Functional role of phenylacetic acid from metapleural gland secretions in controlling fungal pathogens in evolutionarily derived leaf-cutting ants

Fungus-farming ant colonies vary four to five orders of magnitude in size. They employ compounds from actinomycete bacteria and exocrine glands as antimicrobial agents. Atta colonies have millions of ants and are particularly relevant for understanding hygienic strategies as they have abandoned their ancestors'' prime dependence on antibiotic-based biological control in favour of using metapleural gland (MG) chemical secretions. Atta MGs are unique in synthesizing large quantities of phenylacetic acid (PAA), a known but little investigated antimicrobial agent. We show that particularly the smallest workers greatly reduce germination rates of Escovopsis and Metarhizium spores after actively applying PAA to experimental infection targets in garden fragments and transferring the spores to the ants'' infrabuccal cavities. In vitro assays further indicated that Escovopsis strains isolated from evolutionarily derived leaf-cutting ants are less sensitive to PAA than strains from phylogenetically more basal fungus-farming ants, consistent with the dynamics of an evolutionary arms race between virulence and control for Escovopsis, but not Metarhizium. Atta ants form larger colonies with more extreme caste differentiation relative to other attines, in societies characterized by an almost complete absence of reproductive conflicts. We hypothesize that these changes are associated with unique evolutionary innovations in chemical pest management that appear robust against selection pressure for resistance by specialized mycopathogens.     

Occurrence ofBacillus popilliae and two nematode pathogens in populations ofAmphimallon solstitialis (Col.: Scarabaeidae) near darmstadt,Germany

Populations of the June beetle,Amphimallon solstitialis (Coleoptera: Scarabaeidae), were sampled from grasslands near Darmstadt, Germany, and found to be infected by a number of diseases and parasitic nematodes. Several milky diseased larvac were found, andBacillus popilliae type A 1 isolated as the causative agent. The bacterium readily infected healthy larvae ofA. solstitialis when administeredper os in the laboratory, but was not infective to larvae ofMelolontha hippocastani by this route. A large mermithid nematode was found parasitising 10% of theA. solstitialis larvae at one site andHeterorhabditis bacteriophora was found infecting larvae at the other.

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Résumé Des populations deAmphimallon solstitialis (Col.: Scarabaeidae) ont été échantillonnées dans deux prairies distinctes près de Darmstadt (Allemagne) et se sont révélées infestées par des maladies et des nématodes parasites. Plusieurs larves dans chaque site étaient infectées par la maladie laiteuse etBacillus popillae, type A1 a été isolé comme étant l'agent responsable. La bactérie infeste facilement des larves saines deA. solstitialis quand elle est administrée par voie orale au laboratoire mais n'a pas d'effet infectieux pour les larves deMelolontha hippocastani par cette même voie. Un grand nématode mermithide a été trouvé parasite de 10% des larves deA. solstitialis sur un seul site, mais comme seuls les jeunes ont été trouvés, la détermination à l'espèce n'a pu être faite.Heterorhabditis bacteriophora était responsable de l'infection de 1,5% des larves sur seulement un site. Plusieurs larves deA. solstitialis présentaient une couleur ambrée, identique à celle trouvée sur le scarabéeCostelytra zealandica infecté parSerratia spp., et ne se nourrissaient pas de carotte au laboratoire. Les bactéries isolées à partir de ces larves ne provoquent aucun effet visible quand elles sont données en nourriture à des larves saines.

     

Entomopathogenic fungi associated with Ixodes ricinus ticks

The objective of this study was to demonstrate the occurrence of entomopathogenic fungi on Ixodes ricinus ticks in relation to the tick stage, engorgement and season. Ticks were collected from the vegetation, from small rodents and from deer. All entomopathogenic fungi found belonged to the Hyphomycetes. Paecilomyces farinosus and Verticillium lecanii were the predominant species. Other species, found only on engorged females were: Beauveria bassiana, B. brongniartii, P. fumosoroseus and V. aranearum. Eight out of 1833 ticks collected from the vegetation and three out of 269 engorged nymphs were infected with fungi. Thirty-three out of 149 engorged females were infected, whereas males and engorged larvae were not infected. Throughout the season, a significantly higher proportion of ticks collected in autumn were infected. Entomopathogenic fungi may have a significant impact on the size of the I. ricinus population, since females were the most frequently infected stage.     

