Host acceptability, suitability, interaction and establishment of two introduced <em>Liriomyza</em> leafminer endoparasitoids: <em>Halticoptera arduine</em> (Walker) (Hymenoptera: Pteromalidae) and<em> Chrysocharis flacilla</em> (Walker) (Hymenoptera: Eulophidae) in Kenya

Abstract

<em>Liriomyza</em> (Diptera: Agromyzidae) leafminers are pests of economic importance to the production of horticultural crops in East Africa. In the scope of a classical biological control program in East Africa, two parasitoids <em>Halticoptera arduine</em> (Walker) (Hymenoptera: Pteromalidae) and <em>Chrysocharis flacilla</em> Walker (Hymenoptera: Eulophidae) were introduced from Peru. This dissertation aims to assess the performance and impact of the parasitoids in biological control of <em>Liriomyza</em> leafminer species. Specifically, the research work aims to assess acceptability and suitability of the two parasitoids in three <em>Liriomyza</em> species, the potential interactions with a dominant local parasitoid, Diglyphus isaea (Walker) (Hymenoptera: Eulophidae), their establishment and spread after field release. In chapter two and three, performance data of the two exotic parasitoids in three <em>Liriomyza</em> leafminer flies are presented. Results show that the two parasitoids successfully accepted, parasitized, and completed their development in the three <em>Liriomyza</em> species in 15.97 ± 1.48 and 23.96 ± 0.88 d under controlled environments. Both parasitoids preferred to oviposit in <em>L. huidobrensis</em> (Blanchard) causing parasitism rates of between 27.96 ± 3.86 and 77.73 ± 4.39% across the hosts. <em>Chrysocharis flacilla</em> further induced significant non-reproductive pupal host mortality. Parasitoid F1 progenies were female-biased across the three hosts for <em>C. flacilla</em> except for a balanced sex ratio for<em> H. arduine</em> when reared on <em>L. sativae</em> Blanchard. <em>Liriomyza huidobrensis</em> yielded larger parasitoids and thus a good candidate for parasitoid mass rearing. <br /> In chapters four and five, the potential interactions between the two exotic parasitoids and the local parasitoid <em>D. isaea </em>were evaluated. Interaction results between <em>H. arduine</em>, <em>C. flacilla</em>, and <em>D. isaea</em> show perfect co-existence with no negative effect on performance of either of the parasitoids except on <em>D. isaea</em>'s when <em>C. flacilla</em> came after <em>D. isaea</em>. <em>Halticoptera</em> arduine and <em>C. flacilla</em> had superior parasitism rates over <em>D. isaea</em>. Host parasitism rate more than doubled (53.27 ± 4.99 and 72.96 ± 4.12%) when each of the exotic parasitoids occurred together with <em>D. isaea</em> as opposed to when <em>D. isaea</em> acted alone. Both <em>D. isaea</em> and <em>C. flacilla</em> caused significant non-reproductive host mortality. Presence of <em>H. arduine</em> and <em>C. flacilla</em> positively affected <em>D. isaea </em>reproduction as only female parasitoids cause host suppression. <br /> In chapter six, results of parasitoid establishments and spread in three agro ecological systems are presented. <em>Liriomyza</em> <em>huidobrensis</em> is the dominant species across the three agro ecological systems. Further, a complex of 14 parasitoid species is associated with <em>Liriomyza</em> leafminers. <em>Halticoptera arduine</em> and <em>C. flacilla</em> are confirmed to have established during the survey period of between January 2013 and June 2014. There is an increased in pest suppression of up to 40%, with <em>C. flacilla</em> causing substantive specific field parasitism of 3.5%. Seasons, cropping systems and host plants affected parasitoid establishment. <em>Halticoptera arduine</em> moved 10 km away from the release point. <br /> Chapter seven discusses the implications of the findings in the management of <em>Liriomyza</em> leafminers. This work shows promising candidates as biological control agents against <em>Liriomyza</em> leafminers. This research will hopefully influence the private and public sector in the East African region to adopt sustainable pest management strategies that will conserve the parasitoids which might lead to a reduction in the (over) reliance on synthetic pesticide by small holder producers of horticultural crops.