多年生黑麦草(Lolium perenne)的铝响应网络。水通量和离子输运

R. Bennet, A. Stewart
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引用次数: 9

摘要

通过分析不同铝耐受性水培植物在铝(0、20、40、80 μM: pH 4.5)处理28 d后的矿质营养和水分利用特征,研究了铝的毒性。两条线路对人工智能的反应都是增加用水量。然而,耐铝植物能够控制铝刺激的水通量,并且水分利用的逐步增加(增加铝)仅限于铝敏感材料。虽然铝通常不会被输送到叶片中,但铝处理引起了叶片成分的变化,包括对钙、钾和磷水平的明显相反的影响,这在耐铝和铝敏感的植物中发现。对这些差异的分析表明,叶片Ca浓度与水分利用呈正相关,而叶片K浓度与Ca呈拮抗相关,因此与Al刺激下植物水分利用的变化呈负相关。以磷转运和土壤波动为中心的钾营养差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The aluminium response network in perennial ryegrass (Lolium perenne): II. Water fluxes and ion transport
Aluminium toxicity was investigated by analyzing the mineral nutrition and water-use characteristics of hydroponically-grown plants differing in tolerance to Al when subjected to Al (0, 20, 40, 80 μM: pH 4.5) for 28 days. Both lines reacted to Al by increasing their water-use. The Al-tolerant plants were, however, able to control the Al-stimulated water fluxes and progressive increases in water-use (increasing Al) were limited to the Al-sensitive material. Although Al was not generally transported into the foliage, Al treatments nevertheless elicited changes in the composition of the leaves including apparently opposite effects on the Ca, K and P levels found in Al- tolerant and Al-sensitive plants. Analysis of these differences revealed that leaf Ca concentrations were positively related to water-use while leaf K was antagonistically linked to Ca and thus inversely related to the Al- stimulated changes in the plants' water-use. Differences in K nutrition centred around P transport and fluctuations in lea...
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