Non-target predatory insects can be indirectly exposed to aerial pesticide spraying and fogging to control Monochmus beetles that transmit pine wood nematode, Bursaphelenchus xylophilus. We evaluated potential lethal or sublethal effects of thiacloprid on survival and behavior of a carpenter ant species, Camponotus japonicus Mayr. Field-collected ant colonies were directly exposed to several food items, such as thiacloprid-addicted Monochmus beetles, 10% sugar watered cotton balls contaminated by thiacloprid concentrations, and 10% sugar water. Dead beetle bodies caused no apparent adverse effect through dietary exposure in general, although a few ants were died with paralysis at colony level experiment. At individual level, most ant workers were died within 10 days compared to control group. In contrast, dietary exposure of ants to thiacloprid concentrations showed significant lethal effect with paralysis and impaired walking, especially at 10 and 50 mg/L thiacloprid concentrations. Some intoxicated ants recovered within a few days in 10 and 50 mg/L thiacloprid concentrations, but intoxicated ants were generally shown to be less responsible to enemy ants with low aggressive behavior. Implications for predicting hazards of thiacloprid to beneficial arthropods in pine forests are discussed.

Chironomus riparius, a non-biting midge (Chironomidae, Diptera), is extensively used in aquatic ecotoxicological studies for assessing acute and sub-lethal toxicities of contaminated sediments and for water monitoring due to their widespread occurrence, short life-cycle, easy to be reared in the laboratory, physiological tolerance to various environmental conditions. To date, the endpoints used for monitoring such effects in C. riparius are based on a small number of specific biomarkers and measurements of organism level effects, such as survival and reproduction. Genomic-based techniques based on expression analysis of genes are important tools for investigating molecular level effects caused by exposure to environmental pollutants, which will provide the ability to detect mechanisms of action and subsequent adverse cellular level effects and associated with different types of toxicity. As a pre-requisite for genomic based ecotoxicological studies knowledge on the C. riparius transcriptome is important but despite its ecotoxicological importance, no large scale transcriptome analysis of C. riparius has been done so far. Therefore, to gain a better understanding of C. riparius transcriptome, we recently developed Expressed Sequence Tags (ESTs) sequencing project on C. riparius larvae using 454 pyrosequencing. Sequencing runs, using normalized cDNA collections from fourth instar larvae, yielded 20,020 expressed sequence tags, which were assembled into 8,565 contigs and 11,455 singletons. Sequence analysis was performed by BlastX search against the National Center for Biotechnology Information (NCBI) nucleotide (nr) and uniprot protein database. Based on the gene ontology classifications, 24% (E-value ≤1-5) of the sequences had known gene functions, 24% had unknown functions and 52% of sequences did not match any known sequences in the existing database. Sequence comparison revealed 81% of the genes have homologous genes among other insects belonging to the order Diptera providing tools for comparative genome analyses. Targeted searches using these annotations identified genes associated with essential metabolic pathways, signaling pathways, detoxification of toxic metabolites and stress response genes of ecotoxicological interest. The results obtained from this study would eventually make ecotoxicogenomics possible in a truly environmentally relevant species, C. riparius. Various C. riparius ecotoxicity studies using stress response genes developed from 454 sequencing will be presented in the conference.

Gryon japonicum (Ashmead), an egg parasitoid of Riptortus clavatus (Thunberg) is an economically important pest of various crops. As a conservational biological control, non-viable refrigerated eggs of R. clavatus were released to enhance parasitism by the parasitoid in soybean field. Since fenitrothion is an insecticide broadly used against R. clavatus, we investigated the effect of fenitrothion on the parasitization of refrigerated host eggs by G. japonicum. The acute toxicity of fenitrothion was compared with seven pesticides by topical application, exposure to residue, and oral ingestion. Fenitrothion, spinosad, cyfluthrin, carbosulfan and thiamithoxam caused 100% mortality within 24 hours by topical application. Fenitrothion was also highly toxic to G. japonicum when ingested orally. In sublethal effects of fenitrothion on G. japonicum in refrigerated and fresh host eggs, adult emergence of G. japonicum decreased by 12% and 34%, respectively, compared to control when the fenitrothion was applied on 8th day after parasitization. Parasitism on refrigerated eggs after a day of fenitrothion spray was higher as compared to the fresh eggs. However, parasitism on both refrigerated and fresh eggs significantly reduced when the parasitoids were provided with the fenitrothion sprayed eggs after an hour. In conclusion, there is no negative effect of fenitrothion on the parasitization by G. japonicum.