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1.
为探讨黑老虎(Kadsura coccinea)根际土壤和组织内生真菌菌群的组成及其生态功能,该研究采用ITS高通量测序技术对成熟黑老虎(根、茎、叶)内生真菌及根际土壤真菌群落结构、多样性和生态功能进行了分析。结果表明:(1)从12个样品中共获得2 241个可操作分类单元(OTU),涉及10门、41纲、95目、212科、367属,内生真菌(根、茎、叶)和根际土壤真菌OTU数分别为386、536、258、1 435个,其中共有的OTU为18个。在门水平上,黑老虎内生真菌及根际土壤真菌优势群落均为子囊菌门和担子菌门,其中子囊菌门在叶和茎中占比分别高达96.99%和95.37%;在属水平上,黑老虎根际土壤真菌中腐生真菌被孢霉属占比较高(为13.5%),叶和茎等生长旺盛的组织中子囊菌门未分类属和痂囊腔菌属占比较高。(2)α多样性分析结果显示,黑老虎根际土壤真菌群落的丰度和多样性明显高于内生真菌,茎中内生真菌丰度显著高于根和叶,而根、茎和叶组织间内生真菌多样性差异不显著;PCoA分析结果显示,叶和茎的真菌群落结构相似性更高。(3)利用FUNGuild数据库进行的功能预测分析结果显示,黑老虎根际土...  相似文献   

2.
北京无喙兰(Holopogon pekinensis X. Y. Mu & Bing Liu)为华北地区特有珍稀腐生型兰科植物,分布在海拔约1100 m的杂木林内,生境与本区域内其他腐生型兰科植物(常在1600 m以上桦木林中生长)显著不同。本研究针对北京玉渡山和百花山两个北京无喙兰种群的根际土壤样品开展基于高通量测序技术的根际土壤微生物多样性分析,解析北京无喙兰根际土壤微生物群落组成及多样性。测序分析结果显示,共得到4973个细菌OTU(Operational taxonomic unit),发现北京无喙兰根际土壤的优势细菌类群为变形菌门、放线菌门、拟杆菌门等7个门,优势属有MND1、硝化螺菌属(Nitrospira)和Haliangium等。1914个真菌OTU的分析结果表明,根际土壤优势真菌类群为子囊菌门、担子菌门、结合菌门等;优势属有Archaeorhizomyces、蜡壳耳属(Sebacina)和被孢霉属(Mortierella)等;优势真菌多为外生菌根真菌,可能是北京无喙兰潜在的菌根真菌。多样性指数分析显示,北京无喙兰玉渡山种群根际土壤中的真菌和细菌群落的丰富度和均匀度均高于百花山种群,各种群土壤微生物多样性与北京无喙兰所在种群的乔木种类多样性具有一定的相关性。  相似文献   

3.
陈海生  刘守平  梁国钱 《菌物学报》2021,40(9):2254-2265
本研究比较轮作和连作下滨海滩涂地绿花椰菜根际土壤真菌群落结构和多样性的变化特征,以探索不同轮作方式减缓绿花椰菜连作田连作障碍的效果。采用Illumina Miseq高通量测序技术,分析单季稻-绿花椰菜水旱轮作、南瓜-绿花椰菜旱旱轮作和绿花椰菜连作3种耕作方式对绿花椰菜根际土壤真菌群落结构和多样性的影响。结果表明,在浙江省台州湾滨海滩涂地绿花椰菜种植区,水旱轮作、旱旱轮作和连作绿花椰菜根际土壤共获得11门、27纲、52目、94科、155属真菌。在门水平上相对丰度较高的为子囊菌门Ascomycota、油壶菌门Olpidiomycota、担子菌门Basidiomycota、接合菌门Zygomycota、壶菌门Chytridiomycota。与连作相比,轮作显著提高了绿花椰菜根际土壤中子囊菌门、壶菌门菌群的相对丰度,而以水旱轮作对其相对丰度的提高幅度更大。轮作显著降低了绿花椰菜根际土壤中油壶菌门、接合菌门菌群的相对丰度,而以水旱轮作对这2门菌群相对丰度的降低幅度更大。在属水平上轮作显著降低了绿花椰菜根际土壤中油壶菌属Olpidium、镰刀菌属Fusarium等的相对丰度,显著提高了绿花椰菜根际土壤中格孢腔菌属Pleospora的相对丰度,而水旱轮作更提高了格孢腔菌属的相对丰度,降低了油壶菌属、镰刀菌属的相对丰度。因此,轮作能改善台州湾滨海滩涂地上绿花椰菜根际土壤真菌群落结构,但水旱轮作更能增加绿花椰菜根际土壤真菌有益菌丰度,减少绿花椰菜根际土壤真菌有害菌群丰度,提高根际土壤真菌多样性指数,改良绿花椰菜根际土壤生态环境。  相似文献   

