机构地区:[1]浙江大学环境与资源学院,污染环境修复与生态健康教育部重点实验室,杭州310058
出 处:《浙江大学学报(农业与生命科学版)》2014年第5期559-567,共9页Journal of Zhejiang University:Agriculture and Life Sciences
基 金:科技部国际合作项目(2010DFB33960);国家科技支撑计划(2012BAC17B02);国家自然科学基金资助项目(31100513)
摘 要:通过溶液培养方法,研究在镉(Cd)处理下旱柳生长、Cd积累、耐性及低相对分子质量巯基化合物对 Cd胁迫的响应.结果表明:与对照相比,在Cd浓度≥25μmol/L 时显著降低相对生长速率;地上部、根以及整株生物量随着介质Cd浓度升高而逐渐降低,在Cd浓度≥5μmol/L 时显著降低了根生物量,而 Cd 浓度≥25μmol/L 时显著降低地上部生物量;同时,随着 Cd 浓度增加耐性指数也逐渐降低;用根表示半数抑制浓度(50% effective concentration,EC50)为82μmol/L;根和地上部含Cd量随着介质Cd浓度升高而增加,Cd 主要积累于根部,在5-25μmol/L时,地上部含Cd量为64.89-163.13μg/g,此时植物生长没有受到严重影响;根和叶非蛋白质巯基(non-protein thiols,NPTs)、蛋白质巯基(protein thiols,PTs)和总巯基(total thiols,TTs)化合物含量随着介质 Cd浓度增加而增加;中高Cd浓度使根部半胱氨酸(cysteine,Cys)含量高于对照,在 Cd浓度范围为5-50μmol/L 时叶部Cys含量没有显著影响,而Cd浓度为100μmol/L时降低了叶中 Cys 含量;与对照相比,Cd 提高了根中还原型谷胱甘肽(reduced glutathione,GSH)含量,而对叶中 GSH 含量没有影响,根和叶氧化型谷胱甘肽(oxidized glutathione,GSSG)含量降低,GSH/GSSG值高于对照.这些结果表明低相对分子质量巯基化合物在 Cd 忍耐与解毒中起重要作用.Summary Contamination of soil and water with cadmium (Cd) is a widespread and serious environmental problem.Cd is a non-essential element which is the most toxic when dispersed in the environment.Plants have evolved many mechanisms to tolerate and detoxify metals to reduce their cellular toxicity,and plants can produce low molecular mass thiol compounds that involve in tolerance and detoxification to toxic metals. Currently,willows (Salix spp.) with large biomass are high-metal accumulators which have been widely used in phytoextraction of heavy metals such as Cd.However,compared to the hyperaccumulators and some herbaceous plants,it remains unknown that willows can tolerate and detoxify Cd.Salix matsudana Koidz is an economically"nbsp;pioneer tree which is native to China,commonly planted on riverbanks and flooding plains.The obj ectives of this study were:1) To investigate Cd tolerance and uptake in S.matsudana;2) To evaluate thiol compounds in responses to Cd. Seedlings of S.matsudana were grown in hydroponic culture exposed to various Cd levels(0,5,25,50,and 100μmol/L)in a greenhouse for 28 d.The growth parameters were measured including relative growth rate(RGR) and biomass production.The EC50(50% effective concentration,EC50) based on root,shoot (including stem and leaf)and whole plant biomass was calculated,respectively.Thiol compounds were assayed,i.e.,non-protein thiols (NPTs),protein thiols (PTs),total thiols (TTs),cysteine (Cys),reduced glutathione (GSH) and oxidized glutathione (GSSG). The results showed that RGR of height significantly decreased at Cd≥25 μmol/L.Biomasses of shoot,root and whole plant decreased with increasing Cd concentrations in the medium.Root biomass was significantly reduced at Cd≥5 μmol/L,while shoot biomass was reduced at Cd≥25 μmol/L compared with the control.Tolerance indexes (based on root,shoot and whole plant,respectively) were decreased with increasing Cd concentrations in the medium.EC50 based
关 键 词:旱柳 镉 生长参数 低相对分子质量巯基化合物
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