Accelerating Seed Potato Production By Using Rapid Multiplication Systems in Ethiopia

Lemma Tessema Gebrehanna, Abebe Chindi, Gebremedhin Wgiorgis, Atsede Solomon, Egata Shunka, Ebrahim Seid

Abstract


Ethiopia is one of the major potato producing countries of the Sub-Saharan Africa region where potato is the fastest expanding food crop. The natural environment in Ethiopia is very suitable for year round production of potato using rain-fed and irrigated systems. However, the actual potato yield in the country ranges between 8-10 t/ha, which is slightly below the average for Africa. Shortage of good quality seed has been recognized as the single most important factor limiting potato production in the developing countries including Ethiopia. Therefore, the objective of this paper is to review the accelerating role of rapid seed potato multiplication technologies for potato seed production in Ethiopia. A low adoption of recommended seed potato technologies in the country could be due to a lack of alternative seed potato production methods compatible with farmers’ economic and agro-ecological conditions. Since 2010, Holetta Agricultural Research Centre in collaboration with International Potato Center together are applying different seed potato production hastening schemes to produce early generation seed. These seed multiplication schemes include, tissue culture, aeroponics, sand hydroponics and other rapid multiplication methods in screen house pots. These seed potato multiplication schemes brought a dynamic change for the last five years by accelerating the supply efficiency by 7.6%  with enhancing the number from 43,773 mini-tubers to 332,485 mini-tubers. Moreover, these new seed multiplication schemes enhanced the capacity of clean seed production of the country by producing 216,717 mini-tubers of high quality seed from aeroponics and sand hydroponics. The farmers could also access early generation clean seed potato through their nearby cooperatives with affordable price and with lowtransportation cost. Thus, for developing countries like Ethiopia where formal seed system is at infant stages and early generation seed is mostly produced by research institutions, the use of various rapid multiplication techniques could be one option to produce clean seed potato.


Keywords


Aeroponics, Sand hydroponics, Early generation seed, Rapid multiplication systems, Ethiopia

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References


Abdurahman, A., D. Griffin, J. Elphinstone, P. C. Struik, S. Schulz, E. Schulte-Geldermann and K. Sharma. 2017. Molecular characterization of Ralstonia solanacearum strains from Ethiopia and tracing potential source of bacterial wilt disease outbreak in seed potatoes. Plant patology: 6, 826-834.

Abebe C., W.Gebremedhin, S. Atsede, T. Lemma, N. Kasaye, L.Berga, and S. Schulz (2013). Enhancing potato seed production using Rapid multiplication techniques. In: G. Woldegiorgis, S. Schulz, and B. Berihanu (eds) Seed potato Tuber production and Dissemination. Proceedings of the National Work Shop on Seed potato Tuber production and Dissemination, 12-14 March, 2012. Bahir Dar: Ethiopia.

Ayalew, T., 2014. Analysis of Seed Potato (Solanum tuberosum L.) System with Special Focus nin Ethiopia. Review. Asian J. Agric. Res., 8(3):122-135.

Badoni, A. Chauhan, JS. 2010. Conventional vis-a vis Biotechnological Methods of propagation in potato: A Review. Stem Cell.1:1-6.

Batool, A., Syed S. H. Z., Muhammad, A., Ahsan, M. and Muhammad, N., 2014. Effect of growth regulators in meristem culture of Potato (Solanum Tuberosmum L.). Sci. Tech. and Dev. 33 (2): 80-84.

Berga Lemaga, 2012. The potato value chain in sub-Saharan Africa with case study on Eastern Africa, Kampla, Uganda: sub-Saharan Africa, potato specialist, CIP.

Chindi, A., and Kassa, B., 2013. Seed Tuber Cycle and Latent Infection for the Spread of Potato bacterial Wilt Ralstonia solanacearum (Smith) a Threat for Seed production in Ethiopia. Asian J. plant Pthol., 7(2): 74-83.

Chindi, A., Shunka,E., Solomon, A., W/Giorgis, G., Seid,E., Tessema, L., 2017. Participatory potato seed production: a breakthrough for food security and income generation in the central highlands of Ethiopia. Research Article: 2, 205–212.

CIP, 2012. Wealth creation through integrated development of the potato production and marketing in Kenya, Uganda and Ethiopia. Project Terminal Report.

CIP, 2017. Potato Facts and Figures. [Accessed 23 June 2017] and available at http://cipotato.org/potato/facts.

CSA (Central Statistical Agency) 2016. Report on Area and production of major crops (private peasant holdings, Meher Season). Agricultural Sample Survey, volume I. Addis Ababa, Ethiopia.

El-komy MH, Abou-Taleb EM, Aboshosha SM, El-Sherif EM, 2010. Different expression of potato pathogenesis-related to proteins upon infection with lateblightpathogene: a case study expression of potato osmotin-like protein. Int. J. Agri. Biol. 12(2):179-186.

