Abstract
This study investigated the impact of varying initial population densities of the root-knot nematode Meloidogyne incognita on the growth of muskmelon (Cucumis melo L.). Muskmelon, an important fruit crop with increasing global recognition, faces the threat of Meloidogyne spp., particularly M. incognita, which significantly affects plant growth and yield. The experiment, conducted in a controlled glasshouse environment, involved inoculating muskmelon plants with different population densities of M. incognita ranging from 100 to 5000 J2 (infective second-stage juveniles). The study assessed growth and nematode reproduction parameters, at 15, 30, 45, 60, and 90 days after inoculation. The results revealed that M. incognita became pathogenic to muskmelon at inoculum levels of 500 J2 and above per plant. The crop exhibited significant reductions in shoot and root lengths, as well as fresh and dry weights. The study also documented changes in the nematode population in the soil, reproductive rates, and other growth parameters. These findings offer crucial insights into the relationship between nematode density and muskmelon growth, contributing to a better understanding of the dynamics of M. incognita infestation. These findings can aid in developing targeted strategies for managing nematode-induced losses in muskmelon cultivation.