September
2005
, Volume
89
, Number
9
Pages
989
-
993
Authors
P. M.
Pradhanang
,
P.
Ji
,
M. T.
Momol
, and
S. M.
Olson
,
North Florida Research and Education Center, University of Florida, IFAS, 155 Research Road, Quincy 32351
;
J. L.
Mayfield
,
Gadsden County Extension, University of Florida, IFAS, Quincy 32351
; and
J. B.
Jones
,
Plant Pathology Department, 2253 Fifield Hall, University of Florida, IFAS, Gainesville 32611
Affiliations
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RelatedArticle
Accepted for publication 27 May 2005.
Abstract
ABSTRACT
The chemical elicitor acibenzolar-S-methyl (ASM; Actigard 50 WG), which induces systemic acquired resistance (SAR), was investigated to determine the effect on bacterial wilt of tomato caused by Ralstonia solanacearum on moderately resistant cultivars under greenhouse and field conditions. In greenhouse experiments, ASM was applied as foliar spray and/or soil drench (3 μg/ml) before and as foliar spray (30 μg/ml) after transplanting. The chemical elicitor was ineffective in reducing bacterial wilt incidence on susceptible tomato cultivars Equinox and FL 47 when plants were inoculated with R. solanacearum. However, greenhouse studies indicated that ASM significantly enhanced resistance in cultivars with moderate resistance to bacterial wilt such as Neptune and BHN 466. It appeared that ASM-mediated resistance was partially due to prevention of internal spread of R. solanacearum toward upper stem tissues of tomato plants. The effect of ASM on moderately resistant cultivars was consistent in field experiments conducted in 2002 and 2003 in Quincy, FL, where bacterial wilt incidence was significantly reduced in ASM-treated BHN 466 (in 2002), FL 7514 (in 2003), and Neptune (both years) plants. ASM-treated BHN 466 and FL 7514 produced significantly higher tomato yield than the untreated controls. This is the first report of ASM-mediated control of bacterial wilt under field conditions, which suggests that use of this treatment for moderately resistant genotypes may be effective for control of bacterial wilt of tomato.
JnArticleKeywords
Additional keywords:
induced resistance,
latent infection
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© 2005 The American Phytopathological Society