EFFECTS OF SOWING DATE AND LOCATIONS ON THE SELECTED WHEAT CULTIVARS QUALITY PERFORMANCE
DOI:
https://doi.org/10.36103/cbvqmd13Keywords:
wheat, cultivars, quality, sowing date, location.Abstract
The current study was aimed assessing the effects of cultivars, sowing date and locations on bread wheat (Triticum aestivum L) quality parameters grain protein concentration (GP), Gluten Index GI, falling number (FN), Water absorption capacity (WAC %), Pasting temperature (PT), and loaf volume (LV) of five bread wheat cultivars viz. Alla, Hassad, Charmo, Maaroof, and Adana as control, two sowing dates (Nov 15th, Dec 15th) at each location under rainfed environment. Grain samples were obtained from previous field experiments were conducted at two locations of Sulaimani Governate in Iraq-Kurdistan-region, Qlyasan and Halabja, during growing seasons 2018-2019. The experiments were conducted using RCBD within split plot arrangement with three replicates. Result for companied analysis, showed that cultivars sowing date, locations, the interactions CS, CL, and SL and tri-interaction CSL were high significantly affects to all quality traits except GP for location, LV for SL and GP for CS interaction, which were non-significant. The results confirmed that sowing wheat lately is an accept option for maximizing GP, GI, PT, and LV, while, optimum sowing was increasing FN and WA traits, regardless of cultivar or location. Wheat grown at Qlyasan appeared to have more GP content, FN, WA, PT, and LV, while Halabja location to have stronger gluten quality (GI). The di-interactions viz. CS, CL, and SL and tri-interaction CSL played a significant important role in changing or modifying the values of the quality traits.
References
AACC, International. 2000. Approved Methods of Analysis, 11th Ed. AACC International, St. Paul, MN, U.S.A.
Ahmed, M. 2015. Response of spring wheat (Triticum aestivum L.) quality traits and yield to sowing date. PloS one, 10(4): 1-16.
Al-Timimi, Y. K., and F. Y. Baktash. 2024. Monitoring the shift of rainfed line of 250 mm over Iraq. Iraqi Journal of Agricultural Sciences, 55(3):931-940. https://doi.org/10.36103/h10cqh53
Al-Hassan, M. F. H. and J. W. Mahmood.2023. The contribution of the main stem and branches of the approved cultivar km5180 to the growth characteristics by the effect of the number of seeds per square meter. Iraqi Journal of Agricultural Sciences,54(6):1794-1801. https://doi.org/10.36103/ijas.v54i6.1878
Al-Hassan, M. F. H. and J. W. Mahmood. 2023. The Role of the Hierarchy of the Production Tillers in wheat Cultivar km 5180 under the effect of sowing spaces. IOP Conference Series: Earth and Environmental Science, 1259(1), 012112. 10.1088/1755-1315/1259/1/012112
Al-Jayashi, A. A. and F. M. Al-Taher. 2019. Quality test of local varieties and genotypes introduced wheat (Triticum aestivum L.) during four planting dates:1-7.
Alemu, G. and D. Gerenfes. 2021. Effect of genotype by environment interactions on quality traits of bread wheat in Ethiopia. Asia Journal of Plant Science and Research, 11(1): 1-9.
Awan, K. A., J. Ali, and M. Akmal. 2017. Yield comparison of potential wheat varieties by delay sowing as rainfed crop for Peshawar climate. Sarhad J Agric 33, (3): 480.
Baktash, F.Y., and A. M. Dhahi. 2018. Evaluation performance genotypes of bread wheat to yield, yield components, biological yield and harvest index. Iraqi Journal of Agricultural Sciences,49(1):11-20.
Baktash; F. Y. and M. A. Naes. 2016. Evaluation bread wheat pure lines under effect of unlike seeding rates. Iraqi Journal of Agricultural Sciences, 47(5):1141-1150. https://doi.org/10.36103/ijas.v47i5.489
Babiker, W. A., A. A. Abdelmula, H. I. Eldessougiand and S. E. Gasim. 2017. The effect of location, sowing date and genotype on seed quality traits in bread wheat (Triticum aestevium). Asian J. Plant Sci. Res, 7(3): 24-28.
Bansod, B.S., O. P. Pandey, N. L. Rajesh and S. Dhatterwal. 2013. Optimization of agricultural input application to enhance the crop quality and yield quantity in paddy under precision farming. Quality Assurance and Safety of Crops and Foods, 5(3): 179-185.
Békés, F. 2012a. New aspects in quality related wheat research: II. New methodologies for better quality wheat. Cereal Research Communications, 40(3): 307-333.