Characterization of cell lines developed from the colorado potato beetle, Leptinotarsa decemlineata say (coleoptera: Chrysomelidae)

In order to isolate new pathogens (viruses, microsporidia, etc.) or to evaluate the efficiency of some pathogens (serovarieties and mutants of Bacillus thuringiensis, fungi, etc.) in the control of Colorado potato beetle, an economically important pest, we established four cell lines from tissues of this insect. One was initiated from embryonated egg fragments in the M3 medium supplemented with 20% fetal bovine serum (FBS) and then transferred after several passages to the Ex-Cell 400 medium with 20% FBS. Another was initiated from larval hemocytes in Ex-Cell 400 with 5% FBS. Finally, two other cell lines were initiated from adult hemocytes: one in the Ex-Cell 400 with 20% FBS and 1% of lipid mixture and the other in the Ex-Cell 400 with 5% FBS only. These cell lines have been characterized by their morphology with light and electron microscopy, their karyotypes, cell growth, and isozyme analysis. Each cell line differed in morphologic, karyologic, growth, and isozyme patterns. The cell line initiated from embryonated eggs was growing slower than the three initiated from hemocytes. The cytotoxicity of solubilized crystal delta-endotoxins from different B. thuringiensis formulations (M-One, Trident, MYX-1806, Teknar-HPD, and Thuricide) and of destruxins, mycotoxins from Metarhizium anisopliae, was tested on these cell lines. They are sensitive to the solubilized toxins of some strains of B. thuringiensis (serovar. San Diego and serovar. tenebrionis) and to destruxins, and they can be used for the bioassay and detection of toxins and for the study of the mechanism of their action on coleopteran cells.     

Entomogenous fungi of arboreal Coleoptera from Worcestershire,England, including the new species <Emphasis Type="Italic">Harposporium bredonense</Emphasis>

During entomological surveys in ancient woodland and orchards in the English county of Worcestershire, dead arboreal beetles were found exhibiting external evidence of primary colonisation by anamorphic fungi belonging to the Clavicipitales. One of these proved to be an undescribed species and a new taxon is proposed: Harposporium bredonense on the larva of a longhorn beetle, Leiopus nebulosus (Cerambycidae), with a Hirsutella synanamorph. Hirsutella guignardii on the adult histerid beetle, Paromalus flavicornis, is a new host record, as well as a new fungal record for the British Isles. In addition, Lecanicillium psalliotae and Paecilomyces farinosus were isolated from mummified ecloded pupae of the Noble Chafer, Aleurostictus nobilis (Scarabaeidae), which is recognised as a rare or endangered species in Britain.     

House flies delay fungal infection by fevering: at a cost

1. Many ectothermic species have evolved the ability to invoke a ‘behavioural fever’ when infected with a pathogen. The relative costs and benefits of this response, however, have rarely been quantified. 2. The aim of this study was investigate the nature and consequences of behavioural fever in the house fly, Musca domestica L., in response to infection with a possible biocontrol agent, the fungal entomopathogen, Beauveria bassiana (Balsamo) Vuillemin. 3. It was found that infected flies preferred higher temperatures and allocated more effort to thermoregulation than uninfected flies. Flies could not overcome infection but the altered thermal behaviour allowed infected flies to extend their survival and to lay more eggs relative to infected flies maintained under constant conditions. However, flies allowed to fever had lower egg viability suggesting a possible cost. 4. Under the present experimental conditions, the putative costs and benefits fever balanced one another resulting in no net change in fitness. Fever did not, therefore, limit the control potential of the fungus. We discuss whether the costs and benefits of behavioural fever might differ in other ecological contexts.     

噻虫嗪对昆虫病原线虫侵染韭菜迟眼蕈蚊能力的影响

【目的】为提高昆虫病原线虫对韭菜迟眼蕈蚊Bradysia odoriphaga Yang et Zhang幼虫的防治效果,将昆虫病原线虫与环境友好型化学杀虫剂混用是一条有效途径。【方法】测定了噻虫嗪与6个昆虫病原线虫品系混用对韭菜迟眼蕈蚊的作用效果,以及温度和土壤含水量对作用效果的影响,并进行了田间验证。【结果】田间推荐浓度噻虫嗪(100 mg·L~(-1))对6种供试线虫存活无显著影响。处理后3 d,低浓度噻虫嗪(15 mg·L~(-1))分别与6品系线虫混合后处理韭菜迟眼蕈蚊幼虫,其死亡率明显高于线虫和噻虫嗪单用处理。小卷蛾斯氏线虫SF-SN+噻虫嗪、印度异小杆线虫LN2+噻虫嗪和小卷蛾斯氏线虫All+噻虫嗪3种组合发挥杀虫作用的最适温度范围分别为20~25℃、25~30℃和25~30℃,显著高于其他温度;最适土壤含水量范围为10%~18%,也显著高于其他湿度。大田条件下,施用后7 d,单用噻虫嗪、线虫+噻虫嗪组合处理对韭菜迟眼蕈蚊的防治效果显著高于单线虫,且以芫菁夜蛾斯氏线虫SF-SN+噻虫嗪的防治效果最高,达到93%以上。【结论】芫菁夜蛾斯氏线虫SF-SN品系与噻虫嗪组合联合防治韭菜迟眼蕈蚊效果最好。     

