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1.
洞庭湖典型湿地植被群落土壤微生物特征   总被引:2,自引:0,他引:2  
以洞庭湖湿地3种典型植被(虉草、苔草、芦苇)为对象,研究了不同植被下土壤微生物生物量和微生物呼吸等特征,并对其主要影响因子进行了分析.结果表明:微生物生物量碳、氮和微生物呼吸以虉草群落最高,苔草群落次之,芦苇群落最低,微生物碳熵变化趋势为虉草群落>苔草群落>芦苇群落,微生物呼吸熵具有与微生物碳熵相反的变化趋势.相关分析表明:土壤含水量、容重和有机质是影响土壤微生物特征变化的重要因子,同时,土壤pH和土壤总氮与土壤微生物生物量碳、微生物生物量氮、微生物呼吸等也有较强的关联性.  相似文献   

2.
鄂尔多斯台地盐沼滩涂湿地土壤细菌群落结构及特征   总被引:2,自引:0,他引:2  
依据植被分类法将鄂尔多斯高原盐沼滩涂湿地划分为肉质耐盐草甸(B)、苔草草甸(C)、禾草草甸(D)和杂类草草甸(E)等4个植被亚型,并以盐沼裸地(A)为对照样地,共计5种盐沼滩涂湿地景观类型。运用高通量测序技术分别研究其土壤细菌群落结构特征、分布情况,以及土壤盐分与土壤细菌之间的关系。结果表明:(1) 5种盐沼滩涂湿地的土壤细菌样品共12213条OTUs,属于45个门,122个纲,365个目,663个科,1375个属,2882个种。(2)变形菌门(26.19%)是盐沼滩涂湿地平均相对丰度最高的门,其次为放线菌门(17.15%),绿弯菌门(12.62%),芽单胞菌门(Gemmatimonadetes,11.23%),拟杆菌门(Bacteroidetes,9.38%),酸杆菌门(Acidobacteria,8.83%)厚壁菌门(Firmicutes,2.96%);芽单胞菌纲中的未定细菌(norank_c_Gemmatimonadetes)是丰度最高的属,平均丰度为5.75%。(3)鄂尔多斯盐沼滩涂湿地自西南向东北,空间位置相近的土壤细菌群落结构具有更大的相似性,随着土壤盐分变化,变形菌门相对...  相似文献   

3.
鄂尔多斯台地盐沼滩地微生物群落与土壤条件分析   总被引:2,自引:1,他引:1       下载免费PDF全文
【背景】我国北方内陆区与平原区土地盐碱化问题严重,针对微生物如何在极端盐碱地植被演替过程中发挥作用的研究鲜有报道。【目的】研究鄂尔多斯台地5种不同植被类型的盐沼湿地微生物群落与土壤条件的关系,筛选出耐盐碱菌群及影响耐盐碱菌群的土壤环境因子。【方法】采用高通量测序技术,对其微生物细菌群落组成进行了比对分析。【结果】鄂尔多斯盐沼湿地5种植被类型土壤细菌群落丰度为:苔草草甸>杂类草草甸>禾草草甸>肉质耐盐草甸>盐沼裸地;多样性的排序为:苔草草甸>杂类草草甸>肉质耐盐草甸>禾草草甸>盐沼裸地;变形菌门均为5种植被类型样地土壤细菌群落丰度最高的菌种,随4种盐沼滩涂湿地的演替,变形菌门相对丰度存在先增大后减小的趋势,与异常球菌-栖热菌门的变化趋势相反;土壤黏粒与芽单胞菌门呈极显著正相关关系,随土壤粒径增大,厚壁菌门与其相关性也逐渐增加;鄂尔多斯台地盐沼滩地的土壤化学指标与细菌群落相关性大小排序是AK>TP>SOC>TN>AN>AP>pH。【结论】变形菌门为鄂尔多斯盐沼湿地各植被演替阶段丰度最高的菌群,放线菌纲、α-...  相似文献   

