Laboratory investigations on the potential of entomopathogenic fungi for biocontrol of Helicoverpa armigera (Lepidoptera: Noctuidae) larvae and pupae

The susceptibility of third instar Helicoverpa armigera to seven strains of three entomopathogenic fungal species, i.e. Metarhizium anisopliae, Beauveria bassiana and Paecilomyces fumosoroseus, was tested under laboratory conditions using the larval immersion method. High efficacies ranging from 68 to 100% corrected mortality were recorded with more profound effects in treatments with B. bassiana and P. fumosoroseus strains. The median lethal concentration (LC₅₀) for L3 was 6.0×10⁵ in M. anisopliae 79, 1.5×10⁵ in B. bassiana 124 and 4.2×10⁴ in P. fumosoroseus 14. These three strains were further used to characterize the age-dependent mortality of different larval stages (L2-L5) and the effect against pupae of H. armigera. Larval stages did not differ in their mortality but differed i in median lethal time, with shorter values recorded in the second instar. Tested fungi also caused a high reduction between 74.4 and 100% in the emergence of pupae using the soil inoculation method and the pupal immersion technique. All three fungal species, especially P. fumosoroseus, have a high potential for biocontrol of H. armigera larvae and also as a soil treatment targeting the pupae.     

Evaluation of the Entomopathogenic Fungi Metarhizium anisopliae and Paecilomyces fumosoroseus (Deuteromycotina: Hyphomycetes) for Control of the Green Leafhopper Empoasca decipiens (Homoptera: Cicadellidae) and Potential Side Effects on the Egg Parasitoid Anagrus atomus (Hymenoptera: Mymaridae)

The efficacy of Metarhizium anisopliae strain Ma43 and Paecilomyces fumosoroseus strain Pfr12 (both Deuteromycotina: Hyphomycetes) against adults of Empoasca decipiens (Homoptera: Cicadellidae) and potential side effects on the egg parasitoid Anagrus atomus (Hymenoptera: Mymaridae), were investigated in greenhouse cage and laboratory experiments. Treating leafhopper-infested faba bean plants at a dose rate of 1×10⁷ conidia mL^-1 resulted in up to 97% mortality 7 days after application and a 100% infection rate. Experiments on the residual effects revealed a significant decrease in adult E. decipiens mortality with increasing time from application to insect release. The decrease in mortality over time corresponded well with data from conidia germination tests. The germination of conidia on agar medium after washing them from the surafce of sprayed plants declined significantly from 95 and 96% immediately after application for M. anisopliae Ma43 and P. fumosoroseus Pfr12, respectively, to 29 and 27% 5 days later. Experiments on potential side effects of the entomopathogenic fungi on A. atomus showed that the tested isolates had no influence on adult emergence and longevity; however, the rates of parasitism were significantly reduced by the fungal treatments. The latter might be due to either density effects and/or could indicate that A. atomus avoids fungal-treated plants. However, the parasitoid is substantially less susceptible to the fungal strains tested than the host itself.     

Laboratory and glasshouse evaluation of entomopathogenic fungi against the two-spotted spider mite, Tetranychus urticae (Acari: Tetranychidae), on tomato, Lycopersicon esculentum