Békés, F. 2012b. New aspects in quality related wheat research: 1. Challenges and achievements. Cereal Research Communications, 40(2):159-184.
Bonfil, D. J., S. Abbo and T. Svoray. 2015. Sowing date and wheat quality as determined by gluten index. Crop Science, 55(5): 2294-2306.
Dhahi A.M. and F. Y. Baktash. 2018. Evaluation performance of bread wheat pure lines to growth traits and proline. Iraqi Journal of Agricultural Sciences, 49(1):1-10. https://doi.org/10.36103/ijas.v49i1.198
Dhahi A.M. and F. Y. Baktash. 2018. Impact of moisture depletion percentages on some growth characters and yield for selected genotypes of bread wheat. Iraqi Journal of Agricultural Sciences, 49(2):160-170. https://doi.org/10.36103/ijas.v49i2.160
Erekul, O. and W. Köhn. 2006. Effect of weather and soil conditions on yield components and bread‐making quality of winter wheat (Triticum aestivum L.) and winter Triticale (Triticosecale wittm.) varieties in North‐East Germany. Journal of Agronomy and Crop Science, 192(6): 452-464.
FAO. 2017. World Wheat market at a glance Food outlook, Economic Social Dept., 1: 1-7.
Gianibelli, M. C., O. R. Larroque, F. MacRitchie and C.W. Wrigley. 2001. Biochemical, genetic, and molecular characterization of wheat endosperm proteins. Cereal Chem, 78(6): 635-646.
Gooding, M. J., 2009. The Wheat Crop. Wheat: Chemistry and Technology, (Ed. 4): 19-49.
Hamad, S. A., A. H. R. Ahmed and I. A. M. Ahmed. 2014. Effect of production location and addition of guar gum on the quality of a Sudanese wheat cultivar for bread making. International Journal of Innovation and Applied Studies, 7(1): 317.
Hernández-Espinosa, N., S. Mondal, E. Autrique, H. Gonzalez-Santoyo, J. Crossa, J. Huerta-Espino, R. P. Singh and C. Guzmán. 2018. Milling, processing and end-use quality traits of CIMMYT spring bread wheat germplasm under drought and heat stress. Field Crops Research, 215: 104-112.
Horvat, D., G..Drezner, K. Dvojković, G. Šimić, V.Španić and D. Magdić, 2012. End-use quality of wheat cultivars in different environments. Sjemenarstvo, 29(1-2): 5-11.
Impa, S. M., A. R. Vennapusa., R. Bheemanahalli, D. Sabela, D. Boyle, H. Walia and S. K. Jagadish. 2020. High night temperature induced changes in grain starch metabolism alters starch, protein, and lipid accumulation in winter wheat. Plant, Cell and Environment, 43(2): 431-447.
Iqbal, Z., I. Pasha, M. Abrar, S. Masih and M. S. Hanif, II, 2015. Physico-chemical, functional and rheological properties of wheat varieties. Journal of Agricultural Research (03681157), 53(2): 1-15.
Järvan, M., L. Lukme, A. Adamson and A. Akk. 2017. Responses of wheat yield, quality and bread-making properties on the Sulphur fertilization. Acta Agriculture Scandinavica, Section B—Soil and Plant Science, 67(5): 444-452.
Kong, L., J. Si, B. Zhang, B. Feng, S. Li and F. Wang. 2013. Environmental modification of wheat grain protein accumulation and associated processing quality: a case study of China. Australian Journal of Crop Science, 7(2): 173-181.
Knapowski, T., P. Ropińska, M. Kazek and A. Wenda-Piesik. 2018. Flour and bread quality of spring wheat cultivars (Triticum aestivum L.) sown at facultative and spring sowing dates. Acta Scientiarum Polonorum Agricultura, 17(3): 133-142.
Laidig, F., H. P. Piepho, D. Rentel, T. Drobek, U. Meyer and A. Huesken. 2017. Breeding progress, environmental variation and correlation of winter wheat yield and quality traits in German official variety trials and on-farm during 1983–2014. Theoretical and Applied Genetics, 130(1): 223-245.
Ma, D., T. Guo, Z. Wang, C. Wang, Y. Zhu and Y. Wang. 2009. Influence of nitrogen fertilizer application rate on winter wheat (Triticum aestivum L.) flour quality and Chinese noodle quality. Journal of the Science of Food and Agriculture, 89(7): 1213-1220.