4.
真菌多样性是植物根际生态系统的重要构成与植物健康稳定的重要指标。海桑属是红树林的先锋物种,采用真菌ITS1区高通量测序方法,分析了六种海桑属红树根际真菌的组成和多样性,结合土壤理化性质探讨影响不同植物根际真菌群落组成差异的因素。结果显示,根际真菌隶属于7门、96科、155属,子囊菌门作为优势菌门在海桑属不同红树中相对丰度无显著差异,都超过27%,但次优势的担子菌门丰度含量有差异;属水平上,优势菌属的丰度含量不同,曲霉属在卵叶海桑的丰度最高(29.57%),在海南海桑最低(3.47%)。六种红树植物根际存在特有的代表类群,如无瓣海桑的马拉色菌(9.31%)和毛腐菌属(10.05%),海南海桑中的Talaromyces(19.61%)和Acremonium(13.58%)。比较多样性指数Simpson和Shannon,发现拟海桑是六种植物中丰度最高的,卵叶海桑最低。RDA分析发现子囊菌门与全磷含量呈显著负相关,担子菌门与速效钾呈明显正相关。六种海桑属红树植物根际核心物种分析表明,优势真菌类群曲霉属和一些低丰度的真菌类群,通过降解有机质参与碳循环,对根际土壤生态系统的稳定起重要作用。六种海桑...  相似文献   

5.
对连作龙牙百合(Long)与铁炮百合(Tie)根际土壤真菌ITS区进行扩增, 并利用Miseq ITS测序分析龙牙百合与铁炮百合根际土壤真菌群落的结构差异。结果表明: 测序百合根际土壤共得到69158条Clean Reads, 将其注释为277个操作分类单元(OTUs), 涵盖了5门、12纲、23目、25科、34属、36种; 在Alpha多样性指数上, Long的多样性指数高于Tie, 但均匀度低于Tie。在Beta多样性上, 两种百合间真菌群落结构差异较大; 在门水平子囊菌门、未知菌门、担子菌门为百合的优势菌群, 壶菌门为Tie特有。在属水平青霉菌属、炭疽菌属和未知菌属为两种百合真菌群落的优势菌属, 盘菌属仅出现在忌连作龙牙百合中, 青霉菌属和炭疽菌属在耐连作铁炮百合中含量增加, 未知菌属含量下降。研究表明, 连作状态下不同耐、忌连作百合根际土壤真菌群落存在差异, 且均有特异性的菌群, 研究结果为减轻或克服百合连作障碍提供一定的理论基础。  相似文献   

6.
探讨白首乌根际土壤真菌群落组成结构与分布规律,为优选根际促生菌、提高仿野生种植技术提供科学理论依据。综合Illumina MiSeq高通量测序技术和传统分离培养技术,分析测定3个产地2个根茎深度的白首乌根际土壤真菌群落的丰富度和多样性,分离鉴定可培养根际真菌的种类。6个样品共得到真菌1 589个OTUs,分属于11门35纲84目142科237属,子囊菌门(Ascomycota)和被孢霉门(Mortierellomycota)是样品共同的优势菌门;6个样品通过传统培养法共分离得到103个形态型,分为3门8纲10目12科16属37种,优势菌属为木霉属(Trichoderma)和镶刀菌属(Fusarium)。综合比较,高通量测序技术可以得到更全面的菌落数据,传统分离培养技术可以纯化出适应性强的菌株;不同产地和根茎深度样品间土壤真菌群落存在显著差异性。  相似文献   

