The more frequently insecticides with the same MOA are used, the more likely resistance will occur. Once resistant insects have been detected, curbing the spread of resistance is exceedingly difficult. The best practice is to reduce the chance of resistance developing in the first place.
The following integrated pest management (IPM) and pesticide management tactics will help delay the onset of insecticide resistance:
- 监测害虫 - Use research-based sampling procedures to determine if pesticides are necessary (based on action/economic thresholds) and the best application timing (when pests are most susceptible). Consult your county 扩展教育家 or crop advisor about economic thresholds for the insect in question. After treatment, continue monitoring to assess pest populations and their control
- 采用适当的控制措施 -
Effective IPM-based programs will include insecticides, cultural practices, biological control (predators and parasites), mechanical control and sanitation. A healthy plant or crop is often less susceptible to insect attack. (see the 综合虫害管理 部分）
- 选择和明智地使用500万彩票网 —
- If repeated applications of pesticides are necessary, alternate insecticides with different modes of action against the pest so that no more than two consecutive applications are made with the same MOA. The insecticides used in a rotation or tank mix (see below) must be active against the target pest. For help in identifying classes and insecticide mode of action, see 由数字喷涂.
- For some cropping systems, insecticide applications are often arranged into mode of action spray windows or blocks that are defined by the stage of crop development and the biology of the target pest(s). Several sprays of a compound may be possible within each spray window but it is generally essential to ensure that successive generations of the pest are not treated with insecticides from the same MOA group. Consult local expertise with regard to spray windows and timings.
- Follow label directions for the proper application method and rate. Using reduced application rates favors survival of the stronger individuals in the pest population. The use of lower rates where possible is a good practice, but it is not a scientifically-proven resistance management technique.
- Minimize the use of long-residual insecticides. When persistent pesticides must be used, consider where they can be used in a rotation scheme to provide the control needed and with a minimum length of exposure. Select insecticides that are least damaging to populations of natural enemies.
- When feasible, spot treat (e.g., field edges or other hot spots) or leave unsprayed areas within treated fields or adjacent “refuge” fields. The pesticide-susceptible individuals in the untreated area will interbreed with resistant ones and dilute the resistance genes in the population.
- Keep good records of insecticide use to aid in planning for future years. Note the insect species that were present in the field, which insecticides were applied and where, and the level of control that was achieved. Record the rate, timing and number of insecticide applications made.
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- 阻力惹的祸？ — 抵抗性 is not the only reason for insect control failure.
- 提出性风险 — Conditions that favor increased potential for resistance to develop and spread.
- 抗药性机制 — There are several ways that insect populations can become resistant to insecticides.
- Take Steps to Avoid 抗药性 — Ways to slow and prevent insecticide resistance from developing.
- 由数字喷涂 — Insecticide classification scheme that distinguishes modes of action by group numbers.
- What can you do about Resistant Insects? — What you can do if resistance is already present.
- 资源和阅读提示 — Additional information about insecticide resistance.