Comparison of the epidemiology of ascochyta blights on grain legumes

Tivoli, Bernard; Banniza, Sabine

doi:10.1007/s10658-007-9117-9

Cited by 113 publications

(84 citation statements)

References 79 publications

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“…Reports from other countries agree with this, and indicate that the disease appears on the leaves, stems, pods and grains [22,27]. Given the environmental conditions of the Altiplano, the disease does not develop very quickly and is seen only on the pods and stem during the ripening stage; it is therefore something of a minor problem for this crop.…”

Section: New and Emerging Diseasesmentioning

confidence: 79%

“…The present work shows that the leaf spot disease affecting faba beans in the study region is a complex of fungal diseases caused by hemibiotrophic and necrotrophic pathogens [10,22]. According to the criteria of Damsteegt [6], these diseases were categorized as new (Cladosporium sp.…”

Section: New and Emerging Diseasesmentioning

confidence: 96%

“…The remaining diseases-Lepthosphaerulina and Ascochyta blightappear at low levels during ripening, probably depending on environmental conditions. Temperature and relative humidity are both key factors in the epidemiology of Ascochyta blight [22], which can be considered a minor disease in Bolivia.…”

Section: Leaf Spots Disease Intensitymentioning

confidence: 99%

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Control of Leaf Spot Diseases on Ecotypes of Faba Bean (<i>Vicia faba</i> L.) Produced in the Andean Region of Bolivia

Coca-Morante¹,

Mamani-Álvarez²

2012

AJPS

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The basin of Lake Titicaca is a faba bean-producing microregion of Bolivia where the crop is destined for export. The most commonly cultivated ecotypes "Gigante de Copacabana" and "Usnayo" are affected by diseases that can cause production losses. The aims of the present work were to identify the causal agents of leaf spot affecting these ecotypes, to record disease intensity levels, and to estimate their effect on production. In 2004 and 2005, leaflet, stem and pod samples were taken from faba bean plants with leaf spot growing in the Lake Titicaca area, and from plants in an experimental plot established to determine the effect of five different treatments on production and disease intensity: T 1 = Control; T 2 = seed treatment with Trichoderma sp. + alternate foliar spraying with benomyl and mancozeb; T 3 = seed treatment with fludioxanil/metalaxyl M + alternate foliar spraying with benomyl and mancozeb; T 4 = foliar spraying with Trichoderma sp.; T 5 = alternate foliar spraying with cymoxanyl and mancozeb-chlorothalonil. Microscopic analysis of the samples revealed the presence of new fungal pathogens for faba beans in Bolivia (Cladosporium sp., and Lepthosphaerulina sp.) as well as emerging fungal pathogens (Botrytis cinerea, B. fabae, Ascochyta fabae, Alternaria sp. and Cercospora sp.). None of the treatments affected the disease progression curve (DPC) for incidence, although effects were seen with respect to disease severity. The seed + foliar treatments (T 2 and T 3 ) were more effective at controlling disease than leaf treatments on their own (T 4 and T 5 ). Modelling analysis showed faba bean leaf spot disease to be moderately destructive. Compared to chemical treatments, biocontrol with Trichoderma spp. preliminary was found to provide good control of the disease. Losses due to leaf spot disease of 36% were recorded, and a strong correlation detected between yield and disease severity.

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Section: New and Emerging Diseasesmentioning

confidence: 79%

Section: New and Emerging Diseasesmentioning

confidence: 96%

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Control of Leaf Spot Diseases on Ecotypes of Faba Bean (<i>Vicia faba</i> L.) Produced in the Andean Region of Bolivia

Coca-Morante¹,

Mamani-Álvarez²

2012

AJPS

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“…To address these questions, we analyzed the phenotypic and genotypic diversity in populations of an aggressive foliar pathogen of peas, Didymella pinodes, along the course of an epidemic. D. pinodes is a necrotrophic, polyphagous, polycyclic, homothallic fungus that causes ascochyta blight on winter and spring pea fields worldwide (26,27). This pathogen is known to present individuals differing widely in their abilities to cause disease on peas (28)(29)(30)(31)(32).…”

mentioning

confidence: 99%

“…Whereas pycnidia are produced on both green and senescent plant organs, pseudothecia appear only on the senescent parts (33). This fungal pathogen has various ways of persisting in the environment and dispersing over more or less long distances (splashing, wind) (27,34,35). These features are more important for D. pinodes than for pathogens whose modes of reproduction are dissociated, since they help to increase population diversity and have an impact on pathogenicity.…”

mentioning

confidence: 99%

Aggressiveness Changes in Populations of Didymella pinodes over Winter and Spring Pea Cropping Seasons

