Brassica crops are of global importance with oilseed rape (
Brassica napus) accounting for 13% of edible oil production. All
Brassica are susceptible to Sclerotinia stem rot, caused by
Sclerotinia sclerotiorum, a generalist fungal pathogen causing disease in over 400 plant species. Generally, sources of plant resistance result in partial control of the pathogen although some studies have identified wild
Brassica species that are highly resistant. The related pathogen
S.
subarctica has also been reported on
Brassica but its aggressiveness in relation to
S. sclerotiorum is unknown. In this study, detached leaf and petiole assays were used to identify new sources of resistance to
S.
sclerotiorum within a wild
Brassica C genome diversity set. High level resistance was observed in
B. incana and
B. cretica in petiole assays, while wild
B. oleracea and
B. incana lines were the most resistant in leaf assays. A
B. bourgeai line showed both partial petiole and leaf resistance. Although there was no correlation between the two assays, resistance in the detached petiole assay was correlated with stem resistance in mature plants. When tested on commercial cultivars of
B. napus,
B. oleracea and
B. rapa, selected isolates of
S.
subarctica exhibited comparable aggressiveness to
S.
sclerotiorum indicating it can be a significant pathogen of
Brassica. This is the first study to identify
B. cretica as a source of resistance to
S. sclerotiorum and to report resistance in other wild
Brassica species to a UK isolate, hence providing resources for breeding of resistant cultivars suitable for Europe.
Category:
Breeding
Authors: Taylor, A., et al.
Journal/Series: Plant Pathology
Publication Year: 2017
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