4.
张全军  于秀波  钱建鑫  熊挺 《生态学报》2012,32(12):3656-3669
湿地植物和土壤是承担湿地诸多生态功能的主要基质和载体,相互之间有着强烈的影响。湿地土壤影响植物的种类、数量、生长发育、形态和分布,湿地植物又影响土壤中元素的分布与变化。鄱阳湖湿地的植物和土壤的特征及由他们带来的候鸟栖息地价值都受到他们之间的相互作用以及湖泊水位不同频率和幅度波动的影响。研究鄱阳湖湿地植物和土壤的特征及其形成原因和相互关系。为此,从2010年10月到2011年10月,对鄱阳湖湿地不同水位梯度下分布的芦苇、南荻、苔草、虉草和刚毛荸荠5个优势植物群落中57个定点样方展开了月度植被调查并且对5个不同植物群落下的135个土壤样品进行了实验室分析,研究了鄱阳湖优势植物群落及湿地土壤中有机质、全氮、全磷、全钾含量的分布特征及其相互关系。研究结果表明,鄱阳湖湿地优势植物群落分布特征受湿地土壤元素分布特征、湖面水位波动及植物生长特性和土壤沉积及土壤养分的综合影响,呈现了沿水位和海拔梯度明显的条带状或弧状分布、从湖岸到湖心依次分布为:狗牙根群落、芦苇群落、南荻群落、苔草群落、虉草群落、刚毛荸荠群落,最后是水生植物。同时植物群落的组成和分布特征也随季节性水位涨落的变化而变化;土壤有机质及其他各元素含量特征受植物群落分布、水位波动规律及湿地土壤特性等各种因素的影响,呈现出相对一致的分布规律,在0—20cm土壤层含量较高,20cm层后随土壤深度的增加含量逐渐减小,减小的速度先快后慢直至40cm层后趋于稳定;不同植物群落对土壤有机质、全氮、全磷、全钾的含量及变化具有很大的影响,不同植物群落下同种元素含量差异显著,并且各自随土壤深度和植物群落的变化呈现出层状、带状或弧状富集特征。不同植物群落对土壤养分元素含量影响程度不同,苔草群落对各元素吸收和滞留能力最强、影响最大,刚毛荸荠群落对土壤营养元素影响最弱。湿地植物群落和土壤之间彼此有着强烈的影响,其中植株的重量和土壤的SOC、TN及TP含量有非常显著的负相关关系,与土壤TK含量则有较强的正相关关系,同时,植株的重量和高度与土壤地下水埋深也有微弱的负相关关系。  相似文献   

5.
湿地生态系统在生物多样性保护等方面有着重要的功能及地位, 不同的湿地生态系统在功能上存在差异, 土壤微生物在湿地生态系统中发挥着重要作用, 但目前对河源湿地的土壤微生物群落开展的研究较少。全球变暖大背景下, 为探究温度升高对河源湿地土壤微生物的影响, 利用高通量测序方法来深入了解模拟增温后土壤细菌及真菌的群落结构及多样性的变化。青海湖河源湿地细菌的优势菌群为变形菌门、酸杆菌门、放线菌门及厚壁菌门, 真菌的优势菌群为子囊菌门、担子菌门。细菌群落对比真菌群落而言对土壤增温的响应更为明显, 细菌菌群的相对丰度呈增加趋势, 真菌群落仅Hypocreales目相对丰度显著增加; 土壤细菌及真菌群落的丰富度均降低, 而群落多样性增加。增温影响了土壤细菌及真菌的群落结构及多样性, 且细菌群落对土壤增温更为敏感。  相似文献   

6.
林下植被是人工林生态系统的重要组成部分。本研究采用高通量测序技术,分析林下植被保留、林下植被去除和林下套种3种林下植被管理措施对杉木大径材人工林土壤细菌多样性、细菌群落结构组成以及相对丰度的影响,并分析土壤理化性质与细菌群落多样性的关系。结果表明: 林下植被保留处理的土壤细菌群落Chao1指数、Ace指数和Shannon指数高于林下植被去除和林下套种;放线菌门、酸杆菌门和绿弯菌门为本研究区杉木人工林土壤主要优势细菌;与林下植被去除和林下套种处理杉木人工林土壤细菌群落相比,林下植被保留处理土壤变形菌门、浮霉菌门、厚壁菌门和疣微菌门等相对丰度较高,而放线菌门、酸杆菌门和绿弯菌门的相对丰度较低;3种林下植被管理措施之间,土壤厚壁菌门、浮霉菌门、疣微菌门、Parcubacteria门和放线菌门等类群相对丰度差异显著;土壤含水率、全氮、全磷、水解氮和速效磷含量是影响细菌群落结构的重要因子,细菌多样性指数与土壤全氮、全磷、全钾、水解氮和速效钾含量呈显著正相关。  相似文献   