Forty isolates of entomopathogenic fungi from six genera were assessed against the two-spotted spider mite, Tetranychus urticae, in a single dose, direct application laboratory bioassay on tomato leaflets. Only three isolates caused greater mortality than the control: these were Metarhizium anisopliae 442.99, Hirsutella spp. 457.99, and Verticillium lecanii 450.99. These isolates were assessed in a multiple dose bioassay, together with three isolates cultured from commercial biopesticides as follows: Beauveria bassiana 432.99 (cultured from 'Naturalis-L', Troy Biosciences, Phoenix, TX, USA); Hirsutella thompsonii 463.99 (cultured from 'Mycar', Abbott Laboratories USA); and V. lecanii 19.79 (used in 'Mycotal' Koppert BV, The Netherlands). Beauveria bassiana 432.99, H. thompsonii 463.99, M. anisopliae 442.99, and V. lecanii 450.99 were all pathogenic to T. urticae in this bioassay. In addition, it was found that the mortality caused by B. bassiana 432.99 and Naturalis-L was increased when the mites were exposed to tomato leaflets sprayed previously with conidia suspensions, compared to spraying the mites directly. In a glasshouse experiment, sprays of B. bassiana 432.99, H. thompsonii 463.99, M. anisopliae 442.99, V. lecanii 450.99 and Naturalis-L reduced T. urticae populations in a tomato crop grown according to commercial practice. Naturalis-L reduced T. urticae numbers by up to 97%. In a second glasshouse experiment, single sprays of Naturalis-L and the acaricide fenbutatin oxide (Torq) were compared as supplementary treatments to release of the predatory mite, Phytoseiulus persimilis. Supplementary sprays of fenbutatin oxide reduced the numbers of T. urticae nymphs (80% reduction), while Naturalis-L reduced numbers of T. urticae adults, nymphs and eggs (98% reduction in all three cases). It is concluded that Naturalis-L has the potential to be used against T. urticae on glasshouse tomato crops.     

Do aphids infected with entomopathogenic fungi continue to produce and respond to alarm pheromone?

The response of pea aphids, Acyrthosiphon pisum, to aphid alarm pheromone was not modified by infection with Beauveria bassiana. Approximately 50% of uninfected and infected aphids responded to synthetic alarm pheromone. The simulated attack of aphids infected with B. bassiana did not elicit a response in uninfected aphids. Preliminary air entrainment experiments of both uninfected aphids and aphids at different stages of B. bassiana (generalist pathogen) or P. neoaphidis (obligate pathogen of aphids) demonstrated that B. bassiana infected aphids produced less alarm pheromone than uninfected aphids and, conversely, P. neoaphidis infected aphids produced more alarm pheromone than uninfected aphids. These results are discussed with particular emphasis on the different life history strategies of these two pathogens. We hypothesise that the obligate, specialist pathogen, P. neoaphidis, is under greater selection pressure to increase pathogen transmission and survival resulting in modified host behaviour, than the generalist pathogen, B. bassiana.     

一株谦逊迷孔菌Daedalea modesta的分离及其杀线虫的作用

为了研究野生担子菌对线虫的作用效果,从腐木桩上采集担子菌,应用常规组织分离法获得纯培养菌丝,以全齿复活线虫作靶标,初步筛选到1株对线虫有高活性的菌株,应用形态学方法和分子生物学方法进行了种的鉴定,测定了其对全齿复活线虫Panagrellus redivivus、松材线虫Bursaphelenchus xylophilus、爪哇根结线虫Meloidogyne javanica的杀线虫活性,并测定了其在不同条件下的发酵液对全齿复活线虫、松材线虫和爪哇根结线虫二龄幼虫的作用效果。经鉴定该菌株为谦逊迷孔菌Daedalea modesta,其菌丝在平板上能够迅速杀死线虫,平板菌落上接种线虫48h,菌丝对全齿复活线虫、松材线虫和爪哇根结线虫的致死率分别为95.61%、85.75%和100%;其马铃薯葡萄糖液体发酵液25℃处理全齿复活线虫、松材线虫和爪哇根结线虫二龄虫24h线虫死亡率均达100%,发酵液稀释10×时,对爪哇根结线虫仍有致死效果。本研究为该菌株用于线虫防治的进一步研究提供了科学参考。     

