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首页> 外文期刊>Turkish Journal of Agriculture & Forestry >Variability in the Response of Chickpea Cultivars to Short-Term Salinity, in Terms of Water Retention Capacity, Membrane Permeability, and Osmo-Protection
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Variability in the Response of Chickpea Cultivars to Short-Term Salinity, in Terms of Water Retention Capacity, Membrane Permeability, and Osmo-Protection

机译:鹰嘴豆品种对短期盐度响应的变异性(保水能力,膜渗透性和渗透保护性)

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Seedlings of 2 chickpea cultivars (Cicer arietinum L.). salt-tolerant kabuli (CSG 9651) and salt-sensitive desi (DCP 92-3). were raised under control (distilled wale,) and salinity (EC = 4.6, and 8 ds m(-1)) condition,. Salt treatments were applied once symbiosis was well established (i.e. 15 days after sowing [DAS]) and continued until the last sampling stage (i.e. 70 DAS). The experiments were terminated 70 DAS and the plants were analyzed 40 and 70 DAS. Salt stress decreased the relative water content (RWC), membrane stability index (MSI), leaf chlorophyll (CHL), plant biomass. and grain yield. and increased total soluble sugars in both cultivars at both stages (40 and 70 DAS). Salinity-induced declines in RWC, MSI, CHL, biomass, and grain yield were significantly greater in desi DCP 92-3 than in Kabuli CSG 9651. DCP 92-3 also had higher accumulation of Na+ in the roots as well its translocation into shoots. which had a negative impact on the K+/Na+ ratio. Results indicate that the salinity tolerance of kabuli CSG 9651. as manifested by less of a decrease in biomass and grain yield, was associated with higher membrane permeability, osmolyte concentration, and potassium content, and lower sodium content, as compared to salt-sensitive desi DCP 92-3. It is apparent that the salt-tolerant cultivar had better protection against salt-induced stress as a result of the Cumulative action of various physiological and biochemical processes.
机译:2个鹰嘴豆品种(Cicer arietinum L.)的幼苗。耐盐的喀布尔(CSG 9651)和盐敏感的desi(DCP 92-3)。在控制(蒸馏鲸)和盐度(EC = 4.6,以及8 ds m(-1))的条件下生长。共生关系确定后(即播种后15天[DAS]),应进行盐处理,并一直持续到最后一个采样阶段(即70 DAS)。实验终止于70 DAS,并分析了植物40和70 DAS。盐胁迫降低了相对含水量(RWC),膜稳定性指数(MSI),叶绿素(CHL),植物生物量。和谷物产量。在两个阶段(40和70 DAS)两个品种的总可溶性糖增加。盐度引起的RDC,MSI,CHL,生物量和谷物产量的下降在Desi DCP 92-3中显着大于在Kabuli CSG 9651中。DCP92-3在根中也具有较高的Na +积累,以及其向芽中的转移。 。这对K + / Na +比率有负面影响。结果表明,与盐敏感的desi相比,kabuli CSG 9651的耐盐性表现为较少的生物量和谷物产量下降,与较高的膜渗透性,渗透压浓度和钾含量以及较低的钠含量有关DCP 92-3。显然,由于各种生理和生化过程的累积作用,耐盐品种对盐诱导的胁迫具有更好的保护作用。

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