Litcius/Paper detail

Smart delivery of nanofiber matrix encapsulated botanical nematicide α-terthienyl against root knot nematode on tomato

V. Priyadharshini, P. Kavitha, P. Vetrivelkalai, Ganeshan Shandeep, M. Rajavel, Natarajan Balakrishnan, N. Seenivasan, D. Thirusendura Selvi, A. Suganthi

2024Physiological and Molecular Plant Pathology7 citationsDOIOpen Access PDF

Abstract

Alpha-terthienyl (α-T), a volatile phytochemical from marigold ( Tagetes spp.) roots, is recognized for its nematicidal properties , primarily by inducing oxidative stress and protein deformation in nematodes. However, due to the rapid degradation of α-T, an innovative delivery system is necessary to maintain its efficacy over time. This study developed α-T-loaded nanofibers using electrospinning as a novel, sustained-release system to manage Meloidogyne incognita in tomato plants. Characterization of α-T infused nanofiber matrix through UV–VIS spectroscopy revealed a maximum absorption peak at 350 nm, while FTIR confirmed the presence of α-T functional groups, validating its encapsulation. SEM analysis showed that the diameter of unloaded control nanofibers ranged from 130.3 nm to 166.1 nm, whereas α-T-loaded nanofibers exhibited a significantly larger diameter of 777.6 nm, further providing strong evidence for successful encapsulation within the nanofiber matrix. Application of the α-T nanofiber formulation at 8 ppm significantly reduced M. incognita populations and improved plant growth parameters in tomato plants, demonstrating its potential as a sustainable solution for nematode management in agriculture .

Topics & Concepts

BiologyNematodeRoot-knot nematodeNanofiberBotanyHorticultureEcologyMaterials scienceNanotechnologyNematode management and characterization studiesPlant Disease Management TechniquesDate Palm Research Studies