多胺对共生条件下丛枝菌根真菌及宿主植物生长发育的影响

为探讨多胺对共生条件下丛枝菌根真菌及其宿主植物生长发育的影响,本研究以丛枝菌根真菌(Gigaspora margarita)为试验材料,通过施用不同浓度的多胺(Polyamine,PA)及其生物合成抑制剂[Methylglyoxal bis(guanylhydrazone),MGBG]处理接种丛枝菌根真菌的葡萄微繁苗,研究共生培养条件下外源多胺及多胺合成抑制剂对丛枝菌根真菌孢子萌发、芽管菌丝及其宿主植物生长发育的影响.试验结果表明,共生培养条件下,一定浓度的外源PA对丛枝菌根真菌及其宿主植物的生长发育具显著促进作用,丛枝菌根真菌孢子数、菌丝长度、侵染率、丛枝丰富度及菌根化葡萄幼苗生长势均显著提高.MGBG则表现较强的抑制作用.且该抑制作用可被外源PA部分解除,证明外源多胺对菌根化葡萄微繁苗生长发育的促进作用是通过活化根系土壤中丛枝菌根真菌,促进微繁苗丛枝菌根共生体的良好发育,最大程度地发挥菌根化效应得以表现的.     

地衣芽孢杆菌YC10发酵液对辣椒疫霉的抑制作用试验初报

测定了一株地衣芽孢杆菌YC10发酵液对辣椒疫霉菌的抑制率、菌丝的生长及游动孢子释放和萌发的影响。结果表明,地衣芽孢杆菌YC10发酵液对辣椒疫霉菌具有一定的抑制作用,抑制率达78.67%;可导致病原菌菌丝畸形、分支增多及原生质浓缩;对辣椒疫霉游动孢子释放和萌发的相对抑制率为36.91%和57.14%,与对照相比明显抑制了游动孢子的释放和萌发。     

内蒙古盐碱土中AM真菌的多样性与分布

在内蒙古盐碱土13种主要植物分离到3属26种AM真菌,其中球囊霉属(Glomus)22种,无梗囊霉属(Acaulospora)3种,原囊霉属(Archaeospora)1种。地球囊霉(Glomus geosporum)和地表球囊霉(Glomus ver-siforme)是该区域盐碱土中的优势种。13种主要植物均能被AM真菌侵染,其中玉米和马蔺的侵染率最高,达100%;根际土壤中AM真菌孢子密度范围为29~182个g-1烘干土,其中稻的孢子密度最高,达182个g-1烘干土;在不同土壤类型条件下植物的菌根侵染率具有明显的差异,其规律为草甸盐土>碱化盐土>盐化草甸土>碱化草甸土;根际土壤中孢子密度以碱化草甸土最高(101个g-1烘干土),其次为碱化盐土、草甸盐土和盐化草甸土。相关分析表明,根际土壤中AM真菌孢子密度与菌根侵染率无显著相关性。     

不同氮磷比例营养液对AM真菌生长发育的影响

温室条件下,研究不同氮磷比例营养液对丛枝菌根(Arbuscular.mycorrhizae,AM)真菌(Glomus.mosseae)生长发育的影响。结果表明:在一定磷水平条件下增加氮的水平,有利于菌根真菌的生长发育,但超过一定水平则会抑制菌根真菌的生长发育,说明氮水平也会影响菌根真菌的生长发育,这种影响与氮磷比例有关。综合比较菌根长度、根外菌丝量及孢子数三项指标,在20%浓度Hoagland营养液的基础上,将氮磷比例提高到4∶2有利真菌生长。在AM菌剂生产中,通过营养液中氮磷比例的调控能获得较大数量的侵染根段、菌丝及孢子等繁殖体。     

