biomass and structure (the ratio between the light- and dark-colored hyphae). On the basis of the dispersion analysis,
a qualitative estimation of the relief features’ impact on the spatial variations of the microbiological parameters of the
soils under study is presented. 相似文献
10.
Conventional clear-cut timber harvest is a widespread industrial practice across the Pacific Northwest;however,information regarding how these practices impact soil microbial community structure at the regional scale is limited.With evidence of consistent and substantial impact of harvest on soil microbial functional profiles across the region(despite a range of environmental conditions),the objective of this study was to determine the extent to which harvest also influences the structure of prokaryotic and fungal soil microbial communities,and how generalized these trends are throughout the geographic region.Paired soil samples were collected one year before and after harvest across nine second-growth Douglas-fir forests in the Pacific Northwest.Total community DNA was extracted from the soils,and high-throughput targeted gene sequencing of the 16 S r RNA gene for prokaryotes and the internal transcribed spacer(ITS)gene for fungi was performed.Alpha diversity was consistently and significantly higher after harvest;it was moderately so for fungal communities(+14.6%),but only marginally so for prokaryotic communities(+2.0%).Similarly,on average,a greater proportion of the variation in the community structure of fungi(20.1%)at each site was associated with forest harvest compared to that of prokaryotes(13.2%).Overall,the greatest influence of timber harvest on soil microbial communities appeared to be a relative depletion of ectomycorrhizal fungi,with a concomitant enrichment of saprotrophic fungi.Understanding the short-term responses of soil microbial communities across the region,particularly those of tree root-associated symbionts,may aid our understanding of the role soil microbial communities play in ecological succession. 相似文献
11.
国内首次运用FastPrep○R 核酸快速提取系统提取了重金属复合污染农田土壤的DNA ,并对其进行了聚合酶链反应—变性梯度凝胶电泳 (PCR DGGE)分析。结果表明 ,FastPrep○R核酸提取仪与相应的FastD NASPINKitforSoil试剂盒联用时 ,能有效地分离到纯度较高的重金属污染农田土壤的DNA。PCR DGGE电泳图谱表明 ,PCR产物经DGGE检测后得到的电泳条带清晰且分离效果好 ,可以明显反映出重金属复合污染导致了农田土壤微生物在基因上的损伤 ,影响到农田土壤生态系统的细菌丰富度 ,改变了土壤环境的优势菌群 ,从而使农田土壤微生物群落结构多样性发生变化。可见 ,FastPrep○R核酸提取系统同样适用于重金属污染农田土壤环境中微生物基因组DNA的快速分离和纯化 ,得到的DNA可直接用于PCR DGGE分析。 相似文献
12.
Long-term fertilization regimes affect bacterial community structure and diversity of an agricultural soil in northern China 总被引:5,自引:2,他引:3
Yuan Ge Jia-bao Zhang Li-mei Zhang Min Yang Ji-zheng He 《Journal of Soils and Sediments》2008,8(1):43-50
Background, Aims, and Scope Knowledge about shifts of microbial community structure and diversity following different agricultural management practices
could improve our understanding of soil processes and thus help us to develop sound management strategies. A long-term fertilization
experiment was established in 1989 at Fengqiu (35°00′N, 114°24′E) in northern China. The soil (sandy loam) is classified as
aquic inceptisols and has received continuous fertilization treatments since then. The fertilization treatments included control
(CK, no fertilizer), chemical fertilizers nitrogen (N) and potassium (K) (NK), phosphorous (P) and K (PK), NP, NPK, organic
manure (OM), and half chemical fertilizers NPK plus half organic manure (1/2NPKOM). The objective of this study was to examine
if the microbial community structure and diversity were affected by the long-term fertilization regimes.
Materials and Methods Soil samples were collected from the long-term experimental plots with seven treatments and four replications in April 2006.
Microbial DNAs were extracted from the soil samples and the 16S rRNA genes were PCR amplified. The PCR products were analyzed
by DGGE, cloning and sequencing. The bacterial community structures and diversity were assessed using the DGGE profiles and
the clone libraries constructed from the excised DGGE bands.
Results The bacterial community structure of the OM and PK treatments were significantly different from those of all other treatments.
The bacterial community structures of the four Ncontaining treatments (NK, NP, NPK and 1/2NPKOM), as well as CK, were more
similar to each other. The changes in bacterial community structures of the OM and PK treatments showed higher richness and
diversity. Phylogenetic analyses indicated that Proteobacteria (30.5%) was the dominant taxonomic group of the soil, followed by Acidobacteria (15.3%), Gemmatimonadetes (12.7%), etc.
