都江堰亚热带地区常见植物根围的丛枝菌根真菌

从都江堰亚热带地区常见植物根围土壤中分离并鉴定了4属27种丛枝菌根真菌,其中无柄囊霉属Acaulospora 4种,原囊霉属Archaeospora 1种,内养囊霉属Entrophospora 2种,球囊霉Glomus 20种。其中哥伦比亚内养囊霉Entrophospora colombiana,澳洲球囊霉Glomus australe,卷曲球囊霉G．convolutum,肿涨球囊霉G．gibbosum,球泡球囊霉G．globiferum,异形球囊霉G．heterosporum(A)为我国六个新记录种。     

都江堰亚热带地区常见植物根围的丛枝菌根真菌*

从都江堰亚热带地区常见植物根围土壤中分离并鉴定了4属27种丛枝菌根真菌,其中无柄囊霉属Acaulospora4种,原囊霉属Archaeospora1种,内养囊霉属Entrophospora2种,球囊霉Glomus20种。其中哥伦比亚内养囊霉Entrophosporacolombiana,澳洲球囊霉Glomusaustrale,卷曲球囊霉G.convolutum,肿涨球囊霉G.gibbosum,球泡球囊霉G.globiferum,异形球囊霉G.heterosporum(A)为我国六个新记录种。     

西藏东南部地区的丛枝菌根真菌

在西藏东南部地区不同生境中的植物根围采集了土壤样品131份,从中分离并鉴定出5属32种丛枝菌根真菌,其中无梗囊霉属Acaulospora11种,原囊霉属Archaeospora1种,球囊霉Glomus17种,和平囊霉Pacispora2种,盾巨孢囊霉Scutellospora1种。其中格但无梗囊霉Acaulosporagedanensis,黄孢球囊霉Glomusflavisporum,英弗梅球囊霉Glomusinvermaium,玻利维亚和平囊霉Pacisporaboliviana为我国四个新记录种。     

福建漳州常见药用植物根围的丛枝菌根真菌

为了解闽南地区药用植物根围丛枝菌根真菌多样性分布,作者调查了福建省漳州市20种常见药用植物根围的AM真菌。从福建省漳州市小溪镇、国强乡等地共分离出无梗囊霉属Acaulospora 12种、原囊霉属Archaeospora 1种、巨孢囊霉属Gigaspora 2种、球囊霉属Glomus 42种、盾巨孢囊霉属Scutellospora 9种,其中沙生球囊霉Glomus arenarium、金黄球囊霉Glomus aureum和厚皮球囊霉Glomus callosum等3种为我国新记录种。     

渤海湾岛屿的丛枝菌根真菌*

从渤海湾岛屿上的天然植被根围土壤中分离到丛枝菌根真菌7属35种, 其中无柄囊霉属Acaulospora5种,原囊霉属Archaespora1种,内养囊霉属 Entrophospora 1种,球囊霉属Glomus属18种,巨孢囊霉属 Gigaspora3种, 类球囊霉属Paraglomus属1种,盾巨孢囊霉属Scutellospora6种。群生盾巨孢囊霉Scutellospora gregaria和易误巨孢囊霉Gigaspora decipiens为我国的新记录种。标本保藏于莱阳农学院菌根生物技术实验室。     

渤海湾岛屿的丛枝菌根真菌

从渤海湾屿上的天然植被根围土壤中分离到丛标菌根真菌7属35种,其中无柄囊霉属Acaulospora5种,原囊霉属Archaespora1种,内养囊霉各Entrophospora 1种,球囊霉属Glomus属18种,巨孢囊霉属Gigaspora3种,类球囊霉属Paraglomus属1种,盾巨孢囊霉属Scutellospora6种。群生盾巨孢囊霉Scutellospora gregaria和易误巨孢囊霉Gigaspora decipiens为我国的新记录种。标本保藏于莱阳农学院菌根生物技术实验室。     

