Resistance risk assessment of cyprodinil against cereal eyespot : Pseudocercosporella herpotrichoides

Zhu, Qinghua

January 1996

No description available.

631.8

Fungicide

Investigations into the mode of action of dimethomorph in Phytophthora species and Bremia lactucae

Goodenough, Lynn

January 1996

No description available.

630

Fungicide

Evaluation of Fungicides for Management of Blackleg Disease on Canola and QoI-fungicide Resistance in Leptosphaeria maculans in Western Canada

Liu, Chang

22 August 2014

Blackleg, caused by the fungus Leptosphaeria maculans, is one of the most important diseases on canola in western Canada. Severe epidemics can cause substantial losses of seed yields and quality. Fungicide application is an important disease management strategy, but little is known about the efficacy of fungicides against blackleg and possible impact on fungicide sensitivity of L. maculans after repeated uses. The results of present study showed that fungicides generally reduced the blackleg incidence and severity on the susceptible canola cultivar, and the QoI fungicides were more effective than the DMI fungicides. Early fungicide application at about 2-4 leaf stage provided a small yield improvement on the susceptible cultivar. Typical point mutation was not found in any of these QoI-insensitive L. maculans field isolates and polymorphism correlating with the QoI-insensitive phenotype was not observed either in the sequence of cytochrome b gene among the L. maculans isolates.

fungicide

blackleg

Chemical and biological control of the fungal footrot pathogens of Pisum sativum L

Bradshaw-Smith, Robert Paget

January 1991

No description available.

577

Fungicide treatment of peas

Influence of environmental conditions on populations of Thanatephorus cucumeris Frank Donk and their control by seed treatments on maize and cotton

Dusunceli, Fazil

January 1990

No description available.

580

Plant fungicide diseases

Carbendazim resistance in the eyespot pathogen Pseudocercosporella herpotrichoides

Brown, M. C.

January 1985

No description available.

577

Fungicide resistance

Synthesis and evaluation of perhydroimidazolo[3,4-a]pyridines as fungicides

Banting, L.

January 1985

No description available.

547

Fungicide synthesis

Molecular genetics of benzimidazole resistance in Pseudocercosporella herpotrichoides

Blakemore, Emily J. A.

January 1990

No description available.

572.8

Fungicide resistance study

The genetic basis of prochloraz resistance in the cereal eyespots pathogen Tapesia yallundae

Wood, Henry M.

January 2002

No description available.

579

Fungicide resistance

Evaluating the risk of fungicide resistance evolution to succinate dehydrogenase inhibitors in Ramularia collo-cygni

Piotrowska, Marta Joanna

January 2015

Ramularia collo-cygni (Rcc) is a damaging fungal pathogen of barley (Hordeum vulgare). It is a causal agent of Ramularia Leaf Spot (RLS), which contributes to significant economic yield losses worldwide. Protection against the disease has been, and is currently, based on foliar fungicide applications as available seed treatments are not effective and there are no fully resistant barley varieties. Two groups of systemic fungicides, Succinate Dehydrogenase Inhibitors (SDHIs) and DeMethylation Inhibitors in sterol biosynthesis (DMIs), are used and in addition a protectant multisite inhibitor chlorothalonil has been used to minimise the damaging effects of RLS in barley. SDHI fungicides have been extensively used in cereals since 2005 in the UK. Resistance outbreaks to SDHIs have been reported in several plant pathogenic fungi. The risk of resistance in Rcc was unstudied and so this study aimed to develop the methodologies needed to screen populations, establish baseline sensitivity data, evaluate the risk of evolution of fungicide resistance to SDHIs in the population of Rcc and make recommendations on appropriate anti-resistance strategies to minimise the risk. A combined approach of SDHIs’ field performance under different application regimes, sensitivity testing in vitro, molecular analysis of resistance mutations and studies of the genetic structure of populations was used. The results in this study demonstrated that currently SDHI foliar applications remain effective in controlling RLS in barley. The most consistent control was observed when applying them in mixtures with DMIs. All of the tested field isolates were in the range of baseline sensitivity to SDHIs and no shifts between years and different applications regimes were observed. The molecular characterisation of Rcc resistant mutants developed in UV mutagenesis studies revealed that in four out of five mutants a single amino acid change in a target succinate dehydrogenase (Sdh) protein was associated with decrease in sensitivity to SDHIs. All of these mutations, with the exception of one mutant, were stable in the absence of SDHI fungicide. The analysis of fitness components indicated that mutated strains did not confer a fitness penalty associated with the mutation when measuring the growth in vitro. Additionally a detached leaf assay performed for two selected mutants with high or moderate resistant factors showed that the resistant phenotypes were able to colonise the leaf surface and reproduce successfully. Thus if the resistance was to develop due to these point mutations in the target Sdh gene, mutated phenotypes are likely to be fit enough to outcompete the sensitive population. Analysis of the genetic structure of the Rcc populations demonstrated that the pathogen is highly diverse, is likely to undergo sexual reproduction over the growing season (the sexual stage remains undiscovered) and has a potential for extensive spore dispersal across the field. Thus Rcc has a high evolutionary potential and could adapt to different control measures relatively quickly. In the 2012 growing season, two field phenotypes with reduced sensitivity to SDHIs were identified as a consequence of sensitivity monitoring in vitro. Neither of the isolates had any nucleotide or amino acid changes in the target Sdh gene and the mechanism responsible for the resistance in these two strains remains unknown. One of the field isolates was tested in planta and exhibited abnormal growth on the leaf surface. This could result either from fitness costs incurred due to resistance or the fact that this isolate does not belong to the Rcc species, a possibility which must be further investigated. In conclusion, SDHI fungicides remain effective in controlling RLS in barley, however this study demonstrated that there is a risk of measurable loss of efficacy in field conditions. Thus monitoring studies should be intensified and integrated crop management practices applied to prolong the life span of SDHI fungicide treatments.

633.1

Biological Sciences ; fungicide