Effect of the saprophytic fungus Fusarium oxysporum on arbuscular mycorrhizal colonization and growth of plants in greenhouse and field trials

Effects of the saprophytic fungus Fusarium oxysporum on arbuscular mycorrhizal (AM) colonization and plant dry matter were studied in greenhouse and field experiments. Host plants: maize (Zea mays L.), sorghum (Sorghum vulgare L.), lettuce (Lactuca sativa L.), tomato (Lycopersicum esculentum L.), wheat (Triticum vulgare L), lentil (Ervum lens L.) and pea (Pisum sativum L.), the AM fungi: Glomus mosseae, G. fasciculatum, G. intraradices, G. clarum, and G. deserticola and the carriers for F. oxysporum inoculum: aqueous solution, thin agar slices, and pellets of agar and alginate were tested under greenhouse conditions. Greatest plant growth and AM colonization responses in sterilized and unsterilized soils were observed with pea, Glomus deserticola and sodium alginate pellets as the carrier for F. oxysporum inoculum. Under field conditions, adding F. oxysporum increased the survival of transplanted pea, possibly through a beneficial effect on AM fungi. Application of F. oxysporum increased shoot dry matter, N and P concentrations of pea and sorghum plants, and the level of AM colonization attained by indigenous or introduced AM fungi. These parameters were similar in plants inoculated with either G. deserticola or with the indigenous AM fungi. Application of the saprophytic fungus increased the number of propagules of AM fungi in field plots in which pea was grown, but this increase was not sufficient to increase AM colonization of sorghum after the pea crop. This revised version was published online in June 2006 with corrections to the Cover Date.     

Effect of cultival practices and soil treatments on incidence of wilt disease of pigeon pea

Summary The incidence of wilt disease of pigeon pea (Cajanus cajan (L.) Millsp.) caused byFusarium udum under soil treatments with various substances was studied under field conditions. The disease incidence was highly suppressed under mixed cropping withCrotalaria medicaginea. Phygon XL was found to be the most effective fungicide to reduce the incidence of the disease. The incidence of wilt disease also decreased in case of soil amended with the leaves ofC. medicaginea. Wilt incidence increased in the soil amended with the roots of pigeon pea.     

Tolerance to higher temperature byAspergillus nidulans and its possible implication in biological control of wilt disease of pigeon-pea

Summary During the course of studies on the ecology ofFusarium udum Butler, the incitant of wilt disease of pigeon-pea (Cajanus cajan (L.) Millsp.),Aspergillus nidulans was found to tolerate higher temperatures of summer, and other species includingF. udum were suppressed in field soil. The population ofA. nidulans increased in the soil incubated at 40±2°C at pH6 and 7 while the population ofF. udum was highly suppressed. The wilt disease of pigeon-pea was significantly suppressed at 38±2°C in the soil having a mixture of the inocula ofF. udum andA. nidulans whereas at lower temperature (25±2°C) no significant impact ofA. nidulans on the disease was found. On the basis of this study an integrated use of higher temperature, alkaline pH andA. nidulans has been suggested for biological control of wilt disease of pigeon-pea.     

Fusarium udum as a mycoparasite ofMortierella subtilissima

Summary Fusarium udum was found to be a mycoparasite ofMortierella subtilissima which is a new record. Formation of chlamydospores byF. udum insideM. subtilissima was observed as a result of mycoparasitism.     

Fusarium udum parasitic onAspergillus luchuensis andSyncephalastrum racemosum

Summary Mycoparasitic behaviour ofF. udum on two soil-inhabiting microfungi,Aspergillus luchuensis andSyncephalastrum racemosum, was studied in dual cultures.Fusarium udum coiled and penetrated the host fungi and formed chlamydospores inside their hyphae and reproductive structures. The vegetative hyphae ofA. luchuensis showed swellings due to diffusible toxic substances ofF. udum in the medium and formed vesicle-like structures. This is the first record of these fungi being hosts of the mycoparasiteF. udum.     

