author(s)
Udaya Sree M and Nandini B

abstract
Insect pests communicate and interact with their surroundings through a diverse array of chemical signals. Semiochemicals particularly pheromones have emerged as critical tools in environmentally sound Integrated Pest Management (IPM). Plants and insects have coevolved for over 350 million years, relying on intricate chemical signaling-including insect semiochemicals (e.g., pheromones) and plant defense compounds-to communicate, defend, and thrive. Insects leverage semiochemicals for behaviors like mating, host-finding, and predator avoidance, enabling precise, species-specific pest management strategies such as mating disruption, mass trapping, and attract-and-kill. Meanwhile, plants utilize constitutive and induced defenses-ranging from structural traits and stored toxins to herbivore-induced volatiles (HIPVs)-to deter herbivores and recruit natural enemies. Constitutive defenses include barriers like thorns and trichomes, and toxin storage strategies exemplified by the glucosinolate-myrosinase “mustard oil bomb,” which rapidly generates toxic isothiocyanates upon tissue damage. Induced mechanisms, triggered by insect attack, activate internal signaling cascades that lead to secondary metabolite production, proteinase inhibitors, and volatile emissions-both at the local site and systemically-to deter attackers and alert neighboring plants. These volatiles, derived from pathways like terpenoids and fatty acids, have been shown in multiple species (e.g., maize, cotton, tobacco) to modulate herbivore behavior and attract parasitoids and predators. Modern IPM integrates these biochemical insights with advanced delivery technologies-such as controlled-release dispensers (e.g., SPLAT), smart traps, and genetically engineered volatile production in plants-to optimize pest control while preserving beneficial organisms and reducing pesticide reliance. However, realizing the full potential of semiochemical-based strategies requires enhanced formulation, deployment methods, ecological understanding, and interdisciplinary innovation spanning chemistry, molecular biology, and field ecology. As global agriculture seeks sustainable alternatives to synthetic pesticides, semiochemicals offer smart, precise, and environmentally friendly tools for future pest management.