[Home ] [Archive]   [ فارسی ]  
:: About :: Main :: Current Issue :: Archive :: Search :: Submit :: Contact ::
Main Menu
Home::
Journal Information::
Articles archive::
For Authors::
For Reviewers::
Registration::
Contact us::
Site Facilities::
::
Search in website

Advanced Search
..
Receive site information
Enter your Email in the following box to receive the site news and information.
..



 
..
:: Volume 8, Issue 1 (2021) ::
pgr 2021, 8(1): 1-16 Back to browse issues page
Evaluation of Oily Sunflower Pure Lines Under Optimum and Phosphorus Deficit Conditions Using Some Physiological Traits and MFDV Multivariate Tolerance Index
Maryam Rasoulzadeh Aghdam , Reza Darvishzadeh , Ebrahim Sepehr , Hadi Alipour *
Department of Plant Production and Genetics, Faculty of Agriculture and Natural Resources, Urmia University, Urmia
Abstract:   (9589 Views)
Nutrient deficiencies are important abiotic stresses that can affect plant growth and development. In this study, 76 sunflower pour lines collected from different regions of the world were evaluated in pot using some physiological traits with combined analysis of completely randomized design with three replications under optimal and phosphorus deficit conditions. Phosphorus deficiency decreased the means of all studied traits except canopy temperature. Oilseed sunflower lines were grouped into five and four clusters in each one of optimum and phosphorus deficient conditions, respectively. However, in both optimum and phosphorus deficient conditions, lines 19, 21, 27, 44 and 71 were classified into desirable cluster with high yield and yield components. Multivariate tolerance index (MFVD) for each genotype was calculated using the ratio and productivity matrices of the studied traits under optimal and phosphorus deficit conditions using principal component analysis on the resulting matrices. Based on the resulting biplot, lines 71, 74, 65, 21, 39, 7, 18 and 11 were introduced as desirable and phosphorus deficit tolerant lines.
Keywords: Chlorophyll content, Genetic variability, Phosphorous deficiency, Stress tolerance index, Sunflower
Full-Text [PDF 971 kb]   (1471 Downloads)    
Type of Study: Research | Subject: Population genetics
References
1. Abadia, J., Rao, I.M. and Terry, N. (1987). Changes in leaf phosphate status have only small effects on the photochemical apparatus of sugar beet leaves. Plant Science, 50(1): 49-55.
2. Amini, A., Amirnia, R. and Gazvini, H. (2016). Evaluation of relationship between physiological and agronomic traits related to salinity tolerance in bread wheat (Triticum aestivum L.) genotypes. Iranian Journal of Crop Science, 17(4): 348-329 (In Persian).
3. Andersson, M.X., Stridh, M.H., Larsson, K.E., Liljenberg, C. and Sandelius, A.S. (2003). Phosphate‐deficient oat replaces a major portion of the plasma membrane phospholipids with the galactolipid digalactosyldiacylglycerol. FEBS letters, 537(1-3): 128-132.
4. Anonymous. (2019). Annual Agricultural Statistics. Ministry of Jahad-Agriculture of Iran, Tehran, IR (In Persian).
5. Askari Golestani, A.R., Ramezanpour, S.S., Borzoei, A., Soltanloo, H. and Navabpour, S. (2018). Evaluating the salt tolerance in fifth generation (M5) of bread wheat lines using the biplot and factor analysis methods. Environmental Stresses in Crop Science, 11(2): 365-379 (In Persian).
6. Bahari, S.S. and Pirdashti, H. (2013). The effect of plant growth promoting rhizobacteria (PGPR) and phosphate solubilizing microorganism (PSM) on yield and yield components of wheat (cv. N80) under different nitrogen and phosphorous fertilizers levels in greenhouse condition. Iranian Journal of Field Crops Research, 10(4): 681-689 (In Persian).