7.
了解雅鲁藏布江大峡谷沿岸不同植被根际土壤细菌群落结构和多样性特征对于揭示该区植被与土壤的相互作用具有重要科学意义。采用Illumina Miseq高通量测序技术,研究了雅鲁藏布江沿岸自然分布和生长的艾草Artemisia argyi H. Lév.&Vaniot、白刺花Sophora davidii(Franch)、八宝Hylotelephium erythrostictum(Miq.)H. Ohba、黄刺玫Rosa xanthina Lindl4种典型植被根际土壤细菌群落结构和多样性,并结合植物根际土壤养分含量进行相关性分析。雅鲁藏布江沿岸4种植物根际土壤中共有28门、84纲、156目、262科、599属土壤细菌,其中变形菌门、酸杆菌门、放线菌门是雅鲁藏布江岸边植物根际土壤的优势菌群,相对丰度较高,其次为拟杆菌门、芽单胞菌门、疣微菌门。在门水平上,4种植物根际土壤细菌的群落结构组成表现为黄刺玫和艾草相似,而八宝和另外三种植物相差较大。土壤细菌OTUs(操作分类单元)数和Chaol均以艾草为最高,其值分别是6695和8000.02,以白刺花为最低,其值分别是4563和5113....  相似文献   

8.
古大湖湿地盐碱土壤微生物群落结构及多样性分析   总被引:2,自引:0,他引:2  
以黑龙江省古大湖湿地原生、林地、耕地及湖岸盐碱土壤微生物为研究对象,基于高通量测序方法,分析4种生境类型条件下土壤细菌和真菌群落结构及多样性。结合土壤理化指标,进一步分析影响微生物群落多样性的环境因子。结果表明:细菌群落中变形菌门的相对丰度值最高,真菌群落中为子囊菌门。同一生境细菌群落多样性具有相似性,而真菌具有一定的差异;不同生境间两者均具有差异。耕地土壤和林地土壤的细菌群落多样性接近,但与湖岸土壤真菌的更相近。前两者中细菌群落多样性较高,其次为原生土壤,而湖岸土壤中的最低。耕地土壤与湖岸土壤真菌群落多样性较高,原生土壤较低,而林地土壤中最低。与真菌相比,细菌的群落多样性受土壤环境因子影响更大,其中pH值、含水量对土壤细菌和真菌群落多样性均具有显著影响。  相似文献   

9.
甘肃小陇山油松与柴胡栽培土壤细菌群落特征   总被引:2,自引:0,他引:2  
土壤细菌能够有效促进土壤中物质循环和能量流动,其群落组成、数量及多样性能够反映土壤质量状况。研究不同植被对土壤细菌群落结构和多样性的影响,有助于深入了解土壤健康状况,对实现植被管理和土地可持续利用具有重要意义。以甘肃小陇山移栽至耕地(耕地前期种植柴胡)后生长4年的人工油松苗(Pinus tabulaeformis Carr)土地和长期种植柴胡(Bupleurum chinense)土地的表层土壤(0—30 cm)为对象,采用Illumina Miseq高通量测序技术对2种人工植被下土壤细菌群落进行测定,分析了土壤细菌的Alpha多样性、群落组成和丰富度,并研究土壤化学性质对细菌群落结构的影响。结果表明:1)两种不同植被的土壤细菌群落丰度和多样性无明显差异,但油松地土壤细菌群落均匀度明显小于柴胡地土壤。2)所测土壤样品中共检测到细菌的37个门,84个纲,168个目;其中,主要的优势菌门为变形菌门(Proteobacteria),酸杆菌门(Acidobacteria),绿弯菌门(Chloroflexi),浮霉菌门(Planctomycetes),放线菌门(Actinobacteria),且油松地土壤中的变形菌门(Proteobacteria)的丰富度显著低于柴胡地土壤(P 0. 05),绿弯菌门(Chloroflexi)丰富度却显著高于柴胡地(P 0. 05);主要的优势菌纲为酸杆菌纲(Acidobacteria),β-变形菌纲(Betaproteobacteria),放线菌纲(Actinobacteria),变形菌纲(Alphaproteobacteria)和芽单胞菌纲(Gemmatimonadetes),但各优势菌纲的丰度在两个植被土壤之间差异不显著(P0.05)。3)变形菌门(Proteobacteria)丰富度与土壤的碱解氮含量呈显著负相关(P0.05),酸杆菌门(Acidobacteria)丰富度与全氮含量显著负相关(P0.01);通过RDA分析发现,碱解氮和全氮是影响细菌群落结构的最主要因子。可见,油松和柴胡植被土壤细菌群落结构及多样性差异不大,但油松地土壤细菌群落的物种分配较柴胡地集中,且优势细菌门中的变形菌门和绿弯菌门在两者之间的差异显著,同时,碱解氮和全氮含量是影响2种植被土壤细菌群落的主要因子。这些结论为了解小陇山不同植被土壤微生物群落组成及多样性提供理论,也为当地进行人工油松苗的种植、经营及土壤管理提供参考。  相似文献   

