American Journal of BioScience
Volume 7, Issue 1, January 2019, Pages: 7-15
Received: Jan. 8, 2019;
Accepted: Feb. 13, 2019;
Published: Mar. 12, 2019
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Afrasa Mulatu, Department of Biology, College of Natural and Computational Sciences, Bule Hora University, Bule Hora, Ethiopia
Diriba Shanko, Department of Biology, College of Natural and Computational Sciences, Bule Hora University, Bule Hora, Ethiopia
The current research work was accompanied by the disease sample collection, isolation and identification of the causal agents involved in the coffee tree death complexes and evaluate the incidence and prevalence of coffee wilt disease (CWD) thereby evaluating the impact of the CWD on the livelihood of the coffee farmers in western Guji zone. The current status of CWD was systematically assessed and examined in 36 sample coffee farms across western Guji zone. At the same time, three to four samples of infected coffee tree parts were randomly collected from each plot and the causal pathogen was isolated and identified in the laboratory. Primary and secondary data sources were collected to determine the impact of CWD on rural livelihoods in the study area. The result indicated that CWD was prevalent in the study sites, with highest mean incidence of 53.1% in kercha, 49.1% in Hambela Wamana and 42.3% in Odo Shakiso districts that indicated the present status of the diseases is remarkably on increasing trend and poses a big threat to the farmers. The difference in incidence of CWD across the districts and among the peasant associations was strongly associated with human factors and variation in coffee production systems. In general, this research works implicated that CWD was developed to an important disease level and is one of the potential biotic factors affecting the livelihood of the rural people in the study area and thus the disease management practices should duly considered to tackle this devastating disease.
Incidence and Prevalence of Coffee wilt Disease (Gibberella xylarioides) and Its Impact on the Rural Livelihoods in Western Guji Zone, Southern Ethiopia, American Journal of BioScience.
Vol. 7, No. 1,
2019, pp. 7-15.
Flood, J., 2010. The importance of plant health to food security. Food Secur., 2 (3): 215-31.
Phiri and Baker, 2009. Coffee wilt disease in Africa; a synthesis of the work for the Regional Coffee Wilt Programme (RCWP). In, (Ed.)^(Eds.). Final Technical Report. CABI: pp.
Girma Adugna, A. Million, H. Hindorf, Arega Zeru, D. Teferi, and Chala Jefuka, 2010. 4 Coffee Wilt Disease in Ethiopia. Coffee Wilt Disease: 50.
Adugna, G., M. Adana, H. Hindorf, A. Zeru, D. Teferi, and C. Jefuka, 2010. Coffee Wilt Disease in Ethiopia. 50.
Girma Adugna, Chala Jefuka, Demelash Teferei, and Arega Zeru, 2008. Multiple resistances to Coffee Berry Disease, Coffee Wilt and Leaf Rust in Coffea arabica populations of Ethiopia. XXII ASIC, Campinas, SP, Brazil.
Alemu, T., 2012. A review of coffee wilt disease, Gibberella xylarioides (Fusarium xylarioides) in Africa with special reference to Ethiopia. Ethiop. J. Biol. Sci., 11 (1).
Derso, E., 2000. Preselection Methods for Coffee Berry Disease (CBD) Resistance in Ethiopia.
McDougall, G. J., N. N. Kulkarni, and D. Stewart, 2008. Current developments on the inhibitory effects of berry polyphenols on digestive enzymes. BioFactors, 34 (1): 73-80.
Adugna, G., 2004. Diversity in pathogenicity and genetics of Gibberella xylarioides (Fusarium xylarioides) populations and resistance of Coffee species. Ethiopia. PhD dissertation. University of Bonn, Bonn, Germany.
Adugna, G., B. Balachew, S. Tesfaye, T. Endale, and T. Kufa, Year. Group discussions, synthesis and recommendations. Coffee diversity and knowledge. In: (Ed.)^(Eds.), 505-10: 505-10.
Phiri, N. and P. Baker, 2009. A synthesis of the work of the Regional Coffee Wilt Programme 2000–2007.
Phiri, N., M. Kimani, E. Negussie, S. Simons, and G. Oduor, 2010. Management of Coffee Wilt Disease. Coffee Wilt Disease: 137.
Adugna, G. and H. Hindorf, Year. Recent investigation on coffee Tracheomycosis, Gibberella xylarioides (Fusarium xylarioides) in Ethiopia. In: (Ed.)^(Eds.), 165-71: 165-71.
Adugna, G., C. Chufuka, D. Teferi, and A. Zeru, Year. Multiple resistances to coffee berry disease, coffee wilt and leaf rust in Coffea arabica populations. In: (Ed.)^(Eds.) Association Scientifique Internationale du Café (ASIC), 1454-62: 1454-62.
Pieters, R. and N. Van der Graaff, 1980. Resistance to Gibberella xylarioides in Coffea arabica: evaluation of screening methods and evidence for the horizontal nature of the resistance. Nether. J. Plant Pathol., 86 (1): 37-43.
Rutherford, M., D. Bieysse, P. Lepoint, and H. Maraite, 2009. Biology, taxonomy and epidemiology of the coffee wilt pathogen Gibberella xylarioides sensu lato. Coffee Wilt Disease: 99-119.
Rutherford, M. A., 2006. Current knowledge of coffee wilt disease, a major constraint to coffee production in Africa. Phytopathol., 96(6): 663-66.
Hindorf, H. and C. O. Omondi, 2011. A review of three major fungal diseases of Coffea arabica L. in the rainforests of Ethiopia and progress in breeding for resistance in Kenya. J. Advanced Res., 2 (2): 109-20.
Getachew, S., G. Adugna, F. Lemessa, and H. Hindorf, 2012. Coffee wilt disease (Gibberella xylarioides Heim and Saccas) in forest coffee systems of southwest and southeast Ethiopia. Plant Pathol. J.
Arega Zeru, Fassil Assefa, Girma Adugna, and H. Hindorf, 2012. Occurrence of fungal diseases of Coffea arabica L. in Montane Rainforests of Ethiopia. J. Appl. Bot. Food Qual., 82 (2): 148-51.
Teferi, D. and K. Belachew, 2015. Evaluation of released arabica coffee varieties (Coffea arabica L.) for major coffee diseases with especial emphasis to coffee wilt disease (Gibberella xylarioides) at Jimma, Ethiopia. Evaluation, 5 (15).