Discussion Irrespective of the two fertilization treatments of OM and PK, the cluster analysis showed that bacterial communities of the
remaining five treatments of CK, NK, NP, NPK and 1/2NPKOM seemed to be more similar to each other, which indicated the relatively
weak effects of the four N-containing treatments on soil bacterial communities. N fertilizer may be considered as a key factor
to counteract the effects of other fertilizers on microbial communities.
Conclusions Our results show that long-term fertilization regimes can affect bacterial community structure and diversity of the agricultural
soil. The OM and PK treatments showed a trend towards distinct community structures, higher richness and diversity when compared
to the other treatments. Contrasting to the positive effects of OM and PK treatments on the bacterial communities, N fertilizer
could be considered as a key factor in the soil to counteract the effects of other fertilizers on soil microbial communities.
Recommendations and Perspectives Because of the extremely high abundance and diversity of microorganisms in soil and the high heterogeneity of the soil, it
is necessary to further examine the effects of fertilization regimes on microbial community and diversity in different type
soils for comprehensively understanding their effects through the appropriate combination of molecular approaches.
ESS-Submission Editor: Chengrong Chen, PhD (c.chen@griffith.edu.au) 相似文献
13.
《国际水土保持研究(英文)》2021,9(4):639-648
The fertile forages in the Tibetan Plateau provide natural conditions for animal husbandry, whereas it is still unclear that whether animal excretion can result in the alteration of soil microbial community. Therefore, this study was performed to investigate the impact of animal excretion contamination and land altitude on the soil microbial community in different grazing areas of Tibetan Plateau. A total of 1160,190 high-quality valid sequences and 25,478 operational taxonomic units were achieved from 18 samples at three different altitude sites (Linzhi, Rikaze and Shannan). Here, we found excremental contamination did not alter the richness and diversity of soil microbial community, but it resulted in a significant alteration in the proportion of some bacteria. Specifically, the proportion of Proteobacteria in the LZa was obviously increased, whereas Gemmatimonadetes was significantly decreased as compared to LZe. Moreover, significant difference can also be observed in Verrucomicrobia between RKZe and RKZa. Remarkably, we also found that excremental contamination significantly decreased the abundance of some bacterial genera, such as Sphingopyxis, Polycyclovorans, Singulisphaera Cohnella, Polycyclovorans, Defluviicoccus, and Arthrobacter, which were closely related to soil health, pollutant degradation, and nutrient metabolism. Importantly, excremental contamination increased the proportion of harmful and beneficial bacteria in soil, such as the percentage of Acidibacter, Gemmatimonadaceae and Pajaroellobacter increased, while the ratio of Pontibacter, Flavisolibacter, Parasegetibacter, and Niastella decreased. Remarkably, soil samples collected from different altitude sites also displayed different soil microbial community structures. Our results demonstrated that excremental contamination could alter the soil microbial community structure and affect the normal function of the soil by affecting the proportion of harmful bacteria to beneficial bacteria. Moreover, this study can also provide a theoretical basis for the establishment of a supervision system for soil quality in Tibet. 相似文献
14.
The effects of the pesticides fenitrothion, chlorothalonil, chloropicrin, linuron, and simazine on the structure of microbial communities in a Nagoya University Farm soil (Typic Palehumult) were assessed for 28 days by monitoring changes in respiratory quinone profiles. Pesticides were applied to the soil at 10 times the recommended rates. Fenitrothion, linuron, and simazine did not significantly affect the total amount of quinones (an indicator of microbial biomass), the diversity of the quinones (an indicator of taxonomic diversity of the microbial community), or the composition of the quinone species (an indicator of community structure). Chlorothalonil decreased the diversity of quinones immediately after application, but no significant effect was observed after 3 days of incubation. The amount and composition of the quinones were not affected by chlorothalonil application. Application of chloropicrin decreased the amount and diversity of the quinones for 28 days. A continuous change in the structure of the microbial community in the chloropicrin-treated soil was documented by the change in the dominant quinone species. No change was observed in the control soil. It was suggested that quinone profile analysis is a potential method to detect the effect of pesticide on a soil microbial community. Less pronounced changes in the quinone profile indicated that changes in the structure of a soil microbial community may be masked by the persistent quinones from killed microorganisms. 相似文献
15.