10.
【背景】荒漠草原盐沼湿地是陆地生态系统的重要组成部分,土壤水分和盐分变化是影响该生态系统土壤细菌群落构建的重要因素。【目的】土壤细菌群落构建是由确定性和随机性主导的连续生态过程,阐明荒漠草原盐沼湿地土壤细菌群落的构建机制对于加深微生物作为关键生态系统因子重要性的理解具有积极意义。【方法】以宁夏中部典型荒漠草原盐沼苦水湖湿地为研究对象,对近湖边(near the lake,NL)和远离湖边(far from the lake,FL)苦豆子群落土壤理化特性进行测定并结合土壤细菌高通量测序分析。【结果】NL和FL样地具有明显的水盐梯度变化,NL样地土壤pH、含水量和电导率均显著高于FL样地;变形菌门、放线菌门、厚壁菌门、拟杆菌门和黏菌门是研究区域土壤细菌群落的优势菌门,变形菌门相对丰度随水盐梯度上升而升高,放线菌门和厚壁菌门相对丰度则随之下降,门下成员大多与水盐变化具有明显的相关性;此外,FL样地土壤细菌网络则具有稳定的网络关系;随着NL样地向FL样地的延伸,土壤细菌群落由随机过程主导,并且受pH、电导率和环境变量的影响。【结论】荒漠草原盐沼湿地水分和盐分的变化改变了土壤细菌群落结构;土壤细菌群落通过生态位占据等策略提高逆境下的生存能力;细菌群落构建是随机过程和确定性过程组成的连续统一体,同样受环境变化的影响。本结果揭示了荒漠草原盐沼湿地细菌群落结构和相互关系对环境变化的响应特征,同时阐明了该区土壤细菌群落的构建机制及影响因素,也为相关科学研究提供了一定理论参考。  相似文献   

11.
Short‐rotation woody biomass crops (SRWCs) have been proposed as an alternative feedstock for biofuel production in the northeastern US that leads to the conversion of current open land to woody plantations, potentially altering the soil microbial community structures and hence functions. We used pyrosequencing of 16S and 28S rRNA genes in soil to assess bacterial and fungal populations when ‘marginal’ grasslands were converted into willow (Salix spp.) and hybrid poplar (Populus spp.) plantations at two sites with similar soils and climate history in northern Michigan (Escanaba; ES) and Wisconsin (Rhinelander; RH). In only three growing seasons, the conversion significantly altered both the bacterial and fungal communities, which were most influenced by site and then vegetation. The fungal community showed greater change than the bacterial community in response to land conversion at both sites with substantial enrichment of putative pathogenic, ectomycorrhizal, and endophytic fungi associated with poplar and willow. Conversely, the bacterial community structures shifted, but to a lesser degree, with the new communities dissimilar at the two sites and most correlated with soil nutrient status. The bacterial phylum Nitrospirae increased after conversion and was negatively correlated to total soil nitrogen, but positively correlated to soil nitrate, and may be responsible for nitrate accumulation and the increased N2O emissions previously reported following conversion at these sites. The legacy effect of a much longer grassland history and a second dry summer at the ES site may have influenced the grassland (control) microbial community to remain stable while it varied at the RH site.  相似文献   

