安徽大别台区虫生真菌区系的物种多样性研究

对安徽大别山区虫生真菌区系的物种多样性进行了研究。结果表明该地区虫生真菌资源十分丰富 ,共有虫生真菌 5 0种 ,隶属于 4目 4科 16属。科从大到小依次为麦角菌科 (Clavicipitaceae) (2 7种 ,占 5 4 % )、丝孢科 (Hy phomycetaceae) (15种 ,占 30 % )、虫霉科 (Entomophthoraceae) (5种 ,占 10 % )、束梗孢科 (Stilbellaceae) (3种 ,占 6 % )。含 3个种以上的优势属依次为虫草属 (Cordyceps) (2 6种 ,占 5 2 % )、拟青霉属 (Paecilomyces) (6种 ,占 12 % )、白僵菌属 (Beauveria) (3种 ,占 6 % ) ,共计 35种 ,占总种数的 70 % ;含 2个种的属为刺束梗孢属 (Akanthomyces)和虫瘟霉属 (Zoophthora) ;其余 11个属皆为单种属。优势种依次为粉拟青霉 (Paecilomycesfarinosus)、细脚拟青霉 (P .tenuipes)、下垂虫草 (Cordycepsnutans)、球孢白僵菌 (Beauveriabassiana)、金龟子绿僵菌小孢变种 (Metarhiziumanisopliaevar.anisopliae)。区系地理成分划分为 7大类型 :世界分布种 (42 .11% )、欧亚大陆分布种 (10 .5 3% )、亚热带—热带分布种 (5 .2 6 % )、东亚分布种 (7.89% )、东亚—新几内亚分布种 (5 .2 6 % )、中国—日本分布种 (5 .2 6 % )和特有成分 (2 3.6 8% ) ,表现出明显的东亚区系特征 ,而且本区及     

Influence of commercial fungicides on the germination,growth and virulence of four species of entomopathogenic fungi

The influence of 15 commercially available fungicides on the germination, growth and virulence of Metarhizium anisopliae, Beauveria bassiana, Isaria fumosorosea, and Lecanillium longisporum was evaluated. The influence of the fungicides on conidial germination was dependant on the fungicide type and dose. Most fungicides retarded conidial germination of all the fungi tested at 10× and at the recommended rate of application, however, their toxicity declined at lower concentrations. Most of the fungicides inhibited mycelial growth of B. bassiana, whereas L. longisporum growth was unaffected. Only two and eight fungicides influenced mycelial growth of I. fumosorosea and M. anisopliae, respectively. None of the fungicides influenced the virulence of B. bassiana and L. longisporum, however, tolylfluanid and azoxystrobin reduced the virulence of M. anisopliae and I. fumosorosea, respectively. These studies clearly show that certain fungicides have the potential to inhibit germination of entomopathogenic fungi in vitro but appear to have little or no effect on their virulence against target insects.     

Variability in virulence of Beauveria spp. soil isolates against Ostrinia nubilalis

European corn borer (Ostrinia nubilalis) is an important maize pest which is treated mainly by synthetic pesticides with many negative effects for ecosystem and human health. Soil borne entomopathogenic fungi of species belonging to Beauveria genus may provide an alternative strategy for biological control of this pest. In this article, we report results of virulence testing of 46 soil isolates of Beauveria spp. against O. nubilalis in relation to isolates origin and haplotype. All strains were collected from soil using Galleria mellonella bait method. Conidia suspension with concentration 10⁷ conidia in ml was used for virulence test against 4th instar larvae of O. nubilalis at temperature 25°C. After 14 days, mortality of larvae was in the range 34%–96%. Median lethal time LT50 was estimated to 5.5–21.3 days. Mortality was not in relation to habitat or any other environmental parameter of sites where isolates came from. Differences among species were insignificant. Isolates were divided into 8 genetic lineages and 14 haplotypes using sequencing of ITS and Bloc nuclear regions. None of the lineages showed higher mortality than others. Despite more or less virulent isolates being found in each lineage, the three most virulent isolates belonged to the same lineage Beauveria bassiana A3. The four most virulent isolates were compared to commercial isolate GHA to assess medium lethal concentration. LC50 were estimated in range 7.5 × 10⁴ to 9.5 × 10⁵. Three of the four isolates showed equal or greater efficiency than strain GHA.     

