Plant-parasitic nematodes are serious pests causing important crop losses worldwide. After extensive screening of non-tuber-bearing Solanaceae, a resistant trap crop, Solanum sisymbriifolium, with a high production level of hatching agents, seemed an ideal control method for potato cyst nematodes (PCN), Globodera spp. Recently, root-knot nematodes (RKN), Meloidogyne spp., were found coexisting with PCN. Therefore, it is important to find alternative methods to control both nematode genera. The chemical properties of S. sisymbriifolium turns this plant into an excellent candidate for further nematicidal studies and to develop new crop production models. Studies concerning the effects of this plant on plantparasitic nematodes are presented. Pathogenicity studies with four S. sisymbriifolium cvs (Domino, Pion, Sis 4004 and Sharp) and five Meloidogyne species showed that all cultivars of S. sisymbriifolium studied were resistant to M. chitwoodi and hypersusceptible to M. arenaria and M. hapla. For M. hispanica only cv Pion was susceptible. M. javanica induced different responses: cvs Pion and Sharp were susceptible; cv Domino resistant and Sis 4004 hypersusceptible. The studies of the hatching effects of root exudates from these cvs showed that they had an influence on the hatching inhibition of second stage juveniles of the five Meloidogyne species tested.
In a pot assay, a population of Meloidogyne incognita from Northern Greece, reproduced on the resistant tomato cv. Silvana carrying the Mi gene and on three susceptible pepper cultivars. Its ability to reproduce on the resistant tomato and on pepper cv. California Wonder was sustainable for several generations. Till now, the only resistant breaking population of M. incognita on resistant tomato found in Greece was a distinct one from Crete which did not reproduce on susceptible pepper cultivars. Thus, the population of M. incognita from Northern Greece represents a new type of a resistant breaking pathotype, reported for the first time in the country, and a potential threat for both resistant tomato crops and susceptible peppers in the field.
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