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《菌物学报》2017,(7):892-903
在温室土壤灭菌盆栽条件下对黄瓜(Cucumis sativus Linn.,"中农26号")接种丛枝菌根(arbuscular mycorrhizal,AM)真菌Funneliformis mosseae,测定了黄瓜根围土壤微生物功能、微生物数量以及土壤理化性质、土壤酶活性的变化。结果表明AM真菌可以提高土壤的速效养分含量,改善土壤物理性质,提高土壤中磷酸酶、氨肽基酶、多酚氧化酶及过氧化物酶活性;接菌处理后土壤中细菌、真菌数量显著高于不接种处理,而放线菌数量低于不接菌处理;对根围微生物功能多样性指标分析表明接菌处理的平均颜色变化率(AWCD)、Simpson优势度指数以及Mclntosh多样性指数,显著低于不接种对照。对菌根侵染率与土壤微生物等性状间的RDA分析表明AM真菌侵染率与速效P含量(r=0.65,P0.05)、磷酸酶(r=0.74,P0.05)、氨肽基酶(r=0.86,P0.05)、真菌数量(r=0.57,P0.05)呈正相关,与酚酸类碳源(r=-0.55,P0.05)、胺类碳源(r=-0.58,P0.05)、速效N(r=-0.77,P0.05)、β-葡糖苷酶(r=-0.90,P0.05)、β-纤维二糖苷酶(r=-0.63,P0.05)呈负相关。因此接种AM真菌的黄瓜菌根苗种植提高了土壤酶活性,优化了温室黄瓜根围微生物群落结构,显著改善了土壤理化性质。 相似文献
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Short- to long-term preservation of mycorrhizal fungi is essential for their in-depth study and, in the case of culture collections, for safeguarding their biodiversity. Many different maintenance/preservation methods have been developed in the last decades, from soil- and substrate-based maintenance to preservation methods that reduce (e.g., storage under water) or arrest (e.g., cryopreservation) growth and metabolism; all have advantages and disadvantages. In this review, the principal methods developed so far for ectomycorrhizal and arbuscular mycorrhizal fungi are reported and described given their distinct biology/ecology/evolutionary history. Factors that are the most important for their storage are presented and a protocol proposed which is applicable, although not generalizable, for the long-term preservation at ultra-low temperature of a large panel of these organisms. For ECM fungi, isolates should be grown on membranes or directly in cryovials until the late stationary growth phase. The recommended cryopreservation conditions are: a cryoprotectant of 10 % glycerol, applied 1–2 h prior to cryopreservation, a slow cooling rate (1 °C min?1) until storage below ?130 °C, and fast thawing by direct plunging in a water bath at 35–37 °C. For AMF, propagules (i.e., spores/colonized root pieces) isolated from cultures in the late or stationary phase of growth should be used and incorporated in a carrier (i.e., soil or alginate beads), preferably dried, before cryopreservation. For in vitro-cultured isolates, 0.5 M trehalose should be used as cryoprotectant, while isolates produced in vivo can be preserved in dried soil without cryoprotectant. A fast cryopreservation cooling rate should be used (direct immersion in liquid nitrogen or freezing at temperatures below ?130 °C), as well as fast thawing by direct immersion in a water bath at 35 °C. 相似文献
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喀斯特植被演替过程土壤丛枝菌根真菌(AMF)多样性 总被引:2,自引:0,他引:2
喀斯特生态系统维持了丰富的微生物多样性,丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)结构和组成会随喀斯特植被演替而改变。以贵州贵阳花溪、毕节织金和关岭花江典型喀斯特区域按时空替代法采集了乔木林、灌木林和草本群落样地土壤,采用Illumina HiSeq分子测序技术,通过OTU聚类分析、物种注释及数据库比对,探索了喀斯特不同演替阶段土壤AMF物种多样性。结果表明:(1)喀斯特生境土壤获得球囊菌门Glomeromycota OTU为275个,分属于4目8科13属19种,属水平上AMF丰度表明根内根孢囊霉属Rhizophagus为优势属,花江拥有最高AMF丰富度,缩隔球囊霉Septoglomus constrictum、根内根孢囊霉Rhizophagus intraradices、Claroideoglomus sp. MIB8381和稀有内养囊霉Entrophospora infrequens均分布于各样地的不同植被演替阶段,为常见种。(2)AM真菌多样性Shannon指数与Simpson指数在不同演替阶段表现为花溪:乔木≈灌木草本(P0.05)、花江:灌木≈草本乔木(P0.05)、织金:乔木灌木草本,但差异不显著,Chao1和Abundance-based coverag estimator(ACE)指数表现为花江灌木≈草地乔木(P0.05)。(3)Spearman相关性分析表明土壤全磷与AMF ACE指数显著负相关,且与Chao1指数极显著负相关;速效磷与Shannon和Simpson指数显著负相关。(4)典范对应分析(Canonical Correlation Analysis,CCA)表明土壤全氮、速效氮、有机质、全磷和速效钾与AMF群落分布有显著相关性。结果表明喀斯特植被演替过程中土壤丛枝菌根真菌多样性随着演替进行或升高或降低,无一致变化规律,并与土壤理化性质关系密切,其中以磷的影响最大。 相似文献
