Contribution of Arbuscular Mycorrhizal and Saprobe Fungi to the Tolerance of Eucalyptus globulus to Pb

The application of Pb inhibited the development of mycelia of the saprobe fungi Fusarium concolor and Trichoderma koningii and the hyphal length of the arbuscular mycorrhizal fungi (AM) Glomus mosseae and G. deserticola in vitro. The application to soil of 1500 mg kg^?1 of Pb decreases the dry weight, total N, P, Mg and Fe concentration and chlorophyll content of the shoot of E. globulus no inoculated with AM fungi. However, G. deserticola increased the dry weight, total nutrient concentration and chlorophyll content of the shoot, and the percentage of AM root length colonization and the succinate dehydrogenase activity of AM mycelia of E. globulus in presence of 1500 mg kg^?1 of Pb, and these increases were higher when G. deserticola was inoculated together with T. koningii. The application to soil of 3000 mg kg^?1 of Pb decreased the shoot dry weight and AM colonization of E. globulus in all treatments tested. Pb was accumulated in the stem more than in the leaves of E. globulus. In presence of 1500 mg kg^?1 of Pb the highest accumulation of this metal in the stem took place when E. globulus was colonized with G. deserticola. In conclusion, the possibility to increase Lead accumulation in stem is very attractive for phytoextraction function, the saprobe fungi, AM and their interaction may have a potential role in elevating phytoextraction efficiency and stimulate plant growth under adverse conditions such as lead contaminated soil.     

Arbuscular Mycorrhizal Fungi Contribute to Resistance of Upland Rice to Combined Metal Contamination of Soil

A greenhouse pot experiment was conducted to investigate heavy metal [copper (Cu), zinc (Zn), lead (Pb), and cadmium (Cd)] uptake by two upland rice cultivars, ‘91B3’ and ‘277’, grown in a sterilized field soil contaminated by a mixture of Cu, Zn, Pb, and Cd. Rice plants were inoculated with each of three arbuscular mycorrhizal fungi (AMF), Glomus versiforme (GV), Glomus mosseae (GM), and Glomus diaphanum (GD), or remained noninoculated (NM). Both rice cultivars could be colonized by the three AMF used in this experiment. The percentage of mycorrhizal colonization by the three AMFs on the two rice cultivars ranged from 30% to 70%. Mycorrhizal colonization of both upland rice cultivars had a large influence on plant growth by increasing the shoot and root biomass compared with non-inoculated (NM) plants. The results indicate that mycorrhiza exert some protective effects against the combined toxicity of Cu, Zn, Pb, and Cd in the contaminated soil. This conclusion is supported by the partitioning of heavy metals (HMs) in the two cultivars. In the two cultivars, colonization by AMF reduced the translocation of HMs from root to shoot (except that the colonization of AMF increased the Cu translocation of HMs in cultivar ‘277’). Immobilization of the HMs in roots can alleviate the potential toxicity to shoots induced by the mixture of Cu, Zn, Pb, and Cd. The two rice cultivars showed significant differences in uptake of Cu, Zn, Pb, and Cd when uninoculated. GM inoculation gave the most protective effects on the two cultivars under the combined soil contamination.     

丛枝菌根真菌对鸢尾的促进作用研究

为高效利用水陆两栖植物鸢尾修复污染水体,本研究通过测定不同的丛枝菌根真菌(AMF)与鸢尾构建共生体系的生长指标、土壤理化性质及植物光合作用指标,探讨不同AMF对水生植物鸢尾的促进作用。结果表明:AMF对鸢尾的促进作用主要体现在地上及地下两部分,其中地下部分通过利用其庞大的菌丝网络吸收土壤中的营养物质,进而促进了鸢尾的生长,其中对比无菌剂侵染的空白植物,摩西球囊霉作用的鸢尾对氮元素的吸收率提高71.75%,磷元素的吸收率提高8.36%,而根内球囊霉作用的鸢尾对氮元素的吸收率提高42.55%,磷元素的吸收率提高9.5%;而地上部分则是通过加强叶片气孔导度的开启来调控植物净光合速率与蒸腾速率之间的平衡,进而提高了鸢尾的最优水资源利用率,加快植物的新陈代谢,最终促进植物的生长发育。其中对于鸢尾光合作用的调节摩西球囊霉的促进效果显著好于(P0.05)根内球囊霉。     

