[ Objective] The aim was to study the effects of salt and drought stress on Na+ accumulation in Tamarix hispida. [ Method] Tamarix hispida was treated by different levels of salt and drought stress, and then Na + accumulation in Tamarix hispida was determined by ICP - AES.[ Result] Na+ accumulation in Tamarix hispida was in order of leaf > root > stem, among them leaf was the main part of Na+ accumulation,while the stem was only a transport channel for Na + , so there was no cumulative process. Na+ content of Tamarix hispida increased with the increase of NaC1 concentration, and also increased with the increase of stree time. Na+ content of Tamarix hispida decreased with the increase of irrigation, reduced the osmotic potential of root, and also made the root to maintain mositure around the high NaCl concentration. Na+ contents in root and stem of Tamarix hispida increased gradually with the increase of stress time, while Na + content in leaf increased firstly and then decreased. [ Conclusion] The research provides reference for the restoration and reconstruction of damaged ecosystem in the lower reaches of Tarim River.%[目的]研究刚毛柽柳体内Na积累对盐分与水分胁迫的响应.[方法]以盐生植物刚毛柽柳为材料,对其进行了不同水平的盐分和水分胁迫处理,并用电感耦合等离子发射仪(ICP-AES)测定了样品内的Na含量.[结果]刚毛柽柳植株中Na的积累顺序为叶>根>茎,叶是Na累积的主要部位,茎只是一个Na传输通道,不存在累积过程;盐胁迫下刚毛柽柳体内Na含量随NaCl浓度的增加而逐渐升高,随胁迫时间的延长而增加;水分胁迫下刚毛柽柳体内Na含量随灌溉量的减少而增加,降低了根系的渗透势,并使根系在外界高NaCl浓度下保持水分,随着胁迫时间的延长,根和茎中的Na含量逐渐升高,但叶中则是先升高后降低.[结论]为塔里木河下游受损生态系统的恢复与重建提供了参考.
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