RÉSUMÉ
The Fall Armyworm (FAW), Spodoptera frugiperda, represents a formidable challenge to global agriculture due to its rapid spread and significant impact on crop yields. This comprehensive review focuses on providing an in-depth exploration of FAW's biology, its seasonal dynamics, and the multifaceted strategies employed for its management. Leveraging datasets from multiple geographical regions, we examined the patterns of FAW infestations and their correlation with various climatic and environmental factors. The research emphasized the criticality of predictive modeling tools in forecasting pest incidence and highlighted the potential of machine learning and big data analytics in enhancing the accuracy of these predictive tools. Innovative management solutions, spanning from genetic interventions to the application of nanotechnology, were also discussed, underlining their potential in mitigating FAW damage. Central to our findings was the recurrent theme of international collaboration; the need for globally coordinated efforts in research, monitoring, and the sharing of resources emerged as a pivotal component in the fight against this pest. By incorporating diverse perspectives, including field insights from farmers and advancements in modern technology, this review aims to provide a holistic overview of the present scenario and proffers strategies for future action against the FAW threat.
RÉSUMÉ
Locusts are the most dangerous agricultural pests. They are belonging to family Acrididae. Gregarious locusts travel in swarms from one location to another in adult form. The desert locust, Schistocerca gregaria (Forskal), is one of the grasshopper species that cause crop damage and can fly up to 150 km in the direction of the wind. The present state of knowledge on its biological regulation employing microbes and plant extracts is discussed. Metarhizium flavoviride was among the first fungi to be identified in the laboratory and field as a bio-control agent against desert locust. Following extensive investigation, with integrated pest management stratedies using these bio-controls would be a viable option for controlling desert locust infestations. Against the desert locust, IPM (Integrated Pest Management) approaches that emphasize the successful combination of chemical and biological insecticides with prediction and monitoring technology have been encouraged. Recent experimental investigations and researches are mainly focusing on identifying viable answers through financial collaboration between governmental and non-governmental organizations. The authors highlighted the loss in the agricultural sector due to desert locust infestation, as well as its sophisticated control and management solutions, after evaluating publications from numerous journals, magazines, and symposia.