Gs. Mahuku et al., COINFECTION AND INDUCTION OF SYSTEMIC ACQUIRED-RESISTANCE BY WEAKLY AND HIGHLY VIRULENT ISOLATES OF LEPTOSPHAERIA-MACULANS IN OILSEED RAPE, Physiological and molecular plant pathology, 49(1), 1996, pp. 61-72
The interaction between highly virulent (HV) and weakly virulent (WV)
isolates of Leptosphaeria maculans on oilseed rape leaves was examined
. In the growth room, leaves of the susceptible cultivar Westar were i
noculated with HV and WV isolates together, a HV isolate followed, up
to 6 days later, by a WV isolate, or a WV isolate followed, up to 6 da
ys later, by a HV isolate. Both the HV and WV types were detected by P
CR in lesions produced by all of these co-inoculations. Isolates from
these lesions also yielded colonies of both types. The size of lesions
produced by the HV type was reduced if the WV type was introduced at
the same time as the HV type. Inoculation with the WV type less than 4
8 h after the HV type also significantly reduced lesion diameter cause
d by the HV type, but no reduction in lesion size occurred if the WV t
ype was added 64 h or later after the HV type. Lesions caused by inocu
lation with the WV type followed by the HV type were also significantl
y smaller than those caused by the HV type alone. Maximum reduction in
the size of the lesion occurred when the HV type was inoculated 24 h
or later after the WV type. Inoculation of the second true leaf with t
he WV type significantly reduced the size of lesions produced by the H
V type the elsewhere on the same leaf, on neighbouring leaves, and in
the stem. We conclude that the WV type can coinfect and coexist with t
he HV type within a single lesion in leaves and inoculation of the WV
type can induce systemic acquired resistance (SAR) in oilseed rape to
the HV type. This is the first report of SAR in oilseed rape. (C) 1996
Academic Press Limited