Laloi

Montarry

Guibert

et al. 2016

Appl Environ Microbiol

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Ascochyta blight, caused by the necrotrophic ascomycete Didymella pinodes, is responsible for severe losses in winter and spring pea crops. Despite different climatic conditions, epidemics on winter and spring crops are due to a single population of D. pinodes, suggesting gene flow either between the two crops or from reservoir sources during the cropping season. This should lead to similar pathogenicity characteristics in isolates sampled from the two crops. However, these hypotheses have never been formally tested. We therefore sampled a total of 520 D. pinodes strains throughout a growing season from winter and spring pea plots (WP and SP, respectively) and from winter and spring trap plants (TWP and TSP). Amplified fragment length polymorphism (AFLP) markers revealed high genetic diversity within subpopulations, whereas pathogenicity tests showed that mean aggressiveness increases over the course of an epidemic. These results support the idea that alloinoculum contributes to the carryover of epidemics between winter and spring crops and that the most aggressive isolates are selected as an epidemic progresses. IMPORTANCEAscochyta blight, caused by Didymella pinodes, is responsible for severe losses in pea crops. While previous studies have shown that ascochyta blight epidemics on winter and spring crops are due to a single population of D. pinodes, suggesting that isolates from the two crops present similar pathogenicity characteristics, that hypothesis have never been tested. Genetic analysis of subpopulations sampled throughout a growing season from winter and spring pea plots revealed high genetic diversity within subpopulations, whereas pathogenicity tests showed that mean aggressiveness increases over the course of an epidemic.T he spatiotemporal dynamics of crop diseases are simultaneously impacted by pathogens, host plants, the environment, and human activities (1, 2). Indeed, whether or not hosts and pathogens interact is determined largely by spatial and temporal components of host and pathogen life history traits (3, 4). These interactions can thus be conceptualized as a continuous sequence of biological cycles, including dormancy, growth, reproduction, dispersal, and pathogenesis (5).Gene flow, resulting from pathogen reproduction and dispersal, can drastically increase the extent to which pathogen epidemics spread across a landscape (6). As such, it is a main factor in the transmission of disease to previously uninfected areas and drives the spatial structure of pathogen populations in fragmented landscapes by influencing the long-term survival and genetic composition of populations (7-9). Individual dispersal events, occurring over periods of days or weeks during both the cropping and intercropping seasons (2), originate from a large number of potential inoculum sources: resting structures in soil (mycelium, oospores, chlamydospores, or sclerotia), infested stubble left on the soil surface, infested seed, and alternative hosts (wild or cultivated plants, including volunteers). The degree ...

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Seed treatments to control seedborne fungal pathogens of vegetable crops

2013

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Vegetable crops are frequently infected by fungal pathogens, which can include seedborne fungi. In such cases, the pathogen is already present within or on the seed surface, and can thus cause seed rot and seedling damping-off. Treatment of vegetable seeds has been shown to prevent plant disease epidemics caused by seedborne fungal pathogens. Furthermore, seed treatments can be useful in reducing the amounts of pesticides required to manage a disease, because effective seed treatments can eliminate the need for foliar application of fungicides later in the season. Although the application of fungicides is almost always effective, their non-target environmental impact and the development of pathogen resistance have led to the search for alternative methods, especially in the past few years. Physical treatments that have already been used in the past and treatments with biopesticides, such as plant extracts, natural compounds and biocontrol agents, have proved to be effective in controlling seedborne pathogens. These have been applied alone or in combination, and they are widely used owing to their broad spectrum in terms of disease control and production yield. In this review, the effectiveness of different seed treatments against the main seedborne pathogens of some important vegetable crops is critically discussed.

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Comparison of the epidemiology of ascochyta blights on grain legumes

Cited by 113 publications

References 79 publications

Control of Leaf Spot Diseases on Ecotypes of Faba Bean (<i>Vicia faba</i> L.) Produced in the Andean Region of Bolivia

Control of Leaf Spot Diseases on Ecotypes of Faba Bean (<i>Vicia faba</i> L.) Produced in the Andean Region of Bolivia

Aggressiveness Changes in Populations of Didymella pinodes over Winter and Spring Pea Cropping Seasons

Seed treatments to control seedborne fungal pathogens of vegetable crops

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Comparison of the epidemiology of ascochyta blights on grain legumes

Cited by 113 publications

References 79 publications

Control of Leaf Spot Diseases on Ecotypes of Faba Bean (&lt;i&gt;Vicia faba&lt;/i&gt; L.) Produced in the Andean Region of Bolivia

Control of Leaf Spot Diseases on Ecotypes of Faba Bean (&lt;i&gt;Vicia faba&lt;/i&gt; L.) Produced in the Andean Region of Bolivia

Aggressiveness Changes in Populations of Didymella pinodes over Winter and Spring Pea Cropping Seasons

Seed treatments to control seedborne fungal pathogens of vegetable crops

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About

Control of Leaf Spot Diseases on Ecotypes of Faba Bean (<i>Vicia faba</i> L.) Produced in the Andean Region of Bolivia

Control of Leaf Spot Diseases on Ecotypes of Faba Bean (<i>Vicia faba</i> L.) Produced in the Andean Region of Bolivia