小菜蛾应对球孢白僵菌感染的免疫应答基因分析

通过室内生物测定,筛选对小菜蛾Plutella xylostella具有高毒力的球孢白僵菌Beauveria bassiana菌株,分析小菜蛾应对球孢白僵菌浸染的免疫应答基因。采用新一代Illumina高通量测序技术对接种/感染48h与未接种的小菜蛾样品分别进行转录组测序,筛选差异表达基因;结合生物信息学分析差异表达基因的功能、分类及涉及的信号通路等。结果表明接种小菜蛾48h后诱导2 434个基因发生差异表达,包括1 080个上调基因和1 354个下调基因。GO分类结果表明,这些差异表达基因（DEGs）被注释到45个GO term中,包括23个生物学过程,12个细胞组分和10个分子功能。KEGG分析表明,1 308个DEGs被富集到25个功能途径,这些DEGs包括497个上调基因和811个下调基因。分析发现,DEGs编码蛋白包含肽聚糖识别蛋白、丝氨酸蛋白酶55、丝氨酸蛋白酶抑制剂以及细胞色素P450 6K1类的免疫相关蛋白。另外,组蛋白、磷酸泛酰半胱氨酸脱羧酶、双链RNA结合蛋白、黑芥子酶等基因在球孢白僵菌侵染过程中也高表达,推测这些基因可能参与小菜蛾应对球孢白僵菌侵染的免疫反应。研究结果为进一步研究小菜蛾免疫相关基因的功能奠定了基础。     

Biological control of Strophosoma spp. (Coleoptera: Curculionidae) in greenery (Abies procera) plantations using Hyphomycetes

In Abies procera plantations Strophosoma melanogrammum and S. capitatum cause economic damage due to the adult stage feeding on the needles. No chemical treatments of these weevils are allowed in Denmark, so the potential of biological control was evaluated. We studied pathogenicity of thirteen isolates of entomopathogenic fungi and the field effect of soil application of Metarhizium anisopliae against Strophosoma spp. All of the tested isolates were capable of causing infections under laboratory conditions and average survival time at 20°C ranged between 13 and 23 days for S. melanogrammum and between 23 and 28 days for S. capitatum when dipped in a fungal suspension adjusted to 1×10⁷ conidia mL^-1. Under field conditions up to 90% of the living collected individuals died due to M. anisopliae infection in the treated plots, whereas less than 1% died of M. anisopliae infection in control plots. In accordance, the population of Strophosoma spp. was reduced in plots where the fungus was applied compared to control plots.     

Whey for mass production of Beauveria bassiana and Metarhizium anisopliae

Spore production of Beauveria bassiana and Metarhizium anisopliae was studied in a novel whey-based culture media. Spore yield and viability were determined for two B. bassiana (GHA-726 and CA-603) and two M. anisopliae (CA-1 and IMI 330189) isolates following production in three whey-based systems: solid, liquid, and a diphasic production system. Our study indicated that whey permeate can be used effectively for production of spores of entomopathogenic fungi. However, spore yield and viability were significantly influenced by fungal isolate, whey concentration, and the type of production process used. Under the conditions defined in the present study, spore yields ranging from 1.3 × 10⁹–10 × 10¹¹ spores l⁻¹ of whey medium could be obtained depending on the strain and production process used. Our study revealed that spores produced by all strains in whey-based solid and liquid media showed between 73–99 % viability; germination rates were comparable with those obtained using the standard SDA medium. In the two-stage production process, the viabilities of conidia produced by GHA-726, CA-603, and CA-1 were 35–86, 32–98, and 6–29 %, respectively; viability was correlated with whey concentration and isolates. Whey permeate can be used as a growth substrate for mass production of biocontrol fungi. We hypothesize that spore yield and viability could be improved by careful selection of whey content in the medium, incorporation of critical additives and optimization of culture conditions.     

Persistence of Conidia of Metarhizium anisopliae in Sugarcane Fields: Effect of isolate and formulation on persistence over 3.5 years