Inter‐ and intraspecific variation of spider mite susceptibility to fungal infections: Implications for the long‐term success of biological control

Spider mites are severe pests of several annual and perennial crops worldwide, often causing important economic damages. As rapid evolution of pesticide resistance in this group hampers the efficiency of chemical control, alternative control strategies, such as the use of entomopathogenic fungi, are being developed. However, while several studies have focused on the evaluation of the control potential of different fungal species and/or isolates as well as their compatibility with other control methods (e.g., predators or chemical pesticides), knowledge on the extent of inter‐ and intraspecific variation in spider mite susceptibility to fungal infection is as yet incipient. Here, we measured the mortality induced by two generalist fungi, Beauveria bassiana and Metarhizium brunneum, in 12 spider mite populations belonging to different Tetranychus species: T. evansi, T. ludeni, and T. urticae (green and red form), within a full factorial experiment. We found that spider mite species differed in their susceptibility to infection by both fungal species. Moreover, we also found important intraspecific variation for this trait. These results draw caution on the development of single strains as biocontrol agents. Indeed, the high level of intraspecific variation suggests that (a) the one‐size‐fits‐all strategy may fail to control spider mite populations and (b) hosts resistance to infection may evolve at a rapid pace. Finally, we propose future directions to better understand this system and improve the long‐term success of spider mite control strategies based on entomopathogenic fungi.     

Entomopathogenic fungi from Argentina for the control of Schistocerca cancellata (Orthoptera: Acrididae) nymphs: fungal pathogenicity and enzyme activity

The South American locust Schistocerca cancellata (Serville) was the most serious agricultural pest in Argentina during the first half of the last century and remains as a threat when preventive control measures are relaxed in the outbreak area. In this study, we analysed in the laboratory, the effectiveness of 26 fungal strains (isolated from both insects and soil collected in Argentina) for S. cancellata control and determined the relationship between the chitinase, protease and lipase levels in these fungi and their insecticidal activities. We observed that Beauveria bassiana (isolate LPSC 1067) caused the highest mortality (90±1.03%), the highest values of chitinolytic, proteolytic and lipolytic activity were 6.13±0.05, 2.56±0.11 and 2.33±0.47, respectively, and the lowest median lethal time was 5.96 days. This is the first time that a wide variability in chitinase, protease and lipase activity as well as in virulence has been reported in a representative sample of different entomopathogenic fungal strains from Argentina.     

西花蓟马高毒力虫生真菌筛选及其生防应用潜力的研究进展

西花蓟马是一种外来入侵的世界性害虫,对农林业危害巨大。查阅国内外相关文献,综述了当前防治西花蓟马的虫生真菌的种类、高毒力菌株的筛选及防治现状。现已知西花蓟马的寄生病原真菌有5种,包括蜡蚧轮枝菌(半知菌:丝孢目)、球孢白僵菌(半知菌:丝孢目)、金龟子绿僵菌(半知菌:丝孢目)、玫烟色棒束孢(半知菌:束梗孢目)和小孢新接霉。其中,球孢白僵菌、金龟子绿僵菌在西花蓟马的生物防治中应用最广,具有良好的开发应用潜力,部分防效好的虫生真菌已申请专利及实现工厂化生产。     

Virulence potential of some fungal isolates and their control-promise against the Egyptian cotton leaf worm,Spodoptera littoralis