12.
Forest management often results in changes in the soil and its microbial communities. In the present study, differences in the soil bacterial community caused by forest management practices were characterized using small subunit (SSU) ribosomal RNA (rRNA) gene clone libraries. The communities were from a native hardwood forest (HWD) and two adjacent conifer plantations in a low-elevation montane, subtropical experimental forest at the Lienhuachi Experimental Forest (LHCEF) in central Taiwan. At this locality, the elevation ranges from 600 to 950 m, the mean annual precipitation is 2,200 mm, the mean annual temperature is 20.8°C, and the soil pH is 4. The conifer forests included a Cunninghamia konishii Hay (CNH) plantation of 40 years and an old growth Calocedrus formosana (Florin) Florin (CLC) forest of 80 years. A total of 476 clones were sequenced and assigned into 12 phylogenetic groups. Proteobacteria-affiliated clones (53%) predominated in the library from HWD soils. In contrast, Acidobacteria was the most abundant phylum and comprised 39% and 57% in the CLC and CNH libraries, respectively. Similarly, the most abundant OTUs in HWD soils were greatly reduced or absent in the CLC and CNH soils. Based on several diversity indices, the numbers of abundant OTUs and singletons, and rarefaction curves, the diversity of the HWD community (0.95 in evenness and Shannon diversity indices) was somewhat less than that in the CNH soils (0.97 in evenness and Shannon diversity indices). The diversity of the community in CLC soils was intermediate. The differences in diversity among the three communities may also reflect changes in abundances of a few OTUs. The CNH forest soil community may be still in a successional phase that is only partially stabilized after 40 years. Analysis of molecular variance also revealed that the bacterial community composition of HWD soils was significantly different from CLC and CNH soils (p = 0.001). These results suggest that the disturbance of forest conversion and tree species composition are important factors influencing the soil bacterial community among three forest ecosystems in the same climate.  相似文献   

13.
鄱阳湖越冬雁类食源植被适宜取食时间窗口   总被引:1,自引:1,他引:0       下载免费PDF全文
雁类是长江中下游越冬水鸟的优势种群,以苔草(Carex spp)等湿生植被为主要食物来源。作为长江中下游仅存的通江湖泊之一,鄱阳湖显著受到水文波动的影响,湿地植被的生长发育与洲滩淹没和出露时间密切相关。雁类对食物资源具有高度的选择性,建立雁类取食植被的特征和苔草生长过程之间的关系,是刻画适宜栖息地时空分布范围,开展雁类及其食物资源保育的关键。选择鄱阳湖典型子湖泊常湖池作为研究区,对苔草春季生长期开展了原位观测试验,对4个高程梯度的苔草株高和生物量等关键生长因子进行了12次野外监测和采样。同时,结合遥感影像、气温数据及实地观测记录,确定了4个高程梯度洲滩的出露时间和苔草有效生长时间。在此基础上,建立了基于Logistic方程的苔草株高和生物量的生长过程曲线。并根据实地观测的雁类觅食苔草的特征,反推得到雁类适宜取食苔草的时间窗口。结果表明:苔草株高与地上生物量显著正相关,水文条件和气温是影响苔草生长的关键因素,而退水时间的推迟,会导致生长期缩短和低温限制下的有效生长时间减少,影响雁类食物资源的分布。苔草在秋季生长期出露达到12—28 d,而在春季生长期出露达到83—182 d时适宜雁类取食。研究提出了确定越冬雁类苔草适宜取食时间窗口的方法,证实洲滩退水时间推迟超过20 d,苔草生长节律将难以匹配雁类数量峰值期觅食的需要。本研究对鄱阳湖湿地水文调控和湿地资源管理具有重要意义。  相似文献   