7.
李媛媛  徐婷婷  艾喆  马飞 《应用生态学报》2021,32(12):4289-4297
为探究半干旱区锦鸡儿属植物根际土壤真菌群落多样性及其与生态因子的互作机制,本研究以不同生境下的中间锦鸡儿和小叶锦鸡儿为对象,采用高通量测序技术分析了2种锦鸡儿根际土壤真菌多样性和群落结构组成及其驱动因素。结果表明: 2种锦鸡儿根际土壤真菌隶属于7门20纲43目66科78属。优势真菌门为子囊菌(37.7%)、担子菌(13.7%)和接合菌(4.3%)。在属水平上,青霉菌、地丝霉菌和被孢霉菌为优势属,且土壤中存在根内球囊霉菌和球囊霉菌。小叶锦鸡儿根际土壤真菌群落的Chao1、ACE和Simpson多样性指数显著高于中间锦鸡儿,且2种植物的根际土壤真菌群落结构差异显著。冗余分析结果表明,土壤有机碳、全氮、电导率、速效钾、海拔、全磷和干旱指数是影响土壤真菌多样性的主要生态因子。研究结果丰富了锦鸡儿属植物根际土壤微生物群落多样与生态因子的关系,可为深入理解半干旱区荒漠植物的生态适应机制提供参考。  相似文献   

8.
不同生境黑果枸杞根际与非根际土壤微生物群落多样性   总被引:2,自引:0,他引:2  
李岩  何学敏  杨晓东  张雪妮  吕光辉 《生态学报》2018,38(17):5983-5995
研究典型生境黑果枸杞根际与非根际土壤微生物群落多样性及其与土壤理化性质间的关系,为进一步研究黑果枸杞抗逆性提供理论数据。采集新疆精河县艾比湖地区(EB)盐碱地、乌苏市(WS)路旁荒地、五家渠市(WQ)人工林带的黑果枸杞根际与非根际土壤,利用Illumina-MiSeq高通量测序技术分析细菌和真菌群落组成和多样性。结果表明:根际土壤细菌多样性高于非根际土壤(WQ除外),而根际真菌多样性低于非根际土壤。WQ非根际土壤细菌和真菌多样性均高于EB和WS;根际细菌多样性排序为EBWSWQ,根际真菌多样性排序为WSEBWQ。根际土壤优势细菌门依次是变形菌门、拟杆菌门、放线菌门、酸杆菌门,真菌优势门为子囊菌门、担子菌门。根际土壤细菌变形菌门、拟杆菌门、酸杆菌门的相对丰度高于非根际土壤,而厚壁菌在根际土壤中的丰度显著降低,真菌优势门丰度在根际土和非根际土中的变化趋势因地区而异; Haliea、Gp10、Pelagibius、Microbulbifer、假单胞菌属、Thioprofundum、Deferrisoma是根际土壤细菌优势属;多孢子菌属、支顶孢属、Corollospora、Cochlonema是根际真菌优势属。细菌、真菌优势类群(门、属)的组成以及丰富度存在地区间差异,厚壁菌门在EB地区的丰富度显著高于含盐量较低的WS、WQ;盐碱生境EB中根际土壤嗜盐细菌的丰度高于非盐碱生境(WQ、WS),如盐单胞菌属、动性球菌属、Geminicoccu、Pelagibius、Gracilimonas、Salinimicrobium等。小囊菌属是EB根际真菌的最优势属,Melanoleuca是WQ和WS的最优势属,地孔菌属、Xenobotrytis、Brachyconidiellopsis、多孢子菌属等在EB根际土壤中的丰度显著高于WQ和WS。非盐碱生境(WS和WQ)的微生物群落之间的相似性较高,并且高于与盐碱环境(EB)之间的相似性,表明土壤含盐量对微生物群落组成丰度具有重要的影响。  相似文献   