A preliminary virulence test of four fungal isolates, Beauveria bassiana IMI 382302, Beauveria bassiana IMI 386701, Trichoderma harzianum T24 and Aspergillus flavus Link against larvae of Spodoptera littoralis was performed. The most effective isolates against larvae of S. littoralis were B. bassiana 302 and T. harzianum T24, which also showed the lower percentage of pupation compared with the other two isolates under the same conditions of treatments. Three concentrations (1 × 10⁶, 1 × 10⁷ and 1 × 10⁸ ml^?1) of the aqueous conidial suspension of the four tested isolates were carried out against both larval and pupal stages of S. littoralis within five days post-treatment. T. harzianum T24 showed 80% larval mortality only when applied at the highest conidial concentration, while A. flavus showed 100% pupal mortality only, at all of its conidial concentrations. However, B. bassiana IMI 382302 showed relatively high dose-dependant larval and pupal mortalities, while strain IMI 386701 of B. bassiana showed a very weak mortality against pupae at higher concentrations, and no virulence against larvae was recorded. Enzymatic and antibiosis bioassays of the four fungal isolates showed relatively high activities against Fusarium spp. for most of the tested isolates. Clear zone of enzyme activity on agar plates proportionally increased with increasing the concentration of enzyme substrate and prolongation of the incubation period. Mtabolites produced in the agar culture inhibited the growth of Fusarium spp. and the productivity differed greatly among isolates or strains of the same isolate. Volatile and non-volatile compounds produced by A. flavus Link showed a higher inhibition activity against Fusarium spp. compared with the other fungal isolates. The humoral antifungal response of insect host is relatively high compared to the anti-bacterial one. Injection of larvae with the immune sensitive bacteria Micrococcus luteus (5 × 10³ bacteria/larva) showed a detectable humoral response by 2 h, peaked around 12 h and became hardly detectable by 24 h post-injection. Injection of larvae with conidial suspension (5 × 10³ conidia/larva) from each of the fungal isolates showed humoral antifungal activity against B. bassiana IMI 386701 and A. flavus only. This activity was detectable by 12 h, peaked around 36 h and became hardly detectable by 48 h post-injection. Although the humoral antifungal response was started slowly compared to the antibacterial one, it lasted for longer and enabled larvae to withstand the infection with these immune-sensitive fungal strains. No humoral activity was detected against B. bassiana IMI 382302, although however, weak activity was detected against T. harzianum T24 only at the low conidial concentration but not at the higher one (1 × 10⁸ ml^?1). Thus, this study concludes that larvae of S. littoralis showed immune-dependant sensitivity to T. harzianum T24 and B. bassiana IMI 382302. Therefore, this study may recommend these two fungal isolates as mycoinsecticides in the battle against cotton leaf worm in Egypt. Hence, they have been selected for future comprehensive bioassays in the laboratory under conditions similar to that in the field. This, in fact, may help for developing effective mycoinsecticides against this pest. Penetration mechanims of insect cuticle by entomopathogenic fungi will be discussed.     

Persistence and virulence of promising entomopathogenic fungal isolates for use in citrus orchards in South Africa

Thaumatotibia leucotreta (Meyrick) (1912) (Lepidoptera: Tortricidae) is a key economic pest of citrus in South Africa. Although a variety of control options are available, none currently registered target the soil-dwelling life stages of the pest. Three fungal isolates, two Metarhizium anisopliae sensu lato Metschnikoff (Sorokin) isolates (G 11 3 L6 and FCM Ar 23 B3) and one Beauveria bassiana sensu lato Balsamo (Vuillemin) isolate (G Ar 17 B3) have been identified as showing the greatest potential against T. leucotreta soil-dwelling life stages. Since environmental persistence is an important factor in the success of entomopathogenic fungi against soil pests, the isolates, along with two commercial isolates (B. bassiana Eco-Bb® and M. anisopliae ICIPE 69), were subjected to a six-month field persistence trial. Every month after burial of the fungal isolates, inside net bags, in orchard soil, the number of colony forming units (CFUs) per gram of soil was measured and the viability of the conidia was assessed using bioassays. All isolates investigated were capable of persisting in the soil for the duration of the trial period and in addition, were capable of initiating infection in T. leucotreta late fifth instar larvae and subsequent pupae. However, with the exception of the commercial isolates which showed some correlation, no correlation was found between the number of CFUs recorded and percentage T. leucotreta mycosis. Persistence of entomopathogenic fungi in the field is affected by a series of factors, and although the effect of these factors was not measured, the data have provided preliminary evidence towards the persistence capability of these candidate biopesticides against T. leucotreta.     

