新疆沙冬青AM真菌群落结构与遗传多样性分析

以新疆乌恰县4个样地新疆沙冬青Ammopiptanthus nanus根围3个土层土壤为研究对象,利用Nested-PCR-DGGE技术,结合DGGE图谱分析、DNA克隆测序及系统发育分析,研究新疆沙冬青AM真菌菌群结构与遗传多样性特征,为新疆沙冬青根围功能菌群研究奠定基础。结果表明,不同样地和土层,AM真菌具有不同DGGE指纹图谱特征,AM真菌丰度、优势度及其多样性指数均有差异,其中上阿图什30–40cm土层AM真菌丰度和多样性指数最高,分别为20和3.48。DGGE条带测序和系统发育分析显示,全部序列归为2属14种,球囊霉属Glomus是其优势属,其中Uncultured Glomus(AB698612)和Uncultured Glomus(AB698616)普遍存在于4样地3个土层,Glomus sp.(FN429104)和Uncultured Glomus(KC797120)是上阿图什30–40cm土层特有种,Glomus sp.(EU332717),Rhizophagus intraradices(FR750206)和Uncultured Glomus(AB698616)是新疆沙冬青根围优势种。G.indicum和Rh.intraradices在形态学鉴定中未出现,说明分子生物学技术对真菌多样性研究起着补充和完善的作用。     

黄檗根围丛枝菌根（AM）真菌的分离与分子鉴定

从东北林业大学林场采集黄檗Phellodendron amurense根系及根围土壤,采用形态学和分子生物学方法对分离得到的丛枝菌根(arbuscular mycorrhiza,AM)真菌孢子进行了分类鉴定。依据AM真菌孢子形态特征鉴定出黄檗根围土壤中存在4种AM真菌:根内球囊霉Glomus intraradices,摩西球囊霉Glomus mosseae,美丽盾孢囊霉Scutellospora calospora和变形球囊霉Glomus versiforme,而应用nested-PCR技术从黄檗根内只检测到了G.intraradices,G.mosseae和Scu.calospora,表明G.versiforme未侵染黄檗根系。     

硫素对不同大豆品种成熟期AM真菌群落多样性的影响

研究硫素对不同大豆品种成熟期丛枝菌根（arbuscular mycorrhizal,AM）真菌群落多样性的影响,探索有利于提高3个特定大豆品种根围土壤和根系AM真菌多样性的最佳施硫量,为提高大豆产量和改善大豆品质提供理论依据。试验采用盆栽,选用黑农44（HN44）、黑农48（HN48）、黑农37（HN37）3个大豆品种作为试验材料,设4个硫素处理S1（对照）,S2（0.02g/kg）,S3（0.04g/kg）和S4（0.06g/kg）。采用PCR-DGGE技术分析3个大豆品种根围土壤和根系中AM真菌群落多样性。结果表明：在S2处理下HN37和HN44根围土壤和根系AM真菌多样性最高,而在S3处理下HN48根围土壤和根系AM真菌多样性最高;DGGE图谱中各样品优势种群变化显著,球囊霉属Glomus和柄囊霉属Funneliformis真菌为3个大豆品种根围土壤和根系中AM真菌的优势菌群。由此可见,硫素对不同大豆品种根围土壤和根系AM真菌群落多样性有显著影响,适量施硫能够提高大豆根围土壤和根系中AM真菌的多样性,不施或过高施硫反而抑制AM真菌的多样性。     

贵州烟草根围AM真菌多样性的初步研究

从贵州省内烟区不同土壤生态环境下采集烟草根际土样,湿筛离心法分离丛枝菌根（AM）真菌孢子,鉴定出烟草AM真菌4属20种,其中球囊霉属9种,无梗囊霉属7种,巨孢囊霉属3种,盾巨孢囊霉属1种。从土壤样品DNA中扩增AM真菌特异性片段并采用DGGE技术对AM真菌多样性进行分析。测序结果显示烟草根际土壤中菌根真菌主要菌群为球囊霉属,与湿筛离心法的鉴定结果一致。为进一步研究贵州地区AM真菌多样性以及开发应用提供了依据。     