野生植物根围的丛枝菌根真菌Ⅱ

本文主要报道了野生植物根围Glomus属的17个种,聚球囊霉G.aggregatumSchenck＆Smith,苏格兰球囊霉G.caledonium（Nicol.＆Gerd.）Trappe＆Gerd,近明球囊霉G．claroideumSchenck＆Smith,明球囊霉G．clarumNicolson＆Schenck,缩球囊霉G．constrictumTrappe,透光球囊霉G．diaphanumMorton,幼套球囊霉G．etunicatumBecker＆Gerdemann,集球囊霉G．fasciculatum（Thaxter）Gerd．＆Trappe,何氏球囊霉G．hoiBerch＆Trappe,地球囊霉G.geosporum（Nicol．＆Derd.）Warker,根内球囊霉G．intraradicesSchenck＆Smith,摩西球囊霉G．mosseae（Nicol．＆Gerd.）Gerd.＆Trappe,隐球囊霉G.occultumWalker,网状球囊霉G.reticulatumBhattcharjee＆Mukerji,地表球囊霉G.versiforme（Karsten）Berch,台湾球囊霉G．formosanumWu＆Chen,悬钩子球囊霉G．rubiformeGerdemann＆Trappe）Almeida＆Schenck;内养囊霉属1个种,稀有内养囊霉Entrophosporainfrequens（Hall）Ames＆Schenider。其中,网状球囊霉为我国新记录种。     

野生植物根围的丛枝菌根真菌II.

本文主要报道了野生植物根围Glomus属的17个种,聚球囊霉G. aggregatumSchenck & Smith,苏格兰球囊霉G. caledonium (Nicol. & Gerd.) Trappe & Gerd,近明球囊霉G. claroideum Schenck & Smith,明球囊霉G. clarum Nicolson & Schenck,缩球囊霉G. constrictum Trappe,透光球囊霉G. diaphanum Morton,幼套球囊霉G. etunicatumBecker & Gerdemann,集球囊霉G. fasciculatum (Thaxter) Gerd. & Trappe,何氏球囊霉G.hoi Berch & Trappe,地球囊霉G. geosporum (Nicol. & Gerd.) Warker,根内球囊霉G.intraradices Schenck & Smith,摩西球囊霉G. mosseae (Nicol. & Gerd.) Gerd. & Trappe,隐球囊霉G. occultum Walker,网状球囊霉G. reticulatum Bhattcharjee & Mukerji,地表球囊霉G. versiforme (Karsten) Berch,台湾球囊霉G. formosanum Wu & Chen,悬钩子球囊霉G. rubiforme Gerdemann & Trappe) Almeida & Schenck;内养囊霉属1个种,稀有内养囊霉Entrophospora infrequens (Hall) Ames & Schenider.其中,网状球囊霉为我国新记录种.     

西北荒漠带油蒿丛枝菌根真菌空间分布特征

2018年7月和2019年7月,沿荒漠植物油蒿(Artemisia ordosica)天然分布地带,在内蒙古、宁夏、甘肃选取4个典型样地,采集油蒿根围土样和根样,研究丛枝菌根(arbuscular mycorrhiaze,AM)真菌地理分布以及土壤因子的生态功能。共分离鉴定6属32种AM真菌。在低海拔地区(1 000～1 300 m)和高海拔地区(1 600～1 900 m),球囊霉属(Glomus)和无梗囊霉属(Acaulospora)为优势属;在中海拔地区(1 300～1 600 m),球囊霉属和斗管囊霉属(Funneliformis)为亚优势属;盾巨孢囊霉属(Scutellospora)在3个海拔地区均为偶见属,近明囊霉属(Claroideoglomus)在低海拔地区为偶见属,在高、中海拔地区为伴生属;缩管柄囊霉属(Septoglomus)在3个海拔地区均为伴生属。油蒿根围AM真菌定殖分布表现出空间分布特征:从东到西随海拔高度增加,菌丝、泡囊、总定殖率和定殖强度总体呈渐增趋势,最大定殖率为70%,最小定殖率为13.3%。主成分分析表明,氨氮、湿度、脲酶和速效磷是影响AM真菌分布的主要因子。相关性分析表明,海拔与酸性磷酸酶、碱性磷酸酶、脲酶、速效磷极显著正相关(P0.01),与有机碳显著正相关(P0.05),与总提取球囊霉素极显著负相关。     