Bemisia tabaci: The current situation in the UK and the prospect of developing strategies for eradication using entomopathogens

Abstract The sweetpotato whitefly, Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) remains a serious threat to crops worldwide. The damaging B‐biotype is of specific economic concern because it is an effective vector of over 111 viruses from several families, particularly geminiviruses. Bemisia tabaci is regularly intercepted on plants coming into the UK where it is subjected to a policy of eradication. The UK maintains Protective Zone status against this pest. A main pathway of entry of B. tabaci into the Protected Zone involves propagating material, especially Poinsettia (Euphorbia pulcherrima). With increased insecticide resistance continuously being recorded, B. tabaci is becoming more difficult to control/eradicate. Recent research involving both entomopathogenic nematodes and fungi is showing much potential for the development of control programs for this pest. Both the nematode Steinernema feltiae and the fungus Lecanicillium muscarium have been shown to be most effective against second instar B. tabaci. Fine‐tuning of the environmental conditions required has also increased their efficacy. The entomopathogens have also shown a high level of compatibility with chemical insecticides, all increasing their potential to be incorporated into control strategies against B. tabaci.     

Behavioural changes in Schistocerca gregaria following infection with a fungal pathogen: implications for susceptibility to predation

1. Field observations have indicated that infection of locusts and grasshoppers by the fungal entomopathogen Metarhizium anisopliae var. acridum may result in a substantial increase in the host's susceptibility to predation, before death is caused directly by the disease. 2. Laboratory experiments were conducted to examine how the behaviour of the desert locust Schistocerca gregaria Forskål changes following infection by M. anisopliae var. acridum to explore some potential mechanisms underlying this phenomenon. 3. In the first experiment, which involved monitoring general locust activity in small cages throughout the disease incubation period, infected locusts were observed to increase locomotion and bodily movement from 3 days after infection until death (average survival time of 11 days). There was some evidence of reduced feeding and mating behaviour following infection. 4. In a second experiment, locusts were exposed individually to a simulated predator attack and the initiation and strength of any escape responses were measured. Infected locusts were observed to have a reduced escape capability (both the propensity to escape and the strength of the response). In contrast to the relatively early changes in general activity observed in the first experiment, this was only apparent at the late stages of infection shortly before death. 5. Both an increase in movement and general apparency early in the infection process, and reduced escape capability late on, suggest mechanisms whereby the susceptibility of locusts and grasshoppers to predation might be enhanced following infection with M. anisopliae var. acridum.     

The Susceptibility of Different Species and Stages of Ticks to Entomopathogenic Fungi

Boophilus annulatus, Hyalomma excavatum and Rhipicephalus sanguineus ticks were shown to be susceptible to different entomopathogenic fungi under laboratory conditions. Comparative results of bioassays using five different fungal species showed that some strains of Metarhizium anisopliae are highly pathogenic against various tick stages tested. In contrast to their activity against insects, fungi also affected tick eggs. All tested tick stages including those feeding on a host were found to be susceptible to these fungi, except for adult H. excavatum ticks, which were relatively resistant. This revised version was published online in July 2006 with corrections to the Cover Date.     

Plant hormones: a fungal point of view

Most classical plant hormones are also produced by pathogenic and symbiotic fungi. The way in which these molecules favour the invasion of plant tissues and the development of fungi inside plant tissues is still largely unknown. In this review, we examine the different roles of such hormone production by pathogenic fungi. Converging evidence suggests that these fungal‐derived molecules have potentially two modes of action: (i) they may perturb plant processes, either positively or negatively, to favour invasion and nutrient uptake; and (ii) they may also act as signals for the fungi themselves to engage appropriate developmental and physiological processes adapted to their environment. Indirect evidence suggests that abscisic acid, gibberellic acid and ethylene produced by fungi participate in pathogenicity. There is now evidence that auxin and cytokinins could be positive regulators required for virulence. Further research should establish whether or not fungal‐derived hormones act like other fungal effectors.     