14.
We studied redoximorphic features, field indicators and bacterial communities of soils in hummocks and hollows of a palustrine forested wetland in Virginia. We hypothesized that presence of hydric soils, soil physicochemistry and soil bacterial community structure would differ between hummocks and hollows. We fingerprinted soils collected from different microtopographic locations using Length Heterogeneity Polymerase Chain Reaction (LH-PCR) to study their bacterial community structures. Two hummocks had silty/sandy loam soils with mean chroma values of > 4, showing no indication of ‘hydric soils’ (i.e., wetland soils). Two hollows, however, had clay loam soils with mean chroma values of 2 with gleying and redox concentrations observed, indicative of seasonally inundated wetlands. The soils of hollows also had higher organic matter content and soil moisture compared to the soils of hummocks (P < 0.05). Multidimensional scaling (MDS) and Analysis of similarity (ANOSIM) of the fingerprints revealed differences in soil microbial community structures between hummocks and hollows (Global R = 0.30, P < 0.01). The diversity measures of the fingerprints (Shannon’s H′) were also different by microtopography with higher diversity in hollows relative to hummocks (P < 0.05). LH-PCR proves to be a useful tool in examining bacterial community composition of wetland soils in this study. However, cloning and sequencing of specific community LH-PCR profiles of interest is necessary to fully characterize the community down to genus/species level. With species identities we should be able to not only better explain differences observed in the community profiles, but study their relations to hydrologic and/or physicochemical conditions of wetlands.  相似文献   

15.
Efforts to eradicate invasive plants in restorations can unintentionally create conditions that favor reinvasion over the establishment of desired species, especially when remnant invasive propagules persist. Reducing resources needed by the invader for seedling establishment, however, may be an effective strategy to prevent reinvasion. Propagules of Phalaris arundinacea persist after removal from sedge meadow wetlands and reestablish quickly in posteradication conditions, hindering community restoration. A study was conducted in two experimental wetlands with controlled hydrologic regimes to determine if reducing light by sowing short‐lived, nonpersistent native cover crops or immobilizing soil N by incorporating soil–sawdust amendments can prevent Phalaris reinvasion, allowing native communities to recover. A 10‐species perennial target community and Phalaris were sown with high‐diversity, low‐diversity, or no cover crops in soils with or without sawdust, and seedling emergence, establishment, and growth were measured. High‐diversity cover crops reduced light, decreasing Phalaris and target community seedling establishment by 89 and 57%, respectively. Short‐term nitrogen reduction in sawdust‐amended soils delayed Phalaris seedling emergence and decreased Phalaris seedling establishment by 59% but did not affect total target community seedling establishment. The target community reduced Phalaris seedling establishment as effectively as cover crops did. In plots where the target community was grown, amending soils with sawdust further reduced Phalaris seedling growth but not establishment. Results show that use of cover crops can reduce seedling establishment of desired species and is counterproductive to restoration goals. Further, establishing target species is more important and practical for limiting Phalaris reinvasion than is immobilizing nitrogen.  相似文献   

16.
Members of the bacterial candidate phylum WPS-2 (or Eremiobacterota) are abundant in several dry, bare soil environments. In a bare soil deposited by an extinct iron–sulfur spring, we found that WPS-2 comprised up to 24% of the bacterial community and up to 108 cells per g of soil based on 16S rRNA gene sequencing and quantification. A single genus-level cluster (Ca. Rubrimentiphilum) predominated in bare soils but was less abundant in adjacent forest. Nearly complete genomes of Ca. Rubrimentiphilum were recovered as single amplified genomes (SAGs) and metagenome-assembled genomes (MAGs). Surprisingly, given the abundance of WPS-2 in bare soils, the genomes did not indicate any capacity for autotrophy, phototrophy, or trace gas metabolism. Instead, they suggest a predominantly aerobic organoheterotrophic lifestyle, perhaps based on scavenging amino acids, nucleotides, and complex oligopeptides, along with lithotrophic capacity on thiosulfate. Network analyses of the entire community showed that some species of Chloroflexi, Actinobacteria, and candidate phylum AD3 (or Dormibacterota) co-occurred with Ca. Rubrimentiphilum and may represent ecological or metabolic partners. We propose that Ca. Rubrimentiphilum act as efficient heterotrophic scavengers. Combined with previous studies, these data suggest that the phylum WPS-2 includes bacteria with diverse metabolic capabilities.  相似文献   

