Metrics

  • citations in SCIndeks: [1]
  • citations in CrossRef:0
  • citations in Google Scholar:[]
  • visits in previous 30 days:10
  • full-text downloads in 30 days:8

Contents

article: 1 from 2  
Back back to result list
2016, vol. 53, iss. 2, pp. 61-68
Analysis of main additive effects and multiplicative interactions of components of yield of certain wheat genotypes
John Naisbitt University, Faculty for Biofarming, Bačka Topola

emailnenad.djuric@outlook.com
Abstract
The effect of genotype, seed category and year on yield components (number of spikelets per spike, grain number per spike, grain weight per spike and thousand grain weight) for three wheat genotypes were studied during a two-year research. Genotype PKB Lepoklasa and seed category pre-basic seed had the highest values for the largest number of the studied traits, while the genotype BG Merkur and the certified seed of the first generation had the lowest values. Higher values for the studied traits were found in 2010, compared to 2009. AMMI analysis established a significant effect of the interaction of factors and main components (PCA 1 and PCA 2) for all investigated traits except thousand grain weight. The genotype PKB Talas was the most stable, while the genotype PKB Lepoklasa was the least stable. Seed categories certified seed of the first generation and basic seed had similar reactions to the interaction between factors.
References
Amiri, E., Farshadfar, E., Mahdi, M., Jowkar, M. (2013) AMMI analysis of wheat substitution lines for detecting genes controlling adaptability. International Journal of Advanced Biological and Biomedical Research, 1(9); 1112-1123
Aycecik, M., Yildirim, T. (2006) Path coefficient analysis of yield and yield components in bread wheat (Triticum aestivum L.) genotypes. Pakistan Journal of Botany, 38(2): 417-424
Bilgin, O., Kayihan, Z., Korkut, Z.K., Baser, I., Daglioglu, O., Ozturk, I., Kahraman, T., Balkan, A. (2011) Genetic variation and inter-relationship of some morpho-physiological traits in durum wheat (Triticum durum (L.) Desf.). Pakistan Journal of Botany, 43(1), 253-260
Dimitrijević, M., Knežević, D., Petrović, S., Zečević, V., Bošković, J.Z., Belić, M., Pejić, B., Banjac, B. (2011) Stability of yield components in wheat (Triticum aestivum L.). Genetika, vol. 43, br. 1, str. 29-39
Dimitrijević, M., Petrović, S. (2005) Genetika - adaptabilnost i stabilnost genotipa. in: Adaptabilnost i stabilnost genotipa, Novi Sad: Poljoprivredni fakultet
Dimitrijević, M., Petrović, S., Belić, M., Hadžić, V., Kraljević-Balalić, M., Nešić, L., Kapor, Z., Beljanski, N., Vuković, N. (2005) Genetička varijabilnost sorti pšenice na solonjecu u uslovima popravke zemljišta. Letopis naučnih radova Poljoprivrednog fakulteta, vol. 29, br. 1, str. 100-112
Đurić, N., Obradović, S., Trkulja, V., Martić, M. (2011) Analiza kvaliteta semena PKB sorti ozime pšenice dorađenih u periodu 2005-2010. godine. Zbornik naučnih radova Instituta PKB Agroekonomik, vol. 17, br. 1-2, str. 13-17
Farshadfar, E., Mahmodi, N., Yaghotipoor, A. (2011) AMMI stability value and simultaneous estimation of yield and yield stability in bread wheat (Triticum aestivum L.). Australian Journal of Crop Science, 5(13); 1837-1844
Gauch, H.G., Zobel, R.W. (1997) Identifying Mega-Environments and Targeting Genotypes. Crop Science, 37(2): 311
Golparvar, A. (2014) Genetic control and heredity of harvest index and biological yield in bread wheat (Triticum aestivum L.). Genetika, 46(1): 43-48
Hagos, G.H., Abay, F. (2013) AMMI and GGE biplot analysis of bread wheat genotypes in the northern part of Ethiopia. Journal of Plant Breeding and Genetics, 12-18; 1
Hamlabad, H.B. (2012) Yield stability of promising lines of winter and facultative wheat in different climate of Iran. African Journal of Agricultural Research, 7(15)