Arbuscular Mycorrhizal Fungi and Acclimatization of Micropropagated Citrus

Micropropagated plantlets lack mycorrhizal symbionts and therefore present some physiological hindrances when transferred from axenic to ex vitro conditions. The purpose of the present study was to research the effects of Glomus mosseae and G. versiforme on growth, photosynthesis, and nutrient uptake of micropropagated citrus plantlets at the acclimatization stage. The two mycorrhizal fungi successfully colonized the roots of citrus plantlets after an acclimatization period of 170 days, and the mycorrhizal developments were apt to low levels. Inoculation with G. mosseae improved acclimatized growth performance; increased photosynthetic rates, transpiration rates, and stomatal conductance; and stimulated the accumulations of nitrogen (N), phosphorus (P), calcium (Ca), copper (Cu), zinc (Zn), and manganese (Mn) in leaves and roots compared to the noninoculated treatment. These observations suggested that only G. mosseae was the more efficient fungus, exhibited better adaptation to transplanted conditions, and therefore is appropriate to introduce into the micropropagation protocol of citrus.     

Responses of Lentil to Co-Inoculation with Phosphate-Solubilizing Rhizobial Strains and Arbuscular Mycorrhizal Fungi

The purpose of this study was to evaluate the responses of lentil (Lens culinariscv. ‘Ziba’) to co-inoculation with arbuscular mycorrhizal (AM) fungi and some indigenous rhizobial strains varying in phosphorus (P)-solubilizing ability in a calcareous soil with high pH and low amounts of available P and nitrogen (N). A factorial experiment with completely randomized block design was conducted under controlled greenhouse conditions. The treatments consisted of (1) three inoculants of Rhizobium leguminosarum bv. viciae strains and a mixed rhizobial inoculant with an effective P-solubilizer strain of Mesorhizobium ciceri, (2) two AM fungal species, Glomus mosseae and Glomus intraradices, (3) two P sources, superphosphate and phosphate rock. Four replications were prepared for each treatment and a related control. After the growth period of three months, the dry matter of shoots plus seeds, their P and N contents, and percent of root colonized by AM fungus were measured. The results showed that the effects of AM fungi, rhizobial strains, and P fertilizers were highly significant (p < 0.01) for all the characteristics studied. The rhizobial strain with P-solubilizing ability showed a more beneficial effect on plant growth and nutrient uptake than the strain without this ability, although both strains had similar effectiveness for N₂-fixation in symbiosis with lentil. Synergistic relationships were observed between AM fungi and some rhizobial strains that related to the compatible pairing of these two microsymbionts. The P-uptake efficiency was increased when P fertilizers were applied along with AM fungi and/or P-solubilizer rhizobial strains.     

Protecting Cucumber from Fusarium Wilt with Arbuscular Mycorrhizal Fungi

A pot experiment was conducted to investigate the biocontrol effects of arbuscular mycorrhizal fungi (AMF) Glomus mosseae and Glomus versiforme on Fusarium oxysporum wilt disease of cucumber (Cucumis sativus L.). The results indicated that both AMF improved the growth of cucumber seedlings and reduced disease severity, but G. versiforme was more efficient. Compared with nonmycorrhizal plants infected by F. oxysporum, shoots and roots dry weights increased by 100% and 80% in G. versiforme–inoculated plants, and the qualities of seedlings were significantly improved; meanwhile, nitrogen, phosphorus, and potassium contents in shoots of G. versiforme–inoculated plants were significantly greater than those of G. mosseae–inoculated plants and nonmycorrhizal plants. Moreover, for mycorrhizal plants, soluble sugar and free proline contents in mycorrhizal roots were significantly greater than those of nonmycorrhizal treatment; however, malonaldehyde content in roots and the quantity of fungi in rhizosphere decreased when the plants were attacked by F. oxysporum.     

矿区土壤丛枝菌根真菌对采陷时间序列的响应

煤炭井工开釆造成大面积的地表塌陷,破坏了原有地表植被、土壤结构和地貌,影响土壤微生物群落结构和组成.为了研究井工矿开釆沉陷区丛枝菌根真菌(AMF)多样性与开采时间序列的相关性,本文以补连塔矿区不同开采年份的采煤沉陷区作为样地,以AMF和土壤因子为研究对象,探索随着采煤沉陷时间的延续,AMF物种多样性、种群结构变化规律及...     