不同腐解方式下棉秆腐解液对棉花枯、黄萎病菌的化感效应

采用自然腐解与接种微生物人工腐解两种方式分别处理棉秆,研究了两种腐解物水浸提液对棉花枯、黄萎病菌的化感效应。结果显示,两种腐解液对枯、黄萎病菌的菌丝生长及孢子萌发均具有较强的抑制作用,抑制强度整体上随着腐解液浓度的升高而增大。棉秆自然腐解液对枯、黄萎病菌菌丝生长的最大抑制率分别为58.17%、48.16%,对孢子萌发的最大抑制率分别为23.29%、16.22%,对枯、黄萎病菌毒力的有效中浓度（EC50）分别为33.20、45.20g·L-1;人工腐解液对枯、黄萎病菌菌丝生长的最高抑制率分别为71.63%、79.04%,对孢子萌发的最高抑制率分别为35.45%、42.74%,EC50分别为24.18、20.75g·L-1。表明棉秆腐解后具有作为植物源抑菌剂的开发潜力,并且采用人工方式腐解棉秆能有效提高腐解液对棉花枯、黄萎病菌的抑制强度。     

绿色产色链霉菌E-219菌落的形态分化

菌株E-219由原始菌株CGMCC4.1119经60Coγ诱变及原生质体融合等手段改造后所得,本文通过分子荧光探针、荧光显微镜和电镜对绿色产色链霉菌E-219在固体基质表面的发育分化周期、斜面培养时间对阿维拉霉素产量的影响进行了研究,以为工业发酵选择适当的斜面种子提供理论依据。试验表明该菌株菌落发育过程伴有间断性菌丝凋亡,分生孢子的产生是活性菌丝分化的结果。与原始菌株相比该菌落形态呈现显著不同,其孢子萌发形成杂色初生菌丝,基内菌丝出现二次死亡(48h)及其中活性菌丝片段的二次快速生长,分生孢子形成数量多。原始菌株呈螺旋状孢子丝,孢子表面带刺,而E-219为直线型孢子丝,分生孢子表面光滑无刺突。摇瓶试验表明,菌种斜面种龄以106h左右为宜,此时分生孢子活性高,阿维拉霉素发酵单位可达1200mg/L。     

玉米小斑病菌生物学特性研究

通过研究不同培养温度、不同培养pH值条件及不同营养条件对玉米小斑病病菌菌丝生长量及产孢量的影响。结果表明:①以PDA+VB1培养基培养的菌丝其生长速率及产孢量最大;②菌丝在30℃下生长速度快,生长量大,病菌孢子在25℃下萌发速度最快;③病菌菌丝在pH值为8时,生长速度最快,生长量也最大。     

茶树油熏蒸处理对草莓果实采后病害和品质的影响

为了研究茶树油对草莓防腐保鲜的作用效果,对人工接种灰葡萄孢霉（Botrytis cinerea）和根霉（Rhizopus stolonifer）的草莓果实进行不同浓度、不同时间的茶树油熏蒸处理,测定20℃贮藏下的病害发生情况,并运用体外实验研究该熏蒸处理对病原菌孢子萌发和菌丝生长的影响。同时,还分析了接受该处理的果实在贮藏期间的品质变化趋势。研究发现：茶树油熏蒸处理可降低草莓果实灰霉病和根霉病的发病率和病斑直径,抑制其孢子萌发和菌丝生长,减缓草莓果实在贮藏期间的品质下降。结果表明茶树油熏蒸用于草莓保鲜是可行的,浓度为2000 mg/L熏蒸3 h即可有效延长草莓货架期2-3 d。     

枯草芽孢杆菌SB-24对尖孢镰刀菌拮抗机理

通过SB-24菌株对尖孢镰刀菌菌丝生长的抑制、菌丝形态的影响及对孢子萌发的抑制,SB-24分泌水解酶能力的研究,探索SB-24对尖孢镰刀菌的抑制机理。结果表明:SB-24对尖孢镰刀菌菌丝的抑制作用是通过菌体及其产生的拮抗物质,分泌水解酶(蛋白酶和纤维素酶)共同作用的结果;SB-24对尖孢镰刀菌孢子的抑制作用主要是其产生拮抗物质作用的结果。     