西双版纳地区龙脑香科植物AM真菌的初步研究

 对云南省西双版纳地区17种龙脑香科树种根系丛枝菌根（Arbuscular mycorrhiza, AM）真菌的定居情况进行了调查,并对根围土壤中AM真菌进行了分离和鉴定。结果表明,调查根样均有不同程度的菌根感染,感染率最高可达40%,调查揭示了西双版纳地区龙脑香科植物在自然条件下可形成丛枝菌根。初步从龙脑香科植物根际土壤中分离、鉴定出32种AM真菌,隶属于无梗囊霉属（Acaulospora）、球囊霉属（Glomus）、原囊霉属（Achaeospora）、拟球囊霉属（Paraglomus）和盾巨孢囊霉属（Scutellospora）,其中,无梗囊霉属和球囊霉属真菌为西双版纳地区龙脑香科植物AM真菌优势类群。     

不同生境下川麦冬根围土壤丛枝菌根真菌多样性北大核心CSCD

采用高通量(Illumina Miseq)测序技术对栽培和野生2种生境下川麦冬根围的丛枝菌根(AM)真菌多样性和群落结构进行测定,并结合土壤理化因子进行相关性分析,以明确两种生境下川麦冬根围土壤AM真菌多样性和优势群落的分布特点,探讨AM真菌群落分布差异的驱动因子,为AM真菌应用于麦冬生产提供理论依据和技术支持。结果表明:(1)不同生境下川麦冬根围土壤中共鉴定出AM真菌3属10种,其中野生川麦冬根围土壤鉴定出的AM真菌3属7种,分别隶属于无梗囊霉属(Acaulospora)、多孢囊霉属(Diversispora)和球囊霉属(Glomus),而栽培环境下鉴定出AM真菌1属6种,隶属于球囊霉属。2个生境优势属均为球囊霉属。(2)不同生境下川麦冬根围AM真菌之间存在显著差异,野生生境下川麦冬根围土壤AM真菌多样性指数ACE和Shannon均显著高于人工栽培生境,而Simpson指数则相反。(3)相关性分析表明,AM真菌多样性指数及群落组成结构均与土壤理化因子存在相关性,其中全钾(TK)、全磷(TP)、全氮(TN)对AM真菌多样性指数和群落结构组成均存在显著影响。研究认为,不同生境下川麦冬根围AM真菌群落存在显著差异,球囊霉属为川麦冬互利共生的关键属,TK、TP、TN是不同生境川麦冬根围AM真菌群落差异的主要驱动因子。     

AM真菌DNA的提取与PCR-DGGE分析

分别从丛枝菌根(AM)真菌的单孢、宿主植物根系及土壤样品中提取DNA,对AM真菌的18SrDNA中NS31/Glol区进行Nested PCR特异性扩增,表明Nested PCR能很好地以微量DNA为模板扩增出目标产物;对扩增产物进行DGGE电泳,3种样品表现出不同的DGGE指纹图谱特征。本文认为,将Nested PCR与DGGE技术相结合,可以成为AM真菌分子生态学研究的有效途径。     

不同盐碱度土壤中AM菌根真菌群落结构组成及影响因子

为研究黄河三角洲盐渍土壤中植物根围AM菌根真菌多样性及影响多样性的因素,从东营孤东和孤岛油区采集碱蓬和柽柳植物的根围土壤,鉴定了4种土壤试样中丛枝菌根(Arbuscular mycorrhiza,AM)的群落组成。结果表明:球囊霉属(Glomus)是盐碱地中的优势种,同时还有许多未知真菌;考察不同盐碱度情况下菌根真菌群落结构差异,结果表明:碱蓬根围土壤中AM真菌的多样性高于柽柳,孤东根围土壤AM真菌多样性比孤岛高。相关分析表明,铵态氮含量与AM真菌多样性呈现显著负相关。     

