摘要: |
采用水培法,研究不同浓度Cu2+胁迫对狭叶香蒲生长及生理特性的影响。结果表明:狭叶香蒲叶宽、株高的增长量及整株干物质累积量在较低浓度Cu2+处理时均未受影响,此后随Cu2+浓度升高显著下降。Cu2+浓度为0~30 mg•L 1时,叶绿素含量显著上升,此后随Cu2+浓度增加其含量显著下降。在Cu2+浓度0~5 mg•L 1范围内根系活力显著上升,此后随Cu2+浓度升高则大幅下降。根系和叶片SOD、POD、CAT活性随Cu2+浓度增加均呈先显著升高后显著降低的趋势,根系SOD、POD活性在30 mg•L 1时出现最大值,叶片SOD、POD活性在55 mg•L 1时出现最大值,根系和叶片CAT活性均在80 mg•L 1时出现最大值;同一Cu2+浓度下,根系SOD、POD、CAT活性明显高于叶片,说明根系比叶片对Cu2+胁迫反应更敏感。从根系和叶片SOD/POD、SOD/CAT的比值变化上看出,在Cu2+为1 mg•L 1和5 mg•L 1时起主要保护作用的酶是SOD、POD,后来CAT起到主要作用。MDA含量自Cu2+浓度为30 mg•L 1时开始持续上升。说明在Cu2+为30~55 mg•L 1时狭叶香蒲表现为积极的生理响应。 |
关键词: 狭叶香蒲 Cu2+胁迫 生长 生理特性 |
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Effect of Cu2+ stress on the growth and physiological properties of Typha angustifolia |
ZHAO Yan1, XU YingChun2, CHAI CuiCui2, ZHOU Yan2
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1.Lishui Special Education School, Lishui 211200, China;2.College of Horticulture, Nanjing Agricultural University, Nanjing 210095, China
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Abstract: |
Effects of Cu2+ stress on physiological properties and growth of Typha angustifolia were studied by hydroponic culture method. The results showed that the leaf width,plant height and the dry weight accumulation were not obviously affected at the low Cu2+concentration,but decreased with the increasing Cu2+concentration. The content of chlorophyll increased among 0-30 mg•L 1 Cu2+ and decreased obviously with the increasing of Cu2+concentration. Root activity increased among 0-5 mg•L 1 Cu2+ and also decreased apparently afterwards with the increasing of Cu2+concentration.. The activities of SOD,POD and CAT increased with the increasing of Cu2+concentration and decreased clearly afterwards. The highest value of SOD,POD of roots appeared at 30 mg•L 1 Cu2+,while the peak values of in leaves were at 55 mg•L 1 Cu2+. The activity of CAT reached to the highest at 80 mg•L 1. The activities of SOD,POD and CAT of root were higher than leaves apparently under the same Cu2+concentration stress,it was suggested that sensitivity of roots to Cu2+concentrations were higher than that of leaves. The activities of SOD,POD played the main role on protecting T.angustifolia under 1-5 mg•L 1Cu2+ stress,while CAT played the main role afterwards. The content of MDA reached to the high point at 30 mg•L 1 Cu2+ and increased afterwards with the increasing of Cu2+concentration. It was suggested that T.angustifolia had an active physiological response under 30-55 mg•L 1 Cu2+ stress. |
Key words: Typha angustifolia copper stress growth physiological characters |