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Finger millet (Eleusine coracana L. Gaertn.) is a stable food crop with inherent hardy nature and quality nutritional grain in majority of drought prone areas in several East African and South Asian countries in the world. The experiment was conducted with objectives of determining the effect of genotype, environment and their interaction for grain yield and to identify the most stable finger millet genotypes in north western Tigray, Ethiopia. Forty one finger millet genotypes were grown at three sites in northwestern Tigray, Ethiopia at two season (2015/16 and 2016/2017). The experiment was laid down in RCBD with three replications. The combined ANOVA for grain yield revealed highly significant (P<0.01) for genotypes, environments and their interactions. This indicated that the environments were diverse and variability among the genotypes. The significant interaction showed the genotypes respond differently across the different environments. The mean grain yield value of genotypes averaged over environments indicated that MyARC coll 44 and Tessema had the highest (2599 kg/ha) and lowest (1154 kg/ha) grain yield respectively. The best genotype with respect to site of Tselemti on station was genotype MyARC coll 44; for Tselemti Maiani also MyARC coll 61 and MyARC coll 61. Generally, the result revealed the existence of variability for the characters studied in finger millet landraces. Hence, this is a potential character of interest which could be used in the genetic improvement of finger millet through hybridization and/or selection by involving breeders and farmers’ knowledge. Farmers also opined that the new variety has better grain and fodder yield potential and lodging resistance and they would adopt them in future.
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p.98-111,fig.,ref.
Twórcy
autor
- Maitsebri-Shire Agri. Research Center, Shire, Ethiopia
autor
- Maitsebri-Shire Agri. Research Center, Shire, Ethiopia
autor
- Maitsebri-Shire Agri. Research Center, Shire, Ethiopia
autor
- Maitsebri-Shire Agri. Research Center, Shire, Ethiopia
autor
- Maitsebri-Shire Agri. Research Center, Shire, Ethiopia
autor
- Maitsebri-Shire Agri. Research Center, Shire, Ethiopia
Bibliografia
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- [2] Degu, E., Adugna, A., Tadesse, T. and Tesso, T. 2009. Genetic resources, breeding and production of millets in Ethiopia, In: New approaches to plant breeding of orphan crops in Africa. Proceedings of an international conference, Bern, Switzerland, 19-21 September 2007
- [3] Fentie, M, A Assefa and K Belete. 2013. AMMI analysis of yield performance and stability of finger millet genotypes across different environments. World J of Agric. Sci. 9: 231-237.
- [4] Lule D., Fetene M., de Villiers S., Tesfaye K. (2014). Additive Main Effects and Multiplicative Interactions (AMMI) and genotype by environment interaction (GGE) biplot analyses aid selection of high yielding and adapted finger millet varieties. Journal of Applied Biosciences 76, 6291-6303.
- [5] Mekbib, F. (2006). Farmer and formal breeding of sorghum (Sorghum bicolour (L.) Moench) and the implications for integrated plant breeding. Euphytica 152, 163-176.
- [6] Muhammed, M.N. (2002). Performance of different Peral millet varieties Under Rainfed Condition. Pakistan J. Agric. Res. Vol. 17, No. 4
- [7] Mulualem T., Melak A. (2013). A survey on the status and constraints of finger millet (Eleusine coracana L.) production in Metekel Zone, North Western Ethiopia. Direct Research Journal of Agriculture and Food Science 1, 67-72.
- [8] Tsehaye Y, Berg T, Tsegaye B and Tanto T (2006). Farmers’ Management of Finger Millet (Eleusine coracana L.) Diversity in Tigray, Ethiopia and Implications for On-Farm Conservation. Biodiversity and Conservation, Vol. 15, pp. 4289-4308.
- [9] Tsehaye, T. and F. Kebebew. 2002. Morphological diversity and geographic distribution of adaptive traits in finger millet (Eleusine coracana (L.) Gaertn. [Poaceae]) populations from Ethiopia. Ethiopian J. Biol. Sci. 1, 37- 62.
- [10] Xu Fei-fei, Tanf Fu-fu, Shao Ya-fang, Chen Ya-ling, Tong Chuan, Bao Jing-song. 2014. Genotype × environment Interaction for agronomic traits of rice revealed by association mapping. Rice Sci. 21 (3): 133-141.
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- [12] Wet, J.M.J., Prasada Rao, K.E., Brink, D.E., Mengesha, M.H. (1984). Systematics and evolution of Eleusine coracana (Gramineae). Am. J. Bot. 71, 550-557
- [13] Hilu, K.W., de Wet, J.M.J., Harlan, J.R. (1979). Archaeobotanical studies of Eleusine coracana ssp. coracana (finger millet). Am. J. Bot. 66, 330-333
- [14] Kurien, P.P., Joseph, K., Swaminathan, M., Subrahmanyan, V. (1959). The distribution of nitrogen, calcium and phosphorus between the husk and endosperm of ragi (Eleusine coracana). Food Sci. Mysore 8, 353-355
- [15] Chennaveerajah MS, Hiremath SC (1974). Genome analysis of Eleusine coracana (L.) Gaerth. Euphytica 23: 489-495
- [16] Doesthale YG, Nagarajan V, Pant KC (1970). Nutrient composition of some varieties of ragi (Eleusine coracana). Ind J Nutr Dietet 7: 80-84
- [17] Doraiswamy TR, Singh N, Daniel VA (1969). Effects of supplementing ragi (Eleusine coracana) diet with lysine or leaf protein on the growth and nitrogen metabolism of children. Brit J Nutr 23: 737-743
- [18] Hilu KW, DeWet JMJ (1976). Domestication of Eleusine coracana. Econ Bot 30: 199-208
- [19] Hilu KW, De Wet JMJ (1976). Racial evolution in Eleusine coracana ssp. coracana (finger millet). Amer J Bot 63(10): 1311-1318
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Typ dokumentu
Bibliografia
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