碳酸铵对意大利青霉的作用机制及对不同柑橘果实品质的影响

为了寻求一种安全有效的方法防治由意大利青霉（Penicillium italicum）引起的柑橘青霉病，该研究分析了碳酸铵作为通常认为安全的药剂抑制意大利青霉生长的可能作用机制及对脐橙、皇帝柑、沃柑3种不同类型柑橘贮藏品质的影响。结果表明，碳酸铵能抑制意大利青霉孢子萌发和菌丝生长，且呈现剂量依赖效应，在质量浓度分别为 0.4 g/L和0.8 g/L时可完全抑制孢子萌发和菌丝生长。结构观察表明，碳酸铵引起菌丝生长节点稀疏和分支减少；超微结构观察发现菌丝严重皱缩，菌丝线粒体结构异常。生理生化分析表明，碳酸铵处理，引起线粒体的钠/钾离子ATP酶（Na+/ K+-ATPase）、钙离子ATP酶（Ca2+-ATPase）和镁离子ATP酶（Mg2+-ATPase）活性下降，导致还原型谷胱甘肽（Reduced Glutathione，GSH）含量及谷胱甘肽还原酶（Glutathione Reductase，GR）活性降低，活性氧清除体系超氧化物歧化酶（Superoxide Dismutase，SOD）、过氧化氢酶（Catalase，CAT）、过氧化物酶（Peroxidase，POD）活性紊乱，促进H2O2积累。添加活性氧清除剂半胱氨酸（Cysteine，Cys）能部分恢复碳酸铵处理的病菌孢子萌发。活体接种表明，16 g/L碳酸铵处理显著减小了柑橘果实接种意大利青霉的病斑直径（P<0.05），减轻果实发病。碳酸铵处理能降低3种类型柑橘果实自然发病率，且对果实失重率、色泽、可溶性固形物、可滴定酸、维生素C、还原糖含量无不良影响。结果表明，碳酸铵通过损伤意大利青霉菌丝线粒体结构和功能，促进活性氧积累来发挥抗真菌活性，碳酸铵可以作为杀菌剂的绿色有效替代方法，研究结果为碳酸铵防治柑橘果实采后腐烂提供参考。     

Glycosidation of apigenin results in a loss of its activity on different growth parameters of arbuscular mycorrhizal fungi from the genus Glomus and Gigaspora

The effect of different concentrations (0.5, 2 and 8 μM) of apigenin and its glycosidated form 5,7,4′-hydroxy flavone glycoside on arbuscular mycorrhizal (AM) fungal spore germination, hyphal growth, hyphal branching, the formation of entry points and root colonization of Gigaspora. rosea, Gi. margarita, Glomus mosseae and G. intraradices was tested. The lowest apigenin concentration (0.5 μM) nearly doubled hyphal branching, the formation of entry points and root colonization of all four tested fungi, whereas higher concentrations (2 and 8 μM) nearly doubled the hyphal growth of Gi. margarita, G. mosseae and G. intraradices. In none of the treatments with the apigenin-glycoside any effect on AM fungi could be observed. Our data show that apigenin exhibits an AM fungal genus and even species activity and we provide strong evidence that glycosidation results in a loss of its activity towards AM fungi.     

红壤中丛枝菌根真菌对污泥态铜生物有效性的影响

以玉米为宿主植物 ,研究了不同污泥量 (0、1 %、4% )施入红壤后接种丛枝菌根真菌Acaulosporalaevis、Glomuscaledonium和Glomusmanihotis对菌根侵染率、孢子密度、玉米生长和铜生物有效性的影响。结果表明 ,施用 1 %的污泥可增加接种A laevis的菌根侵染率和孢子密度 ,其玉米地上部和地下部生物量也有显著增加 ,而不接种 (含土著菌根真菌 )、接种G caledonium和G manihotis的菌根侵染率、孢子密度、玉米地上部和地下部生物量却有显著下降 (p<0 0 5 )。施用 1 %的污泥时接种A laevis降低了玉米地上部铜浓度 ,而接种G caledonium和G manihotis却增加了玉米地上部铜浓度 ,另外 ,接种处理增加玉米根部对铜的吸收总量。不同的菌根真菌对重金属的耐受力是不同的 ,只有施入一定的污泥量即在一定污染程度下才能发挥菌根真菌A laevis对污染土壤的修复作用     

Changes in soil organic carbon,total nitrogen,and abundance of arbuscular mycorrhizal fungi along a large-scale aridity gradient