荒漠柠条锦鸡儿AM真菌多样性

为了阐明荒漠柠条锦鸡儿(Caragana korshinskii Kom.)根围AM真菌群落组成及其分布特点,2010年7月从河北省与内蒙古交界荒漠带选择多伦湖、黑城子和二羊点3个样地,按0—10、10—20、20—30、30—40、40—50 cm 5个土层采集柠条根围土壤样品,研究了柠条根围AM真菌物种组成、生态分布及与土壤因子的相关性。共分离鉴定出4属24种AM真菌,其中球囊霉属(Glomus)16种,是3个样地共同优势属;无梗囊霉属(Acaulospora)5种,是3个样地共有属;盾巨孢囊霉属(Scutellospora)2种;多孢囊霉属(Diversispora)1种;网状球囊霉(G.reticulatum)是黑城子和多伦湖样地优势种,二羊点亚优势种;黑球囊霉(G.melanosporum)是黑城子和二羊点样地优势种,多伦湖亚优势种;二羊点的AM真菌种类和孢子密度最高;黑城子和多伦湖样地无明显差异。AM真菌孢子密度与土壤碱解N、有机质和速效P含量极显著正相关,其中土壤碱解N影响最大。结果表明,柠条根围AM真菌物种多样性丰富,具有明显空间异质性,并与土壤因子关系密切,这为进一步分离筛选优势AM真菌菌种,充分利用AM真菌资源促进荒漠柠条生长提供了依据。     

林火对植物根围丛枝菌根真菌多样性的影响

林火是森林生态系统的一种主要干扰因子,以青岛市三标山林火迹地为研究对象,采集荆条(Vitex negundo)、胡枝子(Lespedeza bicolor)、花木蓝(Indigofera kirilowii)、青花椒(Zanthoxylum schinifolium)和野青茅(Deyeuxia arundinacea)5种优势植物根围土壤,研究不同林火强度对丛枝菌根(AM)真菌多样性的影响。结果表明,AM真菌侵染率和孢子密度随火灾强度的加强而降低;非过火区植物根围土壤中,分离鉴定出AM真菌3属11种,轻度过火区分离鉴定出AM真菌3属10种,中度过火区分离鉴定出AM真菌3属9种,重度过火区分离鉴定出AM真菌3属8种。过火区AM真菌种丰度低于非过火区。过火区和非过火区AM真菌的重要值和优势种不同,非过火区植物根围的优势种是地球囊霉(Glomus geosporum)、台湾球囊霉(G.taiwanensis)、分支巨孢囊霉(Gigaspora ramisporophora)、极大巨孢囊霉(Gi.gigantean)、福摩萨球囊霉(G.formosanum)、悬钩子球囊霉(G.rubiforme)、柯氏无梗囊霉(Acaulospora koskei)和松蜜无梗囊霉(A.thomii);轻度过火区植物根围的优势种是地球囊霉和台湾球囊霉;中度过火区的是台湾球囊霉和地球囊霉(野青茅除外);重度过火区植物根围的优势种是地球囊霉。不同强度的过火区对AM真菌群落组成有不同程度的影响。认为林火降低植物根围土壤中AM真菌多样性。     

Fungal community diversity and soil health in intensive potato cropping systems of the east Po valley, northern Italy

An ecological approach was used to investigate the relationship between diversity of soil fungal communities and soil‐borne pathogen inoculum in a potato growing area of northern Italy affected by yield decline. The study was performed in 14 sites with the same tillage management practices: 10 named ‘potato sites’, that for many years had been intensely cultivated with potatoes, and 4 named ‘rotation sites’, subject to a 4‐year rotation without potatoes or any recurrent crop for many years. Fungal communities were recorded using conventional (soil fungi by plate count and endophytic fungi as infection frequency on pot‐grown potato plant roots in soil samples) and molecular approaches [Basidiomycetes and Ascomycetes with specific and denaturing gradient gel electrophoresis (DGGE) analysis]. Diversity of fungal communities in potato sites was significantly lower than that in rotation sites. In addition, fungal communities in rotation sites showed lower Berger–Parker dominance than those in the potato sites, suggesting that rotation sites had a higher diversity as well as a better fungal community balance than potato sites. The ANalysis Of SIMilarity test of soil fungi and root endophytic fungi revealed that the two cropping systems differed significantly for species composition. Root endophytic fungal communities showed a greater ability to colonise potato roots in soil samples from potato sites than those from rotation sites. Moreover, the majority of endophytic root fungal community species in potato sites belonged to the potato root rot complex and storage disease (Colletotrichum coccodes, Fusarium solani and Fusarium oxysporum), while those in rotation sites were mainly ubiquitous or saprobic fungi. Soil rDNA analyses showed that Ascomycetes were much more frequent than Basidiomycetes in all the soils examined. DGGE analysis, with the Ascomycete‐specific primer (ITS1F/ITS4A), did not reveal distinctions between the communities found at the potato and rotation sites, although the same analysis showed differences between the communities of Basidiomycetes (specific primer ITS1F/ITS4B). These findings showed that recurrent potato cropping affected diversity and composition of soil fungal communities and induced a shift in specialisation of the endophytic fungi towards potato.     

