School of Agriculture and Biotechnology
Permanent URI for this communityhttp://localhost:4000/handle/20.500.12092/1807
Browse
2 results
Search Results
Item Effects of entomopathogenic fungus and spider plant intercrop in control of onion thrips and iris yellow spot virus(INNSPUB, 2018-06-30) Birithia, Rael Kayume; Subramanian, Sevgan; Muthomi, James Wanjohi; Narla, Rama D.Iris yellow spot virus (IYSV) is a major constraint to bulb onions production in Kenya. In search for alternative to synthetic insecticide, field experiments were conducted for two cropping seasons to evaluate the effectiveness of spider plant intercrop, Metarhizium anisopliae and carbonsulfan insecticide in the management of onion thrips and IYSV. Two onion varieties; Bombay red and Red creole were used. Randomized complete block design in a split plot arrangements was adopted. Results showed both varieties treated with entomopathogenic fungus recorded the least number of adult thrips while insecticide treated plots recorded the least larvae thrips. Insecticide, entomopathogenic fungus and intercrop significantly reduced IYSV incidence as compared to the control plots. Bombay red variety treated with fungus recorded the lowest severity and virus titer levels in the two cropping seasons. Adult thrips positively correlated with IYSV incidence in season one (r = 0.575; P <0.001) and two (r = 0.580; P <0.001). Red Creole treated with insecticide recorded the highest bulb onion total yield (10782.8 T/ha) and marketable yield yield (8314.8 T/ha) in the first cropping season. Entomopathogenic fungus treated plots outweighed other treatments in the second cropping season and recorded total bulb yield of 8503.7 T/ha and marketable yield of 7611.1 T/ha. Although, spider plant intercrop reduced bulb yield in both seasons, it contributed significantly in reducing onion adult thrips and increased food productivity. Metarhizium anisopliae and spider plant intercrops were found to be effective bio-pesticide and we suggest their inclusion in the integrated management strategies of vector thrips and IYSV.Item Home Sustainable Management of Invasive Pests in Africa Chapter Influence of Predatory Mites, Phytoseiulus longipes Evans. on the Within-Plant Diurnal Migration and Distribution of the Red Spider Mite, Tetranychus evansi, Baker and Pritchard on African Nightshade, Solanum scabrum(Springer, 2020-07-14) Kungu, Miriam; Subramanian, Sevgan; Salifu, Daisy; Fiaboe, Komi K. M.; Azandémè-Hounmalon, Ginette Y.; Gitonga, Linus; Onyambu, Gladys K.; Deletre, Emilie; Martin, ThibaudUnderstanding the within-plant diurnal migration and distribution of the Red spider mite, Tetranychus evansi Baker and Pritchard, in the presence of the predatory mite Phytoseiulus longipes Evans, on African nightshade, S. scabrum, is critical in developing an Integrated Pest Management (IPM) strategy for the pest. The T. evansi density, day and night cycles, and presence of P. longipes, on the within-plant migration and distribution of T. evansi on African nightshade were hence investigated. The results indicated that T. evansi does not exhibit a circadian migratory movement pattern on S. scabrum at lower densities (50 and 100 mites). However, T. evansi was observed to have a density-dependent collective displacement and distribution to the top of the plant, as densities increased (300 and 600 mites). The presence of P. longipes on the plant enhanced the within-plant migration of T. evansi, even at low densities (50 and 100 mites). However, there was no apparent pattern of migration and movement that was observed within the plant. The increased within-plant movement of T. evansi in presence of the predatory mites and collective displacement of T. evansi at higher densities indicate a potential for developing an IPM strategy using the acaricide treated net, which is discussed further.