云南热带蕨类植物根际土壤中的六种VA菌根真菌

从云南热带地区野生或从野外移栽于温室中的蕨类植物根际土壤中分离得到六种VA菌根真菌：双网无梗囊霉Acaulospora bireticulata Rothwell et Trappe,细凹无梗囊霉Acaulospora scrobiculata Trappe,瘤状无梗囊霉Acaulospora tuberculata Janos ＆ Trappe,多梗球囊霉 Glomus multicaule Gerdemann ＆ Bakshi,棒孢硬囊霉 Sclerocystis clayisporaTrappe．帚状硬囊霉Sclerocystis coremioides Berk．＆ Broome,其中,瘤状无梗囊霉,多梗球囊霉和帚状硬囊霉为我国的3个新记录种。本文对这六种vA菌根真菌的主要形态学特征进行了描述,并对蕨类植物的VA菌根进行了讨论。     

Assessing the diversity of AM fungi in arid gypsophilous plant communities

In the present study, we used PCR-Single-Stranded Conformation Polymorphism (SSCP) techniques to analyse arbuscular mycorrhizal fungi (AMF) communities in four sites within a 10 km² gypsum area in Southern Spain. Four common plant species from these ecosystems were selected. The AM fungal small-subunit (SSU) rRNA genes were subjected to PCR, cloning, SSCP analysis, sequencing and phylogenetic analyses. A total of 1443 SSU rRNA sequences were analysed, for 21 AM fungal types: 19 belonged to the genus Glomus , 1 to the genus Diversispora and 1 to the Scutellospora. Four sequence groups were identified, which showed high similarity to sequences of known glomalean species or isolates: Glo G18 to Glomus constrictum , Glo G1 to Glomus intraradices , Glo G16 to Glomus clarum , Scut to Scutellospora dipurpurescens and Div to one new genus in the family Diversisporaceae identified recently as Otospora bareai . There were three sequence groups that received strong support in the phylogenetic analysis, and did not seem to be related to any sequences of AM fungi in culture or previously found in the database; thus, they could be novel taxa within the genus Glomus : Glo G4, Glo G2 and Glo G14. We have detected the presence of both generalist and potential specialist AMF in gypsum ecosystems. The AMF communities were different in the plant studied suggesting some degree of preference in the interactions between these symbionts.     

中国盐碱土壤中AM菌的生态分布

对我国盐碱土壤中丛枝菌根（Ａｒｂｕｓｃｕｌａｒ Ｍｙｃｏｒｒｈｉｚａ,ＡＭ） 菌的种属构成、生态分布状况进行了研究．结果表明,不同地区ＡＭ 菌种属构成不同,其种属组成、分布与土壤类型、碱化度和土壤有机质含量有关．盐渍化砂土、壤土和粘土中,Ｇｌｏｍｕｓ 属的真菌数量最多,Ａｃａｕｌｏｓｐｏｒａ 属次之,而Ｇｌｏｍｕｓ 属中的Ｇ．ｍｏｓｓｅａｅ 则是分布最为广泛的菌种．随土壤碱化度的增加,Ｇｌｏｍｕｓ ｍｏｓｓｅａｅ 出现频率随之相对增加．在一定范围内有机质含量越高,土壤中ＡＭ 菌种和属的种类就越多．ＡＭ 菌的种属组成因不同寄主植物而异,其中豆科植物根围中ＡＭ 菌分布的种属数量最多．     

