尽管普通小麦向根际释放的羧酸盐较少，但与白羽扇豆相比，它对磷酸铝供应的生物量反应更大。

Triticum aestivum shows a greater biomass response to a supply of aluminium phosphate than Lupinus albus, despite releasing fewer carboxylates into the rhizosphere.

作者信息

Pearse Stuart J, Veneklaas Erik J, Cawthray Greg, Bolland Mike D A, Lambers Hans

机构信息

School of Plant Biology, The University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia.

出版信息

New Phytol. 2006;169(3):515-24. doi: 10.1111/j.1469-8137.2005.01614.x.

DOI:10.1111/j.1469-8137.2005.01614.x

PMID:16411954

Abstract

The relationship between carboxylate release and the ability of plants to access phosphorus from AlPO4 and to detoxify aluminium was studied by comparing species with a low and high rate of carboxylate release, Triticum aestivum (wheat) and Lupinus albus (white lupin), respectively. Species were supplied with P at 10, 20, 40 or 100 mg P kg-1 sand in the form of sparingly soluble AlPO4 or soluble KH2PO4; control plants did not receive any P. Triticum aestivum was significantly better than L. albus at accessing P from AlPO4, despite accumulating fewer carboxylates in its rhizosphere. Rhizosphere pH of L. albus did not vary with form or level of P supply, while the rhizosphere pH of T. aestivum increased with the level of P supplied. Based on the evidence in the present study, a model is proposed to explain the poor performance of L. albus, whereby the release of carboxylates and associated protons reduces the chelating ability of exuded carboxylates, thus reducing P acquisition and increasing Al toxicity.

摘要

通过比较羧酸盐释放速率低和高的物种，即普通小麦（Triticum aestivum）和白羽扇豆（Lupinus albus），研究了羧酸盐释放与植物从磷酸铝中获取磷以及解除铝毒性能力之间的关系。分别以难溶性磷酸铝或可溶性磷酸二氢钾的形式，向这些物种提供10、20、40或100 mg P kg-1沙子的磷；对照植物不施任何磷。尽管普通小麦根际积累的羧酸盐较少，但它从磷酸铝中获取磷的能力明显优于白羽扇豆。白羽扇豆的根际pH值不随磷供应形式或水平而变化，而普通小麦的根际pH值随磷供应水平的增加而升高。基于本研究的证据，提出了一个模型来解释白羽扇豆表现不佳的原因，即羧酸盐和相关质子的释放降低了分泌羧酸盐的螯合能力，从而减少了磷的获取并增加了铝的毒性。

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尽管普通小麦向根际释放的羧酸盐较少，但与白羽扇豆相比，它对磷酸铝供应的生物量反应更大。

Triticum aestivum shows a greater biomass response to a supply of aluminium phosphate than Lupinus albus, despite releasing fewer carboxylates into the rhizosphere.

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