Effect of drought and season on arbuscular mycorrhizal fungi in a subtropical secondary forest

Arbuscular mycorrhizal (AM) fungi in both soil and roots were examined in May (summer) and December (winter) under a 4-y drought experiment in a Chinese subtropical secondary forest. Drought significantly decreased AM fungal extra-radical hyphal density, spore density, and root colonization rate in both seasons. These AM parameters were significantly higher in summer than in winter in the control treatment, but only AM fungal extra-radical hyphal density exhibited the same seasonal trend in the drought treatment. In total, 45 AM fungal operational taxonomic units (OTUs) were obtained at a 97% sequence similarity level using Illumina sequencing of 18S rDNA. Drought and season had no significant effects on AM fungal OTU richness in soil and roots. AM fungal community composition in soil and roots was significantly affected by season but not by drought. This finding enhances our understanding of the response of AM fungi to global climate change in subtropical forest ecosystems.     

The Effect of Sulfur on the Composition of Arbuscular Mycorrhizal Fungal Communities During the Pod-Setting Stage of Different Soybean Cultivars

This study sought to investigate the effect of sulfur levels on changes in the fungal community composition of arbuscular mycorrhizae (AM) at the pod-setting stage and the relationship between the amount of applied sulfur and AM fungal diversity in different soybean cultivars. The objective of the research was to determine the optimal sulfur application level for different soybean cultivars and to improve soybean yield and quality from the perspective of AM fungal diversity. Three soybean cultivars, Heinong 44, Heinong 48, and Heinong 37, were selected as study materials. In addition to 0.033?g each of N, P₂O₅ and K₂O per kg of soil, 0, 0.02, 0.04, or 0.06?g of elemental sulfur was applied to each kg of soil for the four treatment groups, S1, S2, S3, and S4, respectively. The AM fungal community structure was analyzed in the soil and root of different soybean cultivars using the PCR-DGGE technology. The results indicated a significant effect of sulfur on the AM fungal community structure in the roots and rhizospheric soil of different soybean cultivars. The three soybean cultivars in group S2 exhibited the highest diversity in AM fungus. Significant changes in the dominant fungal species were observed in the DGGE fingerprints of each sample, and Glomus, Funneliformis, Rhizophagus, and Claroideoglomus fungi were the dominant species of AM fungus in the roots and soil of soybean. The application of an appropriate amount of sulfur improved the diversity of AM fungi in roots and rhizospheric soil of different soybean cultivars.     

我国洛阳与菏泽牡丹主栽园区AM真菌多样性研究

为探明我国特有花卉牡丹 (Paeonia suffruticosa) 根围内的丛枝菌根(AM)真菌资源状况, 作者对河南省洛阳市与山东省菏泽市牡丹主产区土壤中的AM真菌进行了调查。共分离到AM真菌5属35 种, 其中球囊霉属(Glomus)在各采样点相对多度最高, 其次是无梗囊霉属(Acaulospora)。两地土壤中AM真菌种的丰度、孢子密度和物种多样性指数等存在差异: 菏泽赵楼牡丹园AM真菌种的孢子密度最高,而其种的丰度最低; 洛阳矬里牡丹种苗基地的孢子密度最低; 菏泽种苗基地的Shannon-Wiener指数显著高于其他样地。地球囊霉(Glomus geosporum)是洛阳王城公园和菏泽赵楼牡丹园的优势种; 缩球囊霉(Glomus constrictum)为洛阳土桥花木基地、洛阳牡丹园、菏泽牡丹种苗基地和菏泽赵楼牡丹园的优势种。本研究结果表明我国牡丹主栽园区AM真菌具有丰富的多样性。     