我国北方农田土壤中AM真菌的多样性

AM真菌是农业生态系中一类重要的土壤微生物,它在农田土壤中的发生和分布受多种环境因素的影响。为深入了解我国北方农田土壤中AM真菌的多样性规律,于2000年在河北、山东的农田土壤中采集有代表性的土样127个。通过进一步扩繁、纯化,从中分离出AM真菌5属22种,鉴定了20个种,包括一个国内新记录种沾屑球囊霉(Glomus spurcum)。分析AM真菌的多样性特点及其影响因素发现,农田土壤中以球囊霉属(Glomus)的频度最高,其次为无梗囊霉属(Acaulospora);优势种类为幼套球囊霉(Glomus etunicatum)和摩西球囊霉(Glomus mosseae).土壤速效磷含量、pH状况主要对孢子密度产生影响,对种群分布影响不大。宿主植物类型对AM真菌的侵染状况和多样性影响较大;比较玉米(Zea mays)、甘薯(Ipomoea batatas)根区AM真菌的种群组成后发现两者有所不同,但优势种一致.     

不同施肥处理对丛枝菌根真菌生态分布的影响

研究了在东北海伦实验站长期定位培肥实验地不同施肥处理下丛枝菌根（Arbuscular Mycorrhizal,AM）真菌生长发育状况（包括侵染率、菌丝量和孢子数）,同时还分析了不同施肥处理下AM真菌群落生态分布和特征.结果表明施肥处理,尤其是磷肥（NP2K）处理显著降低AM真菌侵染玉米根系,而根外菌丝长度和孢子数并无显著变化,这和施肥处理下AM真菌的种群结构发生变化有关.随着土壤肥力的增高,土壤中AM真菌种的丰度和密度都有增加的趋势,而当肥力增高到一定程度后（磷肥和钾肥继续增加到NP2K和NPK2处理后）,土壤中AM真菌种的丰度和密度都有下降的趋势;从AM真菌属在不同肥力处理下出现的频度来看,Glomus属在7个处理中出现的频度最高,在每一个肥力处理中都有分布,Acaullospora属次之,Entrohospora属则只是出现在NK处理下;而Glomus属中出现频度最高的种是Glomus mosseae,其次是Glomus caledonium;再次是Glomus diaphanium,这说明施肥处理会影响到AM真菌种属的分布,进而影响到AM真菌的群落结构和生态分布.     

The liverwort Marchantia foliacea forms a specialized symbiosis with arbuscular mycorrhizal fungi in the genus Glomus

Microscopic evidence suggests that fungi forming endosymbioses with liverworts in the Marchantiales are arbuscular mycorrhizal (AM) fungi from the Glomeromycota. Polymerase chain reaction amplification of ribosomal sequences confirmed that endophytes of the New Zealand liverwort, Marchantia foliacea, were members of the genus Glomus. Endophytes from two Glomus rDNA phylotypes were repeatedly isolated from geographically separated liverwort samples. Multiple phylotypes were present in the same liverwort patch. The colonizing Glomus species exhibited substantial internal transcribed spacer sequence variation within phylotypes. This work suggests that certain liverwort species may serve as a model for studying DNA sequence variation in colonizing AM phylotypes and specificity in AM-host relationships.     

我国北方VA菌根真菌某些属和种的生态分布

虽然VA真菌遍布全球,但其属和种的分布是不均衡的,常有程度不同的地域性。以新疆、北京和吉林三地为代表的我国北方土壤中的VA真菌大都为球囊霉属Glomns。对摩西球囊霉G.mosseae、地表球囊霉G.versilorme及未发表种Glomus sp.9等菌种和某些生态因子的统计分析表明:土壤pH、土壤有机质含量和采集地海拔高度对三菌种的分布影响显著。在pH5—9.5范围内,球囊霉属所占比例随土壤pH增高而加大;无梗囊霉属Acaulospora所占比例则随土壤pH降低而加大。pH大于9的土壤中完全没有盾巨囊霉属Scutellospora。虽然球囊霉属主要分布在有机质含量低的土壤中,但其未发表种Glomus sp.9却较多发现于有机质丰富处。无梗囊霉属的某些种对土壤有机质含量在一定选择性。盾巨囊霉属多见于有机质含量为5—10％的土壤中。海拔3000米以上土壤中球囊霉属和无梗囊霉属显著减少,盾巨囊霉属则已绝迹。球囊霉属中某些种对海拔高度较敏感。摩西球囊霉是我国北方土壤中的常见种,也是北京污灌土壤中的优势种。由于对环境的适应能力及地域性的差异,将VA真菌总结为“广谱生态型”和“窄谱生态型”两类。     

