Effect of Weather Factors on Spore Population Dynamics of Rice Blast Fungus in Guilan Province

Journal title

Journal of Plant Protection Research




vol. 49


No 3


Divisions of PAS

Nauki Biologiczne i Rolnicze


Committee of Plant Protection PAS ; Institute of Plant Protection – National Research Institute




DOI: 10.2478/v10045-009-0051-z ; ISSN 1427-4345 ; eISSN 1899-007X


Journal of Plant Protection Research; 2009; vol. 49; No 3


S. Calvero, Jr. (1996), Development of empirical forecasting models for rice blast based on weather factors, Plant Pathol, 45, 667. ; Chien C. (1984), Studies on the epidemiology of rice blast disease in central areas of Taiwan, J. Agric. Res. China, 33, 169. ; El Refaei M.J. 1977. Epidemiology of rice blast disease in the tropics with special reference to leaf wetness in relation to disease development. Ph.D. Thesis, Faculty of the Postgraduate School, Indian Agricultural Research Institute, New Delhi. ; Esmailpoor M. (1980), Study on the environmental factors affecting rice blast, Iranian Plant Dis. Pest J, 2, 105. ; Hashiguchi S. (1983), Quantificational method applied to the forecasting of the rice blast occurrence, Plant Prot, 37, 425. ; IRRI. 1996. Standard Evaluation System for Rice. The Philippines. 4th ed., 52 pp. ; Izadyar M. (1983), The relation between weather conditions and rice leaf and neck blast development on different rice cultivars in Guilan province, null, 85. ; Izadyar M. (1993), Rice blast and its forecasting in Guilan province, null, 64. ; Kim C. (1987), A model to forecast rice blast disease based on weather indexing, Korean J. Plant Pathol, 3, 210. ; Kim C. (1988), Field testing a computerized forecasting system for rice blast disease, Phytopathology, 78, 931. ; Kim C. (1982), Improved methods for rice blast forecasting, Korean J. Plant Prot, 1, 19. ; Kim C. (1975), A trial of estimating number of leaf blast lesions on rice plants on the basis of the number of trapped spores and wetting period of leaves, Ann. Phytopathol. Soc. Japan, 41, 492. ; Kingsolver C. (1984), Rice blast epidemiology, Bull. Pennsylvania Agric. Exp. Stn, 853, 1. ; Kono T. (1977), Studies on the utilization method of electronic computer in the forecast work on disease and insect outbreak. 4. The system calculating forecast values using multiple regression analysis. Bull, Hiroshima Agric. Exp. Stn, 39, 1. ; Kuribayashi K. (1952), Studies on forecasting of the rice blast disease, Spec. Rep. Nagano agric. Exp. Stn, 13, 1. ; Muramatsu Y. (1977), Attempts to utilize computers for forecasting rice diseases and pets, Plant Prot, 31, 59. ; Ono K. (1965), The Rice Blast Disease, 173. ; Padmanabhan S. (1965), Studies on forecasting outbreaks of blast disease of rice. 1. Influence of meteorological factors on blast incidence at Cuttack, Proc. Indian Ac. Sc, 62, 117. ; Shimizu S. (1980), Quantification analysis of variation of rice blast outbreak and its application to disease forecast, Bul. Agric. Exp. Stn. Naga Agric. Res. Center, 41, 1. ; Tsai W. (1986), Prediction of rice leaf blast. 3. Meteorological variables and percentage of leaf area infected by <i>Pyricularia oryzae.</i>, Plant Prot. Bull. Taiwan, 26, 171. ; Tsai W. (1984), Prediction of rice leaf blast. 1. Meteorological variables and the development of the number of lesions, J. Agric. Res. China, 34, 71. ; Tsai W. (1985), Prediction of rice leaf blast. 2. The relationships of meteorological variables, conidial numbers and the development of the number of lesions, J. Agric. Res. China, 34, 71. ; Uehara Y. (1985), Regional classification of rice blast occurrence in Hiroshima prefecture by multivariate analysis, Bull. Hiroshima Pre. Agric. Exp. Stn, 49, 19. ; Yoshino R. (1971), Ecological studies on the infection in rice blast epidemics. I. Infection rates and hyphal growth in epidermal cells, Proc. Assoc. Plant Prot. Hokuriku, 19, 14.