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丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)与超过80%的陆生植物形成共生关系,在改善土壤质量、增强宿主抗逆性及调节物质循环等方面发挥重要的生态功能。荒漠是指气候极端干旱、地表植被稀疏、自然环境荒凉的地区。荒漠地区生存环境恶劣,AMF在其中扮演着重要的角色。本文概述了荒漠生态系统中AMF的定殖时空异质性和多样性、AMF对土壤稳定性及碳氮循环的贡献、AMF对植物的促生抗逆性及维持植物群落稳定和多样性的作用以及AMF与荒漠农作物种植等方面的研究成果,为荒漠地区AMF的进一步研究及其开发利用提供了重要参考。 相似文献
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Leake JR 《Current opinion in plant biology》2004,7(4):422-428
More than 400 achlorophyllous plant species in 87 genera are parasitic upon fungi, and exploit them as their principle source of carbon. With a few exceptions, most of these myco-heterotrophic plants are now thought to be 'cheats', stealing carbon and nutrients from the mycorrhizal associates of adjacent autotrophic plants. Most myco-heterotrophs are therefore considered to be epiparasitic on green plants. Both the ectomycorrhizal and arbuscular mycorrhizal symbioses have been invaded by myco-heterotrophic epiparasites. DNA analysis is revealing the identities of many of the fungal partners of myco-heterotrophs, and their exceptionally high specificity. Myco-heterotrophs have distinctive stable isotope signatures, which can be used to establish the dependence upon fungal carbon of green plants that are partially myco-heterotrophic. 相似文献
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Summary We have investigated whether direct physical interactions occur between arbuscular mycorrhizal (AM) fungi and plant growth promoting rhizobacteria (PGPRs), some of which are used as biocontrol agents. Attachment of rhizobia and pseudomonads to the spores and fungal mycelium ofGigaspora margarita has been assessed in vitro and visualized by a combination of electron and confocal microscopy. The results showed that both rhizobia and pseudomonads adhere to spores and hyphae of AM fungi germinated under sterile conditions, although the degree of attachment depended upon the strain.Pseudomonas fluorescens strain WCS 365 andRhizobium leguminosarum strains B556 and 3841 were the most effective colonizers. Extracellular material of bacterial origin containing cellulose produced around the attached bacteria may mediate fungal/bacterial interactions. These results suggest that antagonistic and synergistic interactions between AM fungi and rhizosphere bacteria may be mediated by soluble factors or physical contact. They also support the view that AM fungi are a vehicle for the colonization of plant roots by soil rhizobacteria.Abbreviations AM
arbuscular mycorrhiza
- PGPR
plant growth promoting rhizobacteria
- CBH
cellobiohydrolase
- DAPG
2,4-(diacetyl-phloroglucinol
- TY
triptone-yeast
- LB
Lauria-Bertani
Dedicated to Prof. Dr. Dr. h.c. Eberhard Schnepf on the occasion of his retirement 相似文献
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Facilitation between woody and herbaceous plants that associate with arbuscular mycorrhizal fungi in temperate European forests 
