Biophysical scaling and the passive dispersal of fungus spores: relationship to integrated pest management strategies, Agricultural and Forest Meteorology, vol.97, pp.275-292, 1999. ,
Relationship between concentrations of Botrytis cinerea conidia in air, environmental conditions, and the incidence of grey mould in strawberry flowers and fruits, Botrytis: biology, pathology and control, vol.114, pp.415-425, 2004. ,
Aerial dispersal of pathogens on the global and continental scales and its impact on plant disease, Science, vol.297, pp.537-541, 2002. ,
, , 2009.
Airborne concentrations of Botrytis, Uncinula and Plasmopara spores in a vineyard in Leiro-Ourense, N.W. Spain). Aerobiologia, vol.13, pp.31-35, 1997. ,
Seasonal variation of airborne fungal spore concentrations in a vineyard of North-West Spain, Aerobiologia, vol.14, pp.221-227, 1998. ,
HYSPLIT (HYbrid Single-Particle Lagrangian Integrated Trajectory) Model access via NOAA ARL READY Website, 2011. ,
Selective media for the specific isolation and enumeration of Botrytis cinerea conidia, Letters in Applied Microbiology, vol.32, pp.63-66, 2001. ,
Microbial control of Botrytis spp, Botrytis: biology, pathology and control, pp.223-241, 2004. ,
Monitoring viable airborne inoculum Version définitive du manuscrit publié dans / Final version of the manuscript published in Aerobiologia, Version postprint Comment citer ce document : Leyronas, C. (Auteur de correspondance), vol.29, pp.291-299, 2013. ,
Estimation of yield 'Loureira' variety with an aerobiological and phenological model, Grana, vol.50, pp.63-72, 2011. ,
Wind dispersal of conidia of Botrytis spp. pathogenic to Vicia faba, Plant Pathology, vol.36, pp.5-15, 1987. ,
Aerobiology of Sclerotinia sclerotiorum and Botrytis cinerea spores in New Zealand tobacco crops, New Zealand Journal of Agricultural Research, vol.23, pp.259-262, 1980. ,
The ecology of Botrytis on plant surfaces, Botrytis: biology, pathology and control, pp.9-24, 2004. ,
, The dispersal of spores of Botrytis cinerea Fr. in a raspberry plantation, Transactions of the British Mycological Society, vol.45, pp.549-559, 1962.
Botryotinia and Botrytis species: taxonomy, physiology and pathogenicity, Canada Department of Agriculture, p.195, 1977. ,
The effects of meteorological factors on atmospheric bioaerosol concentrations-a review, Science of the Total Environment, vol.326, pp.151-180, 2004. ,
Analysis of spore dispersal gradients of Botrytis cinerea and gray mold disease gradients in snap beans, Phytopathology, vol.73, pp.741-746, 1983. ,
Airborne fungal spores in urban and rural environments in Poland, Aerobiologia, vol.22, pp.169-176, 2006. ,
, North American Plant Disease Forecast Center, 2000.
The North American blue moldwarning system, Plant Disease, vol.68, pp.933-936, 1984. ,
Differential spore production by Botrytis cinerea on agar medium and plant tissue under near-ultraviolet light-absorbing polyethylene film, Plant Disease, vol.80, pp.555-558, 1996. ,
URL : https://hal.archives-ouvertes.fr/hal-02697845
Important phytopathogenic airborne fungal spores in a rural area: incidence of Botrytis cinerea and Oidium spp, AAEM, vol.16, pp.197-204, 2009. ,
Annual variation of fungal spores in atmosphere of Porto, AAEM, vol.12, pp.309-315, 2003. ,
Effect of some host and microclimate factors on infection of tomato stems by Botrytis cinerea, Plant Disease, vol.81, pp.36-40, 1997. ,
Monitoring viable airborne inoculum Version définitive du manuscrit publié dans / Final version of the manuscript published in Aerobiologia, Version postprint Comment citer ce document : Leyronas, C. (Auteur de correspondance), vol.29, pp.291-299, 2013. ,
Interhemispheric transport of viable fungi and bacteria from Africa to the Caribbean with soil dust, Aerobiologia, vol.21, pp.1-19, 2005. ,
The use of aerobiological methods for forecasting Botrytis spore concentrations in a vineyard, Grana, vol.49, pp.56-65, 2010. ,
Detection and quantification of airborne inoculum of Sclerotinia sclerotiorum using quantitative PCR, Plant Pathology, vol.58, pp.324-331, 2009. ,
, Real-time Environmental Applications and Display sYstem (READY) Website, 2011.
The effect of ultraviolet and solar radiation and temperature on survival of fungal propagules, Journal of Phytopathology, vol.133, pp.76-84, 1991. ,
Aerosol distribution over the western Mediterranean basin during a Tramontane/Mistral event, 2007. ,
URL : https://hal.archives-ouvertes.fr/ineris-00970206
, Annales Geophysicae, vol.25, pp.2271-2291
Variation in fungal spore concentrations of selected taxa associated to weather conditions in Cracow, PhD Dissertation, vol.21, pp.43-52, 1997. ,
Predicting the risk of soybean rust in Minnesota based on an integrated atmospheric model, International Journal of Biometeorology, vol.53, pp.509-521, 2009. ,
Monitoring viable airborne inoculum Version définitive du manuscrit publié dans / Final version of the manuscript published in Aerobiologia, Version postprint Comment citer ce document : Leyronas, C. (Auteur de correspondance), vol.29, pp.291-299, 2013. ,
Monitoring viable airborne inoculum Version définitive du manuscrit publié dans / Final version of the manuscript published in Aerobiologia, The original publication is available at www.springerlink, vol.29, pp.291-299, 2013. ,