Halerimana Charles, Kyamanywa Samuel, Olaboro Samuel, Paparu Pamela, Nkalubo Stanley T, Colvin John, Cheke Robert A, Kriticos Darren J, Otim Michael H
Department of Agricultural Production, College of Agricultural and Environmental Sciences, Makerere University, Kampala P.O. Box 7062, Uganda.
National Coffee Research Institute, Kituza, Mukono P.O. Box 185, Uganda.
Insects. 2022 Aug 7;13(8):709. doi: 10.3390/insects13080709.
Bean leaf beetles ( spp.) (Coleoptera: Chrysomelidae) are one of Africa's most important pests of the common bean ( L.). Roots, leaves, floral parts, and young pods are all attacked, leading to a considerable loss in grain yield. In Uganda, there are no comprehensive prescribed management strategies for bean leaf beetles, but farmers typically try to control the pest by delaying bean crop sowing, and to a lesser extent, using insecticides. Although farmers have consistently implemented the two approaches, there is no information on the effects of the approaches in Uganda. To assess the impact of planting timing and insecticide spray regimes on bean leaf beetle populations, concomitant foliar damage, and grain yield, we set up trials in three agro-ecological zones with known presence of the beetles during the second rainy season of 2016 (2016) and the first rainy season of 2017 (2017). The first planting, coinciding with early planting, was conducted within one week after the onset of rains. The second planting, coinciding with mid planting, followed two weeks later, while the third planting, considered late planting in this study, was conducted one month after the second planting. A foliar application of cypermethrin commencing at 7 days after emergence (DAE), 14 DAE, 21 DAE, 28 DAE, and 35 DAE; a soil drench of imidacloprid at planting combined with a foliar spray starting at 7 DAE; and an untreated control were among the insecticide spray regimes evaluated. Higher bean leaf beetle abundance was recorded from mid-planting, while higher foliar damage was recorded from late planting in two of the three agro-ecological zones. However, higher marketable grain yield was recorded from early planting in all agro-ecological zones, suggesting that delayed planting may not be beneficial. Insecticide application reduced foliar damage and increased marketable grain yield, with a combination of soil drench and foliar spray resulting in much less foliar damage and, as a result, higher grain yield. However, this did not result in economic benefits. Furthermore, marketable grain yield was higher when insecticide spray regimes were combined with early planting in all agro-ecological zones during both seasons. Our findings suggest that the common bean should be planted early and that the control of the bean leaf beetle should target both the adults and the juvenile stages in the soil. Therefore, there is a need for farmers to be able to access less-expensive soil treatments.
菜豆叶甲(多种)(鞘翅目:叶甲科)是非洲普通菜豆(Phaseolus vulgaris L.)最重要的害虫之一。其根、叶、花部和嫩荚均会受到侵害,导致粮食产量大幅损失。在乌干达,对于菜豆叶甲没有全面规定的管理策略,但农民通常试图通过推迟菜豆作物播种来控制这种害虫,在较小程度上也会使用杀虫剂。尽管农民一直采用这两种方法,但在乌干达尚无关于这些方法效果的信息。为了评估种植时间和杀虫剂喷洒方案对菜豆叶甲种群数量、随之而来的叶片损害以及粮食产量的影响,我们于2016年第二个雨季(2016年)和2017年第一个雨季(2017年)在已知存在这种甲虫的三个农业生态区开展了试验。第一次种植与早播同时进行,在降雨开始后一周内进行。第二次种植与中播同时进行,在两周后进行,而第三次种植在本研究中被视为晚播,在第二次种植后一个月进行。杀虫剂喷洒方案包括:在出苗后7天(DAE)、14 DAE、21 DAE、28 DAE和35 DAE开始进行氯氰菊酯叶面喷施;在种植时进行吡虫啉土壤浇灌并从7 DAE开始进行叶面喷施;以及一个未处理的对照。在三个农业生态区中的两个,中播时记录到更高的菜豆叶甲数量,而晚播时记录到更高的叶片损害。然而,在所有农业生态区早播时记录到更高的可销售粮食产量,这表明推迟播种可能并无益处。施用杀虫剂减少了叶片损害并提高了可销售粮食产量,土壤浇灌和叶面喷施相结合导致叶片损害少得多,结果粮食产量更高。然而,这并未带来经济效益。此外,在两个季节的所有农业生态区,当杀虫剂喷洒方案与早播相结合时,可销售粮食产量更高。我们的研究结果表明,普通菜豆应尽早种植,并且对菜豆叶甲的防治应针对成虫和土壤中的幼虫阶段。因此,农民需要能够获得成本较低的土壤处理方法。
