Visualisation of potato late blight protection levels in potato foliage and tubers

Within the framework of Agrobiokon an internet application was developed allowing potato growers a simple evaluation of their potato late blight control strategy. The goal of developing this application was to confront the perception of growers regarding the protection level of their crops with an independent calculation of this level. Calculations of the daily infection risk allow growers to retrospectively track periods of under- and over protection of their crops. This form of interactive knowledge transfer is hoped to trigger improvements in growers’ potato late blight control strategies with respect to spray timing and fungicide selection

Botrytis species on bulb crops

Abstract. A number of Botrytis species are pathogens of bulb crops. Botrytis squamosa (teleomorph=Botrytotinia squamosa) causal agent of botrytis leaf blight and B. allii the causal agent of botrytis neck rotare two of the most important fungal diseases of onion. The taxonomics of several of the neck rotpathogens of onion have been revised on the basis of recent molecular sequence analysis studies. B. allii,B. aclada, and B. byssoidea are now recognized as distinct species causing neck rot diseases of onion. B.cinerea is also pathogenic on onion, primarily causing botrytis brown stain on onion bulbs. B. tulipae, B.elliptica, and B. gladiolorum are important pathogens of flower bulbs and are the causal agents of leafblight in tulip, lily, and gladiolus, respectively. Leaf blight in the major flower bulb crops is called ‘fire’referring to the fire-like symptoms occurring on the leaves of flower bulb plants when epidemics occur inproduction fields. In both the onion and flower bulb production systems chemicals are still heavily reliedupon to control the major diseases, however, alternative disease management systems also are used andundoubtedly will become increasingly important in controlling the diseases. Infected plants and colonizedplant debris are considered important sources of inoculum for B. squamosa, B. tulipae, and B. elliptica,particularly when sclerotia are formed. Sclerotia of B. squamosa serve as the source of conidia, as well asapothecia producing ascospores, in onion production areas in New York. The primary inoculum sourcesof B. allii and B. gladiolorum are believed to be infested seed and infected corms, respectively