Metrics

  • citations in SCIndeks: 0
  • citations in CrossRef:0
  • citations in Google Scholar:[]
  • visits in previous 30 days:20
  • full-text downloads in 30 days:8

Contents

article: 1 from 58  
Back back to result list
2022, vol. 28, iss. 1, pp. 1-8
Spike index stability of bread wheat grown on halomorphic soil
aUniversity of Novi Sad, BioSense Institute-Research and Development Institute for Information Technologies in Biosystems, Novi Sad
bInstitute of Field and Vegetable Crops, Novi Sad
cUniveristy of Niš
dInstitute of Science Application in Agriculture, Belgrade
eUniversity of Novi Sad, Faculty of Agriculture

emailljubicic.natasa@gmail.com, vera.popovic@ifvcns.ns.ac.rs
Project:
Ministry of Education, Science and Technological Development, Republic of Serbia (Institution: Institute of Field and Vegetable Crops, Novi Sad) (MESTD - 451-03-68/2020-14/200032)
Ministry of Education, Science and Technological Development, Republic of Serbia (Institution: Institute of Science Application in Agriculture, Belgrade) (MESTD - 451-03-68/2020-14/200045)
Ministry of Education, Science and Technological Development, Republic of Serbia (Institution: BioSense Institute) (MESTD - 451-03-68/2020-14/200358)
Bilateral Project Republic of Serbia and Montenegro 2019-2022: Alternative cereals and oil crops as a source of healthcare food and important raw material for the production of biofuel