In vitro spore formation and completion of the asexual life cycle of Neozygites parvispora, an obligate biotrophic pathogen of thrips

Capilliconidia, the asexual secondary spores of Neozygites parvispora (Zygomycetes, Entomophthorales) were produced in vitro either by entrapment of vegetative cells (hyphal bodies) in alginate pellets or after plating them onto water agar. Cultivation of the fungus for 3 days in a medium lacking hemolymph increased spore production 30 to 40-fold, and about 10% of the cells produced capilliconidia. The in vitro produced capilliconidia were infectious to Thrips tabaci and the fungus was reisolated from infected insects, thus completing its asexual life cycle under laboratory conditions. A decrease in capilliconidia production and a modification of the number of nuclei per spore were observed for isolates cultivated in vitro for more than 2 months, but subsequent host passages restored and increased sporulation efficiency without influencing the number of nuclei. Fungal cultures were stored at —80 °C for up to 7 months, and the capability to sporulate and infect T. tabaci was preserved. A bioassay procedure for infecting T. tabaci with N. parvispora is described, the first mycosed insects dying usually after 8 d of incubation.     

Intersection of fungal fitness and virulence in Cryptococcus neoformans

The use of insertional mutagenesis to discover genes that impact laccase activity has resulted in the identification of multiple cellular processes that affect the fitness of Cryptococcus neoformans. Fitness has been defined as the ability of an organism to propagate and evolve within a given environment. Because the human host is an evolutionary dead-end for an opportunistic pathogen, we have defined pathogenic fitness here as the capability to successfully propagate within the stressful environment of the host, causing disease by expression of virulence traits that damage the host. In this review, laccase-deficient insertional mutants will be highlighted in terms of the basic biological processes in which they are involved. The impact of laccase-associated cellular functions on fitness and virulence will be discussed, as will the mutants' potential as therapeutic targets. Vacuolar function, copper homeostasis, mitochondrial function and carbon repression are covered.     

钙调磷酸酶信号调控真菌生长代谢、毒力及抗逆性能

钙调磷酸酶是一种丝氨酸/苏氨酸(Ser/Thr)蛋白磷酸酶,在真菌中普遍保守,上游信号途径由Ca2+通道(Cch1)、转运蛋白(Mid1)、钙离子感应蛋白(CaM)、钙调蛋白依赖性磷酸酶等组成。钙调磷酸酶受钙离子和钙调蛋白调节,在调控真菌Ca2+稳态的钙信号级联途径中发挥着中心作用,通过钙信号级联途径参与生物学过程,调控真菌生长、发育和毒力形成来响应外界环境因素的变化,使真菌能够适应不同环境,维持正常的生命活动。本文综述了真菌钙调磷酸酶信号的组成和上下游信号转导途径、调控细胞生长代谢、毒力形成以及抗逆性能调控的研究进展;结合对真菌代谢产物合成的调控作用,对钙调磷酸酶信号作为重要合成生物学元件及调控开关进行了展望。     

Logistic growth of the host‐specific obligate insect pathogenic fungus Entomophthora muscae in house flies (Musca domestica)

Insect pathogenic fungi (IPF) need to overcome the host immune system in order to sporulate and ensure transmission to new hosts. Some IPF produce immunosuppressive toxins, whereas others rely on rapid fungal proliferation to kill the host by sheer fungal mass, resulting in a trade‐off between allocating resources to toxin production and fungal proliferation. The obligate entomopathogenic fungus, Entomophthora muscae sensu stricto, is host specific to the common house fly, Musca domestica. E. muscae grows as protoplast cells without cell walls and is not known to produce toxins. Here, we assessed the growth of E. muscae, in vivo, using real‐time PCR to measure the amount of a single‐copy actin gene. We find that E. muscae exhibits S‐shaped logistic growth between time post‐exposure and the number of fungal nuclei. The results show that E. muscae initially grows exponentially inside the host until depletion of available nutrient sources signifies the ‘limiting capacity’ where after the host is killed. This growth pattern differs markedly from toxin‐producing IPF species of Metarhizium and Beauveria in which maximal (plateau) growth and sporulation do not occur until well after the death of the host.     

