Characterization of key pests of amaranth and night shades in Kenya and development of integrated pest management (IPM) strategies

Abstract

Scanty information is available concerning the identity of the major pests of amaranth and African nightshades in Kenya and associated damage. The natural enemies of these pests have also not been studied in detail. In this PhD study, field survey to identify the major pests of amaranth and nightshades, their abundance, distribution, and damage in six regions in Kenya was conducted. The natural enemies for these pests present in the amaranth and nightshade fields in these regions were also profiled. Based on the survey findings, field experiments to study the population dynamics and host range for the major pests of African nightshades was done. The performance of parasitoid Aphidius colemani Viereck for the control of Aphis fabaeScopoliand Myzus persicaeSulzer was also tested. Finally, the biology of the nightshade veinal mottle virus (NsVMV) wasinvestigated. Survey findings showed that the damage by insect from various insect orders on amaranth was; Lepidoptera-24.41±1.39%, Homoptera-16.61±1.15%, Coleoptera-14.99±0.89%, and Thysanoptera-4.06±0.63%. However, the most destructive insect species on amaranth were Spoladea recurvalis Fabricius, and Epicauta albovittataGestro in the rainy and dry season respectively. Four important amaranth pests that had not been reported as pests of amaranth in Kenya i.e. Epicauta albovittataGestro, Psara atritermina Hampson,Tuta absoluta Meyrick andAnyma octogueae Guenèe were also observed. In the survey for the African nightshade pests, the greatest damage was caused by Homopterans (26.8 %), Coleoptera (16.5%), Lepidoptera (5.1%) and Thysanoptera (3.7%). We observed 47 Coleoptera species, 6 aphid species, 8 Lepidoptera species and 8 Thysanoptera species infesting the African nightshades. However, A. fabae, and Epitrix silvicolaBryant were the two most damagingpests on the crop. Majority of the natural enemies observed belonged to the Coleoptera and Hymenoptera insect orders among them the parasitoid A. colemaniwhich was studied during this PhD project. In the population dynamics study, we showed that highest abundance of A. fabaewas observed in the 2ndgrowing season at the mid altitude zone and in the 3rdgrowing season in the high altitude zone. For the E. silvicola, the highest abundance was observed in the 4thgrowing season at the mid altitude zone and in the 3rdgrowing season at the high altitude zone. For the Lepidopteran pests (Spodoptera exigua, S. littoralis, Tuta absolutaand Plusia sp.), the peak abundance was recorded in the 1stgrowing season at the mid altitude zone and 4thgrowing season at the high altitude zone. For most of the pests, colonization on African nightshades started early at the seedling stage. However, the population rose and fluctuated at different iiphenological stages of crop growth. In the study of the performance of A. colemani,we showed for the first time that A. colemanihas higher acceptance for M. persicaecompared to A. fabaeregardless whether the parasitoid was reared on S. scabrumor S. villosumas the host plants. However, higher parasitism was observed on A. fabae.Study on NsVMV revealed that Solanum lycopersicum, Nicotiana occidentalis, Nicotiana.hesperis, Nicotiana debneyi, Nicotiana tabacum cv.Samsun and Nicandra spwere the other hosts of the virus. There was no nightshade species/line resistant to the virus. In addition, 1000 seeds from NsVMV infected plantswere germinated and found visually free from symptoms, indicating that the virus is if at all only to very low percentages seed-borne. Findings from the present study provide significant information necessary for designing and implementation of managementinterventions for the major pests of amaranth of African nightshades in Kenya.