六价铬对红芸豆种子萌发和幼苗生长的毒害作用及外源NO的缓解效应

Toxic effect of hexavalent chromium on seed germination and seedling growth of red kidney bean and the alleviation effect of exogenous NO

  • 摘要: 为了研究铬(Cr)对红芸豆种子萌发和早期幼苗生长的胁迫作用及硝普钠(SNP, NO供体)的缓解作用, 以红芸豆品种‘红芸3号’为试材, 采用纸间发芽方法和水培法, 研究Cr和外源NO对红芸豆种子萌发、种胚和幼苗抗氧化系统、幼苗光合特性以及营养元素吸收转运的影响。结果表明, 20 μmol·L−1 K2Cr2O7胁迫诱发红芸豆种胚和幼苗氧化损伤, 抑制幼苗对营养元素的吸收和转运, 降低幼苗光合作用, 进而抑制红芸豆种子萌发和早期幼苗的生长。添加100 μmol·L−1 SNP (外源NO)可减轻Cr对种胚和幼苗的氧化胁迫伤害, 降低Cr在幼苗中的积累, 促进幼苗对营养元素的吸收和转运, 增强幼苗光合作用。种子萌发生长72 h时, 20 μmol·L−1 K2Cr2O7胁迫下添加SNP, 种胚H2O2 \mathrmO_2^- 和MDA含量分别比Cr胁迫处理降低36.15%、30.96%和34.97%; Cr胁迫下, 添加SNP幼苗生长10 d, 根系H2O2 \mathrmO_2^- 和MDA含量分别比Cr胁迫处理降低55.25%、48.60%和33.54%, 叶片H2O2 \mathrmO_2^- 和MDA含量分别比Cr胁迫处理降低27.71%、36.40%和53.85%, 根系活力比Cr胁迫处理升高59.16%; 幼苗根和叶中Cr含量比Cr胁迫处理降低69.14%和24.08%, 幼苗根中Mg、Fe、Cu和Zn含量比Cr胁迫处理分别增加37.10%、17.96%、5.17%和13.60%, 幼苗叶中Mg、Fe、Cu、Zn元素含量比Cr胁迫处理分别增加32.57%、29.49%、22.45%和36.07%; 幼苗净光合速率和PSⅡ最大光合效率比Cr胁迫处理提高58.60%和11.27%。外源NO通过诱导种胚抗氧化酶活性提高, 降低幼苗对Cr的吸收, 促进幼苗对营养元素的吸收和转运, 增强幼苗光合作用, 缓解Cr对红芸豆种子萌发和早期幼苗生长的胁迫作用。

     

    Abstract: To study the stress effect of chromium (Cr) on seed germination and early seedling growth of red kidney beans and the alleviation effect of sodium nitroprusside (SNP, NO donor), the red kidney bean variety ‘Hongyun 3’ was used as the test material. The effects of Cr and exogenous NO on seed germination, antioxidant system of embryos and seedlings, photosynthetic characteristics of seedlings, and absorption and transport of nutrient elements in red kidney bean were studied using paper germination and hydroponic methods. Treatment with 20 μmol·L−1 K2Cr2O7 stress induced oxidative damage in red kidney bean embryos and seedlings, inhibited the absorption and transport of nutrients by seedlings, reduced the photosynthesis of seedlings, and inhibited the germination of red kidney bean seeds and the growth of early seedlings. The addition of 100 μmol·L−1 SNP (exogenous NO) could alleviate the oxidative stress damage of Cr to embryos and seedlings, reduce the accumulation of Cr in seedlings, promote the absorption and transport of nutrients in seedlings, and enhance the photosynthesis of seedlings. At 72 h of seed germination and growth, the contents of H2O2, \mathrmO_2^- , and malondialdehyde (MAD) in embryo decreased by 36.15%, 30.96%, and 34.97%, respectively, compared with Cr stress treatment. Under Cr stress, the contents of H2O2, \mathrmO_2^- , and MDA in roots of seedlings treated with SNP decreased by 55.25%, 48.60%, and 33.54%, respectively; and in leaves of seedling growth for 10 d decreased by 27.71%, 36.40%, and 53.85%, respectively, compared to Cr stress treatment. The activities of SOD, POD and CAT in roots and leaves of seedlings significantly decreased by 14.49% and 31.76%, 51.72% and 19.15%, and 28.18% and 42.59%, respectively, compared to Cr stress treatment. The root activity was 59.16% higher than that in Cr stress treatment. The content of Cr in roots and leaves of seedlings decreased by 69.14% and 24.08% compared with Cr stress treatment. The contents of Mg, Fe, Cu, and Zn in roots of seedlings increased by 37.10%, 17.96%, 5.17%, and 13.60%, respectively, compared with Cr stress treatment. The contents of Mg, Fe, Cu, and Zn in leaves of seedlings increased by 32.57%, 29.49%, 22.45%, and 36.07%, respectively, compared with Cr stress treatment. The net photosynthetic rate and PSⅡ maximum photosynthetic efficiency of seedlings were 58.60% and 11.27% higher than those of Cr stress treatment. Exogenous NO alleviates the stress damage caused by Cr on seed germination and early seedling growth of red kidney beans by inducing an increase in antioxidant enzyme activity in the embryo, reducing the absorption of Cr by seedlings, promoting the absorption and transport of nutrients by seedlings, and enhancing photosynthesis in seedlings.

     

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