17.
半干旱区沙地蒿类植被建成对土壤细菌的影响   总被引:1,自引:0,他引:1  
半干旱区沙地土壤发育早期依赖固沙植被建成,油蒿和差巴嘎蒿作为我国北方半干旱区沙地半灌木植物群落的主要先锋种和建群种,研究其建成对土壤细菌群落变化的影响对沙质草原生态系统稳定性有重要意义。因此,围绕两个典型的半干旱区(科尔沁沙地和毛乌素沙地),通过高通量测序的方法探讨了蒿类群落生长前后两个阶段(流动沙丘和藓类结皮)的土壤细菌多样性和群落组成变化规律,结果表明:(1)植被建成前后,土壤总碳、总氮、全磷、电导率和含水率均有显著差异,而pH值在不同阶段变化不显著;(2)植被建成前后,土壤细菌多样性变化不显著,但是细菌群落组成在不同阶段具有较大差异。在门类水平上,厚壁菌门(Firmicutes)、拟杆菌(Bacteroidetes)、变形菌门(Proteobacteria)和放线菌(Actinobacteria)均是两个阶段的优势菌,但随着蒿类植被建成和土壤养分的积累,厚壁菌门的相对丰度降低,变形菌门和放线菌门的相对丰度增加;(3)两个阶段,不同深度土壤理化性质和优势菌的相对丰度均存在变化;(4)两种典型沙地土壤理化特性和细菌群落在植被建成前后的变化规律存在共性。通过空间代替时间序列的方法,阐明了土壤细菌群落随着半干旱沙地同类型植被建成的变化模式,可为总结半干旱区植被恢复与成土过程的关系提供参考和思路。  相似文献   

18.
The bacterial abundance and community composition in four types of soils and their associated Fe-Mn nodules from Queyu (QY) in Shandong Province, Zaoyang (ZY), Wuhan (WH) in Hubei Province and Guiyang (GY) in Hunan Province, China were investigated using real-time PCR, cloning and sequencing approaches. It was found that the bacterial 16S rRNA gene copy numbers in the soils were almost 3 magnitudes greater than those in their corresponding nodules and positively correlated with OM. The bacterial diversity as indicated by Simpson and Shannon indices, were significantly lower in the nodules than in the soils. Remarkable divergence in bacterial community structure was observed between the soils and the nodules, and the difference was the mainly explained by OM. In contrast, the differences within the soils and within the nodules were minor, suggesting significant habitat filtering for the bacterial community composition in the nodules. Acidobacteria was the most abundant group (accounting for 28.6%–51.6%) in soil bacterial community while nodule bacterial community was predominated by Proteobacteria (accounting for 62.8%– 90.5%). A number of clones closely related to well-known Mn-oxidizing, Fe-oxidizing and Fe-reducing bacteria within Proteobacteria were retrieved mainly from nodules.  相似文献   

19.
Arsenic contamination from groundwater used to irrigate crops is a major issue across several agriculturally important areas of Asia. Assessing bacterial community composition in highly contaminated sites could lead to the identification of novel bioremediation strategies. In this study, the bacterial community structure and abundance are assessed in agricultural soils with varying levels of arsenic contamination at Ambagarh Chauki block, Chhattisgarh, India, based on polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) of the 16S rRNA gene and the most probable number-polymerase chain reaction (MPN-PCR). The results revealed that the bacterial communities of arsenic-contaminated soils are dominated by β-proteobacteria (36%), γ-proteobacteria (21%), δ-proteobacteria (11%), α-proteobacteria (11%), and Bacteroidetes (11%). The bacterial composition of high arsenic-contaminated soils differed significantly from that of low arsenic-contaminated soils. The Proteobacteria appeared to be more resistant to arsenic contamination, while the Bacteroidetes and Nitrospirae were more sensitive to it. The bacterial abundance determined by MPN-PCR decreased significantly as As-toxicity increased. In addition to As, other trace metals, like Pb, U, Cu, Ni, Sn, Zn and Zr, significantly ( p < 0.01) explain the changes in bacterial structural diversity in agricultural soils with different level of arsenic contamination, as determined by canonical correspondence analysis (CCA).  相似文献   

20.
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