丛枝菌根真菌促进植物摄取土壤磷的作用机制

磷在土壤中易被固定沉淀,在植物磷利用率低的情况下,过度施肥会造成磷肥浪费,可能通过地表径流、地下水溶解等方式,造成水体富营养化产生面源污染,对人类生产生活造成较大影响。丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)和植物结合所形成的共生菌根可以显著增强植株对磷的吸收利用。通过AMF可以提高宿主植株对磷的吸收转运的特性,从AMF促进植株对磷元素的摄取机制、AMF促进植物磷摄取分子机理、AMF作用下根系分泌物对植株磷利用的影响与根际微生物对AMF磷元素利用的影响4个方面的研究进展进行分析总结。AMF可以通过改变宿主植株的根系形态和菌丝网络的形成,扩大植株对养分吸收范围;释放有机酸、磷酸酶和质子等根系分泌物改变土壤结构和理化性质,与根际微生物共同作用降解土壤中难溶性磷酸盐;诱导相关磷转运蛋白基因的特异性表达,提高植株对磷的转运能力而促进其吸收。     

Effects of Arbuscular Mycorrhizal Fungi on Growth and Yield of Cucumber Plants

Abstract

In two pot experiments, cucumber (Cucumis sativus L. cv. Jinlu No. 3) seedlings were each inoculated with one of three arbuscular mycorrhizal fungi (AMF), Glomus mosseae, Glomus intraradices, or Glomus versiforme, or uninoculated. Seedling growth and weight of single fruit were investigated. The results indicated that growth of seedlings was significantly enhanced by G. mosseae, inhibited by G. versiforme, and not significantly influenced by G. intraradices. The dry weight of seedlings inoculated with G. mosseae was 1.2 times its counterparts. The concentrations of nitrogen (N) and phosphorus (P) in roots and magnesium (Mg), copper (Cu), and zinc (Zn) concentration in shoots were increased by inoculating the three AMF, and potassium (K) and iron (Fe) concentrations in shoots decreased significantly. The weights of single fruit of plants preinoculated with G. mosseae and G. versiforme were about 1.4 and 1.3 times higher than those from the uninoculated treatment, respectively.     

丛枝菌根真菌对紫花苜蓿吸收菲和芘的影响

采用横式三隔室盆栽试验方法,研究了丛枝菌根真菌（AMF）根内球囊霉（Glomus intraradices,G.i）对紫花苜蓿（Medicago sativaL.）吸收土壤中菲和芘的影响。结果表明：G.i可与紫花苜蓿形成良好的共生体,侵染率平均达61.20%,不同强度菲和芘污染对G.i菌根侵染率的影响差异不显著;接种G.i的植株根系干重增加59.08%。接种G.i增加了根系和茎叶中菲和芘的含量及积累量,根系和茎叶中菲积累量与其生物量（干重计）间呈显著正相关;与菲相比,接种G.i处理后植株芘含量和积累量的增幅更大。G.i限制了菲和芘从植株根系向茎叶的传输,对芘尤为明显,接种G.i植株根系向茎叶转运芘的比例比不接种对照降低了13.85%～37.47%。     

Screening of Arbuscular Mycorrhizal Fungi for Symbiotic Efficiency with Sweet Potato

A greenhouse study was conducted to study the efficiency of 14 isolates of arbuscular mycorrhizal (AM) fungi isolated from a local agricultural soil on the productivity of sweet potato (Ipomoea batatas). The different AM fungi enhanced the biomass and nutritional status of sweet potato seedlings to different extents. The genus Glomus was more effective than Acaulospora or Scutellospora. Efficiency also varied among isolates of Glomus irrespective of individual host plant or location of origin. Intraspecific differences were sometimes greater than interspecific differences. Benefits deriving from fungal isolates were positively correlated with the root-colonization rate and the abundance of extraradical propagules of the AM fungi. Taking plant yield parameters, nutritional status of the plants, and fungal attributes into consideration, GEGM (Glomus etunicatum together with Glomus mosseae) and GE6 (Glomus etunicatum) were the most effective AM symbionts for sweet potato under the experimental conditions.     

