Investigates the Physiological and Biochemical Aspects of Rapeseed (Brassica napus L.) Cultivars under Drought Stress and Delayed Planting Date
Subject Areas : Journal of Crop Nutrition SciencePeyman Davami 1 , Afshin Mozaffari 2
1 - Agricultural Inputs Research Center, Agricultural Support Services Company (ASSC), Karaj, Iran.
2 - Department of Agronomy, Ilam Branch, Islamic Azad University, Ilam, Iran.
Keywords:
Abstract :
Abdoli, M., M. Saeedi, S. Jalali Honarmand, S. Mansourifar. and M. E. Ghobadi. 2013. Evaluation of some physiological and biochemical traits and their relationship with yield and its components in bread wheat cultivars under post-pollination conditions. Environmental Stresses Crop Sci. 1: 47-63.
Anjum, N. A., C. Arena. and S. Singhgill. 2014. Reactive Oxygen species (ROS) and response of antioxidants as ROS scavengers during environmental stress in plant. Frontiers in Environmental Sci. 2: 1-13.
Arnon, A. N. 1967. Method of extraction of chlorophyll in the plants. Agronomy J. 23: 112-121.
Ashraf, M. and M. R. Foolad. 2007. Improving plant abiotic stress resistance by exogenous application of osmoprotectants glycine betaine and pyrroline. Enviromental and Expprimental botany. 59: 206-216.
Bates, L. S., R. D. Walderen. and I. D. Taere. 1973. Rapid determination of free pyrroline for water stress studies. Plant Soil. 39: 205-207.
Behmaram, R., A. Faraji. and H. Amiri Oghan. 2006. Evaluation of water deficit tolerance in spring rapeseed cultivars: proceedings of the 9th Iranian crop science congress, Aboureyhan Campus-Univ. Tehran. Iran. 494–496.
Bradford, M. M. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Analytical Biochem. 72: 248-54.
Chegeni, H., M. Goldani, A. H. Shirani Rad. and M. Kafi. 2016. Effects of terminal drought stress on some biochemical and agronomic characteristics in some rapeseed lines (Brassica napus L.). Plant Ecophysiol. 27: 20-31.
Din, J., S. U. Khan, I. Ali. and A. R. Gurmani. 2011. Physiological and agronomic response of rapeseed varieties to drought stress. J. Animal and Plant Sci. 78: 21-28.
Elferjani, R. and R. Soolanayakanahally. 2018. Rapeseed responses to drought, heat, and combined stress: shared and specific effects on carbon assimilation, seed yield, and oil composition. Plant Sci. 9: 1224.
Farooq, M., A. Wahid, N. Kobayashi, D. Fujita. and S. M. A. Basra. 2009. Plant drought stress: effects, mechanisms and management. Agronomy for Sustainable Development. 29: 185–212.
Fernandez, G. C. J. 1992. Effective selection criteria for assessing plant stress tolerance. In: Kuo, C.C. (Eds.) Proceedings of International Symposium on Adaptation of Food Crops to Temperature and Water Stress. Shanhua, Taiwan, pp. 257-270.
Fischer, R. A. and R. Maurer. 1978. Drought resistance in spring wheat”. I: grain yield responses. Australian Journal of Agricultural Res. 29: 897-912.
Gan, Y., S. V. Angadi, H. Cutforth, D. Potts, V. V. Angadi. and C. L. Mc Donald. 2004. Rapeseed and mustard response to short periods of temperature and water stress at different developmental stages. Can. J. Plant Sci. 84(3): 697-704.
Ghasemian-Ardestani, H. 2019. Evaluation of agro-physiological response of selected rapeseed cultivars to different temperature and humidity regimes for adaptation to climate change. Ph.D. Thesis in Agroecology, Ferdowsi University of Mashhad.
Heidari, N., M. Pouryousef. and A. Tavakoli. 2015. Effects of drought stress on photosynthesis, its parameters and relative water content of anise (P. anisum L.). J. Plant Res. 5: 829-839.
Hosseini, S. M. and P. Hassibi. 2011. Effects of water deficit stress on several quantitative and qualitative characteristics of Rapeseed (Brassica napus L.) cultivars. Notulae Scientia Biologicae. 3 (3): 120-125.
Jensen, C. R., V. O. Mogensen, G. Mortensen, J. K. Fieldsend, G. F. J. Milford, M. N. Andersen. and J. H. Hage. 1996. Seed glucosinolate, oil and protein contents of field grown rape (Brassica napus L.) affected by soil drying evaporation demand. Field Crop Res. 47: 93-105.
Jiang, M. and J. Zhang. 2002. Water stress-induced abscisic acid accumulation triggers increased generation of reactive oxygen species and upregulates activities of antioxidant enzymes in maize. J. Exp. Bot. 53: 2401-2410.
Kranner, I., R. P. Beckett, S. Wornik, M. Zorn. and H. W. Pfeifhofer. 2002. Revival of a resurrection plant correlates with its antioxidant status. The Plant J. 31: 13-24.
Kusvuran, S. 2011. Effects of drought and salt stresses on growth, stomatal conductance, leaf water and osmotic potentials of melon genotypes (Cucumis melo L.). African J. Agri. Res. 7: 775-781.
