Variation in Carbohydrate Accumulation in Two Cultivars of Mustard and its Association with Salt Tolerance

Asim Masood, Noushina Iqbal, Asgher, M. R. Khan, M. Fatma, N. Khan
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引用次数: 5

Abstract

Among various environmental stresses, soil salinity is one of the most severe stress factors that may impair crop productivity. Increased salinization of arable land is expected to have devastating global effects resulting 50% land loss by the year 2050. The physiological and biochemical responses of two different mustard cultivars (cv. Varuna and cv. SS2) to salt stress were studied under green house conditions. The plants were grown in pots and were treated for 7 days with NaCl starting at the appearance of the first trifoliate leaf unfolded. It was established that the applied dose of NaCl caused stress in the young mustard plants, which found expression in the suppression of growth and photosynthesis activity. The applied NaCl caused stronger inhibition in both the cultivars but the effect was more pronounced on cv. SS2 than cv. Varuna. The amount of carbohydrate in the tissues of the salt-treated plants increased, while the cell water potential was reduced. Adaptation of plants to salinity is associated with osmoregulation adjustment. Variation in carbohydrate accumulation is of particular importance because of their direct relationship with physiological processes as photosynthesis, translocation and respiration. Further, accumulation of carbohydrate under salinity stress is an osmotic adjustment that helps plants to survive under stress and greater accumulation in Varuna and least in SS2 helps in categorizing Varuna as a tolerant cultivar.
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两种芥菜品种碳水化合物积累的变异及其与耐盐性的关系
在各种环境胁迫中,土壤盐分是影响作物生产力的最严重的胁迫因素之一。耕地盐碱化加剧预计将对全球造成毁灭性影响,到2050年将导致50%的土地流失。两种不同芥菜品种的生理生化反应。Varuna和cv。研究了温室条件下SS2对盐胁迫的影响。盆栽,从第一片三叶展开开始,用NaCl处理7天。结果表明,NaCl胁迫对芥菜幼苗的生长和光合活性均有抑制作用。施用NaCl对两个品种的抑制作用均较强,但对cv的抑制作用更为明显。SS2比cv。伐楼拿。盐处理后植物组织中碳水化合物含量增加,细胞水势降低。植物对盐度的适应与渗透调节有关。碳水化合物积累的变化特别重要,因为它们与光合作用、转运和呼吸等生理过程直接相关。此外,盐胁迫下碳水化合物的积累是一种渗透调节,有助于植物在胁迫下生存,在Varuna中积累较多,而在SS2中积累最少,有助于将Varuna归类为耐盐品种。
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