Characterisation of root-knot nematode resistance in black oat, Avena strigosa, ‘Terara’

Abstract

Summary The mechanism of root-knot nematode (RKN) resistance in black oat ‘Terara’ and its stability under high temperatures were examined. To investigate the suppressive mechanism, we observed root invasion and development of RKN in ‘Terara’. Juveniles of Meloidogyne incognita, M. arenaria and M. javanica successfully invaded roots of ‘Terara’ 3 days after inoculation (DAI), whereas juveniles of M. hapla were hardly observed in black oat roots. The total number of M. incognita and the ratio of successfully developing juveniles were significantly lower in roots of ‘Terara’ than a susceptible cultivar from 7 DAI. A number of M. incognita developed to sausage-shaped juveniles in ‘Terara’; however, juveniles beyond that stage were seldom observed. Histological observation of feeding sites suggested the poor development of giant cells was involved in this arrested development. Juveniles of M. arenaria and M. javanica also only developed to the sausage-shaped stage at 21 DAI. These observations indicated that ‘Terara’ and resistant common oat cultivars suppressed RKN in a similar way. The effect of high temperature on resistance was evaluated using ‘Terara’ cultivated at 30°C throughout the experiment and at 32°C for the initial 5 DAI. The number of egg masses of M. incognita under the 32°C treatment was slightly higher than the 25°C control. However, it was still suppressed to 4.9% of the susceptible cultivar.