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Évolutif Du Pouvoir Pathogène de Venturia inaequalis En Lien Avec La Domestication Du Pommier et L'utilisation de Résistances Quantitatives En Amélioration Variétale' (Doctorat Sciences Agronomiques, 2011. ,
Estimation de la moyenne et de la variance de l'abondance de populations en écologie à partir d'échantillons de petite taille, Doctorat Sciences Agricoles, 2011. ,
Factors affecting infection and disease development on olive leaves inoculated with Fusicladium oleagineum, Plant Disease, vol.95, pp.1139-1185, 2011. ,
Effect of temperature, wetness duration and leaf age on infection and development of leaf spot, Acta Horticulturae, vol.586, pp.797-800, 2002. ,
Strategies for Using Plant Protection Products against Apple Scab (Venturia inaequalis) to Avoid Resistance Development, Bulletin OILB, vol.84, pp.127-158, 2012. ,
On Estimating Non-Linear Response of Fungal Development under fluctuating Temperatures, Plant Pathology, vol.45, pp.163-71, 1996. ,
A Dynamic Model Simulating Infection of Apple Leaves by Venturia inaequalis, Plant Pathology, vol.44, pp.865-76, 1995. ,
Corrigendum to "Power of the Mann-Kendall and Spearman"s Rho Tests for Detecting Monotonic Trends in Hydrological Series, Journal of Hydrology, vol.259, pp.254-71, 2002. ,
, Power of the Mann-Kendall and Spearman's Rho Tests for Detecting Monotonic Trends in Hydrological Series, Journal of Hydrology, vol.264, pp.262-63, 2002.
Correlation and Simple Linear Regression, Radiology, vol.227, pp.617-639, 2003. ,
, Annexe N°1 : détails taxonomiques concernant Venturia inaequalis et Fusicladium oleagineum (source : EPPO Global Database) Venturia inaequalis Fusicladium oleagineum
, Annexe N°4 : Optipaon, un outil d'aide à la décision permettant
, OPTIPAON, a decision support system to predict the risk of peacock eye of olive in southern France, Les résultats présentés dans cette Annexe font l'objet d'une publication dans Proceedings of the 7th Congress on plant protection, pp.123-150, 2014.
Grape canopy surface wetness: simulation versus visualisation and measurement, Agricultural and Forest Meteorology, vol.139, pp.361-72, 2006. ,
Development of the leaf spot fungus in the olive leaf, Phytopathology, vol.39, pp.403-413, 1949. ,
Effect of temperature, relative humidity, leaf wetness and leaf age on Spilocaea oleagina conidium germination on olive leaves, European Journal of Plant Pathology, vol.120, pp.211-233, 2008. ,
Field models for the prediction of leaf infection and latent period of Fusicladium oleagineum on olive based on rain, temperature and relative humidity, Plant Pathology, vol.62, pp.657-666, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-02650753
Spatial variability of leaf wetness duration in different crop canopies, International Journal of Biometeorology, vol.49, pp.363-70, 2005. ,
Effect of temperature, wetness duration and leaf age on infection and development of olive leaf spot, Acta Horticulturae, vol.586, pp.797-800, 2002. ,
Factors affecting infection and disease development on olive leaves inoculated with Fusicladium oleagineum, Plant Disease, vol.95, pp.1139-1185, 2011. ,