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下载免费PDF全文 In late‐successional environments, low in available nutrient such as the forest understory, herbaceous plant individuals depend strongly on their mycorrhizal associates for survival. We tested whether in temperate European forests arbuscular mycorrhizal (AM) woody plants might facilitate the establishment of AM herbaceous plants in agreement with the mycorrhizal mediation hypothesis. We used a dataset spanning over 400 vegetation plots in the Weser‐Elbe region (northwest Germany). Mycorrhizal status information was obtained from published resources, and Ellenberg indicator values were used to infer environmental data. We carried out tests for both relative richness and relative abundance of herbaceous plants. We found that the subset of herbaceous individuals that associated with AM profited when there was a high cover of AM woody plants. These relationships were retained when we accounted for environmental filtering effects using path analysis. Our findings build on the existing literature highlighting the prominent role of mycorrhiza as a coexistence mechanism in plant communities. From a nature conservation point of view, it may be possible to promote functional diversity in the forest understory through introducing AM woody trees in stands when absent. 相似文献
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盐渍化土壤根际微生物群落及土壤因子对AM真菌的影响 总被引:4,自引:2,他引:4
为探明盐渍化土壤影响下AM真菌与根际土壤间的关系,试验选取宁夏碱化龟裂土、草甸盐土、盐化灌淤土3种类型4个样地上典型植被群落,测定了植物根际土壤养分含量、微生物群落结构、AM真菌侵染率以及孢子密度。结果显示:盐渍化土壤根际微生物碳源利用类型显著不同,对芳香类化合物的代谢能力整体较弱;红寺堡草甸盐土上微生物优势群落为氨基酸代谢类群,惠农盐化灌淤土为多聚化合物代谢群,西大滩碱化龟裂土为碳水化合物代谢群。AM真菌孢子密度与微生物碳源代谢群间的关系比较复杂。其中,惠农样点根际土壤孢子密度与多聚化合物微生物代谢群呈显著正相关,西大滩地区孢子密度与碳水化合物微生物代谢群呈显著正相关。土壤有机质、全盐、全氮、碱解氮等土壤肥力因子及土壤中的HCO-3、Na+、Cl-等盐基离子含量能解释AM真菌孢子密度与土壤环境因子之间相互关系的大部分信息。较高的HCO-3浓度促进了AM真菌侵染率的提高,但高盐浓度下Na+和Cl-降低了菌根侵染率。土壤对AM真菌孢子密度、侵染率的影响因土壤盐分组成类型的不同而异。研究结果为深入了解AM真菌多样性,促进宁夏盐碱地的合理开发与利用提供了理论依据。 相似文献
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不同品种牡丹对丛枝菌根真菌群落结构的影响 总被引:1,自引:2,他引:1
对山东菏泽赵楼牡丹园栽培的不同品种牡丹(Paeonia suffruticosa)根围丛枝菌根(ar-buscular mycorrhiza,AM)真菌孢子密度、种属构成、种丰度、分布频度、物种多样性指数及其物种组成相似性等进行了研究.结果表明:不同品种牡丹根围AM真菌的种属构成、种丰度和分布频度等均不相同,其中,从‘凤丹'和‘赵粉'根围中各分离到10种AM真菌,从‘乌龙捧盛'和‘洛阳红'根围中分离到9种,从‘胡红'根围中分离到8种;‘凤丹'根围AM真菌孢子密度最高,为59个·50 g-1土,‘胡红'最低,为47个·(50 g)-1土;‘赵粉'的物种多样性指数最高(1.89),‘胡红'最低(1.71).‘凤丹'和‘胡红'的菌根侵染率最高,为63.6%,‘乌龙捧盛'最低,为52.7%.不同牡丹品种之间AM真菌种类组成的相似性系数在0.71~0.95,其中‘乌龙捧盛'和‘凤丹'的相似性系数最高(0.95),而‘胡红'与‘洛阳红'的相似性系数最低(0.71).牡丹基因型能改变AM真菌群落结构特征. 相似文献
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林火对植物根围丛枝菌根真菌多样性的影响 总被引:1,自引:0,他引:1
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。 相似文献
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Berta Bago 《Plant and Soil》2000,226(2):263-274
Nutrition of the arbuscular mycorrhiza (AM) is addressed from a fungal point of view. Intraradical and extraradical structures
proposed as preferential sites for nutrient acquisition in arbuscular mycorrhizal (AM) fungi are considered, and their main
features compared. This comparison includes the formation and function of branched structures (either intra- or extraradical)
as putative nutrient uptake sites with unique morphological and physiological features in the AM fungal colony. The morphology