Influence of temperature on colonization of spring barleys by vesicular arbuscular mycorrhizal fungi

The effects of three soil temperatures on growth of spring barleys (Hordeum vulgare L.) and on their root colonization by vesicular arbuscular mycorrhizal (VAM) fungi from agricultural soils in Montana (USA) or Syria at different inoculum concentrations were tested in soil incubators in the greenhouse. The number of mycorrhizal plants as well as the proportion and intensity of roots colonized increased with higher soil temperatures. VAM fungi from Montana, primarily Glomus macrocarpum, were cold tolerant at 11°C while those from Syria, primarily G. hoi, were heat tolerant at 26°C. Inoculum potential of Montana VAM fungi was higher than Syrian VAM fungi in cool soils. Harmal, selected from Syrian barley land races, had the highest colonization by mycorrhizal fungi of the cultivars tested.Journal Series Paper: J-2532 Montana Agricultural Experiment Station.     

Effects of heat and microbiological pretreatments of wheat straw substrate on the initial phase of solid state fermentation (SSF) by white rot fungi

Summary Quantitative differentiation of microbial activity and saprophytic colonisation in wheat straw substrate during SSF is described. Wheat straw contains an active indigenous microbial flora. In both untreated and heat pretreated substrates a peak of microbial respiratory activities occurs generally after 24 h of fermentation; addition of actidione and streptomycin has no marked inhibitory effect. Quantitative differences between endogenous microbial respiration and respiration byPleurotus during the initial four days of SSF are least in the heat pretreated substrates and greater when microbiological pretreatment is used. In treatments subjected to 48 h anaerobic fermentation at 50°C, saprophytic colonization similar to that observed in sterile substrates is obtained.     

Fungal colonization of synthetic substrates for use in space craft

Summary Materials being used or considered for use in space flight were examined for their susceptibility to fungal colonization. The materials included soft goods (clothing) and insulation and fabrication products such as Velcro^® attachments and elastic cord binders. Materials were exposed for at least 28 days in a highhumidity chamber colonized with over 50 species of fungi, including those species recommended for determining recalcitrance of materials to fungal biodegradation. At least nine of 25 products demonstrated extensive microscopic colonization by fungi, mostly byAcremonium obclavatum. Challenge procedures that rely on observations with the unaided eye, or 40×magnification of growth by a restricted number of fungal species with a cellulosic substrate as a positive control, are insufficient for determining the resistance of synthetic substrates to fungal colonization.     

Studies on antagonism betweenFusarium udum Butler and root region microflora of pigeon-pea

Antagonism betweenFusarium udum Butler causing wilt of pigeon-pea (Cajanus cajan (L.) Millsp.) and the saprophytic microflora of the root region of the host was studied with reference to colony interaction, hyphal interference, volatile and non-volatile metabolites and staling growth products. Studies were extended to screen potential antagonists against the wilt pathogen in soil. Aspergillus flavus, A. niger, A. terreus, Penicillium citrinum andMicromonospora globosa (an actinomycete) were antagonistic againstF. udum, whereas the pathogen parasitized and killedAspergillus luchuensis, Cunninghamella echinulata, Curvularia lunata, Mortierella subtilissima andSyncephalastrum racemosum. The pattern of growth of microorganisms on nutrient agar staled by rhizosphere soil inocula of healthy or wilted pigeon-pea plants was found to be different.F. udum colonized and grew on nutrient agar staled by the rhizosphere inoculum of the wilted plants upto 120h of incubation. However, it could not colonise and grow on the nutrient agar staled by rhizosphere microflora of healthy plants after 48h of incubation because of the presence of antagonists likeA. niger, A. flavus, A. terreus and a few species ofPenicillium in the soil inoculum. When pure cultures in soil ofF. udum was mixed with those of antagonists in different ratios,A. niger, A. flavus andM. globosa significantly suppressed the population ofF. udum, whereasA. terreus markedly reduced the population. When inoculated in soil, the antagonists exhibited a high fungistatic activity againstF. udum.     

Growth enhancement of Citrus reshni after inoculation with Glomus intraradices and Trichoderma aureoviride and associated effects on microbial populations and enzyme activity in potting mixes

