Management of maize lethal necrosis disease through hand weeding and insecticide applications at Arba Minch in Southern Ethiopia

References

• Abendroth, L., Elmore, R., Hartzler, R. G., McGrath, C., Mueller, D. S., Munkvold, G. P., … Tylka, G. L. (2009). Corn field guide (pp. 26). Extension and Outreach Publications. Retrieved from http://lib.dr.iastate.edu/extension_pubs/26
   Google Scholar
• Adams, I. P., Harju, V. A., Hodges, T., Hany, U., Skelton, A., & Rai, S. (2014). First report of maize lethal necrosis disease in Rwanda. New Disease Report, 29: 22. doi:10.5197/j.2044-0588.2014.029.022
   Google Scholar
• ASARECA. (2013). Workshop to develop a strategic plan for maize lethal necrosis disease for eastern and central Africa. Nairobi, Kenyahttp://www.ndrs.org.uk/article.php?id=029022
   Google Scholar
• Beyene, Y., Gowda, M., Suresh, L. M., Mugo, S., Olsen, M., Oikeh, S. O., … Prasanna, B. M. (2017). Genetic analysis of tropical maize inbred lines for resistance to maize lethal necrosis disease. Euphytica, 213,23.
   Web of Science ®Google Scholar
• Birch, C. J. (1996). Testing the performance of two maize simulation models in a range of environments. Environmental Software, 11(9), 1.8. doi:10.1016/S0266-9838(96)00031-7
   Google Scholar
• Bockelman, D. L., Claflin, L. E., & Uyemoto, J. K. (1982). Host range and seed-transmission studies of maize chlorotic mottle virus in grasses and corn. Plant Disease, 66(3), 216–218. doi:10.1094/PD-66-216
   Web of Science ®Google Scholar
• Braidwood, L., Quito-Avila, D. F., Cabanas, D., Bressan, A., Wangai, A., & Baulcombe, D. C. (2017). Maize chlorotic mottle virus exhibits low divergence between differentiated regional subpopulations. Scientific Report, 8, 1173. doi:10.1038/s41598-018-19607-4
   Web of Science ®Google Scholar
• Brault, V., Uzest, M., Monsion, B., Jacquot, E., & Blanc, S. (2010). Aphids as transport devices for plant viruses. Comptes Rendus Biologis, 333, 524–538. doi:10.1016/j.crvi.2010.04.001
   PubMed Web of Science ®Google Scholar
• Cabanas, D., Watanabe, S., Higashi, C. H. V., & Bressan, A. (2013). Dissecting the mode of maize chlorotic mottle virus transmission (Tombusviridae: Machlomovirus) by Frankliniella williamsi (Thysanoptera: Thripidae). Journal of Economic Entomology, 106(1), 16–24. doi:10.1603/EC12056
   PubMed Web of Science ®Google Scholar
• Campbell, C. L., & Madden, L. V. (1990). Introduction to plant disease epidemiology (1st ed., pp. 532). New York: John Wiley and Sons.
   Google Scholar
• Castillo, J., & Hebert, T. T. (1974). New virus disease affecting maize in Peru [Nueva enfermedad virosa afectando al maiz en el Peru]. Fitopatologia, 9, 79–84.
   Google Scholar
• International Maize and Wheat Improvement Center (CIMMYT). (1988). From agronomic data to farmer recommendations: An economics training manual. Completely revised edition (pp. 79). Mexico. DF: CIMMYT. ISBN 968-6127-18-6.
   Google Scholar
• CSA (Central Statistical Agency). (2015). Agricultural sample survey, 2014/2015. Report on area and production of crops (Private peasant holdings, main season). Central Statistical Agency, Volume 1, No. 578. Addis Ababa, Ethiopia. pp: 10–14.
   Google Scholar
• CSA (Central Statistical Agency). (2017). Agricultural sample survey, 2016/2017. Report on area and production of crops (Private peasant holdings, main season). Central Statistical Agency, Volume 1, No. 584. Addis Ababa, Ethiopia. pp: 10–18.
   Google Scholar
• Das, T. K. (2008). Weed science. Basics and application (pp. 901). New Delhi: Jain brothers.
   Google Scholar
• De Groote, H., Wangare, L., Kanampiu, F., Odendo, M., Diallo, A., Karaya, H., & Friesen, D. (2008). The potential of a herbicide resistant maize technology for Striga control in Africa. Agricultural System, 97, 83–94. doi:10.1016/j.agsy.2007.12.003
   Web of Science ®Google Scholar
• Demissie, G., Deressa, T., Haile, M., Bogale, G., Dida, M., & Chibsa, T. (2016). Prevalence, distribution and impact of maize lethal necrosis disease (MLND) in Ethiopia. Pest Management Journal of Ethiopia, 18, 37–49.
