Abstract |
Quantitative PCR and visual monitoring of Mycosphaerella graminicola epidemics were performed to investigate the effect of curative and preventative applications of azoxystrobin in wheat field crops. A non-systemic protectant and a systemic curative fungicide, chlorothalonil and epoxiconazole, respectively, were used as references. PCR diagnosis detected leaf infection by M graminicola 3 weeks before symptom appearance, thereby allowing a clear distinction between curative and preventative treatments. When applied 1 week after the beginning of infection, azoxystrobin curative activity was intermediate between chlorothalonil (low effect) and epoxiconazole. When applied preventatively, none of the fungicides completely prevented leaf infection. There was some indication that azoxystrobin preventative treatments may delay fungal DNA increase more than epoxiconazole at the beginning of leaf infection. Both curative and preventative treatments increased the time lapse between the earliest PCR detection and the measurement of a 10% necrotic leaf area. Azoxystrobin only slightly decreased the speed of necrotic area increase compared with epoxiconazole. Hence, azoxystrobin activity toward M graminicola mainly resides in lengthening the time lapse between the earliest PCR detection and the measurement of a 10% necrotic leaf area. Information generated in this way is useful for optimal positioning of azoxystrobin treatments on M graminicola.
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Authors | Eric A Rohel, Paul Laurent, Bart A Fraaije, Nadine Cavelier, Derek W Hollomon |
Journal | Pest management science
(Pest Manag Sci)
Vol. 58
Issue 3
Pg. 248-54
(Mar 2002)
ISSN: 1526-498X [Print] England |
PMID | 11975170
(Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
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Chemical References |
- Acrylates
- DNA, Fungal
- Epoxy Compounds
- Fungicides, Industrial
- Methacrylates
- Nitriles
- Pyrimidines
- Strobilurins
- Triazoles
- tetrachloroisophthalonitrile
- azoxystrobin
- epoxiconazole
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Topics |
- Acrylates
(toxicity)
- Ascomycota
(drug effects, genetics, growth & development)
- DNA, Fungal
(genetics, isolation & purification)
- Epoxy Compounds
(toxicity)
- Fungicides, Industrial
(toxicity)
- Methacrylates
- Nitriles
(toxicity)
- Plant Diseases
(microbiology)
- Plant Leaves
(microbiology)
- Polymerase Chain Reaction
(methods)
- Pyrimidines
(toxicity)
- Strobilurins
- Time Factors
- Triazoles
(toxicity)
- Triticum
(microbiology)
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