Effect of fungicides on growth,germination and cuticle-degrading enzyme production by Lecanicillium muscarium

Lecanicillium muscarium Zare and Gams (previously known as Verticillium lecanii) is a well-known pathogen of arthropods. The influence of six fungicides on growth, sporulation, conidial germination and cuticle-degrading enzyme production by L. muscarium was investigated under laboratory conditions. The maximum reduction in vegetative growth, sporulation and conidial germination in relation to the control treatment was observed for propiconazole, whereas mancozeb and chlorothalonil caused the lowest reduction in these parameters. Propiconazole and pyraclostrobin caused higher reduction in enzyme activities (chitinase, Pr1, Pr2 and lipase) at all three concentrations (10, 100 and 1000 µg/ml), whereas low reduction in enzyme activities was caused by chlorothalonil and mancozeb when used at 10 µg/ml. The data presented can be used for future recommendations of these fungicides in Integrated Pest Management (IPM) programmes where L. muscarium is an important control agent.     

玫烟色棒束孢几丁质酶的转基因球孢白僵菌菌株的获得及其对马尾松毛虫的毒力增效作用

本文根据GenBank中已登录的蜡蚧蚧霉Lecanicillium lecanii,粉棒束孢Isaria farinosa,球孢白僵菌Beauveria bassiana和金龟子绿僵菌Metarhizium anisopliae的几丁质酶基因序列的同源性比较, 以它们高度保守的核苷酸序列设计一对引物,采用RT-PCR和3′/5′-RACE相结合的方法,首次从玫烟色棒束孢Isaria fumosorosea中克隆出几丁质酶Ifuchi1全长cDNA基因。其全序列长为1 542 bp,编码阅读框由1 275个核苷酸组成, 5′非翻译区（5′-UTR）与3′非翻译区（3′-UTR）分别为33个核苷酸和234个核苷酸。基因编码424个氨基酸, 信号肽长度为24个氨基酸, 成熟蛋白理论分子量为47.6 kDa,理论等电点为4.89。该蛋白可归于几丁质酶18族V类。运用制备芽生孢子转化法将Ifuchi1基因导入球孢白僵菌。最适产酶时间36 h条件下, 挑选的转基因菌株的几丁质酶活性相对于野生型菌株提高了86.2%;在对马尾松毛虫的生物测定中,在孢子浓度为1×10⁷个孢子/mL时,与野生型菌株Bb13相比,转基因菌株的致死中时间LT₅₀平均缩短了29%,同时死亡率提高了52.9%;野生型菌株和转基因菌株致死中浓度LC₅₀分别为4.71×10⁶ 个孢子/ mL和1.74×10⁶ 个孢子/ mL,降低了约1.7倍的剂量,故通过基因工程方法获得的转基因工程菌株显著地提高了球孢白僵菌的杀虫效率。     

Compatibility of Metarhizium anisopliae with Calpurnia aurea leaf extracts and virulence against Rhipicephalus pulchellus

Leaf extracts of Capurnia aurea (Fabaceae) have been reported to attract ticks and can be considered for use in combination with entomopathogenic fungus in an autodissemination approach, whereby ticks that are attracted to baited traps are infected with the inoculum. Bioassays were undertaken to assess the compatibility of aqueous, methanol and acetone extracts of C. aurea with conidia of Metarhizium anisopliae sensu stricto (ss) (Hypocreales: Clavicipitaceae) isolate ICIPE 7 in terms of mycelial growth, conidial production and spore viability. Aqueous extract of C. aurea was compatible with the fungus at all the concentrations tested whereas methanol and acetone extracts inhibited all the fungal growth parameters. The virulence of M. anisopliae formulated in different extracts of C. aurea was also tested against different developmental stages of Rhipicephalus pulchellus in laboratory bioassays. No significant differences in virulence were observed between M. anisopliae applied alone and M. anisopliae formulated in different concentrations of extracts of C. aurea among the larvae, nymphs and adults. However, mortality varied according to the developmental stage, with larval stage being the most susceptible. Aqueous extract was compatible with M. anisopliae and could be therefore mixed together for ‘spot‐spray’ treatments as low cost and environmentally friendly technology for tick control in grazing pasture.