7. Balemi, T. (2009). Effect of phosphorus nutrition on growth of potato genotypes with contrasting phosphorus effeciency. African Crop Science Journal, 17(4):199-212.
8. Barrs, H.D. and Weatherley, P.E. (1962). A re-examination of the relative turgidity technique for estimating water deficits in leaves. Australian Journal of Biological Sciences, 15(3): 413-428.
9. Cheema, M.A., Malik, M.A., Hussain, A., Shah, S.H. and Basra, S.M.A. (2001). Effects of time and rate of nitrogen and phosphorus application on the growth and the seed and oil yields of canola (Brassica napus L.). Journal of Agronomy and Crop Science, 186(2): 103-110.
10. Chen, X., Min, D., Yasir, T.A. and Hu, Y.G. (2012). Evaluation of 14 morphological, yield-related and physiological traits as indicators of drought tolerance in Chinese winter bread wheat revealed by analysis of the membership function value of drought tolerance (MFVD). Field Crops Research, 137: 195-201.
11. Eyvazzadeh, O., Seyedain, A.M., Chamani, M. and Darvishi, F. (2010). Evaluation of fatty acid composition and stability of Rose Hip oil. Food Technology & Nutrition, 7(2): 66-76.
12. FAO. (2018). Food and Agriculture Organization of the United Nations (FAO). Rome, Italy. Available from: http://www.faostat.fao.org/.
13. FAO. (2019). Food and Agriculture Organization of the United Nations (FAO). Rome, Italy. Available from: http://www.faostat.fao.org/.
14. Fernandez, G.C. (1992). Effective selection criteria for assessing plant stress tolerance. In Proceeding of the International Symposium on Adaptation of Vegetables and other Food Crops in Temperature and Water Stress, Aug. 13-16, Shanhua, Taiwan.
15. Hajiboland, R., Radpour, E. and Pasbani, B. (2014). Effect of phosphorus deficiency on drought stress tolerance in two tomato (Solanum lycopersum L.) cultivars. Journal of Plant Researches, 27(5): 788-803 (In Persian).
16. Hamedi Golgasem, J., Sadehgzadeh, B. and Mohebalipor N. (2014). Study of genetic variation of barley genotype P uptake efficiency in dryland conditions. 13th Iranian Crop Sciences Congress and 3rd Iranian Seed Science and Technology Conference, Karaj, Iran (In Persian).
17. Hawkesford, M., Horst, W., Kichey, T., Lambers, H., Schjoerring, J., Skrumsager Moller, I. and White, P. (2012). Functions of macronutrients. In: Marschner, P., Ed., Marscher's Mineral Nutrition of Higher Plants. pp. 135-190. Academic Press, Cambridge, UK.
18. Holmes, M.R. and Ainsley, A.M. (1978). Seedbed fertilizer requirements of winter oilseed rape. Journal of the Science of Food and Agriculture, 29(8): 657-668.
19. Jones, C.A. (2003). The effects of P fertilization on drought tolerance of malt barley. In Western Nutrient Management Conference, Salt Lake City, Utah, USA.
20. Kheirabad, H., Khoshgoftarmanesh, A.H. and Khanmohamadi, Z. (2013). The effects of some soil properties on zn availability for corn in certain calcareous soils in Isfahan province. Journal of Water and Soil Science, 16(62): 1-10 (In Persian).
21. Lynch, J.P. (2011). Root phenes for enhanced soil exploration and phosphorus acquisition: tools for future crops. Plant Physiology, 156(3): 1041-1049.
22. Lynch, J., Läuchli, A. and Epstein, E. (1991). Vegetative growth of the common bean in response to phosphorus nutrition. Crop Science, 31(2): 380-387.
23. Malakouti, M.J. and Gheibi, M.N. (2000). Determination of Critical Levels of Nutrients in Soil, Plant and Fruit for the Quality and Yield Improvements of Iran's Strategic Crops. Agricultural Education Publication, Tehran, IR (In Persian).