不同地点和复垦方式煤矸石山土壤中丛枝菌根真菌群落变化

以山西省大同市晋华宫人工复垦和自然恢复煤矸石山以及忻州窑自然恢复煤矸石山为研究对象,采用IlluminaMiSeq高通量测序技术对三座煤矸石山土壤AM真菌群落组成进行分析,并测定其土壤理化性质,以探究不同地点煤矸石山不同复垦方式下土壤中丛枝菌根真菌（Arbuscular mycorrhizal fungi, AM真菌）群落组成的差异及其土壤影响因子。结果表明：晋华宫人工复垦煤矸石山和忻州窑自然恢复煤矸石山AM真菌多样性指数（Chao指数和香农-威纳指数）存在显著差异,但晋华宫人工复垦和自然恢复煤矸石山AM真菌群落的多样性指数差异不显著。试验共检测到67个AM真菌OTUs,可鉴定到3个AM真菌属级分类单元,其中球囊霉属（Glomus）在晋华宫人工复垦煤矸石山、晋华宫自然恢复煤矸石山和忻州窑自然恢复煤矸石山中均为最优势菌,多样孢囊霉属（Diversispora）、类球囊霉属（Paraglomus）仅出现在晋华宫自然恢复煤矸石山。多元置换方差分析和多维尺度分析结果表明,晋华宫两种恢复方式的煤矸石山之间AM真菌群落组成差异不显著,而晋华宫与忻州窑两个地点的煤矸石山AM真菌群落组成差异显著。AM...     

丛枝菌根真菌调控土壤氧化亚氮排放的机制

氮素是陆地生态系统初级生产力的主要限制因子,自Haber-Bosch反应以来,氮肥的生产和施用极大地提高了粮食产量.然而过量施用氮肥导致氮肥利用率低,并造成了严重的环境污染,包括氮沉降、硝态氮淋洗以及N2O排放等.微生物直接参与土壤氮素循环,固氮微生物、氨氧化和反硝化微生物分别在土壤固氮、铵态氮转化和硝态氮转化过程中起...     

Solubilization of Insoluble Inorganic Phosphate by Hyphal Exudates of Arbuscular Mycorrhizal Fungi

Increased phosphate (P) uptake in plants by arbuscular mycorrhizal (AM) fungi is thought to depend mainly on the extension of external hyphae into soil. On the other hand, it is known that the hyphae of some kinds of ectomycorrhizal fungi release organic acids into soil and that they dissolve the insoluble inorganic P. This study collected hyphal exudates of AM fungi within compartmentalized pot culture and clarified their ability to solubilize insoluble inorganic P. Sterilized Andisol was packed in pots that were separated into root and hyphal compartments with a nylon net of 30 μm pore size. Seedlings of Allium cepa inoculated with AM fungi, Gigaspora margarita, or Glomus etunicatum were grown. Control pots were not inoculated. Mullite ceramic tubes were buried in the soil of each compartment and soil solution was collected. The anionic fraction of the soil solution was incubated with iron phosphate (4 mg FePO₄ in 1 mL of 0.4 acetate buffer). Solubilized P was measured. The AM colonization of plants inoculated with G. margarita and G. etunicatum was 86% and 54%, respectively. Adhesion of external hyphae was observed on the surface of the mullite ceramic tubes buried in soil of the hyphal compartment. Colonization of both fungi increased shoot P uptake and growth. Soil solution collected from the hyphal compartments of both fungi solubilized more P than did that from uninoculated plants. It is suggested that hyphal exudates can contribute to increased P uptake of colonized plants.     

Uptake of Arsenic by Maize Inoculated with Three Different Arbuscular Mycorrhizal Fungi

Effects of inoculation with three different arbuscular mycorrhizal (AM) fungi (Glomus etunicatum, Glomus constrictum, and Glomus mosseae) on arsenic (As) accumulation by maize were investigated by using soil spiked with As at rates of 0, 25, 50, and 100 mg kg^?1. The root colonization rates by the three fungi were significantly different (G. mosseae > G. etunicatum > G. constrictum) and decreased markedly with increasing As concentration in the soil. Inoculation with G. etunicatum or G. mosseae increased maize biomass and phosphorus (P) accumulation (G. mosseae > G. etunicatum) and reduced As accumulation in shoots (G. mosseae ≈ G. etunicatum), whereas inoculation with G. constrictum had little effect on these parameters. Inoculation with G. mosseae produced greater biomass and P uptake and less shoot As accumulation, and therefore it may be a promising approach to reduce As translocation from contaminated soils to plants.     