   Google Scholar
• FAOSTAT. (2015). Statistical databases and data-sets of the food and agriculture organization of the United Nations. Retrieved from http://faostat.fao.org/site/339/default.aspx.
   Google Scholar
• FAOSTAT. (2017). Production crops E all data. Food and agriculture organization of the United Nations. Retrieved from http://faostat3.fao.org/download/Q/*/E
   Google Scholar
• Fatma, H. K., Tileye, F., & Ndakidemi, P. A. (2016). Insights of maize lethal necrotic disease: A major constraint to maize production in East Africa. African Journal of Microbiology Research, 10(9), 271–279. doi:10.5897/AJMR2015.7534
   Google Scholar
• Fentahun, M., Feyissa, T., Abraham, A., & Kwak, H. R. (2017). Detection and characterization of maize chlorotic mottle virus and sugarcane mosaic virus associated with maize lethal necrosis disease in Ethiopia: An emerging threat to maize production in the region. European Journal of Plant Pathology, 149, 1011–1017. doi:10.1007/s10658-017-1229-2
   Web of Science ®Google Scholar
• Gibson, L., & Benson, G. (2002). Origin, History, and Uses of Corn (Zea mays), Iowa State University, Department of Agronomy. Retrieved from http://www.agron.iastate.edu
   Google Scholar
• Gomez, K. A., & Gomez, A. A. (1984). Statistical procedures for agricultural research (2nd ed., pp. 680). John Wiley and Sons, Inc.
   Google Scholar
• Gordon, D. T., Bradfute, O. E., Gingery, R. E., Nault, L. R., & Uyemoto, J. K. (1984). Maize chlorotic mottle virus. description of plant viruses, 284 [ed. by association of applied biologists]. Retrieved from http://www.dpvweb.net/dpv/showdpv.php?dpvno=284
   Google Scholar
• Guadie, D., Abraham, A., Tesfaye, K., Winter, S., Menzel, W., & Knierim, D. (2018a). First report of maize yellow mosaic virus infecting maize (Zea mays) in Ethiopia. Plant Disease, 102(5), 1044. doi:10.1094/PDIS-08-17-1290-PDN
   Web of Science ®Google Scholar
• Guadie, D., Knierim, D., Winter, S., Tesfaye, K., & Abraham, A. (2018b). Survey for the identification and geographical distribution of viruses and virus diseases of maize (Zea mays L.) in Ethiopia. European Journal of Plant Pathology. doi:10.1007/s10658-018-1568-7
   Web of Science ®Google Scholar
• SAS Institute Inc. (2009). SAS/Stat guide for personal computers, version 9.2 edition. Cary, North Carolina, USA: SAS Institute Inc.
   Google Scholar
• James, W. C., & Shih, C. S. (1973). Size and shape of plots for estimating yield losses from cereal foliage diseases. Experimental Agriculture, 9, 63–71. doi:10.1017/S0014479700023693
   Web of Science ®Google Scholar
• James, W. C., & Teng, P. S. (1979). The quantification of production constraints associated with plant diseases. Applied Biology, 4, 201–267.
   Google Scholar
• Jensen, S. G. (1985). Laboratory transmission of maize chlorotic mottle virus by three species of corn root worms. Plant Disease, 69(10), 864–868. doi:10.1094/PD-69-864
   Web of Science ®Google Scholar
• Jiang, X. Q., Wilkinson, D. R., & Berry, J. A. (1990). An outbreak of maize chlorotic mottle virus in Hawaii and possible association with thrips. Phytopathology, 80, 1060.