泰山丛枝菌根真菌群落结构特征

2007年对泰山植被根围内丛枝菌根(arbuscular mycorrhiza,AM)真菌群落组成、数量、分布及其与植物多样性的关系进行了研究。从泰山傲徕峰、黑龙潭库区等样地共分离出4属16种AM真菌:球囊霉属Glomus 9种、无梗囊霉属Acaulospora 4种、巨孢囊霉属Gigaspora 2种和盾巨孢囊霉属Scutellospora1种。其中,球囊霉属Glomus及聚球囊霉Glomus fasciculatum的孢子密度、相对多度、分布频度和重要值均最高,分别为泰山植被区根围内AM真菌优势属和优势种。各样地之间Sorenson相似系数在0.60和0.85之间。植被数量与孢子密度(r=0.80,p0.01)、植物种的丰富度与AM真菌种的丰富度(r=0.77,p0.01)以及与孢子密度(r=0.59,p0.01)均呈极显著正相关关系。研究结果表明植物多样性对于提高AM真菌多样性发挥极为重要的作用。     

Restriction Analysis of PCR-Amplified Internal Transcribed Spacers of Ribosomal DNA as a Tool for Species Identification in Different Genera of the Order Glomales

A technique combining PCR and restriction fragment length polymorphism analysis was used to generate specific DNA fragment patterns from spore extracts of arbuscular mycorrhizal fungi. With the universal primers ITS1 and ITS4, DNA fragments were amplified from species of Scutellospora and Gigaspora that were approximately 500 bp long. The apparent lengths of the corresponding fragments from Glomus spp. varied between 580 and 600 bp. Within the genus Glomus, the restriction enzymes MboI, HinfI, and TaqI were useful for distinguishing species. Depending on the restriction enzyme used, groups of species with common fragment patterns could be found. Five tropical and subtropical isolates identified as Glomus manihotis and G. clarum could not be distinguished by their restriction patterns, corresponding to the morphological similarity of the spores. The variation of internal transcribed spacer sequences among the Gigaspora species under study was low. Fragment patterns of Scutellospora spp. showed their phylogenetic relationship with Gigaspora and revealed only a slightly higher degree of variation.     

Glomus africanum and G. iranicum, two new species of arbuscular mycorrhizal fungi (Glomeromycota)

Two new arbuscular mycorrhizal fungal species (Glomeromycota) of genus Glomus, G. africanum and G. iranicum, are described and illustrated. Both species formed spores in loose clusters and singly in soil and G. iranicum sometimes inside roots. G. africanum spores are pale yellow to brownish yellow, globose to subglobose, (60-)87(-125) μm diam, sometimes ovoid to irregular, 80-110 x 90-140 μm. The spore wall consists of a semipermanent, hyaline, outer layer and a laminate, smooth, pale yellow to brownish yellow, inner layer, which always is markedly thinner than the outer layer. G. iranicum spores are hyaline to pastel yellow, globose to subglobose, (13-)40(-56) μm diam, rarely egg-shaped, prolate to irregular, 39-54 x 48-65 μm. The spore wall consists of three smooth layers: one mucilaginous, short-lived, hyaline, outermost; one permanent, semirigid, hyaline, middle; and one laminate, hyaline to pastel yellow, innermost. Only the outermost spore wall layer of G. iranicum stains red in Melzer's reagent. In the field G. africanum was associated with roots of five plant species and an unrecognized shrub colonizing maritime sand dunes of two countries in Europe and two in Africa, and G. iranicum was associated with Triticum aestivum cultivated in southwestern Iran. In one-species cultures with Plantago lanceolata as the host plant G. africanum and G. iranicum formed arbuscular mycorrhizae. Phylogenetic analyses of partial SSU sequences of nrDNA placed the two new species in Glomus group A. Both species were distinctly separated from sequences of described Glomus species.