Metarhizium anisopliae is being used in Australia as a biopesticide for control of sugarcane whitegrubs in soil. The field persistence in sugarcane soil of two isolates of M. anisopliae each in four formulations was tested by mixing the formulation with soil which was then placed in PVC rings and buried in sugarcane fields. The two isolates used were FI-1045, M. anisopliae var. anisopliae, the active ingredient in BioCane™ currently used for greyback canegrub control, Dermolepida albohirtum (Coleoptera: Scarabaeidae: Melolonthinae), and FI-147, M. anisopliae var. lepidiotum, being tested as a biopesticide for Lepidiota spp. (Coleoptera: Scarabaeidae: Melolonthinae) and other species of canegrub. The four formulations were rice granules (as in BioCane™), a wettable powder derived from conidia screened from the rice granules, conidia off rice suspended in water and conidia produced on agar plates, dried, and then mixed with water for adding to soil. FI-1045 was tested at three different sites in north Queensland with a range of soil types and climatic conditions while FI-147 was tested at three similarly diverse sites in southern Queensland. The PVC rings were destructively sampled every 6 months for 3.5 years and the number of viable conidia remaining determined by plating onto a selective medium. The exponential decay was determined. Monthly decay rates ranged from 0.0309 to 0.0835 (mean 0.0512). A small proportion of conidia survived the 3.5 years at all sites and all formulations. Overall, isolate FI-147 persisted better than FI-1045, but was used at the more Southerly sites. Rainfall and soil type had negligible effects on persistence. The agar-produced FI-147 conidia declined most slowly, while the two rice-produced but water-formulated conidia gave similar results. Isolate FI-1045 survived best as the BioCane™ formulation and this rice granule formulation was almost as persistent as the agar conidia with FI-147. A small proportion of conidia, in some formulations and at some sites, were recovered from immediately below the rings. This movement was thought to be due to activity of earthworms or mites. The results suggest that 3 years would be the maximum period for a BioCane™ formulation to provide some level of infection in the target pest unless augmented by conidia from infected grubs. The effectiveness of these new conidia may be reduced due to their highly aggregated distribution.     

Effect of combination treatment with entomopathogenic fungi Beauveria bassiana and Nomuraea rileyi (Hypocreales) on Spodoptera litura (Lepidoptera: Noctuidaeae)

In biocontrol of insect pests, efficacy of treatment with multiple pathogens has not been frequently investigated but may have potential for effective management. The possible advantage of a combination treatment with two entomopathogenic fungi - Beauveria bassiana and Nomuraea rileyi - was assessed in laboratory bioassays on second instar Spodoptera litura. From among the fungal isolates of an epizootic population, two isolates of each fungus differing in virulence to S. litura were chosen, one highly virulent and the other with low virulence. The bioassays were carried out at either a continuous temperature of 25±1°C or at a temperature cycle of 32±2°C 8 h/21±2°C 16 h to mimic the field temperatures during the epizootic. Treatments with the two fungi were done both simultaneously and sequentially. In combination treatments at 25±1°C, in all isolate combinations, a majority of the larvae showed N. rileyi induced mycosis; the percentage mortality and speed of kill of insects in these treatments was similar to the N. rileyi isolate used in the combination treatments. At the temperature cycle of 32±2°C 8 h/21±2°C 16 h, in all combination treatments, all the dead insects exhibited B. bassiana mycosis; the mortality pattern was similar to the B. bassiana isolate used in the combination treatments. The adverse effect of high temperature on virulence of N. rileyi was however, not evident in in vitro growth assays. Combination treatment with both fungi did not have a synergistic effect on insect mortality.     

Evaluating the importance of residual effects from previous years' treatment on the efficiency of different strategies for control of Sahelian grasshoppers with Metarhizium anisopliae var. acridum

A model for the residual effect of previous years' treatment with the mycoinsecticide Metarhizium anisopliae var. acridum has been constructed based on field data from treatment of two different grasshopper species in east Niger. This model was incorporated in an earlier developed simulation model to evaluate control strategies for the grasshopper Oedaleus senegalensis in West Africa and the model system was used to assess the potential importance of second year's residual effects for the efficiency of different treatment strategies. It has earlier been hypothesized that the persistence of M. anisopliae and the ability of this agent to impose long-term control on grasshopper populations through secondary cycling in some cases might render the use of M. anisopliae more efficient than the use of chemical insecticides like fenitrothion. Results show that this effect is possible if M. anisopliae is used in a repetitive treatment strategy where control operations are concentrated in the main millet production areas.     