24. Nowak, J. and Stroka, S. (1999). The effect of phosphorus nutrition on growth, flowering and chlorophyll fluorescence of New Guinea Impatiens 'Pago pago'. In International Symposium on Growing Media and Hydroponics, Alnarp, Sweden.
25. Nuttall, W.F., Moulin, A.P. and Townley-Smith, L.J. (1992). Yield response of canola to nitrogen, phosphorus, precipitation, and temperature. Agronomy Journal, 84(5): 765-768.
26. Paniego, N., Muñoz, M., Echaide, M., Fernandez, L., Faccio, P., Zandomeni, R. and Hopp, E. (1999). Microsatellite development for sunflower. Plant and Animal Genome VII Conference, San Diego: Starford University Press, USA.
27. Payandeh, K., Majdom, M. and Drogar, N. (2018). Application of micronutrient elements on quantitative and qualitative yield of rapeseed under drought tension conditions. Crop Physiology Journal, 10(38): 23-37 (In Persian).
28. Saneoka, H., Fujita, K. and Ogata, S. (1990). Effect of phosphorus on drought tolerance in Chloris gayana Kunth and Coix lacryma-jobi L. Soil Science and Plant Nutrition, 36(2): 267-274.
29. Singh, D.K. and Sale, P.W. (2000). Growth and potential conductivity of white clover roots in dry soil with increasing phosphorus supply and defoliation frequency. Agronomy Journal, 92(5): 868-874.
30. Vance, C.P., Uhde‐Stone, C. and Allan, D.L. (2003). Phosphorus acquisition and use: critical adaptations by plants for securing a nonrenewable resource. New Phytologist, 157(3): 423-447.
31. Wahid, M.A., Cheema, M.A., Malik, M.A. and Ashraf, M. (2009). Comparative performance of canola hybrids in response to different phosphatic fertilizers. International Journal of Agriculture Biology, 11: 306-310.
32. Wang, Q., Li, J., Li, Z. and Christie, P. (2005). Screening Chinese wheat germplasm for phosphorus efficiency in calcareous soils. Journal of Plant Nutrition, 28(3): 489-505.
33. Waraich, E.A., Ahmad, R. and Ashraf, M.Y. (2011). Role of mineral nutrition in alleviation of drought stress in plants. Australian Journal of Crop Science, 5(6): 764-777.
34. Westerman, R.L. (1990). Soil Testing and Plant Analysis. 3rd Edition. American Society of Agronomy and Soil Science of America, Madison, Wisconsin, USA.
35. Wetter, L.R., Ukrainetz, H. and Downey, R.K. (1970). The effect of chemical fertilisers on the content of oil, protein and glucosinolates in brassica including rapeseed. In Proceeding of the International Conference on Rapeseed And Rapeseed Products, St Adele, Canada.
36. Wissuwa, M., Gamat, G. and Ismail, A.M. (2005). Is root growth under phosphorus deficiency affected by source or sink limitations?. Journal of Experimental Botany, 56(417): 1943-1950.
37. Xu, H.X., Weng, X.Y. and Yang, Y. (2007). Effect of phosphorus deficiency on the photosynthetic characteristics of rice plants. Russian Journal of Plant Physiology, 54(6): 741-748.



XML   Persian Abstract   Print


Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:

Rasoulzadeh Aghdam M, Darvishzadeh R, Sepehr E, Alipour H. Evaluation of Oily Sunflower Pure Lines Under Optimum and Phosphorus Deficit Conditions Using Some Physiological Traits and MFDV Multivariate Tolerance Index. pgr 2021; 8 (1) :1-16
URL: http://pgr.lu.ac.ir/article-1-180-en.html


Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Volume 8, Issue 1 (2021) Back to browse issues page
پژوهش های ژنتیک گیاهی Plant Genetic Researches
Persian site map - English site map - Created in 0.06 seconds with 38 queries by YEKTAWEB 4657