There have been some scientific reports suggesting that dual inoculations with arbuscular mycorrhizal (AM) and saprophytic soil fungi may cause an additive or synergistic growth enhancement of the inoculated host plant. Some Trichoderma spp. have shown antagonistic potential against pathogenic fungi and a beneficial effect on plant growth. Joint inoculations of the mycorrhizal fungus Glomus intraradices Schenck and Smith, isolated from a citrus nursery (Tarragona, Spain) and a strain of Trichoderma aureoviride Rifai, isolated from an organic compost, were tested on a citrus rootstock, Citrus reshni Hort. ex Tan. The interactions between both microorganisms and their influence on mycorrhizal root colonization and plant growth enhancement, the changes produced in the soil microbial activity, like esterase, trehalase, phosphatase and chitinase activities, and on microbial populations were evaluated in three organic substrates: (1) sphagnum peat and autoclaved sandy soil (1/1, v/v), (2) sphagnum peat, quartz sand and perlite (1/1/1, v/v) and (3) pine bark compost (BVU, Prodeasa Product). Substrate characteristics were more important than the AM inoculation treatment in the determination of enzyme activity. In bark compost, the number of bacterial colonies obtained on soil-dilution plates was significantly higher than in peat and sand mixtures. Inoculation with T. aureoviride alone produced no significant effect on growth enhancement of C. reshni. However, dual inoculation with both, T. aureoviride and G. intraradices significantly increased plant growth in two of the substrates used and was the best treatment in pine bark amended compost. The inoculation with T. aureoviride did not affect the development of mycorrhizal root colonization. These results show a synergistic effect of G. intraradices and T. aureoviride on the growth of C. reshni in organic substrates and indicate the potential benefits of using combined inoculations.     

Effect of kind and method of fungicidal treatment of bean seed on infections by the VA-mycorrhizal fungus Glomus macrocarpum and by the pathogenic fungus Fusarium solani

To test the effect of seed treatment with fungicides on the development of mycorrhizal fungi, bean seeds were treated with fungicide dry or vehicled in the organic solvents, ethanol or dichloromethane and then planted in soil inoculated with the mycorrhizal fungus Glomus macrocarpum and/or the plant pathogenic fungus Fusarium solani. Measurements were made at 4 day intervals, to evaluate the location and extent of colonization of either Glomus macrocarpum or Fusarium solani in the root system. Most combinations of fungicide-solvent had little effect on the extent of colonization by each fungus individually. However, when both fungi were inoculated together, symptoms of F. solani were seen only in the tips of roots which indicate that the mycorrhizal fungus was able to limit the occurrence of the pathogenic fungus.     

Fusarium solani invader of the eggs of the insectPanstrongylus geniculatus in a vivarium

A strain ofFusarium solani sensu Snyder & Hansen invaded the eggs of the insectPanstrongylus geniculatus in a vivarium. None of the invaded eggs hatched. To establish experimentally the pathogenicity of thisFusarium species against the eggs ofP. geniculatus, the fungus and the eggs were incubated together under different relative humidities and temperatures. At 64% relative humidity and 26 °C, the fungus grew well colonizing and penetrating all of the chorions.Three embryos died and were also colonized byF. solani. Only 4 nymphs hatched and survived to day 20. It is concluded that the isolate ofF. solani was capable of colonizing and invading the chorion of the eggs under certain humidity and temperature conditions and cause the death of the embryos.     

Potential of Allyl Isothiocyanate to Control Rhizoctonia solani Seedling Damping Off and Seedling Blight in Transplant Production

The synthetic mustered flavouring essential oil, allyl isothiocyanate (AITC), was evaluated for its effect on suppression of Rhizoctonia solani growth in vitro, and in field soils for reducing inoculum density, saprophytic substrate colonization and seedling damping off and blight using snap bean and cabbage as indicator plants. In vitro growth was completely inhibited at the concentration of 50 μl/l. Inoculum density and saprophytic substrate colonization by the fungus in soil were not affected by AITC concentrations of 50 or 75 μl/kg soil. The inoculum density estimation by the use of soil‐drop technique created an artefact leading to an erroneous conclusion that the fungus was eradicated from soil within 1–3 days after AITC treatment at 150 or 200 μl/kg soil. The saprophytic substrate colonization showed that although the activity of R. solani was greatly reduced, the fungus still colonized 45% of the substrate units at these concentrations, and up to 100% at lower concentrations within 1 day after treatment. At higher concentrations the recovery rate from the substrates gradually declined over time to <6%. Drenching R. solani infested sandy‐loam or silty‐clay‐loam soil with water containing the emulsified AITC to provide 150 or 200 μl/l soil, a few days prior to planting, gave over 90% disease control in snap bean and cabbage, with no apparent phytotoxic effect. The effect of AITC was not influenced by the physical soil texture. AITC appears to have a good potential to replace methyl bromide fumigation of the substrate used for transplant production.     