福建省稻田土壤细菌群落的16S rDNA-PCR-DGGE分析

用不依赖细菌培养的16S rDNA-PCR-DGGE方法对福建省6个不同地区12个取样点的稻田土壤进行细菌群落结构分析.对12份样品直接提取其总DNA,用F341GC/R534引物扩增16SrDNA基因的V3可变区,结合DGGE(denaturing gradient gel electrophoresis)技术分析样品细菌群落组成.结果表明,福建省不同地区的稻田土壤之间细菌群落结构存在较大差异.犬体上可分为闽东、闽南、闽北、闽西4个大类.同一地区的根际土和表土样品之间也存在差异,但差异相对较低,其中龙岩根际土和表土细菌群落结构相似性最大,永泰差异性最大.回收了DGGE图谱中11个条带,测序结果经过Blast比对表明其中10个条带代表的细菌是不可培养的,显示了DGGE技术的优越性.     

土壤因子对野生植物AM真菌的影响

1　引　　言关于生态因子对ＡＭ真菌发生和分布的影响 ,国内外均有报道[1,2 ,7] ,张美庆等[6] 比较系统地研究了我国东、南沿海七省ＡＭ真菌的生态分布 ;吴铁航[5] 报道了几种土壤因子对栽培作物根围内ＡＭ真菌分布的影响 .本文主要介绍土壤类型、质地、营养状况、ｐＨ等对野生植物根围ＡＭ真菌的侵染、孢子密度和种属分布的影响 .2　研究地区与研究方法2 1　研究地区概况山东省位于 33°2 5′～ 38°2 3′Ｎ ,114°36′～ 12 2°4 3′Ｅ之间 ,属暖温带大陆性季风气候 ,年平均气温 11～ 14℃ ,年平均降水量为 5 5 0～ 95 0ｍｍ .根据地貌不…     

Arbuscular mycorrhizas in cycads of southern India

Root and soil samples of three potted or ground-grown cycads ( Cycas circinalis, C. revoluta, Zamiasp.) were collected between November 1999 and June 2000 and surveyed for arbuscular mycorrhizal (AM) colonization and spore populations. AM fungi were associated with all root systems and rhizosphere samples examined. Root colonization was of a typical Arum type and AM colonization levels differed significantly between species and between potted and ground-grown cycads. Mycorrhizal colonization levels were inversely related to root hair number and length. Spores of nine morphotypes belonging to three genera ( Acaulospora, Glomus, Scutellospora) were extracted from soil. The percentage root length colonized by AM fungi was not related to soil factors, but total AM fungal spore numbers in the rhizosphere soil were inversely related to soil nitrogen and phosphorus levels. AM fungal spore numbers in the soil were linearly related to root length colonized. The co-occurrence of septate non-mycorrhizal fungi was recorded for the first time in cycads. These observations and the relationship between plant mycorrhizal status and soil nutrients are discussed.     

丛枝菌根对有机污染土壤的修复作用及机理

丛枝菌根(AM)是丛枝菌根真菌(AMF)与植物根系相互作用的互惠共生体,能改良土壤结构,增强植物抗性.自然界中已知的AMF有170多种,分布广泛,且可与大多数植物共生.利用AM修复有机污染土壤正成为一个崭新的研究方向.本文综述了AM对多环芳烃、酞酸脂、石油和农药等一些典型有机污染物污染土壤的修复作用.AM修复有机污染土壤的机理主要包括:AMF代谢有机污染物;AM分泌酶,降解污染物;AM影响根系分泌作用,并促进根际微生物对有机污染物的降解;AMF宿主植物吸收积累污染物.AM修复研究中,高效AMF的筛选、复合菌种效应、土壤老化、AM作用下植物对有机污染物的吸收积累等几方面仍有待于深入研究.