Abstract:
Root-knot nematodes (Meloidogyne spp.) (RKN) are a significant threat to brinjal (Solanum
melongena L.) production, causing severe damage to root systems and impairing plant growth. As
RKN is a sedentary endoparasite with a polyphagous nature, management of this pest is very difficult
without systemic nematicides which are dangerous to the ecosystem. Resistant hosts, provide a more
sustainable solution compared to other means of control. Therefore, the current investigation aimed to
evaluate the response of four selected brinjal genotypes Eekkuvellai, F1Hybrid704, Thinnevelipurple,
and Mattuvimutti to RKN infestation in terms of gall formation and impact on plant growth
parameters under artificially inoculated pot condition. A total of 48 plants in nematode-inoculated soil
along with the 3 plants in nematode-free soil as a control for each variety (3 replicates x 4 varieties=
12 plants) were arranged in a complete randomized design. Plants were inoculated with RKN, and
growth parameters and gall formation were assessed from 4-12 weeks of post-inoculation. Obtained
data were analyzed using one-way ANOVA with Turkey post hoc test at the 95% confidence interval.
The results indicated that all tested genotypes were susceptible to RKN, with Eekkuvellai (1482 galls
per plant) and F1Hybrid704 (1270 galls per plant) showing significantly higher gall densities
compared to Thinnevelipurple and Mattuvimutti (689 and 369, respectively galls per plant).
Eekkuvellai had the highest gall count per root system (1432 galls) and per rootlet (10.87 galls per
rootlet), suggesting increased susceptibility. Growth parameters such as plant height (79.1cm, root
length (39cm), and shoot biomass (78g) were negatively affected by nematode infestation. Eekkuvellai
and F1Hybrid704 exhibited greater root and shoot growth compared to Thinnevelipurple and
Mattuvimutti, despite higher gall densities. However, Mattuvimutti consistently showed the lowest gall
formation (369 galls per plant) and the smallest gall diameters (4.158mm), indicating moderate
resistance to the nematodes. The study concludes that while none of the brinjal genotypes
demonstrated complete resistance to Meloidogyne spp., Mattuvimutti exhibited the highest potential
for nematode resistance, making it a candidate for breeding programs focused on developing
nematode-resistant Brinjal genotypes. These findings highlight the importance of selecting resistant
cultivars to mitigate the effects of root-knot nematode infestation and improve brinjal productivity.