丛枝菌根真菌与植物共生影响植物水分状态的研究进展

丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)能与宿主植物形成共生体,广泛存在于陆地生态系统中。大量研究表明,不同水分条件下,植物通过接种AMF比未接种AMF的植物具有更强的水分吸收能力和更高的水分利用效率。在干旱、盐胁迫下,接种AMF能有效提高宿主植物的耐旱性与耐盐性。本文综述了不同水分条件下,与植物共生的AMF通过扩大植物根系吸收面积、改善根系结构,增强植物根系吸收水分能力的相关研究进展。土壤中根外菌丝网络的形成,不但为植物增加了水分吸收途径(菌根途径),还通过改善植物体内的矿质营养来调节植物对水分的吸收,进而影响植物的水分吸收状况；不同水分条件下,根系被AMF侵染后植物的光合作用、蒸腾作用以及气孔导度都得到增强,植物蒸腾作用的增强能够直接有效的提升植物的蒸腾拉力,因此植物对水分的吸收能力得以提升。同时,被AMF侵染的植物的水分利用率、蒸腾速率以及净光合速率得以提升从而提高了植物的水分利用能力。进一步总结了缺水胁迫(干旱胁迫、盐胁迫)严重影响植物体内的水分状况,通过接种AMF可以有效调节植物在缺水胁迫下植物体内渗透调节物质的含量、抗氧化酶的活性,平衡植物体内离子平衡,提升植物光合、蒸腾作用水平,从而提高植物的耐胁迫能力。本文通过综述不同水分条件下,接种AMF对植物的影响及机制,期望为未来新型菌剂的研发与菌根互作对植物水分状况的改善提供支撑。     

农作物秸秆浸提液对丛枝菌根真菌侵染番茄幼苗的影响研究

本研究采用水稻、小麦、玉米、大豆和番薯5种农作物秸秆,制成水浸提液与AM真菌结合施用,研究秸秆浸提液对AM真菌作用效果的影响,同时分析了5种秸秆浸提液的化学组分。结果表明,水稻、小麦、玉米和番薯秸秆浸提液显著提高了AM真菌对番茄根系的侵染,其中水稻秸秆浸提液处理的番茄生物量及地上部磷含量都有显著增加。经过GC-MS测定得到的各秸秆浸提液化学组分主要为酚酸类物质,这些物质可能对AM的调节发挥重要作用。     

丛枝菌根真菌作用下桉树对铅的耐受机制研究

通过盆栽桉树幼苗实验,采用差速离心法和化学试剂逐步提取法,从Pb在桉树不同部位中的亚细胞分布和化学形态的角度,研究了桉树对Pb的耐受机制。结果表明Pb主要富集在桉树根部（65%-84%）,在根、茎和叶中主要分布在细胞壁组分,其次在可溶组分。接种丛枝菌根真菌（AMF）没有改变Pb在植物中亚细胞分布的格局,但在高Pb处理（200 mg/kg,400 mg/kg）时增大了根部细胞壁组分和叶片可溶组分的分配比例,说明AMF可以增强细胞壁滞留作用和液泡区隔化作用。随土壤中Pb浓度的增加,桉树根部Pb的乙醇提取态的分配比例逐渐减少,而醋酸提取态的分配比例逐渐增加,在高Pb处理时以醋酸提取态为主（40%）。高Pb处理时接种AMF,可以促使植物体内的Pb从活性较强的提取态向活性较弱的提取态转化。因此,根部固持作用、细胞壁滞留作用、液泡区隔化作用及弱活性结合态增加作用,是AMF作用下桉树耐Pb的主要机制。     

贵州务川汞矿区土壤丛枝菌根真菌多样性研究

对贵州务川汞矿区不同水平汞污染植物根际土壤丛枝菌根(Arbuscular Mycorrhizal,AM)真菌资源分布及多样性进行分析，结果发现：本研究选取的务川汞矿区3个样地土壤汞含量在94.1～268.0 mg/kg，远高于国家规定的土壤汞含量，汞污染极其严重。随着汞含量增加，AM真菌侵染率、孢子密度显著降低，AM真菌群落丰富度、多样性及均匀度均有所降低，但差异未达显著水平，而仍有部分对汞污染耐受性较强的AM真菌有较高的分布。另外，管柄囊霉属AM真菌在5个样品中均有较高丰度，球囊霉属AM真菌在火棘根际的相对丰度随着汞含量升高而升高，因此，火棘–管柄囊霉属AM真菌或火棘–球囊霉属AM真菌联合进行汞污染修复，有一定的应用价值。