Changes in soil organic carbon, total nitrogen, pH, and the abundance of arbuscular mycorrhizal fungi are examined along a large-scale aridity gradient from southeast to northwest in China. Soil organic carbon and total nitrogen decreased but pH increased with increased aridity. Aboveground plant biomass, spore abundance, and colonization of roots by arbuscular mycorrhizal fungi also declined as the aridity increased. Soil organic carbon and total nitrogen were positively correlated with aboveground plant biomass, and arbuscular mycorrhizal fungal spore number and root colonization were positively correlated with soil organic carbon, total nitrogen, and aboveground plant biomass but were negatively correlated with soil pH. A structural equation model suggested that aridity affected soil organic carbon and total nitrogen by limiting aboveground plant biomass. Aridity exerted a large direct effect and smaller indirect effects (via changes in aboveground plant biomass) on the abundance of arbuscular mycorrhizal fungi. Soil pH also directly influenced arbuscular mycorrhizal fungal abundance. These results suggest that aboveground plant biomass could be a key factor driving the changes of soil organic carbon, total nitrogen, and arbuscular mycorrhizal fungal abundance along this aridity gradient in China.     

Technique for visual demonstration of germinating arbuscular mycorrhizal spores and their multiplication in pots

We describe a simple technique for the germination of arbuscular mycorrhizal (AM)–fungal spores and their multiplication in pots. Glomus fasciculatum, G. mosseae, and Gigaspora margarita were used. A single wheat seedling was tied to a glass slide, previously covered with filter paper with the help of thread. One single surface‐sterilized AM‐fungal spore was placed on the middle portion of the root of the wheat seedling using a sterilized syringe. The slide was placed vertically in a 100 mL glass beaker filled with 25 mL of root exudates–water (1:4, v/v) solution, which was collected by growing twenty wheat seedlings in a 150 mL beaker filled with 100 mL sterilized distilled water for 7 d. The slide was observed daily using a compound microscope to follow the time course of germination. In this technique, the spore is directly in contact with the host root, and a visualization of spore germination, hyphal development, and appressorium formation is possible without disrupting fungal growth or the establishment of the symbiosis. The method allows to document the germination events and to assess hyphal‐elongation rates by photographing the same spore on consecutive days. The inoculated seedling was used to initiate single‐spore multiplication in a sterilized (autoclave on 3 alternate days at 120°C for 120 min at 1.05 kg cm^–2 pressure) potted sandy soil (150 mL volume) into which the slide with the inoculated seedling was inserted carefully through a previously made slit. The wheat seedlings in all pots (4 treatments and 15 replications) became colonized by mycorrhiza, confirming that the establishment of the AM‐fungal symbiosis is highly reproducible. Our technique permits the relatively undisturbed growth of the symbiotic partners, the visualization of germinating AM‐fungal spores, and their multiplication in pots. This simple and low‐cost method facilitates the production of pure lines of AM fungi from single spores, allowing for the study of intraspecific variation and potentiality for cytological, biochemical, physiological, and taxonomical studies.     

钼污染对丛枝菌根和球囊霉素的影响

丛枝菌根作为地球上最广泛的共生体,在各种逆境环境中发挥着重要作用.基于不同钼污染程度的钼矿区,分析了钼污染对丛枝菌根真菌侵染、繁殖及其分泌球囊霉素能力的影响.结果 表明,在4个不同钼污染级别的土壤中,丛枝菌根真菌与植物共生关系的形成未受到钼污染的影响,平均菌根侵染频度为50.64％.洛阳钼矿区土壤的平均孢子密度为19....     

Effect of nitrogen species supply and mycorrhizal colonization on organosulfur and phenolic compounds in onions

The aim of the present study was to test whether variations in the root environment affect the content of health-related organosulfur compounds, total phenolic compounds, and flavonol glycoside concentrations in onions. For this purpose, greenhouse-grown onions ( Allium cepa L.) were either inoculated with a commercial arbuscular mycorrhizal inoculum or a sterile inoculum and were provided with two NH(4)(+):NO(3)(-) ratios as a nitrogen source. Onion growth, arbuscular mycorrhizal colonization rate, sugars, and nutrient element concentrations were also quantified. The plant antioxidant activity and quercetin monoglucoside and organosulfur compound concentrations increased with dominant nitrate supply. Furthermore, mycorrhizal colonization increased the antioxidant activity and also concentrations of the major quercetin glucosides. The present study provides clear evidence that antioxidant activity, quercetin glycosides, and organosulfur compounds can be increased in sufficiently supplied onion plants by dominant nitrate supply or application of arbuscular mycorrhizal fungi. This was probably due to increased precursor production and induced defense mechanisms.     