Prospects of a fungus-contamination device for the control of tsetse fly Glossina fuscipes fuscipes

The prospects of the fungus Metarhizium anisopliae (Metsch.) Sorok. applied in contamination devices (Cds) to control tsetse fly Glossina fuscipes fuscipes Newstead was tested in a field experiment in Lake Victoria from 2 March 1999 to 31 August 2000. One hundred and sixty pyramidal traps mounted with Cds were deployed along the lakeshore and rivers on Mfangano Island. Contamination devices were loaded with 1.5-2.0 g of dry conidia/Cd. On the second island, Nzenze Island, four pyramidal traps fitted with plastic bags were deployed and served as the conventional 'trap and kill' population suppression method. A third island, Ngodhe Island, remained untreated and served as a control. Cds were recharged monthly with fresh conidia; plastic bags were also changed monthly. The apparent changes in population density were monitored weekly using biconical traps set at random on the three islands. To assess the incidence of M. anisopliae in tsetse flies on Mfangano Island, flies captured during monitoring were maintained in the laboratory and their mortality recorded. Fly population was reduced to 82.4 and 95.8% relative to untreated control on Mfangano and Nzenze islands, respectively, during the experimental period. Compared to the fungus-treated island, the number of flies caught in monitoring traps increased considerably in 'trap kill' treatment at 5 months after the treatments were removed. The incidence of M. anisopliae in fly populations was low during the 12 weeks following the initiation of the experiment but increased afterward until termination of the treatment. M. anisopliae could still be recovered from fly populations at 3 months after termination of the treatment, although the incidence was low. The results of this study have shown that application of M. anisopliae in a contamination device can suppress the population of G. fuscipes fuscipes comparable to the 'trap and kill' technology.     

Horizontal Transmission of the Entomopathogenic Fungus Beauveria bassiana among the Spruce Bark Beetle, Ips typographus (Col., Scolytidae) in the Laboratory and under Field Conditions

In laboratory and field cage experiments, the horizontal transmission of the entomopathogenic fungus Beauveria bassiana (Boverol®) between adults of the spruce bark beetle Ips typographus was examined. In a laboratory experiment, conidia transfer between treated and untreated beetles at different ratios resulted in 96% mortality (MST 4.3 days) at a ratio of 1:1 and 90% mortality (MST 4.5 days) at a ratio of 1:2. At ratios of 1:5, 1:10 and 1:20, the mortalities at 7 days were 83, 77 and 75%, respectively. In a second laboratory experiment, the efficacy of B. bassiana was investigated after transmission from contaminated to healthy beetles over a period of 5 days. Two weeks later, the mortality of treated and untreated beetles was 99% (control mortality was 44%), while the rate of mycosis was 79% in the treatment compared to 10% in the control beetles. A single contact between one treated male (2.0×10⁵ conidia/beetle) and an untreated female was found to be sufficient to transmit a lethal dose of B. bassiana of about 1.2×10⁴ conidia. Two experiments in field cages in a spruce stand demonstrated horizontal transmission of B. bassiana (Boverol®) between beetles. In the first experiment the transmission was investigated following the introduction of B. bassiana-inoculated beetles into a population of untreated beetles. Significant reductions were observed in the length of maternal galleries, and the number of larvae and pupae. In the second field cage experiment, natural populations of beetles were lured into a flight cage using a pheromone trap, and treated with B. bassiana or left untreated on alternate days. In this experiment, significant reductions were observed in the number of bore holes and the length of maternal galleries, while no larvae, pupae or juveniles were found under the bark of spruce trunks in the Boverol® transmission treatment. It is concluded that B. bassiana has potential for control of I. typographus, and further field experiments are warranted to investigate its efficacy under more practical conditions.     