and functioning of these structures are further affected by intra- or extraradical environmental factors. A model is presented
which portrays the intrinsic developmental and physiological duality of the AM fungus.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
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Morphological types of arbuscular mycorrhizal (AM) fungi in roots of understorey plants were examined in three different Japanese deciduous broadleaved forests. In total, 43 species belonging to 33 genera from 27 families were examined for the morphological types of AM. The number of flowering plant species having Paris-type AM was greater than those having Arum-type AM in each plot. This tendency was more prominent in herbaceous plants than woody plants with nine species having Paris-type associations among ten herbaceous plant species examined. Therefore, it is suggested from the ecological point of view that Paris-type associations could be advantageous for the herbaceous understorey plants growing slowly in these environments. The influence of plant identity on the morphological types of AM was also discussed by arranging the plants examined with the morphological types in a current plant phylogeny scheme. In this study, some new records on the morphological types of AM in some new plant families were obtained including the first report of a typical Arum-type AM in gymnosperms. 相似文献
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Miransari M 《Applied microbiology and biotechnology》2011,89(4):917-930
The soil environment is interesting and complicated. There are so many interactions taking place in the soil, which determine
the properties of soil as a medium for the growth and activities of plants and soil microorganisms. The soil fungi, arbuscular
mycorrhiza (AM), are in mutual and beneficial symbiosis with most of the terrestrial plants. AM fungi are continuously interactive
with a wide range of soil microorganisms including nonbacterial soil microorganisms, plant growth promoting rhizobacteria,
mycorrhiza helper bacteria and deleterious bacteria. Their interactions can have important implications in agriculture. There
are some interesting interactions between the AM fungi and soil bacteria including the binding of soil bacteria to the fungal
spore, the injection of molecules by bacteria into the fungal spore, the production of volatiles by bacteria and the degradation
of fungal cellular wall. Such mechanisms can affect the expression of genes in AM fungi and hence their performance and ecosystem
productivity. Hence, consideration of such interactive behavior is of significance. In this review, some of the most important
findings regarding the interactions between AM fungi and soil bacteria with some new insights for future research are presented. 相似文献