   Google Scholar
• Jones, D. (2018). Early season maize lethal necrosis disease (MLND) and fall armyworm update. Thinking Agronomy Newsletter. Retrieved from https://cropnuts.com/maize-lethal-necrosis-disease/
   Google Scholar
• Karanja, J., Derera, J., Gubba, A., Mugo, S., & Wangai., A. (2018). Response of selected maize inbred germplasm to maize lethal necrosis disease and its causative viruses (Sugarcane Mosaic Virus and Maize Chlorotic Mottle Virus) in Kenya. The Open Agriculture Journal, 12, 215–225. doi:10.2174/1874331501812010215
   Google Scholar
• Kawano, K. (1990). Harvest index and evaluation of major food crop cultivars in the tropics. Euphytica, 46, 195–202. doi:10.1007/BF00027218
   Web of Science ®Google Scholar
• Kiruwa, F. H., Tileye, F., & Patrick, N. (2016). Insights of maize lethal necrotic disease: A major constraint to maize production in East Africa. African Journal of Microbiology Research, 10(9), 271–279. doi:10.5897/AJMR2015.7534
   Google Scholar
• Kusia, E. S. (2014). Characterization of maize chlorotic mottle virus and sugarcane mosaic virus causing maize lethal necrosis disease and spatial distribution of their alternative hosts in Kenya (MSc Thesis). Pan African University, Institute for Basic Sciences Technology and Innovation. Retrieved from http://hdl.handle.net/123456789/166
   Google Scholar
• Kusia, E. S., Subramanian, S., Nyasani, J. O., Khamis, F., Villinger, J., Ateka, E. M., & Pappu, H. R. (2015). First report of lethal necrosis disease associated with co-infection of finger millet with maize chlorotic mottle virus and sugarcane mosaic virus in Kenya. Plant Disease, 99(6), 899–900. doi:10.1094/PDIS-10-14-1048-PDN
   Web of Science ®Google Scholar
• Mahuku, G., Lockhart, B. E., Wanjala, B., Jones, M. W., Kimunye, J. N., Stewart, L. R., & Redinbaugh, M. G. (2015). Maize lethal necrosis (MLN), an emerging threat to maize-based food security in sub-Saharan Africa. Phytopathology, 105(7), 956–965. doi:10.1094/PHYTO-12-14-0367-FI
   PubMed Web of Science ®Google Scholar
• Mariki, A. (2017). Distribution of maize lethal necrosis disease, its causal viruses and alternative hosts in the north- central regions of Tanzania (MSc Thesis in Crop Science). Makerere University, Kampala, Uganda. p. 90. Retrieved from https.//hdl.handle.net/10568/81213
   Google Scholar
• Miano, D. W. (2014). Maize lethal necrosis disease: A real threat to food security in the eastern and central Africa region. Nairobi, Kenya. Retrieved from http://www.nuruinternational.org
   Google Scholar
• Ministry of Agriculture and Natural Resources (MoANR) & Ethiopian Agricultural Transformation Agency (EATA). (2016). Soil fertility status and fertilizer recommendation atlas of the southern nations, nationalities and peoples’ regional state, Ethiopia (pp. 196–197). Addis Ababa, Ethiopia.
   Google Scholar
• Mudde, B., Olubayo, F. M., Miano, D. W., Asea, G., Kilalo, D. C., Kiggundu, A., … Adriko, J. (2018). Distribution, incidence and severity of maize lethal necrosis disease in major maize growing agro-ecological zones of Uganda. Journal of Agricultural Science, 10(6), 72–85. doi:10.5539/jas.v10n6p72
   Google Scholar
• Namikoye, E. S., Kariuki, G. M., Kinyua, Z. M., Githendu, M. W., & Kasina, M. (2018). Cropping system intensification as a management method against vectors of viruses causing maize lethal necrosis disease in Kenya. East African Agricultural and Forestry Journal. doi:10.1080/00128325.2018.1456298
   PubMedGoogle Scholar
• Nault, L. R., Styer, W. E., Coffey, M. E., Gordon, D. T., Negi, L. S., & Niblett, C. L. (1978). Transmission of maize chlorotic mottle virus by chrysomelid beetles. Phytopathology, 68, 1071–1074. doi:10.1094/Phyto-68-1071
   Web of Science ®Google Scholar
• Nelson, S. J., Brewbaker, A., & Hu, J. (2011). Maize chlorotic mottle virus. Plant Disease, 79, 1–6.
   Google Scholar
• Niblett, C. L., & Claflin, L. E. (1978). Corn lethal necrosis - a new virus disease of corn in Kansas. Plant Disease Reporter, 6(1), 15–19.
   Google Scholar
• Redinbaugh, M. G., & Zambrano-Mendoza, J. L. (2014). Control of virus diseases in maize. In G. Lobenstein & N. Katis (Eds.), Control of plant virus disease: Seed-propagated crops (pp. 391–429). Waltham, MA USA: Academic Press.
   Google Scholar
• Robert, G. D., & James, H. T. (1991). Principles of statistics. A biomerical approach. (2nd ed., pp. 633). New York, NY: McGraw-Hill College. ISBN-10: 0070610282; ISBN-13: 978-0070610286.
   Google Scholar
• Scheets, K. (2004). Maize chlorotic mottle. In H. Lapierrre & P. A. Signoret (Eds.), Viruses and virus diseases of Poaceae (Gramineae) (pp. 642–644). Paris: Institute National de la Recherche Agronomique.
   Google Scholar
• Shukla, D. D., Ward, C. W., & Brunt, A. A. (1994). The potyviridae. Wallingford, UK: CAB International. ISBN: 0851988644.
