Evaluation of the application of SIIG index in the selection of barley pure lines with high yield and desirable agronomic characteristics in warm areas of Iran

Barati, Ali; Zali, Hassan; Koohkan, Shirali; Marzoqian, Akbar; Golipor, Ahmad

doi:10.22077/escs.2021.3912.1940

Document Type : Original Article

Authors

¹ Seed and Plant Improvement Department, Agricultural Research, Education and Extension Organization (AREEO), Karaj, Iran

² Seed and Plant Improvement Department, Fars Agricultural and Natural Resources Research and Education Center, Agricultural Research, Education and Extension Organization (AREEO), Darab, Iran

³ Seed and Plant Improvement Department,Sistan Agricultural and Natural Resources Research and Education Center, Agricultural Research, Education and Extension Organization (AREEO), Zabol, Iran

⁴ Seed and Plant Improvement Department, Khuzestan Agricultural and Natural Resources Research and Education Center, Agricultural Research, Education and Extension Organization (AREEO), Ahvaz, Iran

⁵ Seed and Plant Improvement Department, Golestan Agricultural and Natural Resources Research and Education Center, Agricultural Research, Education and Extension Organization (AREEO), Gonbad, Iran

https://doi.org/10.22077/escs.2021.3912.1940

Abstract

Introduction
Barley is unique among crop plants for being of tremendous importance to agriculture and to science. Advances on both fronts create a positive feedback loop, allowing barley to be in the forefront in meeting the great challenges of climate change and human population growth. In terms of agriculture, barley is the fourth most important cereal crop in the world. Barley grain, in the form of malt, is the perfect nutritional source for yeast and is therefore the base of the brewing industry. Selection index of ideal genotype (SIIG) technique was improved as following method to the selection of favorable genotypes using different morphological traits simultaneously.
Materials and methods
In order to study the phenotypic diversity of inbred barley lines under heat stress conditions at the end of the season, 108 pure line in the non-repeating Augment design with four controls (Nimroz/Sahra, Norooz, Auxin and WB-95-19) in three blocks, in the Center for Agricultural Research and Education and Natural Resources Fars (Darab), Ahvaz, Sistan (Zabol) and Golestan (Gonbad) were evaluated during 2018-19 cropping year. Plots consisted of six rows that were 6 m long with spacing of 0.20 m between rows. Seeding rate was 300 seeds/m2 at each trial. Agronomic practices including fertilizer application and weed management were carried out as recommended at each location. Following harvest, grain yield (kg ha^-1) was determined for each genotype at each testing environment.
Results and discussion
The results of REML analysis showed that the highest heritability of yield was related to Gonbad (0.952) and Ahvaz (0.530), respectively, and the heritability of grain yield was close to zero in Darab region and 0.111 in Zabol. The results of SIIG index in Darab showed lines number 8, 33, 34, 64, 32, 6, 2, 113, 15, 13, 119, 9, 28, 87, 115, 85, 65, 14,16 22, 86, 3, 10 and 89 were the best lines with the highest value of SIIG index (0.800-600), respectively. In Ahvaz, lines 113, 119, 109, 19, 83, 110, 90, 82, 120, 98, 118, 17, 106, 102, 40, 42, 23 and 18, with the highest amount of SIIG (0.600-0.600) were the best lines. In Zabol, lines 120, 17, 28, 18, 33, 24, 30, 104, 34, 22, 105, 14, 19, 118, 15, 38, 119 and 16 with the highest value of SIIG index (0.600-0.800) respectively, were the best lines. Lines number 47, 46, 112, 86, 85 and 83 with the highest value of SIIG index (0.900-0.600) were the top lines in this experiment in Gonbad region.
Conclusion
In total, based on the average results of SIIG index in all regions, lines number 113, 33, 104, 119, 17, 2, 18, 23, 28, 120, 106, 112, 86, 34, 102, 47, 15, 85, 16, 19, 57, 118, 103, 46, 24, 98, 105, 40 and 22 with the highest average value of SIIG index (0.700-500), respectively, are the best lines in most regions. This research showed that the SIIG index was able to categorize the genotypes according to the different traits, simultaneously. The SIIG method is comprehensive in the order in which amount of information increases. It is very effective in selection of ideal (best) genotypes using several different traits or indices simultaneously. Therefore we propose that researches use of SIIG method to study of genetic variation and help to choose ideal genotypes using morphological and physiological traits, simultaneously.

