AGRO 7009 – Epidemiology For Plant Deseases Management
Level
Master/Doctoral
Credits
04 (60 h)
Content:
Search for understanding the bases of Botanical Epidemiology with studies of disease patterns and description of the temporal and spatial progress of epidemics. Establishment of methods for studying the pathogen, the host and the environment and yield loss assessment; estimating epidemic risks. Reflections on epidemiological studies for integrated disease management based on case studies.
Professor
References
ANGELI, S. S.; MAY DE MIO, L.L.; AMORIM, L. (2017). Comparative analysis of Monilinia fructicola and M. laxa isolates from Brazil: monocyclic components of peach brown rot. Ciencia Rural, 47(6), e20160300. BERGAMIN FILHO, A. Epidemiologia. In: BERGAMIN FILHO, A.; KIMATI, H.; AMORIM, L. (Eds.). Manual de fitopatologia: princípios e conceitos. 3. Ed. São Paulo: Agronômica Ceres, 1995. v.1, p. 540-691
BERGAMIN FILHO, A.; AMORIM, L. Doenças de plantas tropicais: epidemiologia e controle econômico. São Paulo: Agronômica Ceres, 1996. 289p.
COOKE, B.M.; JONES, D.G.; KAYE, B. (Eds.). The epidemiology of plant diseases. 2. ed. Londres: Springer, 2006. 576p.
FLINCKH, M.R; van BRUGGEN. A.H.C.; TAMM, L. Plant Disease and their Management in organic agriculture, APS Press, 2015
FRANCL, L.J.; NEHER, D.A. (Eds.). Exercises in plant disease epidemiology. St. Paul: APS Press, 1997. 242p.
FRANNTSZEN, J. Epidemiology and plant Ecology. Principles and applications.Wolrd Scientific. 2007. 172 p.
HAMADA, N.A.; MOREIRA, R.R.; NESI, C. N.; May De Mio, L.L. (2019). Pathogen dispersal and Glomerella leaf spot progress within apple canopy in Brazil. Plant Disease, 103: 3209-3217.
KRANZ, J. Comparative epidemiology of plant diseases. Heidelberg: Springer-Verlag, 2003. 206p.
KRANZ, J.; ROTEM, J. (Eds.). Experimental techniques in plant disease epidemiology. Berlin: Springer-Verlag, 1988. 299p.
MADDEN, L.V.; HUGHES, G.; VAN DEN BOSCH, F. The study of plant disease epidemics. St. Paul: APS Press, 2007. 421p.
MCQUAID CF, VAN DEN BOSCH F, SZYNISZEWSKA A, ALICAI T, PARIYO A, CHIKOTI PC, et al. (2017) Spatial dynamics and control of a crop pathogen with mixed-mode
MORAL, J. MORGAN, D. TRAPERO, A. MICHAILIDES, T.J. (2019) Ecology and Epidemiology of Diseases of Nut Crops and Olives Caused by Botryosphaeriaceae Fungi in California and Spain, 103:1809-1827.
NELSON, M. E., GENT, D. H., GROVE, G. G. 2015. Meta-analysis reveals a critical period for management of powdery mildew on hop cones. Plant Dis. 99:632-640.
PETHYBRIDGE, S. J., NELSON, S. C. (2015). Leaf Doctor: A new portable application for quantifying plant disease severity. Plant Dis. 99:1310-1316.
REIS, E.M. (Org.). Previsão de doenças de plantas. Passo Fundo: UPF, 2004. 316p.
ROESE, A. D. ; RIBERIO Jr, P.J.; MAY-DE MIO, L. L. (2017). Microclimate in agrosilvopastoral system enhances powdery mildew severity compared to agropastoral and non-integrated crop. Tropical Plant Pathology, 42: 382-390.
SAVARY, S.; COOKE, B.M. (Eds.). Plant disease epidemiology: facing challenges of the 21st century. Berlin: Springer-Verlag, 2005. 138p.
SUFFERT, F. THOMPSON R.N. 2018. Some reasons why the latent period should not always be considered constant over the course of a plant disease epidemic. Plant Pathology, 67:1831–1840
VALE, F.X.R.; JESUS JR., W.C.; ZAMBOLIM, L. (Eds.). Epidemiologia aplicada ao manejo de doenças de plantas. Belo Horizonte: Perfil, 2004. 531p.