Hintsa, G., Abraha, H.M., Tesfay, B. (2011) Genotype by Environment interaction and grain yield stability of early maturing bread wheat (Triticum aestivum L.) genotypes in the drought prone areas of Tigray region, Northern Ethiopia. Ethiopian Journal of Applied Scence and Technology, 1(2); 3-7
Hristov, N., Mladenov, N., Kondić-Špika, A., Marjanović-Jeromela, A., Jocković, B., Jaćimović, G. (2011) Effect of environmental and genetic factors on the correlation and stability of grain yield components in wheat. Genetika, vol. 43, br. 1, str. 141-152
Knezevic, D., Zecevic, V., Stamenkovic, S., Atanasijevic, S., Milosevic, B. (2012) Variability of number of kernels per spike in wheat cultivars (triticum aestivum l.). Journal of Central European Agriculture, 13(3): 617-623
Mladenov, N., Denčić, S.S., Hristov, N., Kobiljski, B.Đ. (2005) Značaj sorte za unapređenje proizvodnje pšenice u Republici Srbiji. Zbornik radova Instituta za ratarstvo i povrtarstvo, br. 41, str. 11-19
Mohammed, M.I. (2009) Genotype x Environment interaction in bread wheat in Northern Sudan using AMMI analysis. American-Eurasian Journal of Agricultural and Environment, 6(4); 427-433
Mollasadeghi, V., Imani, A.A., Shahryari, R., Khayatnezhad, M. (2011) Correlation and path analysis of morphological traits in different wheat genotypes under end drought stress condition. Middle-East Journal of Scientific Research, 7(2); 221-224
Motamedi, M., Safari, P., Mohammadi, G. (2013) Additive main effect and multiplication interaction analysis of grain yield in bread wheat genotypes across environments. International Journal of Biosciences (IJB), 3(8): 218-225
Noorul, S., Mushtaq, A., Rakash, V., Asifa, B., Zahoor, A.D. (2015) Stability analysis in wheat: An application of additive main effects and multiplicative interaction. African Journal of Agricultural Research, 10(4): 295-300
Perišić, V., Milovanović, M., Staletić, M., Đekić, V. (2011) Nasleđivanje dužine klasa i broja zrna u klasu kod hibrida pšenice. Zbornik naučnih radova Instituta PKB Agroekonomik, vol. 17, br. 1-2, str. 19-26
Petrović, S., Dimitrijević, M., Ljubičić, N., Banjac, B. (2013) Nasleđivanje osobina klasa heksaploidne pšenice (Triticum aestivum L.). Selekcija i semenarstvo, vol. 19, br. 1, str. 43-52
Purchase, J.L., Hatting, H., van Deventer, C.S. (2000) Genotype × environment interaction of winter wheat ( Triticum aestivum L.) in South Africa: II. Stability analysis of yield performance. South African Journal of Plant and Soil, 17(3): 101-107
R Development Core Team (2015) A language and environment for statistical computing. Viena, Austria: R Foundation for Statistical Computing, http://www.R-project.org
Rad, M.R.N., Kadir, M.A., Rafii, M.Y., Jaafar, Z.E.H., Naghavi, M.R., Ahmadi, F. (2013) Genotype x environment interaction by AMMI and GGE biplot analysis in three consecutive generations of wheat (Triticum aestivum) under normal and drought stress conditions. Australian Journal of Crop Science, 7(7), 956-961
Roostaei, M., Mohammadi, R., Amri, A. (2014) Rank correlation among different statistical models in ranking of winter wheat genotypes. Crop Journal, 2(2-3): 154-163
Zečević, V., Knežević, D., Mićanović, D. (2004) Genetičke korelacije i path-analiza komponenti prinosa i kvaliteta kod pšenice, Triticum aestivum L. Genetika, vol. 36, br. 1, str. 13-21
Zobel, R.W., Wright, M.J., Gauch, H.G. (1988) Statistical analysis of yield trial. Agronomy Journal, 80, 388-393
 

About

article language: English
document type: Original Scientific Paper
DOI: 10.5937/ratpov53-9810
published in SCIndeks: 01/09/2016
peer review method: double-blind
Creative Commons License 4.0

Related records

Selekcija i semenarstvo (2015)
Stability of yield components of bread wheat grown on different soil types
Banjac Borislav, et al.

Selekcija i semenarstvo (2014)
Comparative analysis of the characteristics of different types of wheat seeds
Knežević Jasmina, et al.

Letop nauč rad Polj fak (2008)
Phenotypic variation of kernel number per spike in wheat grown on ameliorated soil
Vuković Nataša, et al.

show all [35]