出 处:《中国沙漠》2013年第1期126-132,共7页Journal of Desert Research
基 金:新疆维吾尔自治区"十二五"科技重大专项(201130106-1)资助
摘 要:采用盆栽沙培,研究了不同浓度NaCl处理下耐盐性不同的胡杨和新疆杨2种杨属物种幼苗体内K+、Na+和Cl-在器官间的区域化分布及其吸收运输特性,以揭示其耐盐性差异机制。结果表明:①NaCl胁迫下,2种植物体内K+含量下降,Na+和Cl-含量增加。不同器官中,K+含量叶中最高,茎中次之,根中最低;Na+含量由高到低依次为叶>根>茎;Cl-含量在2种植物间存在差异,胡杨叶中Cl-含量最高,根中次之,而新疆杨则是根中最高,叶中次之,但均是茎中最低。就各离子变化幅度而言,胡杨体内K+含量下降幅度及Na+增加幅度均低于新疆杨;胡杨根和茎中Cl-含量增加幅度小于新疆杨,而在叶中的增加幅度大于新疆杨。②2种植物体内K+/Na+值均随着NaCl浓度的升高而降低;除了低盐胁迫的茎以外,胡杨各器官中的K+/Na+值均显著高于新疆杨。与耐盐性较弱的新疆杨相比,胡杨根-茎运输选择性SK,Na值较低,而茎-叶运输选择性SK,Na值较高,根系截留Na+的能力较强。③随着NaCl浓度的增加,胡杨根向茎运输的SCl,Na值呈降低趋势,而新疆杨呈先降低后增加的趋势。耐盐性强的胡杨根向茎运输的SCl,Na值显著高于新疆杨,而茎向叶运输的SCl,Na值均低于新疆杨(2.0%NaCl处理除外)。以上结果表明,NaCl胁迫下胡杨是将盐分离子优先积累在根系来抵抗盐害,而新疆杨则是将盐分离子优先积累在茎部抵抗盐害。胡杨细胞拒盐性及液泡对盐分离子区隔化能力、维持K+、Na+平衡的能力较新疆杨强是其耐盐性优于新疆杨的主要原因。The uptake, transport and distribution of K+ , Na+ and Cl in different parts of Populus Euph- ratica and Populus bolleana Lauche seedlings under different NaCl stress conditions were investigated to study the salt tolerance mechanisms of the two poplar species. The results showed that: (1) The concentra- tion of K+ declined, Na+ and Cl- increased in the two poplars under NaCl stress. The concentration of K+ showed the highest level in leaves, the less in stem and the lowest in root. The order of Na+ concentration was as follow: leaves 〉 root 〉 stem. The Cl showed different distribution patterns between P. euphrat- ica and P. bolleana, and the leaves contained more el- ion than in root for P. euphratica, however, the root contained more Cl- than in leaves for P. bolleana. The Clconcentration was the lowest in the stem for the two poplar species. NaCl stress showed less effect in K+ and Na+ level in P. euphratica than in P. bolleana, and el- concentration increased less in P. euphratica root and stem than those of P. bolleana under NaCl stress. Compared with P. bolleana leaves, there was more significant CI- level rise in P. eu- phratica leaves. (2) The K+/Na+ ratios in the two plants declined with the increasing of NaCI concentra- tion. The K+/Na+ ratio was significantly higher in all organs of P. euphratica than that of P. bolleana ex- cept for stem exposed under low NaCl concentration. Compared with P. bolleana, P. euphratica had a lower transport selectivity of K+ to Na+ from root to stem, but had a higher transport selectivity of K+ to Na+ from stem to leaves, and retained more Na+ in roots. (3)With the increase of NaCl concentration, the transport selectivity of CI- to Na+ from root to stem decresed in P. euphratica, but it decreased firstly and then increased in P. bolleana. Compared with P. bolleana, the transport selectivity of Cl to Na+ from root to stem in P. euphratica was significantly higher, but the transport selectivity of C1 to Na+ from st
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