AM真菌对煤矿沉陷区不同复合基质上 紫花苜蓿生长和生理特性的影响

该研究采用盆栽试验法,以紫花苜蓿(Medicago sativa)为材料,将煤矸石(CG)、粉煤灰(FA)和沙土(SS)按不同质量配比设置T1(CG∶FA∶SS=75%∶25%∶0%)、T2(CG∶FA∶SS=60%∶25%∶15%)、T3(CG∶FA∶SS=45%∶25%∶30%)、T4(CG∶FA∶SS=30%∶25%∶45%)四组混合基质以模拟,并以T5(CG∶FA∶SS=0%∶0%∶100%)为对照,AM真菌选用摩西斗管囊霉(F.m)和幼套近明球囊霉(C.e),通过单接菌和混合接菌,探索其对紫花苜蓿根系的侵染率、幼苗生长、抗氧化物酶活性和渗透调节物质变化的影响。结果表明:(1)在五组基质上,接种AM真菌显著提高了紫花苜蓿根系的菌根侵染率和菌根依赖性,且基质T4接种F.m+C.e[F.m∶C.e=1∶1(W/W)]的值最大(64.31%和86.24%)。(2)接种AM真菌不同程度提高了紫花苜蓿株高、基径、叶面积和生物量,且混合接菌的效果优于单接菌。(3)基质中填加过量煤矿废弃物抑制了植株根系的生长,接种AM真菌后显著提高了紫花苜蓿总根长、根表面积、根体积,降低了根平均直径。(4)不同接菌处理的紫花苜蓿叶片POD、SOD、CAT活性以及可溶性糖、可溶性蛋白含量总体表现为F.m+C.eC.eF.mnon-AMF,且接种F.m+C.e的增长幅度最大。研究表明煤矿废弃物复合逆境抑制紫花苜蓿的生长,接种AM真菌显著提高了幼苗生长、抗氧化物酶活性和渗透调节物质,提高了植物抗逆性能,且以基质T4接种F.m+C.e的效果最佳。     

Some observations on fungal succession during decomposition of wool in soil

Fungal succession on woolen baits was studied under laboratory conditions for more than one year. It was found that the initial colonizers on woolen baits are non-keratinophilic fungi, while the late colonizers are keratinophilic fungi. Six phases in total were observed during fungal succession. The successional trends obtained during decomposition of wool in soil samples collected from plain and hilly areas were almost the same, except for the dominant colonization in the last phase, which was constituted byChrysosporium tropicum for the plain, butMicrosporum gypseum andM. fulvum for the hilly area.     

Fusarium nygamai, a potential bioherbicide for Striga hermonthica control in sorghum

Glasshouse trials were performed to investigate the control of the parasitic weed Striga hermonthica by Fusarium nygamai and the performance of the host plant sorghum (Sorghum bicolor) using different inoculum substrates and inoculum amounts of the fungus. Optimal constant and alternating temperatures for the growth of the fungus were 25°C and 30/20°C, respectively. Striga incidence was decreased up to 100% when the fungus was incorporated into the soil preplanting. Emerged Striga plants at different stages of growth up to the flowering stage were killed by the fungus when the fungus was applied postemergent. In root-chamber trials none of the Striga seeds germinated when 10 ml inoculum suspension of 8 × 10⁶ spores/ml of F. nygamai was applied on seeds of the parasitic weed sprinkled on the surface of filter paper. F. nygamai has potential as a bioherbicide for Striga control. Further studies regarding its performance under field conditions and its safety to the environment and humans should be assessed.     

Effects of species of VA-mycorrhizal fungi on growth and mineral uptake of sorghum at different temperatures

Sorghum [Sorghum bicolor (L.) Moench] plants were grown in growth chambers at 20, 25 and 30°C in a low P Typic Argiudoll (3.65 µg P g^–1 soil, pH 8.3) inoculated with Glomus fasciculatum, Glomus intraradices, and Glomus macrocarpum to determine effects of vesicular-arbuscular mycorrhizal fungi (VAMF) species on plant growth and mineral nutrient uptake. Sorghum root colonization by VAMF and plant responses to Glomus species were temperature dependent. G. macrocarpum colonized sorghum roots best and enhanced plant growth and mineral uptake considerably more than the other VAMF species, especially at 30°C. G. fasciculatum enhanced shoot growth at 20 and 25°C, and mineral uptake only at 20°C. G. intraradices depressed shoot growth and mineral uptake at 30°C. G. macrocarpum enhanced shoot P, K, and Zn at all temperatures, and Fe at 25 and 30°C above that which could be accounted for by increased biomass. Sorghum plant growth responses to colonization by VAMF species may need to be evaluated at different temperatures to optimize beneficial effects.     

