La(NO3)3 对盐胁迫下黑麦草幼苗生长及抗逆生理特性的影响

Effect of La(NO3)3 on seedling growth and physiological characteristics of ryegrass under NaCl stress

  • 摘要: 为探讨稀土元素镧(La)对牧草盐胁迫伤害的缓解作用, 采用水培法研究了叶面喷施20 mg·L-1La(NO3)3 对NaCl 胁迫下黑麦草幼苗生长及其抗逆生理特性的影响。结果表明: 盐胁迫显著抑制黑麦草幼苗的生长, 提高叶片电解质渗漏率及丙二醛(MDA)、O2- 和H2O2 含量, 其作用随盐浓度的增大而增强。超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、抗坏血酸过氧化物酶(APX)活性和抗坏血酸(AsA)、谷胱甘肽(GSH)、可溶性蛋白质、脯氨酸含量随盐浓度增大呈先升后降趋势, 可溶性糖和Na+/K+比逐渐增大, 质膜H+-ATP 酶活性逐渐降低, 过氧化物酶(POD)活性及POD 同功酶数量表达增强。喷施La(NO3)3 处理可降低盐胁迫下黑麦草幼苗叶片的O2- 和H2O2 含量, 提高SOD、CAT、POD、APX 和质膜H+-ATP 酶的活性及POD 同功酶的表达, 使AsA、GSH、可溶性蛋白质、可溶性糖和游离脯氨酸含量及幼苗生物量增加, Na+/K+比降低。表明La(NO3)3 可通过提高抗氧化系统的活性和积累渗透溶质减轻盐胁迫伤害, 从而提高黑麦草的耐盐性。

     

    Abstract: To explore the alleviation effect of rare earth La on salt stress damage in herbages, the effects of 20 mg·L-1 La(NO3)3 foliar spraying on seedling growth and physiological characteristics of ryegrass (Lolium perenne L.) under NaCl stress were investigated in a hydroponic culture experiment. The results indicated that salt stress significantly inhibited plant growth, but enhanced leaf electrolytic leakage and MDA, O2- and H2O2 contents in ryegrass seedlings. The intensities of the above effects increased with increasing NaCl concentrations. With the increasing NaCl concentration, the activities of SOD, CAT and APX, and the contents of AsA, GSH, soluble protein and proline in seedling leaf initially increased before decreasing afterwards. Furthermore, soluble sugar and Na+/K+ ratio increased and plasma membrane H+-ATPase activity steadily decreased. NaCl stress meantime increased leaf POD activity and isoperoxidase expression in ryegrass seedlings. Compared with NaCl stress treatment, spraying La(NO3)3 under NaCl stress decreased accumulation of O2- and H2O2, and improved activities of SOD, CAT, POD, APX and H+-ATPase of plasma membrane, and isoperoxidase expression in ryegrass leaf. It also significantly enhanced AsA, GSH, soluble protein, soluble sugar, free proline and biomass, while limiting Na+/K+ ratio. The above results suggested that La(NO3)3 alleviated oxidative damage and growth inhibition due to NaCl stress in ryegrass seedlings. It increased antioxidant activity and osmoticum content, and therefore improved NaCl resistance in ryegrass plants.

     

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