Long Term Pest(长期害虫)研究综述
Long Term Pest 长期害虫 - dissimilis, the long-term pests could diminish the volatile emission by maize through reducing the FAC content in their oral secretions, which may lower the risk of attracting natural enemies. [1] Reduced recycling caused by non-symbiotic bacteria will reduce the overall long-term pest control benefits and have implications in the development of application strategies using entomopathogenic nematodes (EPNs) as insect control agents. [2] Although selenium (Se) can enhance the resistance of plants, the protective mechanism of nanoselenium is still not known under the long-term pesticide stress in tea trees. [3] In this paper, based on chemical crosslinking of sulfonic acid group on sodium lignosulfonate (SL) with protonated UIO-66-NH2, we successfully construct a novel double-layer pesticide carrier to achieve the long-term pest control. [4] Long-term pesticide water concentrations were investigated in four agricultural streams and their mixture toxicity on algae was assessed, based on realistic (i. [5] The risk assessment of the impact of long-term pesticide pollution of the environment on the genetic status of the population living in 5 settlements of the Talgar district (Kyzylkairat, Beskaynar, Belbulak, Amangeldy, Enbekshi) of Almaty region, where unused, banned for use POPs pesticides are located, has been carried out. [6] To evaluate the influence of the soil and weather conditions of the scenarios on the level of pesticide in soil, the model PEARL was used to calculate the annual maximum (at the day of application) and 56-day areic content and concentration of test compounds in the soil during long-term pesticide application (for 20 years). [7] Long-term pest insect monitoring in agriculture and forestry has advanced population ecology. [8]dissimilis,长期害虫可以通过降低其口腔分泌物中的FAC含量来减少玉米的挥发性排放,从而降低吸引天敌的风险。 [1] 非共生细菌导致的循环利用减少将降低总体长期害虫防治效益,并对使用昆虫病原线虫 (EPN) 作为昆虫防治剂的应用策略的开发产生影响。 [2] 虽然硒(Se)可以增强植物的抗性,但在茶树长期农药胁迫下,纳米硒的保护机制仍不清楚。 [3] 本文基于木质素磺酸钠(SL)上的磺酸基与质子化的UIO-66-NH2化学交联,成功构建了一种新型的双层农药载体,实现了害虫的长效防治。 [4] 研究了四个农业溪流中的长期农药水浓度,并根据实际情况(i. [5] 长期农药污染环境对居住在阿拉木图地区 Talgar 区 5 个定居点(Kyzylkairat、Beskaynar、Belbulak、Amangeldy、Enbekshi)人口遗传状况影响的风险评估,未使用,禁止用于使用 POPs 农药定位,已开展。 [6] 为了评估不同情景的土壤和天气条件对土壤中农药水平的影响,使用 PEARL 模型计算了试验化合物的年最大值(在施用当天)和 56 天的面积和浓度。长期施用农药(20 年)期间的土壤。 [7] 农业和林业中的长期害虫监测具有先进的种群生态学。 [8]