Microbial combinatorics: a simplified approach for isolating insecticidal bacteria

Bacteria can control pest insects that damage food crops, vector diseases and defoliate trees. Conventionally, isolation of these bacteria has been from soil and sporadically from dead insects. A simplified approach for isolating insecticidal bacteria from soil using the target insect as the selective agent was employed in this study. Instead of isolating single strains of bacteria from soil and testing each individual strain for insect toxicity, mixtures of bacteria present in each soil sample were tested together directly for toxicity using Manduca sexta (Linnaeus) (Lepidoptera: Sphingidae) as a model insect. Thirty-five soil suspensions or bacterial suspensions of the 40 suspensions tested killed at least one M. sexta larva. All but one bacterial culture isolated from dead larvae and retested for toxicity, killed at least one M. sexta larva. Nineteen bacterial strains isolated from larvae killed in the first test, were identical to the bacteria fed to the retested larvae. Of the 19 strains isolated, 14 were identified by 16S rDNA sequencing as belonging to the Bacillus cereus group including three strains that formed crystals that were identified as B. thuringiensis. Of the three other spore-forming strains, two were identified as psychrotrophic B. weihenstephanensis and the third as Lysinibacillus fusiformis. Two others were identified as Enterococcus faecalis. This approach, microbial combinatorics, reduces the number of insects necessary for toxicity screening and associated time and resources compared to conventional methods that first isolate bacteria and then individually test for toxicity as well as a means of discovery of new pathogens using the insect as the selective agent.     

Development of Beauveria bassiana dry formulation for vectoring by honey bees Apis mellifera (Hymenoptera: Apidae) to the flowers of crops for pest control

Using bee pollinators as a means for the dissemination of microbial control agents, such as Beauveria bassiana, against insect pests of agricultural crops is a novel and interesting approach to biological control. In four laboratory trials, one in Canada and three in Jordan, factors affecting the acquisition of B. bassiana by honey bees were evaluated using hive-mounted inoculum dispensers. The numbers of conidia carried by bees emerging from the dispensers differed according to the type of carrier used. Bees that passed through corn flour acquired more inoculum than did those that walked through wheat flour, durum semolina, corn meal, potato starch, potato flakes, oat flour or barley flour. The numbers of conidia acquired by the bees increased with decreasing particle size and moisture content of the carrier, and with increasing density of B. bassiana conidia in the formulation. Time required for a bee to pass through the dispenser did not significantly affect the acquisition of conidia. This study indicated that honeybees (Apis mellifera carnica) have a great potential for vectoring B. bassiana in crop systems. It also opens more avenues for studies on bee delivery of other microbial biological control agents.     

Autodissemination of Beauveria bassiana by Sap Beetles (Coleoptera: Nitidulidae) to Overwintering Sites

An autoinoculative device was used to test the ability of sap beetles (Coleoptera: Nitidulidae) to carry a specific strain of Beauveria bassiana (Balsamo) Vuillemin to overwintering sites in a multiyear field study. The device was baited with the pheromone and coattractants for the dusky sap beetle (Carpophilus lugubris Murray) and placed in the field in the fall of each year. The introduced strain occurred at high frequency among the B. bassiana isolated in the fall of all four years tested (100% of all isolates from 21 of 22 collection dates). The introduced strain of B. bassiana was isolated at high frequency from all the B. bassiana-contaminated sap beetles recovered from the overwintering traps (100% of all isolates from 13 of 23 trap/beetle species combinations) and was highest after the longest fall exposure. The introduced strain was primarily isolated from C. lugubris and C. antiquus, but species distribution was also dependent on the overwintering trap design used. Few non-sap beetles species of insects were recovered from the artificial overwintering sites. Although B. bassiana was isolated from free flying sap beetles caught in traps in the spring of each year, none were infected with the introduced strain. The autoinoculating device provides selective contamination of sap beetles in overwintering sites when used in the fall. It may be useful in providing some control of sap beetles or other insects where limited numbers of mass overwintering sites (such as tree holes) occur.     

Yeasts as biological agents to control Botrytis cinerea

Yeasts, isolated from different sources, were identified and tested for inhibition using YMA-MB plates seeded with Botrytis cinerea strains. A total of 42 yeast strains of 20 different species were tested in vitro for antagonism against 18 pathogenic B. cinerea strains. Pichia membranifaciens, P. anomala and Debaryomyces hansenii displayed the most important inhibitory effect against Botrytis strains. In small-scale trials, post-harvest application of P. membranifaciens CYC 1106 to apple wounds inhibited B. cinerea CYC 20010. Purified killer toxin from P. membranifaciens CYC 1106 inhibited B. cinerea CYC 20010. Results indicated that certain yeasts, or their toxins such us P. membranifaciens CYC 1106 killer toxin, might have potential as novel agents to control B. cinerea.     

