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作 者 ：林咸永;章永松;罗安程;陶勤南

期 刊 ：植物营养与肥料学报 2002年 8卷 3期 页码：330-334

关键词：耐Al性；根际pH；吸收动力学；硝酸还原酶；

Keywords:aluminum tolerance, rhizosphere pH, uptake kinetics, nitrate reductase,

摘 要 ：以耐Al性明显差异的 2个小麦基因型为材料 ,采用溶液培养试验和动力学方法研究了根际 pH变化、NH₄⁺和NO₃^- 的吸收以及NO₃^- 还原与其耐Al性的关系。结果表明 ,A1胁迫下鉴 86.4(耐性基因型 )比扬麦 5号 (敏感基因型 )能维持较高的根际 pH值 ,当溶液 pH值下降到最低时 ,前者比后者高 0.23个pH单位。吸收动力学研究表明 ,鉴 86-4在无Al和有Al胁迫时对NO₃^- 的吸收速率和亲和力大于扬麦 5号 ;而对NH₄⁺的吸收速率和亲和力却小于扬麦 5号。Al还降低叶片和根系的硝酸还原酶活性 ,但鉴 86.4的叶片和根系硝酸还原酶活性均高于扬麦 5号。此外 ,在Al胁迫下 ,植株体内游离脯氨酸含量迅速提高 ,但扬麦 5号积累量高于鉴 86.4。鉴 86.4具有较高的耐Al能力可能与其在Al胁迫下对NO₃^- 的吸收速率、亲和力以及硝酸还原酶活性较高 ,而对N₄⁺的吸收速率和亲和力较低 ,从而能维持较高的根际 pH值有关

Abstract:Two wheat genotypes differing in Al tolerance were employed to study the relationship between changes of rhizosphere pH and NO₃^- and NH + 4 uptake kinetics under Al stress. Tolerant genotype, Jian86-4, was able to maintain higher rhizosphere pH than the sensitive one, Yangmai-5. The lowest rhizosphere pH of Jian86-4 was higher than that of Yangmai-5 by 0.23 unit. The maximum uptake rate (Vm) and affinity indicated by Km for NO₃^- and NH₄⁺ were strongly reduced by Al in both genotypes, with greater reduction in the Al-sensitive one. Jian86-4 had larger maximum uptake rate and affinity for NO₃^- and lower for NH + 4 than Yangmai-5 with and without Al supply. Nitrate reductase activities in leaves and roots were severely decreased by Al, and a greater decrease was noted in Yangmai-5. Al increased the content of free proline in leaves and roots of both two genotypes. The increases were greater in Jian-86-4 than Yangmai-5. It suggested that tolerance of Jian-86-4 to Al was partially achieved by increasing the rhizosphere pH to reduce the solubility, hence the reduction of toxicity of Al, which resulted from the high NO - 3 and low NH₄⁺ absorption, and higher nitrate reductase activity.

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