Keywords

20.1001.1.22287604.1401.15.3.18.6

Main Subjects

Breeding plants for stress conditions

References

Abdollahi Hesar, A., Sofalian, O., Alizadeh, B., Asghari, A., Zali, H., 2020. Evaluation of some autumn canola genotypes based on agronomy traits and SIIG index. Journal of Crop Breeding. 12, 93-104. [In Persian with English summary].

Ahmadi, K., Gholizadeh, H.A., Ebadzadeh, H. R., Hatami, F., Fazliestabragh, M., Hussein pour, R., Kazemian, A., Rafeie, M., 2016. Agricultural Statistics. Ministry of Agriculture-Jahad. Vol. 1. 163p. [In Persian].

Brim, C.A., Johnson, H.W., Cockerham, C.C., 1959. Multiple selection criteria in soybeans. Agronomy Journal. 51, 42-46.

Drikvand, R., Samiei, K., Hossinpoor, T., 2011. Path coefficient analysis in hull-less barley under rainfed condition. Australian Journal of Basic and Applied Sciences. 5, 277-279.

Emami, S., Asghari, A., Mohammaddoust Chamanabad, H., Rasoulzadeh, A., Ramzi, E. 2019. Evaluation of osmotic stress tolerance in durum wheat (Triticum durum L.) advanced lines. Environmental Stresses Crop Sciences. 12, 697-707. [In Persian with English summary].

FAO. 2017. Statistical data. www. FAOSTAT. Org.

Ferreira, J. R., Pereira, J. F., Turchetto, C., Minella, E., Consoli, L., Delatorre, C. A. 2016. Assessment of genetic diversity in Brazilian barley using SSR markers. Genetics and Molecular Biology. 39, 86-96.

Hadado, T., Rau, D., Bitocchi, E., Pado, R. 2009. Genetic diversity of barley (Hordeum vulgre L.) landraces from the central highlands of Eithiopia: comparison between the Belg and Meher growing seasons using morphological traits. Genetic Resources and Crop Evolution. 56, 1131-1148.

Holland, J.B. 2006. Estimating genotypic correlations and their standard errors using multivariate restricted maximum likelihood estimation with SAS Proc MIXED. Crop Science. 46, 642-654.

Lin, C. Y. 1978. Index selection for genetic improvement of quantitative characters. Theoretical Applied Genetics. 52, 49-56.

Kampthorne, O., Nordskog, A.W. 1959. Restricted selection indices. Biometrics. 15, 10-19.

Mohtashmi, R. 2015. The correlation study of important barley agronomic traits and grain yield by Path Analysis. Biological Forum – An International Journal. 7, 1211-1219.

Mondal, S., Singh, R.P., Crossa, J., Huerta-Espino, J., Sharma, I., Chatrath, R., Singh,G.P., Sohu, V.S., Mavi, G.S., Sukuru, V.S.P., Kalappanavar, I.K., Mishra, V.K.,Hussain, M., Gautam, N.R., Uddin, J., Barma, N.C.D., Hakim, A., Joshi, A.K., 2013. Earliness in wheat: a key to adaptation under terminal and continual high temperature stress in South Asia. Field Crops Research. 151, 19–26.

