Evaluation of Integrated Pest and Disease Management Combinations against Major Insect Pests and Diseases of Tomato in Tamil Nadu, India

• Published in: Horticulturae Vol. 10; no. 7; p. 766
• Main Authors: Shanmugam, Sankaran Pagalahalli, Murugan, Marimuthu, Shanthi, Mookiah, Elaiyabharathi, Thiyagarajan, Angappan, Kathithachalam, Karthikeyan, Gandhi, Arulkumar, Gopal, Manjari, Palanisamy, Ravishankar, Manickam, Sotelo-Cardona, Paola, Oliva, Ricardo, Srinivasan, Ramasamy
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.07.2024
• Subjects: Agricultural practices; Agricultural production; Azadirachtin; Bacteria; botanicals; Care and treatment; Crop diseases; Crop yield; Diagnosis; Disease management; Diseases; Farmers; grafted tomato; Grafting; Health services; Hybrids; India; Insecticide resistance; Insecticides; Insects; Integrated pest management; Invasive insects; Invasive species; IPDM; microbial pesticides; Microorganisms; Pest resistance; Pesticide application; Pesticides; Pests; Pheromone traps; Rainy season; Rootstocks; Seedlings; Seeds; Solanum melongena; Spinosad; Tomatoes; Vegetable industry; Viral diseases; Viruses; Wilt; India; Tamil Nadu India; Taiwan
• ISSN: 2311-7524; 2311-7524
• DOI: 10.3390/horticulturae10070766

Tomatoes are one of the predominant vegetable crops grown throughout the year in Tamil Nadu, India. Their perishable nature and resource-intensive cultivation make them susceptible to biotic stress. The damage caused by invasive insect pests, bacterial wilt during the rainy season, and viral diseases are major yield-limiting factors, and the farmers mostly depend on calendar-based insecticide applications for insect pest and disease management in tomatoes. The desired tomato hybrids grafted onto bacterial wilt-resistant eggplant rootstocks offer protection against bacterial wilt during the rainy season. The integrated pest and disease management (IPDM) practices consist of resistant grafted tomato seedlings (wild eggplant rootstocks EG 203 and TS 03), bioinoculants (Bacillus subtilis + Trichoderma asperellum + Purpureocillium lilacinum), pheromone traps (Phthorimaea absoluta and Helicoverpa armigera), botanicals (azadirachtin), microbial pesticides (Bacillus thuringiensis, Metarhizium anisopliae, and Beauveria bassiana), and bio-rationals, which were evaluated in four locations in two major tomato-growing tracts of Tamil Nadu. The results revealed that the treatment EG 203 eggplant rootstock-grafted tomato along with IPDM practices performed better across all experimental locations than the other treatment combinations viz., TS 03 eggplant rootstock-grafted tomato + IPDM, tomato + IPDM, grafted tomato + farmers’ practice and tomato + farmers’ practice. The EG 203-grafted tomato recorded a higher yield than the farmers’ practice with significantly superior biometric parameters. The treatment of EG 203-grafted tomato and IPDM practices can be adopted for safer tomato production by enabling a reduction in pesticide applications while enhancing productivity.