Authors: M. E. Ghobadi, M. Ghobadi

Abstract:

Waterlogging reduces shoot and root growth and final yield of wheat. Waterlogged sites have a combination of low slope, high rainfall, heavy texture and low permeability. This study was aimed the importance of waterlogging on root growth and wheat yield. In order to study the effects of different waterlogging duration (0, 10, 20 and 30 days) at growth stages (1-leaf stage, tillering stage and stem elongation stage) on root growth of wheat cultivars (Chamran, Vee/Nac and Yavaroos), one pot experiment was carried out. The experiment was a factorial according to a RCBD with three replications. Results showed that root dry weight and total root length in the anthesis and grain ripening stages and biological and grain yields were significantly different between cultivars, growth stages and waterlogging durations. Vee/Nac was found superior with respect to other cultivars. Susceptibility to waterlogging at different growth stages for cultivars was 1-leaf stage > tillering stage > stem elongation stage. Under waterlogging treatments, grain and biological yields, were decreased 44.5 and 39.8%, respectively. Root length and root dry weight were reduced 55.1 and 45.2%, respectively, too. In this experiment, decrease at root growth because of waterlogging reduced grain and biological yields. Based on the results, even short period (10 days) of waterlogging had unrecoverable effects on the root growth and grain yield of wheat.

Keywords: Wheat, waterlogging, root length, root dry weight, grain yield.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1081583

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References:

[1] A. Collaku, and S. A. Harrison, "Losses in wheat due to waterlogging," Crop Science, 2002, vol. 42, pp. 444-450.
[2] A. I. Malik, T. D. Colmer, H. Lambers, T. L. Setter and M. Schotemeyer, "Short-term waterlogging has long-term effects on the growth and physiology of wheat," New Phytologist, 2002, vol. 153, pp. 225-236.
[3] A. I. Malik, T. D. Colmer, H. Lambers, T.L. Setter and M. Schotemeyer, "Changes in physiological and morphological traits of roots and shoots of wheat in response to different depths of waterlogging," Australian Journal of Plant Physiology, 2001, vol. 28, pp. 1121-1131.
[4] B. R. Huang, and J. W. Johnson, "Root respiration and carbohydrate status of two wheat genotypes in response to hypoxia," Annual Botany, 1995, vol. 75, pp. 427-432.
[5] B. R. Hung, J. W. Johnson, D. S. Nesmith and D. C. Bridges, "Growth, physiological and anatomical responses of two wheat genotypes to waterlogging and nutrient supply," Journal of Experimental Botany, 1994, vol. 45, pp. 193-202.
[6] D. Tennant, "A test of a modified line intersects method of estimating root length," Journal of Ecology, 1975, vol. 63, pp. 995-1001.
[7] http ://www.fao.org/waicent/faoinfo/agricult/agl/agll/gaez/nav. html.
[8] J. Cox, and D. Mc Farlane, "The causes of waterlogging," W. A. Journal of Agriculture, 1990, vol. 31, pp. 59-61.
[9] K. D. Sayre, M. Van Ginkel, S. Rajaram and I. Monasterio, "Tolerance to waterlogging losses in spring bread wheat, effect of time of onset on expression," Colorado State Univ. in Annual Wheat Newsletter, 1994, vol. 40, pp. 165-171.
[10] M. C. Drew, "Oxygen deficiency in the root environment and plant mineral nutrition," Academic Publishing, 1991, pp. 301-316.
[11] M. E. Musgrave, "Waterlogging effects on yield and photosynthesis in eight winter wheat cultivars," Crop Science, 1994, vol. 34, pp. 1314- 1318.
[12] M. E. Musgrave, and N. Ding, "Evaluating wheat cultivars for waterlogging tolerance," Crop Science, 1998, vol. 34, pp. 90-97.
[13] M. Van Ginkel, S. Rajanram and M. Thijssen, "Waterlogging in wheat: germplasm evaluation and methodology development," in The 17th regional wheat workshop for eastern, Central and Southern Africa, Eds: D.G. Tanner and W.M. Wangi, Nakuru, Kenya, Sept. 1991, pp. 115-124.
[14] T. Setter and I. Waters, "Review of prospects for germplasm improvement for waterlogging tolerance in wheat, barley and oats," Plant and Soil, 2003, vol. 253, pp. 1-34.
[15] T. Setter, and B. Belford, "Waterlogging: how it reduces plant growth and how plants can overcome its effects," W. A. Journal of Agriculture, 1990, vol. 31, pp. 51-55.
[16] W. K. Gardner and R. G. Flood, "Less waterlogging damage with long season wheat," Cereal Research Common, 1993, vol. 21, pp. 337-343.
[17] X. Bao, "Study on identification stage and index of waterlogging tolerance in various wheat genotypes (Triticum aestivum L.)," Acta Agriculture Shanghai, 1997, vol. 13, pp. 32-38.