Turnover of15N-labelled urea in various rotations of groundnut sorghum and pigeon pea crops

Summary A field experiment on N turnover in rotations of groundnut, sorghum and pigeonpea crops was conducted in an Indian Alfisol during 1978–80.¹⁵N-labelled urea N was applied @ 40 kg ha^–1 in 1978. In the first year, the groundnut utilized 19.5% of the applied labelled N, sorghum 25.5%, and pigeon pea 10.3%. More fertilizer N was removed through weeding than by crop uptake in sorghum and pigeon pea. The fertilizer N left behind in soil upto 40 cm depth was 44.4% in groundnut plots, 35.1% in sorghum plots and 40.1% in pigeon pea plots.The uptake in 1979 of the residual fertilizer N in the soil was 8.9% in sorghum, 8.3% in groundnut and 2.8% in pigeon pea. In 1980, it declined to less than 2% for pigeon pea and groundnut and to about 4% for sorghum.A balance sheet drawn at the end of each rotation showed that about 51.3% of the applied labelled N was accounted for in groundnut-sorghum-pigeon pea rotation, 70.9% in sorghumpigeon pea-groundnut, and 43.5% in pigeon pea-groundnut-sorghum.     

Onion fly oviposition as influenced by soil temperature

A direct causal relationship was demonstrated between soil temperature and insect ovipositional propensity. When ovipositional substrates (soils) at 5, 15, 22, 30, 35, and 40°C were presented in multiple treatment (choice) tests with air temperature at 15 or 22°C, onion flies, Delia antiqua (Meigen) (Diptera: Anthomyiidae), laid the most eggs in the 22°C substrate. Only 50 eggs were laid when air temperature was increased to 30°C, as compared to 454 and 1128 eggs at 22 and 15°C, respectively. Thus, an air temperature of 30°C appears to be near the upper limit of onion fly ovipositional activity. The numbers of flies observed (counts taken every 15 min) on substrates ranging from 15 to 40°C were not significantly different. Reduced alightment/arrestment does not explain reduced oviposition on the warmer substrates; however, it may partly explain reduced oviposition on 5°C substrates. The range of substrate temperatures facilitating substantial oviposition was narrower than that eliciting alightment/arrestment on the substrate. The ca. 20°C ovipositional optimum corresponds well with temperatures favoring egg survival and development.

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Résumé La température du sol est réglée, dans les pondoirs de D. antiqua, par un thermoblock, tandis que toutes les autres variables, associées au succédané d'oignon servant de stimulus de ponte, sont maintenues constantes. Une relation causale entre température du sol et activité de ponte est mise en évidence. Quand il y a choix entre des substrats de ponte à 5, 15, 22, 30 et 40°C, avec une température de l'air de 22°C, les mouches pondent surtout dans le substrat à 22°C. L'optimum thermique est de 20°C quand la température de l'air est abaissée à 15°C. La ponte n'est que de 50 ufs quand la température de l'air est portée à 30°C, contre respectivement 454 et 1128 ufs à 22 et 15°C. Ainsi, une température de l'air de 30°C paraît proche de la limite supérieure de l'activité de ponte de D. antiqua. Le nombre de mouches observées sur le substrat (toutes les 15 min.) ne varie pas significativement quand la température du substrat est entre 15 et 40°C. La gamme de températures provoquant la fixation sur le substrat est plus large que celle des températures provoquant une ponte importante. L'optimum de 20°C correspond bien aux températures favorables à la survie et à la croissance de D. antiqua.Ce travail montre l'effet important de facteurs abiotiques sur l'acceptation de la plante-hôte.

     

Antifungal activity of Δ3-alstovenine, a plant alkaloid isolated fromAlstonia venenata

A plant quaternary alkaloid Δ³-alstovenine inhibited the spore germination of most of the fungi tested at concentration of 250–1000 mg/L. Saprophytic and biotrophic fungi were equally sensitive to the alkaloid.Cercospora sp. was the most sensitive as 100% inhibition of spore germination was observed at 250 mg/L.Alternaria species,Curvularia species andFusarium udum were not affected even at 1000 mg/L.