Media and Fermentation Processes for the Rapid Production of High Concentrations of Stable Blastospores of the Bioinsecticidal Fungus Paecilomyces fumosoroseus

In shake flask and fermentor studies, various media components and culture inocula were tested to improve P. fumosoroseus spore production rates, yield and stability. To evaluate inoculum potential and inoculum scale-up for fermentor studies, conidia and liquid culture-produced spores of various strains of P. fumosoroseus were compared as inoculum. Inoculation of liquid cultures with blastospores at concentrations of at least 1×10⁶ spores mL^-1 resulted in the rapid production of high concentrations of blastospores (∼1×10⁹ spores mL^-1, 48 h fermentation time) for all strains tested. The rapid germination rate of blastospores (90% after 6 h incubation) compared to conidia (>90% after 16 h incubation) and the use of higher inoculum rates reduced the fermentation time from 96 to 48 h for maximal spore yields. A comparison of various complex nitrogen sources showed that liquid media supplemented with acid hydrolyzed casein or yeast extract supported the production of high concentrations of blastospores that were significantly more desiccation-tolerant (79-82% survival after drying) when compared to blastospores produced in media supplemented with other nitrogen sources (12-50% survival after drying). For rapid spore production, requirements for trace metals and vitamin supplementation were dependent on the type of hydrolyzed casein used in the medium. Fermentor studies with two strains of P. fumosoroseus showed that high concentrations (1.3-1.8×10⁹ spores mL^-1) of desiccation-tolerant blastospores could be produced in 48-h fermentations. These studies have demonstrated that the infective spores of various strains of the fungal bioinsecticide Paecilomyces fumosoroseus can be rapidly produced using deep-tank, liquid culture fermentation techniques.     

Biochemical and molecular characteristics of indigenous strains of the entomopathogenic fungus Beauveria bassiana of Central India

Forty-eight isolates of indigenous strains of Beauveria bassiana from various insect hosts collected from Central India were characterised by employing protease zymography and RAPD analysis. Results of protease zymographic profiles were reproducible and significant enough to contribute to the biochemical diversity of this species. RAPD analysis revealed the presence of high level of genetic diversity and indicated that 0-66% significant differences has evolved between these isolates. The sets of amplified bands showing identical pattern to others were grouped at 100% similarity level. A wide range in the value (0.25-1.00) of Jaccard similarity coefficient was observed among all the isolates. The grouping of the indigenous strains, obtained from numerical analysis of these data, appears to be related to the host specificity in B. bassiana. Clear groups were seen for strains isolated from Lepidopteran and Coleopteran insect hosts.     

The effect of Trichoderma harzianum and T. koningii on the control of tan spot (Pyrenophora tritici-repentis) and leaf blotch (Mycosphaerella graminicola) of wheat under field conditions in Argentina

The effect of six isolates of Trichoderma harzianum and one isolate of T. koningii on the incidence and severity of tan spot (Pyrenophora tritici-repentis) and leaf blotch of wheat (Mycosphaerella graminicola) was evaluated under field conditions. Significant differences between wheat cultivars, inoculum types and growth stages were found. Three of the isolates tested (T2 for M. graminicola, T7 for P. tritici-repentis and T5 for both of them) showed the best performance in controlling leaf blotch and tan spot when coated onto seed or sprayed onto wheat leaves at different growth stages, with significant severity reduction up to 56%. At tillering, six of the isolates reduced the severity of P. tritici-repentis and M. graminicola compared to the control by up to 39% and 12-53%, respectively. In some experiments, the biocontrol preparation (T2 and T5) gave a level of disease control similar to that obtained with Tebuconazole (70 and 48%, respectively). The effect of Trichoderma against P. tritici-repentis was also observed at the heading stage, when six of the treatments reduced disease severity by 16-35%. This is the first report on the efficacy of Trichoderma spp. against wheat necrotrophic pathogens under field conditions in Argentina.