9.
肖健  黄小丹  杨尚东  屈达才 《广西植物》2022,42(12):2099-2108
为研究青枯病易感和钝感桑树品种植株根际土壤真菌群落组成,该研究以ITS1F和ITS2R为引物,基于高通量测序技术对桑树青枯病易感品种(台湾长果桑,SM)和桑树青枯病钝感品种(桂桑12号,IM)植株根际土壤真菌群落结构进行分析。结果表明:(1)两个品种间指示真菌丰富度的ACE、Chao1指数及表征多样性的Shannon指数无显著差异,门分类水平,被孢霉门(Mortierellomycota)和球囊菌门(Glomeromycota)是青枯病钝感桑树品种植株根际土壤中特有的优势真菌门; 而属分类水平,Apiotrichum、地丝菌属(Geotrichum)、足放线病菌属(Scedosporium)和腐质霉属(Humicola)等是青枯病易感桑树品种植株根际土壤中富集的特有优势真菌属。(2)青枯病易感桑树品种植株根际土壤中,缺失了被孢霉门、球囊菌门真菌,以及被孢霉属(Mortierella)、镰刀菌属(Fusarium)、曲霉菌属(Aspergillus)和毛壳菌属(Chaetomium)等具有生防功能的优势真菌门属,可能是其易感青枯病的重要原因。(3)根据真菌群落对同类环境资源的利用途径进行功能预测发现,青枯病易感桑树品种根际土壤中,富集了相对较多的病理营养型和腐生营养型真菌; 而青枯病钝感桑树品种根际土壤中,富集了相对丰富的共生营养型真菌。(4)特有真菌数量更为丰富的土壤真菌OTU分类水平,可能是青枯病钝感桑树品种田间表现出更强抗性的重要原因。可见,在青枯病钝感桑树品种植株根际土壤中,富集的被孢霉属、镰刀菌属、曲霉菌属和毛壳菌属等优势特异真菌属,具有作为拮抗桑树青枯病备选菌属的潜力。  相似文献   

10.
【目的】为了解不同枸杞产区枸杞根际真菌多样性的差异,从枸杞根际土壤真菌群落的角度试图解释宁夏枸杞优良品质与其土壤微生物菌群的联系。【方法】采用Mi Seq高通量测序方法,分别将我国4个不同地区枸杞根际土壤样品进行ITS区的高通量测序,并分析了物种组成和丰度、Alpha多样性、Beta多样性和菌群结构,测定不同产区枸杞主要有效成分,同时对枸杞品质和其土壤理化因子及枸杞根际真菌种群多样性的相关性做了分析。【结果】多糖含量和甜菜碱含量均是中宁枸杞高于兴仁和精河,格尔木含量最低;宁夏兴仁、宁夏中宁、新疆精河3个地区菌群结构类似,子囊菌门和结合菌门占总菌群的80%左右,而青海格尔木除了子囊菌门占58%外,壶菌门和新丽鞭毛菌门远远高于其他3个地区,比例占总菌群的近25%;4个地区枸杞根际土壤真菌菌群结构相似性依次为宁夏兴仁、新疆精河、宁夏中宁、青海格尔木。【结论】枸杞根际土壤样品真菌物种组成丰富,不同地区枸杞根际土壤真菌种群结构有一定差异;枸杞主要有效成分含量与枸杞根际土壤真菌种群结构具有一定相关性。  相似文献   

11.
Knowledge of fungal root-associates is essential for effective conservation of tropical epiphytic orchids. We investigated the diversity of root-associated fungi of Cyrtochilum myanthum, Scaphyglottis punctulata and Stelis superbiens from a tropical mountain rainforest in southern Ecuador, using a culture dependent approach. We identified 115 fungal isolates, corresponding to 49 fungal OTUs, based on sequences of the nrDNA ITS and partial 28S region. Members of Ascomycota were unambiguously dominant (37 OTUs), including Trichoderma sp. as the most frequent taxon. Members of Basidiomycota (Agaricales and Polyporales) and Mucoromycota (Umbelopsidales and Mortierellales) were also identified. Four potential mycorrhizal OTUs of Tulasnellaceae and Ceratobasidiaceae were isolated from C. myanthum and S. superbiens. Fungal community composition was examined using Sørensen and Jaccard indices of similarity. Alfa diversity was significantly different between C. myanthum and S. superbiens. No difference in beta diversity of the fungal communities between the 3 orchid species and the collecting sites was detected. The study revealed a high diversity of fungi associated with orchid roots. Our results contribute to a better understanding of specific relationships between epiphytic orchids and their root-associated fungi.  相似文献   