Previous studies have shown that carbon (C) mineralization in saline or sodic soils is affected by various factors including
organic C content, salt concentration and water content in saline soils and soil structure in sodic soils, but there is little
information about which soil properties control carbon dioxide (CO2) emission from saline-sodic soils. In this study, eight field-collected saline–sodic soils, varying in electrical conductivity
(ECe, a measure of salinity, ranging from 3 to 262 dS m−1) and sodium adsorption ratio (SARe, a measure of sodicity, ranging from 11 to 62), were left unamended or amended with mature wheat or vetch residues (2% w/w). Carbon dioxide release was measured over 42 days at constant temperature and soil water content. Cumulative respiration
expressed per gram SOC increased in the following order: unamended soil<soil amended with wheat residues (C/N ratio 122)<soil
with vetch residue (C/N ratio 18). Cumulative respiration was significantly (p < 0.05) negatively correlated with ECe but not with SARe. Our results show that the response to ECe and SARe of the microbial community activated by addition of organic C does not differ from that of the less active microbial community
in unamended soils and that salinity is the main influential factor for C mineralization in saline–sodic soils. 相似文献
16.
稻鳖共作是一种绿色、高效的生态农业种养模式,然而有关共作模式对稻田土壤微生物群落结构与功能特征的影响及其驱动因子的研究鲜有报道。为此,该研究以水稻单作(RM)和稻鳖共作(RT)处理的稻田土壤为研究对象,采用Illumina高通量测序技术分析土壤细菌和真菌群落结构的变化,并探讨土壤理化性质和微生物群落间的相关性。结果表明:1)稻鳖共作模式使土壤有机质(Soil Organic Matter,SOM)、总钾(Total potassium,TK)、碱解氮(Alkali-hydrolyzale Nitrogen,AN)、有效磷(Available Phosphorus,AP)和速效钾(Available potassium,AK)含量显著提高了37.72%、15.15%、13.80%、37.37%和21.57%(P<0.05)。2)稻鳖共作模式提高了土壤微生物丰富度和多样性,改变了微生物群落结构。共作使土壤细菌变形菌门(Proteobacteria)、酸杆菌门(Acidobacteriota)、真菌子囊菌门(Ascomycota)和罗兹菌门(Rozellomycota)相对丰度分别增加了6.42%、1.16%、0.44%和2.96%,真菌担子菌门(Basidiomycota)相对丰度降低了0.22%。3)共线网络分析表明,稻鳖共作增加了细菌微生物网络总节点数、边数、平均聚类数和模块化,增强了微生物网络复杂度,加强了群落间的联系;共作降低了真菌微生物网络节点数,但增加了正相互作用的微生物,增强了微生物间的协同合作。4)冗余分析(Redundancy Analysis,RDA)表明,土壤有机质、全钾和速效钾含量是影响细菌群落结构变化的主要环境因子,全钾、速效钾和有效磷含量是影响真菌群落结构变化的主要环境因子。综上,稻鳖共作有利于提高稻田土壤肥力,改变土壤微生物群落结构,并提高了微生物多样性,使微生物群落间的联系更紧密。该研究为探究科学合理的稻田栽培模式提供了重要的科学依据。 相似文献
17.
Rasit Asiloglu Hiroki Honjo Norikuni Saka Susumu Asakawa Jun Murase 《Soil Science and Plant Nutrition》2013,59(5):761-768
Rice roots provide a specific habitat for microorganisms in the rhizosphere of a submerged field through supply of oxygen and organic matter. Many studies have focused on the microbial community in the rice rhizosphere, but less is still known about the microeukaryotic community structure of rice rhizosphere. This study explored the microeukaryotic community structure of a rice rhizosphere through denaturing gradient gel electrophoresis (DGGE) targeting 18S rRNA gene. The rice roots and the rhizosphere soil samples, which were collected from a field under rice-wheat rotation system, were separately analyzed. To characterize the rice rhizosphere-specific community, the bulk soil of rice field and the wheat rhizosphere samples were also examined. DGGE fingerprints showed that the microeukaryotic community of rice roots were distinct from the community of the bulk soil and showed a temporal shift with the growth stage. The rhizosphere soil community was distinct from the root and bulk soil communities, but this could be explained by that the root and bulk soil communities were shared in the rhizosphere. The rice rhizosphere community was also distinct from those in the wheat rhizosphere. Microeukaryotes that characterized the rice rhizosphere (roots and the rhizosphere soil) community could be affiliated to Polymyxa, flagellates, and oomycetes, which suggested that microeukaryotes with various ecological roles, e.g., parasites, bacterial grazers, and decomposers, inhabit the rice rhizosphere. The results showed that the rice root and its growth stages are key factors shaping the microeukaryotic community structure in the rhizosphere. 相似文献
18.