Mondal, S., Singh, R.P., Mason, E.R., Huerta-Espino, J., Autrique, E., Joshi, A.K., 2016. Grain yield, adaptation and progress in breeding for early-maturingand heat-tolerant wheat lines in South Asia. Field Crops Research. 192, 78–85

Najafi Mirak, T., Dastfal, M., Andarzian, B., Farzadi, H., Bahari, M., Zali, H., 2018. Stability analysis of grain yield of durum wheat promising lines in warm and dry areas using parametric and non-parametric methods. Journal of Crop Production and Processing. 8, 79-96. [In Persian with English summary].

Pesek, J., Baker, R.J., 1969. Desired improvement in relation to selection indices. Canadian Journal of Plant Science. 49, 803-804.

Rabiei, B., Valizdah, M. Ghareyazie, B., Moghaddam, M., 2004. Evaluation of selection indices for improving rice grain shape. Field Crops Research. 89, 359-367.

Ramzi, E., Asghari, A., Khomari, S., Chamanabad, H.M., 2018. Investigation of durum wheat (Triticum turgidum L. subsp. Durum Desf) lines for tolerance to aluminum stress condition. Journal of Crop Breeding. 10, 63-72. [In Persian with English summary].

Rane, J., Pannu, R.K., Sohu, V.S., Saini, R.S., Mishra, B., Shoran, J., Crossa, J., Vargas, M., Joshi, K., 2007. Performance of yield and stability of advanced wheat cultivar under heat stress environments of the Indo-Gangetic plains. Crop Science. 47, 1561-1572.

Rodríguez, F., Alvarado, G., Pacheco, Á., Burgueño. J., 2017. ACBD-R. Augmented Complete Block Design with R for Windows. Version 3.0. https://hdl.handle.net/11529/ 10855. CIMMYT Research Data & Software Repository Network, V3, DEACCESSIONED VERSION.

Smith, H.F., 1936. A discriminant function for plant selection. Annals of Eugenics. 7, 240-250.

Tahmasebi, S., Dastfal, M., Zali, H., Rajaei, M., 2018. Drought tolerance evaluation of bread heat cultivars and promising lines in warm and dry climate of the south. Cereal Research. 8, 209-225. [In Persian with English summary].

Wahid, A., Gelani, S., Ashraf, M., Foolad, M.R., 2007. Heat tolerance in plants, An Overview. Environmental and Experimental Botany. 61, 199-223.

Yagoutipour, A., Farshadfar, E., Saeedi, M., 2017. Assessment of durum wheat genotypes for drought tolerance by suitable compound method. Environmental Stress in Crop Sciences. 10, 247-256. [In Persian with English summary].

Zali, H., Sofalian, O., Hasanloo, T., Asghari, A., Hoseini, S.M. 2015. Appraising of drought tolerance relying on stability analysis indices in canola genotypes simultaneously, using selection index of ideal genotype (SIIG) technique: Introduction of new method. Biological Forum – An International Journal. 7, 703-711.

Zali, H., Sofalian, O., Hasanloo, T., Asghari, A., Zeinalabedini, M., 2017. Appropriate strategies for selection of drought tolerant genotypes in canola. Journal of Crop Breeding. 78, 77-90. [In Persian with English summary].

Zali, H., Barati, A., 2020. Evaluation of selection index of ideal genotype (SIIG) in other to selection of barley promising lines with high yield and desirable agronomy traits. Journal of Crop Breeding. 12, 93-104. [In Persian with English summary].

Zeng, X.Q. 2015. Genetic variability in agronomic traits of a germplasm collection of hulless barley. Genetics and Molecular Research. 14, 18356-18369.

Environmental Stresses in Crop Sciences

Evaluation of the application of SIIG index in the selection of barley pure lines with high yield and desirable agronomic characteristics in warm areas of Iran

References

References

Volume 15, Issue 3
Open Access Policy
September 2022
Pages 801-815

Evaluation of the application of SIIG index in the selection of barley pure lines with high yield and desirable agronomic characteristics in warm areas of Iran

References

References

Volume 15, Issue 3 Open Access PolicySeptember 2022Pages 801-815

Volume 15, Issue 3
Open Access Policy
September 2022
Pages 801-815