Fungal pathogens for arthropod pest control in orchard systems: mycoinsecticidal approach for pear psylla control

This paper reviews the research on entomopathogenic fungi in orchard systems and presents research on a mycoinsecticidal approach to an important pest of pear, the pear psylla. The review identifies the host-pathogen relationships that have been examined to date, the microbial formulation and application strategies that have been used, and the results that were obtained. The mycoinsecticides used in the pear psylla research were based on conidia of Beauveria bassiana (ARSEF #2860) and Paecilomyces fumosoroseus (ARSEF #2658). These were formulated into sprayable solutions containing water, 0.1% or 0.5% Ultrafine Sunspray oil (paraffinic oil) in water, or 0.1% acrylic polymer (Stressguard^TM) in water. Final spray solutions that contained 6 × 10⁶ conidiospores/ml were applied to psylla nymph infested trees at a rate of 5.39 × 10¹³ conidiospores/ha during the 1993--1995 seasons. In addition, two commercial formulations of B. bassiana, GHA from Mycotech and Naturalis L from Fermone Corp., were mixed in water at the same conidiospore application rates as the other fungal isolates. Single applications of the ARSEF fungal strain/formulation combinations produced psylla nymphal mortalities that ranged from 18.2--37.1%, but the results varied with formulation. Conidia formulated with acrylic polymers in water caused significantly higher mortalities several days earlier than either the water or water and oil combination in 1993. However, no significant differences among pathogen/formulation combinations occurred in 1994 or 1995. The performance of Naturalis L was comparable to the ARSEF fungal strain/formulation combinations with peak nymphal mortalities of 34.1%, while GHA produced a significantly lower peak mortality of only 10.8%. However, because of the low conidiospore concentrations in the Naturalis L formulation, final spray solutions contained nearly 25% of the oil-like carrier. Thus, psylla mortalities may not have been entirely attributed to mycosis. Based on the results from the ARSEF fungal formulations, a mycoinsecticidal approach to pear psylla management could be a useful component in an integrated pest management program for pear.     

Biological control of the diamondback moth, Plutella xylostella: A review

The diamondback moth (DBM), Plutella xylostella (L.) (Lepidoptera: Plutellidae), is one of the most destructive cosmopolitan insect pests of brassicaceous crops. It was the first crop insect reported to be resistant to DDT and now, in many crucifer producing regions, it has shown significant resistance to almost every synthetic insecticide applied in the field. In certain parts of the world, economical production of crucifers has become almost impossible due to insecticidal control failures. Consequently, increased efforts worldwide have been undertaken to develop integrated pest management (IPM) programs, principally based on manipulation of its natural enemies. Although over 130 parasitoid species are known to attack various life stages of DBM, most control worldwide is achieved by relatively few hymenopteran species belonging to the ichneumonid genera Diadegma and Diadromus, the braconid genera Microplitis and Cotesia, and the eulophid genus Oomyzus. DBM populations native to different regions have genetic and biological differences, and specific parasitoid strains may be associated with the specific DBM strains. Therefore, accurate identification based on genetic studies of both host and parasitoid is of crucial importance to attaining successful control of DBM through inoculative or inundative releases. Although parasitoids of DBM larvae and pupae are currently its principal regulators, bacteria-derived products (e.g., crystal toxins from Bacillus thuringiensis) and myco-insecticides principally based on Zoophthora radicans and Beauveria bassiana are increasingly being applied or investigated for biological control. Viruses, nematodes and microsporidia also have potential as biopesticides for DBM. When an insect pest is exposed to more than one mortality factor, there is the possibility of interactions that can enhance, limit, or limit and enhance the various aspects of effectiveness of a particular control tactic. This paper reviews the effectiveness of various parasitoids and entomopathogens against DBM, interactions among them, and their possible integration into modern IPM programs.