Diversity of arbuscular mycorrhizal fungi in red tangerine (Citrus reticulata Blanco) rootstock rhizospheric soils from hillside citrus orchards

Root colonization, abundance of spores and hyphae, as well as species diversity of arbuscular mycorrhizal (AM) fungi were analyzed in citrus orchards along an altitudinal gradient. The citrus trees were heavily colonized (50.87–77.45%) by native AM fungi. In citrus orchards located at <600 m above sea level (asl), we recorded more extensive hyphal and arbuscular colonization, and higher spore and hyphal length density. AM fungal colonization, spore density, and hyphal length density were closely correlated with edaphic factors such as available phosphorus, pH, and organic matter. A total of 18 AM fungal species belonging to 3 different orders, Archaeosporales (1 species), Diversisporales (7 species) and Glomerales (10 species), were identified on the basis of spore morphological characteristics. In orchards located at higher altitudes (≥700 m asl), we observed a significant decrease in species richness and Shannon–Wiener index values. However, in all of the surveyed orchards, Glomus aggregatum, Funneliformis mosseae and Rhizophagus intraradices were the dominant species. Isolate frequency and relative abundance of AM fungi exhibited clearly distinct distribution patterns among taxonomic families. Canonical correspondence analysis revealed that the AM fungal community structure was significantly influenced by environmental factors, especially altitude, pH, soil moisture, and available nitrogen. Our data indicated that environmental factors are important in determining AM fungal root colonization, propagule numbers, and species diversity in citrus orchards.     

Effects of avocado (Persea americana Mill.) scion on arbuscular mycorrhizal and root hair development in rootstock

Grafting is an important process to propagate horticulture plants; however, the mechanism through which the scion affects the absorption of rootstock remains poorly understood. The effects of the scion on AM fungi types in the rhizosphere soil of rootstock and the absorption of mycorrhizal root were determined in this study. Composition of arbuscular mycorrhizal (AM) fungi, soil assessment, spore density, hyphal length density, glomalin-related soil protein (GRSP) content in rhizosphere soil, root hair morphology and AM colonisation rate were measured among ‘Kampong’ avocado rootstocks grafted with five scions and ‘Kampong’ seedling trees. Results showed the main types of AM fungi in avocado seedling trees and trees grafted with five scions were nearly identical. However, the proportion of main genera exhibited differences. In addition, alkali-hydrolysable N, alkali-hydrolysable P and available K in rhizosphere soil, root hair density, AM colonization, spore density, hyphal length and GRSP content suggested the absorption of ‘Kampong’ rootstocks grafted with ‘Monroe’, ‘Wilson seedless’, ‘Hass’ and ‘Tonnage’ possessed stronger absorption than ‘Kampong’ seedling trees because of high AM colonisation and root hair density. This study suggested scions regulated both the AM and root hair development systematically and laid the foundation for future research of AM-enhancing avocado production.     

丛枝菌根对三叶草根际磷酸酶活性的影响

以三叶草为材料,利用三室隔网培养方法,探讨了取自肥料长期定位试验中多年施用与不施用有机肥的田间小区土壤上,接种菌根菌（G.mosseae）对根际土壤酸性和碱性磷酸酶活性的影响。植物生长9周后,收获测定菌丝生长室土壤酸性磷酸酶和碱性磷酸酶活性,并对磷酸酶产生位点进行细胞化学定位。结果表明,接种丛技菌根菌对根际土壤酸性和碱性磷酸酶活性均有增强作用,但作用程度在有机服小区土壤上要大于无机肥小区土壤。根际土壤酸性磷酸酶原位化学定位结果表明,菌丝周围有明显的酸性磷酸酶的反应产物,说明报外丛枝菌根菌丝能直接向外分泌磷酸酶。