Abstract
Bread wheat is one of the most important crops in the world. Wheat breeding has been based on science and has been constantly evolving due to breeding program improvements. Improving yield potential, resistance/tolerance to biotic and abiotic stresses, and baking quality are priorities for breeding this cereal. Soil and climatic conditions are one of the most important factors affecting the grain yield of wheat. During the two vegetation seasons, phenotypic variability and genotype by environment interaction (GEI) for spike index of eleven wheat genotypes were studied under specific growing conditions of halomorphic soil, solonetz type. The combined ANOVA showed that the phenotypic expression of spike index was significantly influenced by environmental variations, because the significant variance explained 48.8 % of the total variation, while genotype contributed with 7.8 % of the total variation of the experiment. The first source of variation IPCA1 explained 55.6 % of the GEI variation for the spike index of wheat. Genetics analysis of different wheat genotypes grown in different agro-ecological conditions contributes to their better utilization, as well as, selection for crosses in wheat breeding programs.
References
Branković-Radojčić, D., Babić, V., Girek, Z., Živanović, T., Radojčić, A., Filipović, M., Srdić, J. (2018) Evaluation of maize grain yield and yield stability by AMMI analysis. Genetika, 50(3), 1067-1080
Drašković, B., Zečević, V., Hojka, Z., Filipović, M., Srdić, J., Kravić, N., Babić, V. (2021) Application of AMMI model in zoning of FAO 400-500 maize hybrids. Selekcija i semenarstvo, vol. 27, br. 1, str. 41-49
Dražić, N., Rakascan, N., Radojević, V., Popović, V., Ignjatov, M., Popović, D., Ikanović, J., Petković, Z. (2021) Cereals as energy sources in the function of circular economy. Agriculture and Forestry, 67(3), 7-18
Duggan, B.L., Domitruk, D.R., Fowler, D.B. (2000) Yield component variation in winter wheat grown under drought stress. Canadian Journal of Plant Science, 80(4), 739-745
Fox, P.N., Crossa, J., Ramagosa, I. (1997) Multienvironment testing and genotype x environment interaction. in: Kempton R.A., Fox P.N., Cerezo M [ed.] Statistical Methods for Plant Variety Evaluation, Plant Breeding Series 3 Statistical Methods for Plant Variety Evaluation, Dordrecht: Springer, str. 117-138
Ikanović, J., Popović, V. (2020) Organska biljna proizvodnja. Bijeljina, B&H: Poljoprivredni fakultet, Univerzitet Bijeljina, 1-240
Ikanović, J., Popović, V., Pavlović, S. (2020) Agroekologija i zaštita zemljišta. Banja Luka: Nezavisni univerzitet, NUBL, 1-250
Ilker, E., Tonk, F.A., Tosun, M., Altinbas, M., Kuçukakça, M. (2009) Inheritance and combining ability in some powdery mildew resistant wheat lines. Crop Breed . Appl . Biot, 9, 124-131
Janković, S., Popović, V., Rakić, S., Simić, D., Alkhammas, A.O., Rakić, R., Stanković, S. (2020) Influence of nutrition on productivity and chemical composition of Khorasan wheat -Triticum turgidum L . ssp . Turanicum Jakubz. Agriculture and Forestry, 66(4), 113-124
Jestrović, Z. (1998) Spike characteristic and grain yield in wheat. in: 2nd Balkan Symposium of Field Crops in Novi Sad, Proceedings, str. 219-222
Kostić, M., Ljubičić, N., Ivošević, B., Radulović, M., Popovic, S., Blagojević, D., Popović, V. (2021) Spot-based proximal sensing for field-scale assessment of winter wheat yield and economical production. Agriculture and Forestry, 67(1), 103-113
Kumar, M., Yadav, R., Gaikwad, K.B., Babu, P., Kumar, B.N., Dharmateja, P., Ahmad, C.A., Ansari, R. (2022) Deciphering the environmental impact on spike architectural traits for grain yield consolidation in bread wheat (T. aestivum L.). Saudi Journal of Biological Sciences, 29(4), 2800-2810
Lakić, Z., Predić, T., Đurđić, I., Popović, V. (2020) Recultivation of degraded soil due to mining activity without adding organic layers of soil using Alfalfa and mixtures of grass legumes. Agriculture and Forestry, 66(4), 223-237
Lakić, Ž., Glamočlija, Đ., Kondić, D., Popović, V., Pavlović, S. (2018) Krmne biljke i žita u funkciji zaštite zemljišta od degradacije. Banja Luka, 1-403
Ljubičić, N., Petrović, S., Dimitrijević, M., Sekulić, P., Mladenov, N., Belić, M., Vukosavljev, M. (2010) Stabilnost broja zrna po klasu genotipova pšenice gajenih na meliorisanom zemljištu (solonjec). Savremena poljoprivreda, vol. 59, br. 3-4, str. 332-338
Ljubičić, N., Petrović, S., Kostić, M., Dimitrijević, M., Hristov, N., Kondić, A., Jevtić, R. (2017) Diallel analysis of some important grain yield traits in bread wheat. Turkish Journal Of Field Crops, 22(1), 1-7
Ljubičić, N., Popović, V., Ćirić, V., Kostić, M., Ivošević, B., Popović, D., Pandžić, M., El, M.S., Janković, S. (2021) Multivariate Interaction Analysis of Winter Wheat Grown in Environment of Limited Soil Conditions. Plants, 10(3), 604
Mandić, D., Pržulj, N., Đurašinović, G., Jovović, Z. (2020) Julija - nova sorta ozime pšenice. Selekcija i semenarstvo, vol. 26, br. 2, str. 15-20
Popović, V., Stevanović, P., Vučković, S., Ikanović, J., Rajičić, V., Bojović, R., Jakšić, S. (2019) Influence of CAN Fertilizer and Seed Inoculation with NS Nitragin on Glycine max Plant on Pseudogley Soil Type. Agriculture Conspectus Scientificus, 84(2), 165-171
Popović, V., Ljubičić, N., Kostić, M., Radulović, M., Blagojević, D., Ugrenović, V., Popović, D., Ivošević, B. (2020) Genotype × environment interaction for wheat yield traits suitable for selection in different seed priming conditions. Plants, 9(12), 1804
Pradhan, S., Babar, M.A., Robbins, K., et al. (2019) Understanding the genetic basis of spike fertility to improve grain number, harvest index, and grain yield in wheat under high temperature stress environments. Frontiers in Plant Science, 10, 1481
Reynolds, M., Foulkes, J.M., Slafer, G.A., Berry, P., Parry, M.A.J., Snape, J.W., Angus, W.J. (2009) Raising yield potential in wheat. Journal of Experimental Botany, 60(7), 1899-1918
Shiferaw, B., Smale, M., Braun, H.J., Duveiller, E., Reynolds, M., Muricho, G. (2013) Crops that feed the world 10: Past successes and future challenges to the role played by wheat in global food security. Food Security, 5(3), 291-317
Stojiljković, J., Rajičić, V., Terzić, D., Radojević, V., Đurić, N., Ljubičić, N., Popović, V. (2021) Influence of amelioration on the productivity of alfalfa on acid soil types vertisols. Selekcija i semenarstvo, vol. 27, br. 1, str. 25-32
Subira, J., Álvaro, F., Del, M.L.G.F., Royo, C.F. (2015) Breeding effects on the cultivar×environment interaction of durum wheat yield. European Journal of Agronomy, 68, 78-88
Tarakanovas, P., Ruzgas, V. (2006) Additive main effect and multiplicative interaction analysis of grain yield of wheat varieties in Lithuania. Agronomy Research, 4(1), 91-98
Thungo, Z., Shimelis, H., Odindo, A.O., Mashilo, J. (2019) Genotype-by-environment interaction of elite heat and drought tolerant bread wheat (Triticum aestivum L.) genotypes under non-stressed and drought-stressed conditions. Acta Agriculturae Scandinavica, Section B - Soil & Plant Science, 69(8), 725-733
Wheat Initiative (2021) Wheat Initiative Strategic Research Agenda (SRA): Annual report
Yan, W., Kang, M.S. (2003) GGE biplot analysis: A graphical tool for breeders, geneticists, and agronomists. Boca Raton, FL: CRC Press, 63-88
Zobel, R.W., Wright, M.J., Gauch, H.G. (1988) Statistical analysis of a yield trial. Agronomy Journal, 80(3), 388-393
 

About

article language: English
document type: Original Scientific Paper
DOI: 10.5937/SelSem2201001L
received: 20/12/2021
accepted: 15/01/2022
published in SCIndeks: 15/07/2022
Creative Commons License 4.0

Related records

No related records