References
Ikeda, Sachiko, 2016: FLABS, a forecasting system for the outbreak of Baraisho blight, Lecture material at the Laboratory of Development Economics, Graduate School of Agricultural Science, Hokkaido University, 2016/1/28.
Ikeda, Sachiko, Masako Morioka, and Takumi Kondo, 2016b: Memo on epidemic outbreak, Agricultural Development Study Group document 2016/6/29.
Shimizu, M., Tamura, H., and Kakuno, A. (2017) “Control measures for potato blight,” Northern Agriculture 84, 145-49.
Tamura H., Kato J., Shimizu M., Takeuchi H. (2011) “Effect of potato blight disease outbreak on yield and quality and effect of variety selection”. Northern Agriculture 79, 34-39,
Tamura, H., Nakatsu, T., Takeuchi, H., and Kato, J. (2015) “Organic fertilizer application methods”. Northern Agriculture 82, 274-278,
Report of the Agricultural Development Research Group, “Appropriate Pesticide Use Technology in Sankhu, Nepal,” pp. 35-42, 2017,
Hokkaido Pest Control Station, Hokkaido National Research Institute (abbreviated as Hokkaido Pest Control Station), 2015: Calculation method of infection likelihood index.
(http://www.agri.hro.or.jp/boujosho/flabs/kansen.html. 2015/09/15).
Yamaguchi, J., 2015: Estimation by FLABS, a system for predicting outbreaks of Potato blight (revised version), Report material of the Agricultural Development Study Group, 2015/12/23.
Yamaguchi, J., 2016: Meteorological characteristics of the Kathmandu Basin and forecast of the outbreak of Potato blight (2 manuscripts), Agricultural Development Study Group Document 2016/05/17.
Research Group of Agricultural Development, Sapporo, Japan
Yamaguchi, Potato Late Blight Infection in Observation Plot at Sankhu during the Winter Season, 2018, January 28, 2019 Research Group for Agricultural Development (February 28, 2025, manuscript to be determined)EPA,
Inglis, Debra Ann, and Babette Gundersen, 2019: Season-long Management of Late Blight on Potatoes and Tomatoes in Western Washington, WSU EB 1812 and 0958,. November 2019, p.7, available at web-site:.
https://www.nwpotatoresearch.com/images/documents/Late%20blight%20western%20WA%20WSU%20TB65E.pdf
Fry, W. E., Quantification of general resistance of potato cultivars and fungicide effects for integrated control of potato late blight., Phytopathology 68, 1650-1655.
Fry, W. E., Integrated control of potato late blight- effects of polygenic resistance and techniques of timing fungicide applications, Phytopathology 67, 415-420.
Situational_Report_on_Extreme_Precipitation_and_Flooding_Event_of_27-29_September_2024.pdf, October 08, 2024, https://www.dhm.gov.np/uploads/dhm/downloads/
MacKenzie, D. 1981. Scheduling Fungicide Applications for Potato Late Blight with Blitecast. Plant Disease 65:395-399.
Krause, R.A., L.B. Massie, and R.A. Hyre. 1975. Blitecast: A Computerized Forecast of Potato Late Blight. Plant Disease Reporter 59:95-98 .
United States Environmental Protection Agency, Reregistration Eligibility Decision for Mancozeb, EPA738-R-04-012, 169. ,2005 https://archive.epa.gov/pesticides/reregistration/web/pdf/mancozeb_red.pdf
Wallin, Jack R., Summary of Recent Progress in Predicting Late Blight Epidemics in the United States and Canada, American Potato Journal, Vol. 39, 306-312 1962
Research Group for Agricultural Development, Compiled by J. Yamaguchi, Questionnaire Survey on Crop Culture and Pesticide Use for Potato Planting at Sankhu, Kathmandu District, Nepal, in 2016, Version 3, 2018 J.