12.
Fungal communities play a key role in ecosystem functioning. However, only little is known about their composition in plant roots and the soil of biomass plantations. The goal of this study was to analyze fungal biodiversity in their belowground habitats and to gain information on the strategies by which ectomycorrhizal (ECM) fungi form colonies. In a 2-year-old plantation, fungal communities in the soil and roots of three different poplar genotypes (Populus × canescens, wildtype and two transgenic lines with suppressed cinnamyl alcohol dehydrogenase activity) were analyzed by 454 pyrosequencing targeting the rDNA internal transcribed spacer 1 (ITS) region. The results were compared with the dynamics of the root-associated ECM community studied by morphotyping/Sanger sequencing in two subsequent years. Fungal species and family richness in the soil were surprisingly high in this simple plantation ecosystem, with 5944 operational taxonomic units (OTUs) and 186 described fungal families. These findings indicate the importance that fungal species are already available for colonization of plant roots (2399 OTUs and 115 families). The transgenic modification of poplar plants had no influence on fungal root or soil communities. Fungal families and OTUs were more evenly distributed in the soil than in roots, probably as a result of soil plowing before the establishment of the plantation. Saprophytic, pathogenic, and endophytic fungi were the dominating groups in soil, whereas ECMs were dominant in roots (87%). Arbuscular mycorrhizal diversity was higher in soil than in roots. Species richness of the root-associated ECM community, which was low compared with ECM fungi detected by 454 analyses, increased after 1 year. This increase was mainly caused by ECM fungal species already traced in the preceding year in roots. This result supports the priority concept that ECMs present on roots have a competitive advantage over soil-localized ECM fungi.  相似文献   

13.
3种杓兰属植物菌根真菌系统发育和多样性分析   总被引:1,自引:0,他引:1  
兰科植物菌根真菌(Orchid mycorrhizal fungi, OrMF)在兰科植物种子萌发和后续生长发育过程中具有重要作用。该研究采用培养(菌丝团分离)和非培养(克隆文库)2种方法获得同一栖息地3种不同杓兰属植物根中菌根真菌ITS序列并划分可操作分类单元(Operational taxonomic units, OTUs),分析其系统发育关系和多样性。结果表明:(1)所有根段中都有菌丝团定植,共分离出菌根真菌64株,其中63株为胶膜菌科(Tulasnellaceae)真菌,1株为角担菌科(Ceratobasidiaceae)真菌;可划分为7个OUT,每个OTU代表菌株的菌丝都能形成OrMF典型的近球形或椭球形链状排列的念珠状细胞;分离出来的菌根真菌均为无性型菌丝且不产生无性孢子。(2) 非培养法得到的3种杓兰属植物的根中OrMF分别隶属于胶膜菌科(Tulasnellaceae),腊壳菌科(Sebacinaceae)、角担菌科(Ceratobasidiaceae)和革菌科(Thelephoraceae),其中胶膜菌科OTU在种类和数量上占有绝对优势,培养和非培养2种方法得到的OrMF OTU类型和数量均为西藏杓兰(Cypripedium tibeticum)>无苞杓兰(C. flavum)>黄花杓兰(C. bardolphianum),但培养法少于非培养法。(3)对胶膜菌进行系统发育分析显示,优势和非优势OTU均分布在系统发育树的3个不同分支上,这种与多种亲缘关系较远的OrMF共生的现象可能与杓兰属植物对环境的适应性有关,且不同杓兰的OrMF物种丰富度没有显著差异,但群落结构存在差异。  相似文献   

