JOURNAL OF AGRICULTURAL SCIENCE AND PRACTICE
Integrity Research Journals
ISSN: 2536-7072
Model: Open Access/Peer Reviewed
DOI: 10.31248/JASP
Start Year: 2016
Email: jasp@integrityresjournals.org
Analysis of yield stability of malt barley genotypes under terminal moisture stressed areas of North Wollo, Ethiopia
https://doi.org/10.31248/JASP2019.121 | Article Number: 29D73B321 | Vol.4 (2) - April 2019
Received Date: 03 January 2019 | Accepted Date: 19 February 2019 | Published Date: 30 April 2019
Authors: Arega Gashaw* , Agegnehu Mekonnen and Akalu Gebru
Keywords: stability, Genotype x Environment Interaction, Genotype by Genotype-Environment, malt barley, principal component analysis
Field experiments were conducted at Estayish, Geregera and Kon testing sites of Sirinka Agricultural Research Center (SARC), North Wollo, Ethiopia for two consecutive years (2013 and 2014) during the main season with the objective of evaluating the performance of malt barley genotypes for grain yield and yield stability under diverse environments. Fifteen promising malt barley genotypes, along with the standard check (Miscal 21) were evaluated using Randomized Complete Block Design (RCBD), replicated three times. Genotypes were row-planted on a plot size of 3 m2. N and P2O5, in the form of Urea and Di-Ammonium Phosphate (DAP) fertilizers, were applied at the rate of 23 kg ha-1 and 46 kg ha-1, respectively and all other cultural practices were carried-out uniformly for all treatments as required. Grain yield was recorded from the central four rows (2 m2) and measured with sensitive balance. Data were subjected to analysis of variance (ANOVA) using Genstat software package 16th edition. Duncan Multiple Range Test (DMRT) was used to separate means. Genotype by Genotype-Environment (GGE) biplot model was employed to analyze phenotypic stability of malt barley genotypes for grain yield. ANOVA depicted significant variations (p<0.01) among genotypes (G), years (Y), locations (L) and their two and three way interactions for grain yield. The presence of significant variations among the tested malt barley genotypes for grain yield indicated the possibility of improving productivity of malt barley through selection. However, the existence Genotype x Environment Interaction (GEI) revealed differential response of malt barley genotype across environments, necessitating to develop environmentally less sensitive malt barley genotype. Analysis of GGE revealed that G6 and G11 were close to the ideal genotype and hence recommended for major barley producing areas of North Wollo.
| Agyeman, A., Parkes, E., & Peprah, B. B. (2015). AMMI and GGE biplot analyses of root yield performance of cassava genotypes in forest and coastal ecologies. International Journal of Agricultural Policy and Research, 3(3), 122-132. | ||||
| Akçura, M., Kaya, Y., & Taner, S. (2009). Evaluation of durum wheat genotypes using parametric and nonparametric stability statistics. Turkish Journal of Field Crops, 14(2), 111-122. | ||||
| Bantayehu, M. (2013). Study on malting barley genotypes under diverse Agroecologies of north western Ethiopia. African Journal of Plant Science, 7(11), 548-557. Crossref |
||||
| Central Statistical Agency of the Federal Democratic Republic of Ethiopia (CSA) (2016). Agricultural Sample Survey 2015/2016, Statistical Bulletin 584, Addis Ababa. | ||||
| Ding, M., Tier, B., & Yan, W. (2007). Application of GGE biplot analysis to evaluate Genotype (G). Environment (E) and GxE interaction on P. radiata: a case study. 15p. | ||||
| Fan, X. M., Kang, M. S., Chen, H., Zhang, Y., Tan, J., & Xu, C. (2007). Yield stability of maize hybrids evaluated in multi-environment trials in Yunnan, China. Agronomy Journal, 99(1), 220-228. Crossref |
||||
| Farshadfar, E., Rashidi, M., Jowkar, M. M., & Zali, H. (2013). GGE Biplot analysis of genotype × environment interaction in chickpea genotypes. European Journal of Experimental Biology, 3(1), 417-423. | ||||
| Gashaw, A., Mohammed, H. & Singh, H., (2010). Genotypic variability, heritability, genetic advance and associations among characters in Ethiopian Durum Wheat (Triticum durum Desf.) Accessions. East African Journal of Sciences, 4(1), 27-33. | ||||
| Ilker, E., Geren, H., Unsal, R., Sevin, I., Aykuttonk, F., & Tosun, M. (2011). AMMI-Biplot analysis of yield performances of bread wheat cultivars grown at different locations. Turkish Journal of Field Crops, 16(1), 64-68. | ||||
| Ilker, E., Kocaturk, M., Kadiroglu, A., Altinbas, M., Yildirim, A., Ozturk, G., & Yildiz, H. (2018). Stability analysis for double cropping in soybeans [(Glycine max L.) Merrill]. Turkish Journal of Field Crops, 23(2), 80-84. Crossref |
||||
| Kadhem, F., & Baktash, F. (2016). AMMI analysis of adaptability and yield stability of promising lines of bread wheat (Triticum aestavum L.). The Iraqi Journal of Agricultural Science, 47(7-special issue), 35-43. | ||||
| Kang, M. S. (1997). Using genotype-by-environment interaction for crop cultivar development. Advances in Agronomy, 62, 199-252. Crossref |
||||
| Kang, M. S. (2002). Quantitative genetics, genomics, and plant breeding. Wallingford, UK, CABI | ||||
| Karimizadeh, R., Mohammadi, M., Sabaghni, N., Mahmoodi, A., Roustami, B., Seyyedi, F., & Akbari, F. (2013). GGE biplot analysis of yield stability in multi-environment trials of lentil genotypes under rainfed condition. Notulae Scientia Biologicae, 5(2), 256-262. Crossref |
||||
| Oliveira, E., Freitas, J. & Jesus, O. (2014). AMMI analysis of the adaptability and yield stability of yellow passion fruit varieties. Scientia Agricola, 71(2), 139-145. Crossref |
||||
| Solonechnyi, P., Vasko, N., Naumov, A., Solonechnaya, O., Vazhenina, O., Bondareva, O., & Logvinenko, Y. (2015). GGE biplot analysis of genotype by environment interaction of spring barley varieties. Zemdirbyste-Agriculture, 102(4), 431-436. Crossref |
||||
| Tonk, F. A., Ilker, E., & Tosun, M. (2011). Evaluation of genotype x environment interactions in maize hybrids using GGE biplot analysis. Crop Breeding and Applied Biotechnology, 11(1), 01-09. Crossref |
||||
| Yan, W. (2002). Singular-value partitioning in biplot analysis of multi-environment trial data. Agronomy Journal, 94(5), 990-996. Crossref |
||||
| Yan, W., & Hunt, L. (2001). Interpretation of genotype× environment interaction for winter wheat yield in Ontario. Crop Science, 41(1), 19-25. Crossref |
||||
| Yan, W., & Tinker, N. (2006). Biplot analysis of multi-environment trial data: Principles and applications. Canadian Journal of Plant Science, 86(3), 623-645. Crossref |
||||
| Yan, W., Kang, M., Ma, B., Woods, S., & Cornelius, P. (2007). GGE biplot vs. AMMI analysis of genotype-by-environment data. Crop Science, 47(2), 643-653. Crossref |
||||
Copyright © 2026 Integrity Research Journals. All rights reserved.