Lotfi, R., P. Gharavi-Kuochebagh. and H. Khoshvaghti. 2015. Biochemical and physiological responses of Brassica napus plants to humic acid under water stress. Russian J. Plant Physiol. 4: 480-486.
Mariani, L. and A. Ferrante. 2017. Agronomic management for enhancing plant tolerance to abiotic stresses-drought, salinity, hypoxia, and lodging. Horticulture.3(4): 52.
Moradi Aghdam, A., S. Seyfzadeh, A. H. Sehrani Rad, S. A. Valadabadi. and H. Zakerin. 2018. The effect of irrigation cut on physiological characteristics and grain yield of rapeseed cultivars under different planting dates. J. Crop Physiol. 10(38): 59-76.
Mortezaie Nejad, F. and E. Jazi Zadeh. 2017. Effects of water stress on morphological and physiological indices of Cichorium intybus L. for introduction in urban landscapes. J. Plan Process and Function. 6(21): 279-290.
Nasri, M., M. Khalatbari, H. Zahedi, F. Paknejad. and H. R. Tohidi-Moghadam. 2008. Evaluation of micro and macro elements in drought stress condition in cultivars of rapeseed (Brassica napus L.). Am. J. Agri. Biol. Sci. 3(3): 579–583.
Pessarkli, M. 1999. Handbook of Plant and Crop Stress. Marcel Dekker Inc. 697 pp.
Rashidi, F., M. M. Majidi. and M. Pirboveiry. 2017. Response of different species of Brassica to water deficit. Intl. J. Plant Prod. 11(1): 1-16.
Rezayian, M., V. Niknam. and H. Ebrahimzadeh. 2018. Effects of drought stress on the seedling growth, development, and metabolic activity in different cultivars of rapeseed. Soil Sci. Plant Nutrition. 64: 360-369.
Ritchie, S. W., H. I. Nyvgen. and A. S. Halady. 1990. Leaf water content and gas exchange parameters of two wheat genotypes differing in drought resistance. Crop Sci. 30: 105-111.
Robertson, M. J. and J. F. Holland. 2004. Production risk of rapeseed in the semi-arid subtropics of Australia. Aust. J. Agri. Res. 55: 525-538.
Safari, M., M. Agha Alikhany. and A. S. M. Modarres Sanavy. 2010. Effect of sowing date on phenology and morphological traits of three grain sorghum (Sorghum bicolor L.) cultivars. Iranian J. Agri Sci. 12(4): 452-466.
Salehi Shanjani, P., M. Izadpanah, L. Falah Hoseini, M. Ramezani Yeganeh, L. Rasoulzadeh, A. Kavandi, F. Sardabi, M. R. Pahlevani, M. Amirkhani. and S. E. Seyedian. 2015. Comparison the effects of drought stress on pigments, peroxidase, osmotic adjustment and antioxidant enzymes in different accessions of Anthemis tinctoria and Tripleurospermum servanes of Natural Res. Gene Bank of Iran. J. Plant Res. (Iranian J. Biol.). 28 (1): 126-139.
Shabani, A., A. A. Kamgar Haghighi, A. R. Sepaskhah, Y. Imam. and T. Honar. 2010. The effect of water stress on grain yield, yield components and quality of autumn rapeseed (Brasica napus. L.) cv. Licord. Iranian J. Crop Sci. 12(4): 409- 421.
Sharghi, Y., A. H. Shirani Rad, A. Ayeneh Band, G. Noormohammadi. and H. Zahedi. 2011. Yield and yield components of six rapeseeds (Brassica napus L.) cultivars affected by planting date and water deficit stress. Af. J. Biotech. 10(46): 9309-9313.
Sheligl, H. Q. 1986. Die verwertung orgngischer souren durch chlorella lincht. Planta J. 47-51.
Shirani Rad, A. H., M. Naeemi. and Sh. Nasr Esfahani. 2010. Evaluation of terminal drought tolerance in spring and autumn rapeseed cultivars. Iranian J. Crop Sci. 2: 112-126.
Si, P., R. J. Mailer, N. Galwey. and D. W. Turner. 2003. Influence of genotype and environment on oil and protein concentrations of rapeseed (Brassica napus L.) grown across southern Australia. Australian J. Agri. Res. 54: 397-407.
Sinaki, M. J., E. Majidi Heravan, A. H. Shirani Rad, G. Noormohammadi. and G. H. Zarei. 2007. The effects of water deficit during growth stages of rapeseed (Brassica napus L.). American-Eurasian J. Agri. Environ. Sci. 2(4): 417-422.
Sperdouli, I. and M. Moustakas. 2012. Interaction of proline, sugars, and anthocyanins during photosynthetic acclimation of Arabidopsis to drought stress. J. Plant physiol.169(6): 577-585.
Su, L., Z. Dai, S. Li. and H. Xin. 2015. A novel system for evaluating drought–cold tolerance of grapevines using chlorophyll fluorescence. BMC Plant Biol. 15: 82.
Zhang, K. M., H. J. Yu, K. Shi, Y. H. Zhou, J. Q. Yu. and X. J. Xia. 2012. Photoprotective roles of anthocyanin in Begonia Semper Florens. Intl. J. Plant Sci. 179: 202-208.