14.
Mycorrhizal symbiosis in orchids is unique in that fungal presence is considered a requirement for germination as well as for further development. Additionally, orchid fungal associations can exhibit high specificity in nature. Yet, an important ecological question remains unanswered: ‘With which orchid mycorrhizal fungi (OMF) do un-inoculated orchid seedlings form symbiosis when cultured ex situ?’ Simultaneously, it is asserted that orchid conservation efforts involving ex situ plant culture should exclusively utilize natural symbionts of the respective orchid taxa. We present a first comparison of OMF communities within the roots of asymbiotically cultured plants of the rare orchid Platanthera chapmanii grown ex situ (ES), and those occurring naturally in situ (IS). Nuclear ribosomal internal transcribed spacer (nrITS) barcoding region was used to identify peloton forming OMF from roots collected between 2012 and 2014 from both growing environments. Our 114 sequences clustered into 11 operational taxonomic units (OTUs) belonging to four closely related clades of the fungal family Tulasnellaceae. Shannon–Wiener (H) and Simpson diversity (D) indices were similar (p = 0.81 for both) for ES and IS OMF communities. Beta diversity comparisons also showed similarity between ES and IS treatments based on weighted (p = 0.10) and unweighted (p = 0.20) Bray–Curtis dissimilarity matrices. Bayesian and Maximum Likelihood (ML) phylograms clustered ES and IS derived fungal OTUs into the same clades. Our data suggest that P. chapmanii: (1) forms symbiosis with taxonomically similar fungi in ex situ culture and in its native soil, and (2) exhibits a narrow phylogenetic breadth of mycorrhizal fungal OTUs within the Tulasnellaceae.  相似文献   

15.
为了解野生和栽培阿尔泰银莲花根际土壤微生物多样性的差异,该研究采用Illumina MiSeq高通量测序技术对野生和栽培阿尔泰银莲花根际土壤微生物的群落组成和多样性进行探究。结果表明:(1)野生阿尔泰银莲花根际土壤的真菌多样性显著高于栽培阿尔泰银莲花(P<0.05),而细菌多样性差异不显著(P>0.05); NMDS分析结果显示,野生和栽培阿尔泰银莲花根际土壤真菌群落结构差异更显著。(2)细菌9 566个可操作分类单元(OTUs)涉及39门127纲315目500科886属,真菌2 670个OTUs涉及15门57纲138目293科597属。在门水平上,细菌群落中的变形菌门、酸杆菌门、放线菌门及真菌群落中的担子菌门、子囊菌门、被孢霉门均为野生和栽培阿尔泰银莲花根际土壤优势菌门,但其相对丰度在不同生长方式下存在差异。(3)环境因子关联分析(RDA)结果显示,土壤有机质是影响土壤细菌群落的主要因子(P<0.05),土壤pH、碱解氮和有效磷是影响真菌群落的主要因子(P<0.05)。综上认为,野生和栽培下的阿尔泰银莲花根际土壤微生物群落组成和多样性存在显著差异,这种差异可能与不同生长条件下的土壤理化性质存在密切的联系,该研究结果对阿尔泰银莲花科学种植以及土壤改良具有一定意义。  相似文献   

16.
【背景】植物内生真菌对宿主植物促生长、抗旱和增强抗病能力等方面有着重大的研究和利用价值,尤其对兰科植物的生长起到重要的作用。【目的】通过对掌裂兰根部内生真菌和根际土真菌多样性进行系统分析,掌握掌裂兰根部内生真菌与根际土真菌群落结构,为进一步探究掌裂兰植物与真菌共生规律提供参考。【方法】采用Illumina MiSeq高通量测序技术分析掌裂兰根部内生真菌和根际土真菌多样性。【结果】掌裂兰根部内生真菌隶属于7门89属,优势菌属为瘤菌根菌属(Epulorhiza)(16.93%)、头梗霉属(Cephaliophora)(10.41%)、酵母属(Saccharomyces)(5.73%)、角担菌属(Ceratobasidium)(5.32%)和镰刀菌属(Fusarium)(5.12%),其中Epulorhiza和Ceratobasidium为兰科植物菌根真菌;根际土真菌隶属于11门269属,优势菌属为镰刀菌属(Fusarium)(8.09%)、丛赤壳属(Neonectria)(6.79%)、Plectosphaerella (3.39%)和被孢霉属(Mortierella)(3.01%)。通过...  相似文献   

