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NaCl胁迫下野生和栽培大豆幼苗体内离子的再转运
引用本文:於丙军,罗庆云,刘友良.NaCl胁迫下野生和栽培大豆幼苗体内离子的再转运[J].植物生理与分子生物学学报,2003,29(1):39-44.
作者姓名:於丙军  罗庆云  刘友良
作者单位:南京农业大学生命科学学院植物生物学系,农业部国家大豆改良中心,南京,210095
基金项目:瑞典国际科学基金 (IFS) (C/314 3 1),高等学校博士学科点专项基金 (19990 0 2 0 0 5 )资助
摘    要:采用NaCl根际处理和叶面饲喂^22Na方法,研究了野生大豆(Glycine soja)——耐盐的BB52、盐敏感的N23232和栽培大豆(Glycine max)——较耐盐的Lee68幼苗在盐胁迫及解除过程中对Na^ 、Cl^-的吸收和再转运。结果表明,在NaCl根际处理12h过程中,BB52和Lee68幼苗根对Na^ 、Cl^-吸收和向茎、叶的运输逐渐增加,10h时趋于稳定,Na^ 、Cl^-含量高低顺序是根>茎>叶。但N23232的Na^ 、Cl^-含量则是茎>根>叶。在用NaCl对根处理10h后再解除NaCl处理的0~36h内,BB52吸收的Na^ 、Cl^-较多地留于根部或转运至根茎过渡区,叶中较少。N23232吸收的Na^ 较多地转运至茎部,而Cl^-含量在幼苗各部分无差异。叶片饲喂^22Na 10h后,BB52吸收^22Na较N23232多,并较多地向根部运输。从离子再转运角度讨论了BB52的耐盐性。

关 键 词:盐胁迫  野生大豆  栽培大豆  离子再转运  耐盐性
修稿时间:2002年7月15日

Re-Transportation of Ions in Glycine soja and Glycine max Seedlings Under NaCl Stress
YU Bing-Jun,LUO Qing-Yun,LIU You-Liang.Re-Transportation of Ions in Glycine soja and Glycine max Seedlings Under NaCl Stress[J].Journal Of Plant Physiology and Molecular Biology,2003,29(1):39-44.
Authors:YU Bing-Jun  LUO Qing-Yun  LIU You-Liang
Abstract:The absorption of Na + and Cl - by soybean seedlings under salt stress and re-transportation of Na + and Cl - after the removal of salt stress have been studied with Glycine soja (the higherly salt-tolerant BB52 and the salt-sensitive N23232) and Glycine max (the salt tolerant Lee68) with the rhizosphere NaCl treatment and 22NaCl feeding on leaf blade. It showed that, during the stress of NaCl 150 mmol/L for 12 h, the absorption of Na + and Cl - by roots, and their transportation to stems and leaves of BB52 and Lee68 proceeded till 10 h, and the Na + and Cl - contents were in the order roots>stems>leaves. But the order in N23232 was stems>roots>leaves(Figs.1,2). The absorbed Na + and Cl - in BB52 stressed with NaCl 150 mmol/L for 10 h were mainly remained in roots or re-transported to root-stem transition zone after withdrawal of NaCl for 36 h, while those in N23232 were mostly re-transported to stems for Na + and showed no difference in all parts for Cl -(Figs.4,5). After 22NaCl feeding on leaf blade for 10 h, the much more uptake of 22Na in BB52 was more transported to the roots, while that in N23232 was the opposite(Fig.6). The mechanisms of salt tolerance in BB52 were also discussed.
Keywords:salt stress  Glycine soja  Glycine max  treatment of NaCl      22Na  re-transportation of ions  
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