Endale Gebre, Gebremedhin Woldegiorgis, and Berga Lemaga, 2008. Potato seed management. In: Root and Tuber Crops: The Untapped Resources. (Eds.) Gebremedhin Woldegiorgis, Endale Gebre and Berga Lemaga. Ethiopian Institute of Agricultural Research (EIAR). ISBN: 978-99944-53-19-1. Pg. 53-77.

Factor TL, Araujo JAC de, Kawakami FPC, Lunck V. 2007. Potato basic mini-tuber production in three hydroponic systems. 25(1): 82-87.

Gildemacher, P. 2012. Innovations in seed systems in East Africa. PhD thesis, Wageningen,

The Netherlands.

Gildemacher, P.R., Demo, P., Barker, I., Kaguongo, W., Woldegiorgis, G., Wagoire, W.W., Wakahiu, M., Leeuwis, C., Struik, P.C., 2009. A description of seed potato systems in Kenya, Uganda and Ethiopia. American Journal of Potato Research. 86: 373-382.

Haythem Mhadhbi, 2012. Plant Hydroponic Cultivation: A Support for Biology Research in the Field of Plant-Microbe-Environment Interactions, Hydroponics - A Standard Methodology for Plant Biological Researches, Toshiki Asao (Ed.), ISBN: 978-953-51-0386-8, InTech,

Hirpa, A. T., Miranda P. M. Meuwissen, , Willemien J. M. Lommen, AdmasuTsegaye, Paul C. Struik, Alfons G. J. M. Oude Lansink, 2015. Least-Cost Seed Potato Production in Ethiopia. Potato Research (2015) 58:277–300.DOI 10.1007/s11540-015-9309-1.

Hirpa,A., Miranda P.M. Meuwissen, Ivo A. Van der Lans, Willemien J.M. Lommen, Alfons G.J.M. Oude Lansink, AdmasuTsegaye, and Paul C. Struik. 2012.Farmers’ Opinion on Seed Potato Management Attributes in Ethiopia: A Conjoint Analysis. Agron.J: 104(5).

Kaguongo,W., P. Gildemacher, P. Demo, W. Wagoire, P. Kinyae, J. Andrade, G. Forbes, K. Fugilie, Thiele. 2008. Farmer practices and adoption of improved potato varieties in Kenya and Uganda. Working paper 2008-5. International potato center (CIP), Lima, peru.

Kassa, T. Alemu, 2014. Potato value chain in Ethiopia: Cases of Sinan and Bibugn Districts in East Gojjam. Time Journals of Agriculture and Veterinary Sciences, 2(6):114-124.

Kassanis, B., 2008. The use of tissue culture in producing virus-free clones from infected potato varieties. Int. J. Ann. Appl. Biol. 45(3):422-427.

Ketema, M., Kebede, D., Dechassa, N., Hundessa, F., 2016. Determinants of adoption of potato production technology package by smallholder farmers: evidences from Eastern Ethiopia. Review of Agricultural and Applied Economics: 19 (2) 61-68, doi: 10.15414/raae.2016.19.02.61-68

Lemma T., Abebe C., Gebremedhin W., Atsede S., Egata S., Ebrahim S., 2017. Determination of Nutrient Solutions for Potato (Solanum tuberosum L.) Seed Production under Aeroponics Production System. Research Article; 2: 155–159.

Mahamond, O. 2006. Utilization of tissue culture techniques in a seed potato tuber production Schemes. Wageningen. Nethrlands. p.264.

Muthoni Jane, Hussein Shimels and Rob Melis, 2013. Alleviating potato peed tuber shortage in developing countries: Potential of true potato seeds. Review Article. Australian Journal of Crop Sciences, 7(12): 1946-1954.

Naik, P.S., J.L. Karihaloo, 2008. Micro propagation for the production of quality potato seed in Asia-Pacific. Asia-Pacific consortium on Agricultural biotech. New Delhi, India.p.47.

Ortiz O, Orrego R, Pradel W, Gildemacher G, Otiniano R, et al. (2013) Insights into potato innovation systems in Bolivia, Ethiopia, Peru and Uganda. Agricultural Systems 114: 73-83.

Otazu, V. 2008. Manual on quality seed potato production using aeroponics. International Potato Center (CIP). Lima, Peru.

Schulz, S., Gebremedhin W., Gebrehiwot H., Abdulwahab A., J. van de Haar, Shiferaw, W., 2013. Sustainable Seed Potato Production in Ethiopia: from Farm-Saved to Quality Declared Seed. In: Gebremedhin W., S. Schulz and B. Baye (Eds). Proceedings of the National Workshop on Seed potato tuber production and disseminations: experiences, challenges and prospects. Pp.60-80. Ethiopian Institute of Agricultural Research and Amhara Region Agriculture Research Institute, 12-14 Mach 2012, Bahir Dar, Ethiopia.

Wagoire W.W., R. Kakuhenzire, I.N. Kashaija, B. Lemaga, P. Demo, and G. Kimoone. 2005. Seed potato production in Uganda: Current status and future prospects. African Crop Science Society Conference Proceedings




DOI: https://doi.org/10.23954/osj.v3i1.753

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