Abstract:
Rice field rats (Rattus rattus) pose a significant threat as destructive pests in
rice-growing countries worldwide, affecting economies and livelihoods.
Despite the development of various biological, chemical and physical
management methods, concerns remain regarding their predictability, with
previous studies indicating varying levels of damage between rice varieties.
Therefore, understanding the factors that influence susceptibility and
resistance is crucial for developing sustainable rat management systems.
Plant volatiles are known for their role in pest and disease resistance. This
study examines differences in volatile compounds emitted during two crucial
developmental stages, the vegetative phase and the beginning of flowering
(budding phase), in five rice varieties: BG 360, BG 310, BG 379-2, BG 403
and BW 367. Volatile profiles during these phases were collected using
dynamic headspace collection and solvent extraction methods and analyzed
by GC-MS. The results suggest different volatile profiles within varieties at
both stages, with significant differences observed between varieties.
Furthermore, the concentrations of volatiles emitted varied depending on the
cultivar and growth stage. Notably, PCA analysis revealed a separate
clustering of volatiles at the booting stage of the resistant BG 310 and the
susceptible BG 403, while other cultivars showed an intermediate clustering.
This suggests a possible link between the susceptibility and resistance of rats
and the volatile compounds released during the booting stage of rice. Further
behavioural studies are required to gain conclusive findings.