BGRcast: A Disease Forecast Model to Support Decision-making for Chemical Sprays to Control Bacterial Grain Rot of Rice |
Lee, Yong Hwan
(Disaster Management Division, Rural Development Administration)
Ko, Sug-Ju (Jeonnam Agricultural Research and Extension Services) Cha, Kwang-Hong (Jeonnam Agricultural Research and Extension Services) Park, Eun Woo (Department of Agricultural Biotechnology, Seoul National University) |
1 | Tsushima, S. and Naito, H. 1991. Spatial distribution and dissemination of bacterial gain rot of rice caused by Pseudomonas glumae. Ann. Phytopath. Soc. Jap. 57:180-187. DOI |
2 | Tsushima, S., Naito, H. and Koitabashi, M. 1995a. Change in panicle susceptibility associated with flowering rate of spikelets in bacterial grain rot of rice caused by Pseudomonas glumae. Ann. Phytopath. Soc. Jpn. 61:109-113. DOI |
3 | Tsushima, S., Naito, H. and Koitabashi, M. 1995b. Forecast of yield loss suffered from bacterial grain rot of rice in paddy fields by severely diseased panicles. Ann. Phytopath. Soc. Jpn. 61:419-424. DOI |
4 | Tsushima, S., Naito, H. and Koitabashi, M. 1996. Population dynamics of Pseudomonas glumae, the causal agent of bacterial grain rot of rice, on leaf sheaths of rice plant in relation to disease development in the field. Ann. Phytopath. Soc. Jpn. 62:108-113. DOI |
5 | Urakami, T., Ito-Yoshida, C., Araki, H., Kijima, T., Suzuki, K. I. and Komagata, K. 1994. Transfer of Pseudomonas plantarii and Pseudomonas glumae to Burkholderia as Burkholderia spp. and description of Burkholderia vandii sp. nov. Int. J. Syst. Bacteriol. 44:235-245. DOI |
6 | Yokoyama, T. and Okuhara, K. 1987. Relationship between the occurrence of rice bacterial grain rot and meteorological conditions and cultivars of rice. Proc. Assoc. Pl. Prot. Kyushu 33:4-8 (in Japnases). DOI |
7 | Andrea, Q.-G. and Fernando, G.-S. 2014. Burkholderia glumae in the rice crop in Costa Rica. Agron. Mesoam 25:371-381. DOI |
8 | Azegami, K., Nishiyama, K., Watanabe, Y., Kadota, I., Ohuchi, A. and Fukazawa, C. 1987. Pseudomonas plantarii sp. nov., the causal agent of rice seedling blight. Int. J. Syst. Bacteriol. 37:144-152. DOI |
9 | Goto, T. and Ohata, K. 1956. New bacterial diseases of rice (brown stripe and grain rot). Ann. Phytopathol. Soc. Jpn. 21:46-47 (in Japanese). |
10 | Cha, K. H., Lee, Y. H., Ko, S. J., Park, S. K. and Park, I. J. 2001. Influence of weather condition at heading period on the development of rice bacterial grain rot caused by Burkholderia glumae. Res. Plant Dis. 7:150-154 (in Korean). |
11 | Ham, J. H., Melanson, R. A. and Rush, M. C. 2010. Burkholderia glumae: next major pathogen of rice? Mol. Plant Pathol. 12:329-339. |
12 | Hikichi, Y. 1993a. Mode of action of oxolinic acid against bacterial seedling rot of rice caused by Pseudomonas glumae. I. Relationship between population dynamics of P. glumae on seedlings of rice and disease severity of bacterial seedling rot of rice. Ann. Phytopath. Soc. Jpn. 59:441-446. DOI |
13 | Hikichi, Y. 1993b. Mode of action of oxolinic acid against bacterial seedling rot of rice caused by Pseudomonas glumae. II. Efficacy of oxolinic acid against secondary infection. Ann. Phytopath. Soc. Jpn. 59:447-451. DOI |
14 | Hikichi, Y. 1993c. Relationship between population dynamics of Pseudomonas glumae on rice plants and disease severity of bacterial grain rot. J. Pesticide Sci. 18:319-324. DOI |
15 | Hikichi, Y. and Egami, H. 1995. Control system for bacterial grain rot of rice with oxolinic acid and seed selection with salt solution. Ann. Phytopathol. Soc. Jpn. 61:405-409 (in Japanese). DOI |
16 | Hikichi, Y., Egami, H., Oguri, Y. and Okuno, T. 1998. Fitness for survival of Burkholderia glumae resistant to oxolinic acid in rice plants. Ann. Phytopathol. Soc. Jpn. 64:147-152. DOI |
17 | Isogawa, Y., Kato, S. and Li, S. H. 1989. Studies on environmental factors and control methods of bacterial grain rot of rice caused by Pseudomonas glumae Kurita and Tabei. II. Chemical control methods. Res. Bull. Aichi-ken Agric. Res. Center 21:85-90 (in Japanese). |
18 | Hikichi, Y., Okuno, T. and Furusawa, I. 1993. Immunofluorescent antibody technique for detecting Pseudomonas glumae on rice plants. Ann. Phytopath. Soc. Jap. 59:477-480 (in Japanese). DOI |
19 | Hikichi, Y., Okuno, T. and Furusawa, I. 1994. Susceptibility of rice spikelets to infection with Pseudomonas glumae and its population dynamics. J. Pesticide Sci. 19:11-17. DOI |