17.
[目的] 探究青藏高原不同地区高寒草原紫花针茅根际和体内真菌群落的组成、多样性等特征,及与土壤环境因子(理化性质和酶活性)间的相互关系。[方法] 从青藏高原不同地区采集紫花针茅样品,应用土壤化学方法分析根际土壤理化性质和酶活性,并采用Illumina Miseq高通量测序技术,解析根际土壤和体内真菌群落组成和丰度、Alpha多样性和菌群结构,同时分析了紫花针茅根际真菌种群多样性与土壤环境因子的相关性,厘清了影响紫花针茅根际真菌区系的土壤环境因素。[结果] 三个采样地的根际土壤呈中性偏碱,土壤理化性质和酶活性变化各异。高通量测序共得到314801条有效序列和4491个OTUs;XZ样地的紫花针茅真菌多样性和丰富度相对偏低,GS样地最高。在门分类水平上,子囊菌门Ascomycota和担子菌门Basidiomycota是主要内生真菌类群,占总菌群的88.28%。不同采样地区紫花针茅体内真菌群落结构存在明显差异,而根际土壤真菌群落结构差异不大。相关性分析表明,紫花针茅真菌多样性与土壤pH、有效钾、铁、钙、镁、多酚氧化酶、过氧化物酶和脱氢酶呈显著(P<0.05)或极显著(P<0.01)正相关,而与海拔、土壤酸性磷酸酶呈极显著负相关。RDA分析发现,紫花针茅根际土壤真菌不同,影响的土壤环境因子也不同。[结论] 青藏高原高寒草地紫花针茅根际和体内栖息着丰富的真菌群落,其组成和多样性受多种土壤环境因子影响,且影响不同真菌群落的主要土壤环境因子也不同。本研究对于有益微生物资源的开发、利用及保护具有重要意义,并为紫花针茅草原保育和合理开发利用提供科学依据。  相似文献   

18.
Two Pythium-infested soils were used to compare the wheat root and rhizosphere soil microbial communities from plants grown in the field or in greenhouse trials and their stability in the presence of biocontrol agents. Bacteria showed the highest diversity at early stages of wheat growth in both field and greenhouse trials, while fungal diversity increased later on, at 12 weeks of the crop cycle. The microbial communities were stable in roots and rhizosphere samples across both soil types used in this study. Such stability was also observed irrespective of the cultivation system (field or greenhouse) or addition of biocontrol coatings to wheat seeds to control Pythium disease (in this study soil infected with Pythium sp. clade F was tested). In greenhouse plant roots, Archaeorhizomyces, Debaryomyces, Delftia, and unclassified Pseudeurotiaceae were significantly reduced when compared to plant roots obtained from the field trials. Some operational taxonomic units (OTUs) represented genetic determinants clearly transmitted vertically by seed endophytes (specific OTUs were found in plant roots) and the plant microbiota was enriched over time by OTUs from the rhizosphere soil. This study provided key information regarding the microbial communities associated with wheat roots and rhizosphere soils at different stages of plant growth and the role that Paenibacillus and Streptomyces strains play as biocontrol agents in supporting plant growth in infested soils.  相似文献   

19.
The Orchidaceae are globally distributed and represent a diverse lineage of obligate mycotrophic plants. Given their dependence on symbiotic fungi for germination and/or plant development, fungal community structure in substrates is expected to influence the distribution and persistence of orchid species. Yet, simultaneous characterization of orchid mycorrhizal fungal (OMF) communities in roots and in soil is rarely reported. To explain the co-distributions of OMF in roots, orchid-occupied, and bulk soil, we characterized mycorrhizal fungi associated with Platanthera praeclara over multiple years across its entire natural distribution within the North American tallgrass prairie. Root derived OMF communities included 24 Ceratobasidiaceae and 7 Tulasnellaceae operational taxonomic units (OTUs) though the orchid exhibited high spatio-temporal specificity toward a single Ceratobasidiaceae OTU, which was strongly stable across population sizes and phenological stages of the sampled individuals. The preferred OMF OTUs were primarily restricted to orchid-occupied locations while infrequent or absent in bulk soil. Variation in soil OMF assemblies was explained most by soil moisture, magnesium, manganese, and clay. In this first study of coupled root and soil OMF communities across a threatened grassland ecosystem, we report a strong relationship, further nuanced by soil chemistry, between a rare fungus and a rare orchid.  相似文献   

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