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Arbuscular mycorrhizal (AM) fungi are important root symbionts that enhance plant nutrient uptake and tolerance to pathogens and drought. While the role of plant dispersal in shaping successional vegetation is well studied, there is very little information about the dispersal abilities of AM fungi. We conducted a trap-box experiment in a recently abandoned quarry at 10 different distances from the quarry edge (i.e. the potential propagule source) over eleven months to assess the short term, within-year, arrival of plant and AM fungal assemblages and hence their dispersal abilities. Using DNA based techniques we identified AM fungal taxa and analyzed their phylogenetic diversity. Plant diversity was determined by transporting trap soil to a greenhouse and identifying emerging seedlings. We recorded 30 AM fungal taxa. These contained a high proportion of ruderal AM fungi (30% of taxa, 79% of sequences) but the richness and abundance of AM fungi were not related to the distance from the presumed propagule source. The number of sequences of AM fungi decreased over time. Twenty seven plant species (30% of them ruderal) were recorded from the soil seed traps. Plant diversity decreased with distance from the propagule source and increased over time. Our data show that AM fungi with ruderal traits can be fast colonizers of early successional habitats. 相似文献
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The arbuscular mycorrhizal fungal (AMF) communities from the Yungas forests of Argentina were studied. The AMF species present in the rhizosphere of some dominant native plants (one tree: Alnus acuminata; three herbaceous species: Duchesnea indica, Oxalis conorrhiza, Trifolium aff. repens; and one shrub: Sambucus peruviana) from two sites (Quebrada del Portugués and Narváez Range) of the Yungas forests were isolated, identified and quantified during the four seasons of the year. Twenty-two AMF morphotaxa were found. Spore density of some AMF species at each site varied among seasons. The genera that most contributed to the biodiversity index were Acaulospora for Quebrada del Portugués and Glomus for Narváez Range. High diversity values were observed in the Yungas forests, particularly in the spring (rainy season). We concluded AMF differed in species composition and seasonal sporulation dynamics in the Yungas forests. 相似文献
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荒漠油蒿(Artemisia ordosica)根围AM真菌分布与土壤酶活性 总被引:1,自引:1,他引:1
于2007年10月在油蒿(Artemisia ordosica)集中分布区选取4个典型样地,分别从0~10cm、10~20cm、20~30cm、30~40cm和40~50cm土层采集根围土样,分离其丛枝菌根(arbuscular mycorrhiza,AM)真菌并测定了3种土壤酶活性.结果表明,在各样地0~50cm土层中油蒿根系AM真菌菌丝定殖率均很高,有典型的泡囊与丛枝结构.菌丝定殖率与泡囊定殖率呈显著正相关,但菌丝、泡囊和丛枝定殖率与AM真菌孢子密度和土壤酶活性之间都无相关性;孢子密度在不同样地及采样深度间差异明显,与土壤有机质、速效磷和速效氮含量都呈一定正相关关系.孢子密度与脲酶和酸性磷酸酶活性有显著或极显著相关关系,与碱性磷酸酶活性之间的相关性受到土壤pH的显著影响.孢子密度的峰值出现在0~10cm表层土,并随土壤剖面深度增加而降低.土壤酶活性在土壤垂直剖面显示与孢子密度同样的规律.不同样地间AM真菌分布及油蒿根系定殖率的差异表明,油蒿与AM真菌之间有良好共生性,对维护荒漠生态环境系统结构的完整性具有重要意义. 相似文献
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《菌物学报》2017,(7):1048-1055
为探明AM真菌对蜈蚣草Pteris vittata根围土壤砷形态及其吸收砷的效应,采用盆栽实验,接种摩西管柄囊霉Funneliformis mosseae(Fm)、幼套近明球囊霉Claroideoglomus etunicatum(Ce)和变形球囊霉Glomus versiforme(Gv)。实验结果表明:接种Ce处理对蜈蚣草根围p H影响不显著,但提高了根围土壤中非专性吸附态砷、结晶水合铁铝氧化物结合态砷比例,分别达35%和13%,同时降低了无定形和弱结晶水合铁铝氧化物结合态砷、残渣态砷比例,分别达3%和11%。蜈蚣草生物量及其体内砷浓度分别提高了111%和15%。研究表明接种Fm或Ce处理相比接种Gv处理对提高根围土壤中弱吸附态砷比例或降低较强吸附态砷比例的效果更好。而与接种Fm和Gv处理相比,接种Ce处理对提高蜈蚣草生物量及砷浓度、砷累积量的效果更显著。接种Ce可显著提高蜈蚣草对砷的提取效率,研究结果为蜈蚣草-AM真菌联合修复As污染土壤提供了技术指导。 相似文献
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