苯、甲苯、乙苯和二甲苯统称为苯系物(BTEX),是化工污染场地检出率最高的芳香族有机污染物。为研究BTEX长期污染对土壤和地下水微生物群落结构和代谢潜能的影响,采集了江苏省某搬迁化工厂的浅层土、地下水和深层土样品,利用16S rRNA基因扩增子测序和宏基因组测序技术对BTEX长期污染场地展开分析。结果表明:相比较未受污染的土壤样品,长期BTEX污染显著改变了微生物群落结构和多样性,其中以变形菌门改变最为显著。共现性网络分析表明,污染场地中随着样品取样深度的增加,微生物网络复杂性和群落稳定性降低。BTEX代谢功能基因注释表明,地下水样品中污染物代谢基因丰度和多样性更高,并且在地下水和浅层土中同时存在完整的好氧降解途径,但在地下水中厌氧降解基因的丰度更高。BTEX降解途径中benABC和bcrCBAD基因簇在浅层土中更完整,但通过构建BTEX开环的关键基因bamA的系统发育树表明,地下水中可能存在新的BTEX开环基因。这些结果证明BTEX长期污染的不同生境中存在高度多样的微生物群落与降解途径,为相关污染场地的微生物修复提供了科学依据。 相似文献
19.
黄河三角洲退化湿地微生物群落特性研究 总被引:4,自引:0,他引:4
WANG Zhen-Yu XIN Yuan-Zheng GAO Dong-Mei LI Feng-Min J. MORGAN XING Bao-Shan 《土壤圈》2010,20(4):466-478
Five different sites with a soluble salt gradient of 3.0--17.7 g kg-1 dry soil from the coast to the inland were selected, and the microbial population size, activity and diversity in the rhizospheres of five common plant species and the adjacent bulk soils (non-rhizosphere) were compared in a degraded wetland of the Yellow River Delta, Shandong Province, China to study the effects of soil environment (salinity, seasonality, depth, and rhizosphere) on microbial communities and the wetland’s ecological function, thus providing basic data for the bioremediation of degraded wetlands. There was a significant negative linear relationship between the salinity and the total number of microorganisms, overall microbial activity, or culturable microbial diversity. Salinity adversely affected the microbial community, and higher salinity levels resulted in smaller and less active microbial communities. Seasonal changes were observed in microbial activity but did not occur in the size and diversity. The microbial size, activity and diversity decreased with increasing soil depth. The size, activity and diversity of culturable microorganisms increased in the rhizospheres. All rhizospheres had positive effects on the microbial communities, and common seepweed had the highest rhizosphere effect. Three halophilic bacteria (Pseudomonas mendocina, Burkholderia glumae, and Acinetobacter johnsonii) were separated through BIOLOG identification, and common seepweed could be recommended for bioremediation of degraded wetlands in the Yellow River Delta. 相似文献
20.
《Applied soil ecology》2008,38(3):247-255
Soil microbial community structure and crop yield was investigated in field tomato production systems that compared black polyethylene mulch to hairy vetch mulch and inorganic N to organic N. The following hypotheses were tested: (1) hairy vetch cover cropping increases crop yield and significantly affects soil microbial community structure when compared to the standard plastic mulch and synthetic fertilizer-based system; (2) within plastic mulch systems, organic amendments will increase crop yield and significantly affect soil microbial community structure when compared to synthetic fertilizer; (3) crop yields and microbial community structure will be similar in the hairy vetch cover cropping and the organic amended plasticulture systems. Treatments consisted of ammonium nitrate (control), hairy vetch cover crop, hairy vetch cover crop and poultry manure compost (10 Mg/ha), three levels of poultry manure compost (5, 10, and 20 Mg/ha), and two levels of poultry manure (2.5 and 5 Mg/ha). Black polyethylene mulch was used in all treatments without hairy vetch. Fatty acid analysis was used to characterize the total soil microbial community structure, while two substrate utilization assays were used to investigate the community structure of culturable bacteria and fungi. Crop yield was not significantly increased by hairy vetch cover cropping when compared to black polyethylene mulch, although microbial community structure was significantly affected by cover cropping. Under black polyethylene mulch, crop yields were significantly increased by the highest levels of compost and manure when compared to inorganic fertilizer, but there was no detectable effect on soil microbial community structure. When cover cropping was compared to organic amended plasticulture systems, crop yields were similar one year but dissimilar the next. However, hairy vetch cover cropping and organic amendments under black plastic mulch produced significantly different soil microbial community structure. 相似文献