Abstract
Microsporidian infections of insects are important natural constraints of population growth, often reducing lifespan, fecundity and fertility of the infected host. The recently discovered Tubulinosema suzukii infects Drosophila suzukii (spotted wing drosophila, SWD), an invasive pest of many fruit crops in North America and Europe. In laboratory tests, fitness effects on larval and adult stages were explored. High level infection after larval treatment caused up to 70% pupal mortality, a decreased lifespan and a 70% reduced oviposition of emerging adults in biparental infection clusters. A shift to higher proportion of female offspring compared to controls suggested a potential parthenogenetic effect after microsporidian infection. A clear sex-linkage of effects was noted; females were specifically impaired, as concluded from fecundity tests with only infected female parents. Additive effects were noted when both parental sexes were infected, whereas least effects were found with only infected male parents, though survival of males was most negatively affected if they were fed with T. suzukii spores in the adult stage. Although most negative effects on fitness parameters were revealed after larval treatment, infection of offspring was never higher than 4%, suggesting limited vertical transmission. For that reason, a self-reliant spread in natural SWD populations would probably only occur by spore release from cadavers or frass.
Highlights
Microsporidia are spore-forming, obligate intracellular parasites early evolved presumably as a basal linage or a sister taxon to F ungi[1,2,3,4]
A microsporidian infection was discovered in spotted wing Drosophila (SWD) flies originating from Oregon, U SA38 and a new species Tubulinosema suzukii was d escribed[39]
We report laboratory experiments to explore the potential effect of T. suzukii infection on fitness parameters of SWD, including eclosion and survival rates, egg production and offspring rates, when infections were initiated in larval and adult stages
Summary
Microsporidia are spore-forming, obligate intracellular parasites early evolved presumably as a basal linage or a sister taxon to F ungi[1,2,3,4] They infect a huge range of arthropod species and vertebrates including h umans[5]. Suzukii[27], has become a major pest in commercial soft-skinned fruit orchards in Europe, North and South America and A sia[27,28,29] Occurring antagonists, both m etazoans[30,31] and microorganisms, may play an important role for biological control of SWD but efficient microbial antagonists have not been reported[31,32,33]. We found that every fitness parameter tested was strongly impacted when infection began in the larval stage
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