Browsing by Subject "Banana weevil"
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Publication Banana weevil borer (Cosmopolites sordidus) : plant defense responses and control options(2021) Bakaze, Elyeza; Wünsche, Jens NorbertEach year 25-75% of banana yields are lost to Cosmopolites sordidus, one of the major pests of banana/plantain plants. This loss is common with resource-limited farmers who cannot afford the frequent application of insecticides due to their cost and developed resistance by weevils. Larvae, the most destructive life stage, occupy ecologically different microenvironments from adult weevils, thus least affected by synthetic insecticides. Feeding of larvae on banana rhizomes interferes with the established and emerging roots which reduce water and nutrient uptake and consequently weaken the plant stability during windy weather. Integrated pest management (IPM) is being promoted, for a single control strategy produces limited and or unsustainable results. IPM options for banana weevils include habitat management (cultural control), biological control, host resistance, botanical control and chemical control as last resort. Of the above IPM strategies, this research evaluated host resistance, botanical plant extracts and entomogenous fungi to contribute to the overall goal of reducing synthetic insecticides use. In the evaluation of host resistance, physiochemical of phenolic origin; lignin, and suberin were considered. Comparably, weevil and methyl jasmonate treatment, induced higher deposits of lignin and suberin, cellular modifications, and high total phenolic content as well as antioxidant capacity in “Km5” than “Mbwazirume” banana cultivars. Induced polyphenols reduced weevil damage to less than 5% in “Km5” compared to 11% damage in the “Mbwazirume” cultivar. However, with the onetime application of 0.01% methyl jasmonate, “Mbwazirume”, had 50% reduced weevil damage compared to untreated control. Extracts from dried clove buds (Syzygium aromaticum), pepper fruits (Piper guineense) and neem seeds (Azadirachta indica) and their synthetic analogs were evaluated as botanical control option to Carbofuran against C. sordidus in the laboratory and infested field experiments. Efficacy of plant extracts and their synthetic analogs, revealed egg hatch inhibitory effect, larvicidal toxicity and adult repellency variation. For instance, clove extracts and its synthetic analogs had the lower egg inhibitory dose (ID50) of 0.08 to 0.22% than black pepper (0.24 to 0.75%), and half the ID50 value caused 50% larvae mortality. However, in 6 to 48 hours pepper repelled 80 - 98%, clove 78 - 90% and neem 63 - 75% adult weevils, an effect that significantly (P =0.001) reduced field weevil population. Lastly, three Entomogenous fungi; Curvularia senegalensis, Fusarium verticillioides, and Fusarium oxysporum species complex (FOSC) were also evaluated for their ability to infect weevil eggs, larvae and adult weevils, and to reduce weevil damage in potted plants. C. senegalensis and F. verticillioides greatly affected egg hatching and larval survival, for instance, they caused 75 to 90% eggs hatch inhibition, unlike the 25 to 55% egg hatch inhibition for Beauveria bassiana and FOSC. Besides that, fungal treated plants 14 days before weevils, had significantly high SPAD value (P <0.0001), less than 20% rhizome damage and predictive weevil mortality R2 = 0.46. Rhizome damage was greatly reduced by C. senegalensis, followed by B. bassiana and F. verticillioides, and it is the first record to demonstrate that C. senegalensis and F. verticillioides are pathogenic to C. sordidus. In conclusion, an IPM that combines host resistance with locally available botanic extracts and effective entomogenous fungi may provide a sustainable intervention in the management of the weevil population and their damages to benefit both commercial and resource-limited farmers.