20 | Hikichi, Y., Okuno, T. and Furusawa, I. 1995. Mode of action of oxolinic acid against bacterial seedling rot or rice caused by Pseudomonas glumae. III. Infection with P. glumae into plumules. Ann. Phytopath. Soc. Jpn. 61:134-136. DOI |
21 | Jeong, Y., Kim, J., Kim, S., Kang, Y., Nagamatsu, T. and Hwang, I. 2003. Toxoflavin produced by Burkholderia glumae causing rice grain rot is responsible for inducing bacterial wilt in many field crops. Plant Dis. 87:890-895. DOI |
22 | Jolliffe, I. T. and Stephenson, D. B. 2003. Forecast verification: A practitioner's guide in atmorspheric science. John Wiley & Sons Ltd, West Sussex, England. pp. 240. |
23 | KCPA. 2014. Agrochemicals use guide.edited by Korea Crop Protection Association. Samjung Publication, Seoul, Korea (in Korean). |
24 | Kim, J., Kang, Y., Kim, J.-G., Choi, O. and Hwang, I. 2010. Occurrence of Burkholderia glumae on rice and field crops in Korea. Plant Pathol. J. 26:271-272. DOI |
25 | Kurita, T. and Tabei, H. 1967. On the causal bacterium of grain rot of rice. Ann. Phytopath. Soc. Jap. 33:111 (in Japanese). |
26 | Luo, J., Xie, B. and Lilhui, X. 2007. First report of Burkholderia glumae isolated from symptomless rice seeds in China. Plant Dis. 91:1363. |
27 | Lee, C. W. 2010. Heading, flowering and fertilization. In: Rice, eds. by Koean Research Society of Rice, pp. 207-214. KNOU-PRESS, Seoul, Korea (in Korean). |
28 | Lee, Y. H., Ko, S. J., Cha, K. H., Choi, H. G., Lee, D. G., Noh, T. H., Lee, S. D. and Han, S.-S. 2004. Micro-weather factors during rice heading period influencing the development of rice bacterial grain rot. Res. Plant Dis. 10:167-174 (in Korean). DOI |
29 | Lee, Y. H., Ra, D.-S., Yeh, W.-H., Choi, H.-W., Myung, I.-S., Lee, S.-W., Lee, Y.-H., Han, S.-S. and Shim, H. S. 2010. Survey of major disease incidence of rice in Korea during 1999-2008. Res. Plant Dis. 16:183-190 (in Korean). DOI |
30 | Mizobuchi, R., Sato, H., Fukuoka, S., Tanabata, T., Tsushima, S., Imbe, T. and Yano, M. 2013. Mapping a quantitative trait locus for resistance to bacterial grain rot in rice. Rice 6:13. DOI |
31 | Mogi, S. and Tsushima, S. 1984. Recent epidemic development and ecology of bacterial grain rot of rice. Annu. Rep. Kyushu Agr. Expt. Station 22:47-53 (in Japanese). |
32 | Moldenhauer, K. and Slaton, N. 2001. Rice growth and development. In: Rice Production Handbook. Misc. Publ. 192, eds. by N.A. Slaton, pp. 7-14. Coop. Ext. Service, University of Arkansas, Little Rock, USA. |
33 | Nandakumar, R., Shahiahan, A. K. M., Yuan, X. L., Dickstein, E. R., Groth, D. E., Clark, C. A., Catwright, R. D. and Rush, M. C. 2009. Burkholderia glumae and B. gladioli cause bacterial panicle blight in rice in the southern United States. Plant Dis. 93:896-905. DOI |
34 | Oldeman, L. R., Seshu, D. V. and Cady, F. B. 1987. Response of rice to weather variables. In: Weather and rice, pp 5-39. IRRI, Laguna, Philippines. |
35 | Shahjahan, A. K. M., Rush, M. C., Groth, D. and Clark, C. A. 2000. Panicle blight. Rice J. 15:26-29. |
36 | Pinson, S. R. M., Shahjahan, A. K. M., Rush, M. C. and Groth, D. E. 2010. Bacterial panicle blight resistance QTLs in rice and their association with other disease resistance loci and heading date. Crop Sci. 50:1287-1297. DOI |
37 | Riera-Ruiz, C., Vargas, J., Cedeno, C., Quirola, P., Escobar, M., Cevallos-Cevallos, J. M., Ratti, M. and Peralta, E. L. 2014. First report of Burkholderia glumae causing bacterial panicle blight on rice in Ecuador. Plant Dis. 98:988-989. |
38 | Sayler, R. J., Cartwright, R. D. and Yang, Y. N. 2006. Genetic characterization and real-time PCR detection of Burkholderia glumae, a newly emerging bacterial pathogen of rice in the United States. Plant Dis. 90:603-610. DOI |
39 | Sokal, R. R. and Rohlf, F. J. 1973. Introduction to biostatistics. W. H. Freeman and Company, San Francisco. 368 pp. |
40 | Takashi, H. and Hideo, I. 2013. Chemical control of plant diseases. J. Gen. Plant Pathol. 79:390-401. DOI |
41 | Trung, H. M., Van, N. V., Vien, N. V., Lam, D. T. and Lien, M. 1993. Occurrence of rice grain rot disease in Vietnam. Int. Rice Res. Notes 18:30. |
42 | Tsushima, S. 1996. Epidemiology of bacterial grain rot of rice caused by Pseudomonas glumae. Jap. Agric. Res. Q. 30:85-89. |
43 | Tsushima, S., Mogi, S., Naito, H. and Saito, H. 1991. Population of Pseudomonas glumae on rice plants. Ann. Phytopath. Soc. Jap. 57:145-152. DOI |
44 | Tsushima, S., Mogi, S. and Sato, H. 1985. Effect of inoculum density, incubation temperature and incubation period on the development of rice bacterial grain rot. Proc. Assoc. P1. Prot. Kyushu 31:11-12 (in Japanese). DOI |