IPM is an integrated strategy of pest control which aims at prevention of pests and its damage through a combination of techniques such as chemical, biological, new cropping system, modification of cultural practices, use of resistant varieties and through mechanical methods.
IPM emphasizes the growth of a healthy crop with the least possible disruption to agro-ecosystems and encourages natural pest control mechanisms.
Seed treatment and use of resistant varieties : Treating the seeds with recommended pesticides especially biopesticides will help in reducing the early damage of the seedlings and laying of egg masses. Cultivation of resistant varieties is also an effective management technique.
Crop management : One of the best method with zero input cost is through the crop management practices. Going for early planting and avoiding late planting and staggered planting will reduce pest incidence. Good soil health and adequate moisture help to raise a healthy crop which can withstand infestation. Unbalanced fertilizer application especially high nitrogen application will increase the oviposition of the insect. Keeping the field clean and managing the crop residue will improve the crop.
Cropping system : It is observed that the infestation is more in monocropping of maize. Growing inter crops like legumes will reduce infestation. Certain flowering plants like Coriander, Marigold, Fennel, etc attract beneficial insects which are natural enemies. Trees also plays a major role as they harbor birds which are natural enemies. The "PUSH-PULL" strategy is a habitat management in which a repellent crop or attractive trap crop is grown to repel pests and attract natural enemies.
Mechanical control : It is very important and generally followed in small holdings. Collection and destruction of egg masses and young larvae can be taken up. Application of sawdust or sand into the whorls leads to the aberration and desiccation of the young larvae. Use of traps, bird perches can also be taken up.
Biological control: Naturally existing enemies act as bio control agents. Parasitoids come under this category. These parasitoids lay eggs on egg masses, larvae or adult of FAW which destroys the host by growing on them.
Entomopathogens : Generally pathogens like bacteria, fungi and virus affect the yield of the crop. But some microorganisms are beneficial to farmers. In this NPV’s come first especially Spodoptera Frugiperda Multicapsid Nucleopolyhedrovirus (SfMNPV). Some fungi include Metarhizium anisopliae, Metarhizium rileyi, Beauveria bassiana, bacteria such as Bacillus thuringiensis (Bt).
Biopesticides : Bio pesticides are the pesticides that are biological in origin. Generally the formulations are derived from specific strains of bacteria, fungi or virus. For FAW Beauveria bassiana strain R444, Bacillus thuringiensis subspecies kurstaki strain SA-11, Baculovirus, SFMNPV - Baculovírus Spodoptera frugiperda are found effective.
Botanicals : Botanicals are the natural chemicals which are of plant origin. Botanicals are generally with broad spectrum activity with no or minimum effect on mammals. They act as repelling agents, larvicidal or antifeedants. Extracts from neem seed or leaves, Pyrethrin from Chrysanthemum cinerariifolium and rotinoids from Tephrosia vogelii are found effective against Fall Army Worm.
Chemical pesticides : Chemical pesticides are artificially manufactured compounds which have mammalian toxicity and toxic to beneficial organisms. They have residual effect and create damage to ecosystem. Generally, the chemicals like Methomyl, Cyfluthrin, Methyl parathion, are sprayed against FAW.
Economic Threshold: Egg masses present on 5% of the plants, or 25% of plants are infested with larvae. Treatment must be applied before larvae burrow deep into the whorls or enter ears of more mature plants