Ma, M., Y. Li, C. Xue, W. Xiong, Z. Peng, X. Han, H. Ju and Y. He. 2021. Current situation and key parameters for improving wheat quality in China. Frontiers in Plant Science, 12:1-9
Mahdavi, S., A. Arzani, S. M. Maibody and M. Kadivar. 2021. Grain Quality of Wheat Genotypes Under Heat Stress.
Mahmooda, B. 2012. Effect Of Various Grain Storage Structures and Temperature Stress on Seed Quality and Germinability of Different Wheat Varieties (ph. D Dissertation, Sindh Agriculture University, Tando Jam).
Mahmood, J. W. and M.F.H. AL-hassan.2023. Effect of hierarchy of the production of tillers in wheat (Triticum aestivum L.) cultivar (KM5180) under the influence of planting dates. Res. Crop. 24 (2): 236-240.
Meena, R.K., S. S. Parihar, M. Singh and M. Khanna. 2016. Effects of sowing dates and irrigation regimes on grain quality of wheat grown under semi-arid condition of India. Journal of Applied and Natural Science, 8(2): 960-966.
Migliorini, P., S. Spagnolo, L. Torri, M. Arnoulet, G. Lazzerini and S. Ceccarelli. 2016. Agronomic and quality characteristics of old, modern and mixture wheat varieties and landraces for organic bread chain in diverse environments of northern Italy. European journal of Agronomy, 79: 131-141.
Naraghi, S.M., S. Simsek, A. Kumar, S. H. Al Rabbi, M. S. Alamri, E. M. Elias and M. Mergoum. 2019. Deciphering the genetics of major end-use quality traits in wheat. G3: Genes, Genomes, Genetics, 9(5): 1405-1427.
Nel, M. M, G. A*. *Agenbag, and Purchase, J., 2000. Sources of variation in spring wheat (Triticum aestivum L.) cultivars of the Western and Southern Cape. II. Baking characteristics. South African Journal of Plant and Soil, 17(1): 40-48.
Pasha, I. 2006. Biochemical characterization of Pakistani wheats in relation to srain hardness (Ph. D. Dissertation, University of Agriculture, Faisalabad Pakistan).
Peña, R.J. 2002. Wheat for Bread and other Foods. Bread Wheat Improvement and Production. Food and Agriculture Organization of the United Nations. Rome: 483-542.
Riaz-ud-Din, M. S., G. M. Subhani, N. Ahmad, M. Hussain and A. U. Rehman, A. U. 2010. Effect of temperature on development and grain formation in spring wheat. Pak. J. Bot, 42(2): 899-906.
Rosell, C. M., J. A. Rojas and C. B. De Barber. 2001. Influence of hydrocolloids on dough rheology and bread quality. Food hydrocolloids, 15(1): 75-81.
Rozbicki, J., D. Gozdowski, M. Studnicki, W. Mądry, J. Golba, G. Sobczyński, and M. Wijata. 2019. Management intensity effects on grain yield and its quality traits of winter wheat cultivars in different environments in Poland. Biotechnology, 22(2).
Saudi, A. H., AL-Hassan, M. F. H. and J.W.M. 2016. Effect of sowing by different seeding rates on qualitativ traits and viability of four (Triticum Aestivum L.) cultivar seeds. Iraqi Journal of Agricultural Sciences, 47(2): 452–460. https://doi.org/10.36103/ijas.v47i2.587
Shewry, P.R. 2009. Wheat. Journal of experimental botany, 60(6): 1537-1553
Sakr, N., L. Rhazi and T. Aussenac. 2021. Bread wheat quality under limiting environmental conditions: I-Molecular properties of storage proteins and starch constituents in mature grains. Agriculture, 11(4): 289.
Sasani, S., R. Amiri, H. R. Sharifi and A. Lotfi. 2020. Impact of sowing date on bread wheat kernel quantitative and qualitative traits under Middle East climate conditions. Zemdirbyste-Agriculture, 107(3).
Zhao, C. X., M. R. He, Z. L.Wang, Y. F. Wang, Y.F. and Q. Lin. 2009. Effects of different water availability at post-anthesis stage on grain nutrition and quality in strong-gluten winter wheat. Comptes rendus biologies, 332(8): 759-764.
Zhu, J. and K. Khan. 2001. Effects of genotype and environment on glutenin polymers and breadmaking quality. Cereal Chemistry, 78(2): 125-130.
Živančev, D., B. Jocković, M. Mirosavljević, V. Momčilović, N. Mladenov, V. VAćin and M. Pribić. 2019. How a slight modification of the bread-making procedure for the evaluation of wheat cultivars affects the most important properties of bread (bread volume and bread crumb). Journal on Processing & Energy in Agriculture, 23(4): 180-184.
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