   Google Scholar
• Singh, M., Ashutosh, S., Upadhyaya, P. E., & Rao, G. E. (2005). Transmission studies on an indian isolate of sugarcane mosaic potyvirus. Sugar Technology, 7(2–3), 32–38. doi:10.1007/BF02942526
   Google Scholar
• Smale, B. D., & Jayne, T. (2011). Maize revolutions in sub-Saharan Africa (World Bank Policy Research Working Paper, No. 5659). Retrieved from http://documents.worldbank.org/curated/en/475801468209965095/pdf/WPS5659.pdf
   Google Scholar
• Stoud, A., & Parker, T. (1989). Weed identification guide for Ethiopia (pp. 278). FAO publication.
   Google Scholar
• Tang, L., Wu, J., Ali, S., & Ren, S. (2013). Establishment of the baseline toxicity data to different insecticides for Aphis craccicirora Koch and R. maidis (Fitch). (Homoptera: Aphidian) by glass tube residue film technique. Pakistan Journal of Zoology, 45(2), 411–415.
   Web of Science ®Google Scholar
• Terefe, H., & Getachew, G. (2019). Distribution and association of factors influencing emerging maize lethal necrosis disease epidemics in Southern Ethiopia. Cogent Food and Agriculture, 5, 1683950. doi:10.1080/23311932.2019.1683950
   Google Scholar
• Tewabech, T., Getachew, A., Fekede, A., & Dagne, W. (2002). Maize pathology research in Ethiopia: A review. pp. 97–105. In: N. Mandefro, D. Tanner, & S. Twumasi-Afriyie. (eds.), Enhancing the Contribution of Maize to Food Security in Ethiopia. Proceedings of the 2nd National Maize Workshop of Ethiopia. Addis Ababa, Ethiopia: EARO and CIMMYT. doi:10.1038/sj/jim/7000217
   Google Scholar
• Trigiano, R. N., Windham, M. T., & Windham, A. S. (2008). Plant pathology: Concepts and laboratory exercise (Vol. 21, pp. 269). Boca Raton: CRC Press.
   Google Scholar
• Uyemoto, J. K. (1983). Biology and control of maize chlorotic mottle virus. Plant Disease, 67(1), 7–10. doi:10.1094/PD-67-7
   Web of Science ®Google Scholar
• Uyemoto, J. K., Bockelman, D. L., & Clafin, L. E. (1980). Severe outbreak of maize lethal necrosis disease in Kansas. Plant Disease, 64, 99–100. doi:10.1094/PD-64-99
   Web of Science ®Google Scholar
• Wangai, A., Kinyua, Z. M., Otipa, M. J., Miano, D. W., Kasina, J. M., Leley, P. K., & Mwangi, T. N. (2012b). Maize (corn) Lethal Necrosis (MLN) disease. KARI Information Brochure. Retrieved from http://www.disasterriskreduction.net/fileadmin/user_upload/drought/docs/1%20%20Maize%2Lethal%20Necrosis%20KARI.pdf
   Google Scholar
• Wangai, A. W., Redinbaugh, M. G., Kinyua, Z. M., Mahuku, G., Sheets, K., & Jeffers, D. (2012a). First report of maize chlorotic mottle virus and maize lethal necrosis in Kenya. Plant Disease, 96(10), 1582–1583. doi:10.1094/PDIS-06-12-0576-PDN
   PubMed Web of Science ®Google Scholar
• Wheeler, B. J. (1969). In Mitton, P. J. (Ed.), An introduction to plant diseases (pp. 374). John Wiley and Sons, Inc.
   Google Scholar
• Xie, L., Zhang, J. Z., Wang, Q. A., Meng, C. M., Hong, J. A., & Zhou, X. P. (2011). Characterization of maize chlorotic mottle virus associated with maize lethal necrosis disease in China. Journal of Phytopathology, 159, 191–193. doi:10.1111/jph.2011.159.issue-3
   Web of Science ®Google Scholar
• Zhang, M. Q., Rao, G. P., Gaur, R. K., Ruan, M. H., Singh, M., Sharma, S. R., … Singh, P. (2008). Characterization, diagnosis and management of plant viruses. Industrial Crops and Products, 1, 111–144.
   Google Scholar
• Zhao, M., Ho, H., Wu, Y., He, Y., & Li, M. (2014). Western flower thrips (Frankliniella occidentalis) transmits maize chlorotic mottle virus. Journal of Phytopathology, 162, 532–536. doi:10.1111/jph.2014.162.issue-7-8
   Web of Science ®Google Scholar