Division of Plant Sciences, University of Dundee at JHI, James Hutton Institute, Invergowrie, Dundee, DD2 5DA, UK.
School of Biological Sciences, The University of Western Australia, 35 Stirling Highway, Crawley, WA, 6009, Australia.
New Phytol. 2018 Mar;217(4):1420-1427. doi: 10.1111/nph.14967. Epub 2018 Jan 2.
Content Summary 1420 I. Introduction 1421 II. Root adaptations that influence P acquisition 1422 III. Costs of P acquisition: general 1423 IV. Costs of P acquisition that are independent of soil P concentrations 1423 V. Costs of P acquisition that increase as soil P concentrations decline 1424 VI. Discussion and conclusions 1424 Acknowledgements 1425 References 1425 SUMMARY: We compare carbon (and hence energy) costs of the different modes of phosphorus (P) acquisition by vascular land plants. Phosphorus-acquisition modes are considered to be mechanisms of plants together with their root symbionts and structures such as cluster roots involved in mobilising or absorbing P. Phosphorus sources considered are soluble and insoluble inorganic and organic pools. Costs include operating the P-acquisition mechanisms, and resource requirements to construct and maintain them. For most modes, costs increase as the relevant soil P concentration declines. Costs can thus be divided into a component incurred irrespective of soil P concentration, and a component describing how quickly costs increase as the soil P concentration declines. Differences in sensitivity of costs to soil P concentration arise mainly from how economically mycorrhizal fungal hyphae or roots that explore the soil volume are constructed, and from costs of exudates that hydrolyse or mobilise insoluble P forms. In general, modes of acquisition requiring least carbon at high soil P concentrations experience a steeper increase in costs as soil P concentrations decline. The relationships between costs and concentrations suggest some reasons why different modes coexist, and why the mixture of acquisition modes differs between sites.
内容摘要 1420 I. 引言 1421 II. 影响磷吸收的根系适应性 1422 III. 磷获取的成本:一般 1423 IV. 独立于土壤磷浓度的磷获取成本 1423 V. 随着土壤磷浓度下降而增加的磷获取成本 1424 VI. 讨论与结论 1424 致谢 1425 参考文献 1425 摘要:我们比较了维管陆生植物不同磷(P)获取模式的碳(因此也是能量)成本。磷获取模式被认为是植物与其根共生体以及参与动员或吸收 P 的簇根等结构的机制。考虑的磷源包括可溶性和不溶性无机和有机库。成本包括运行磷获取机制以及构建和维护它们所需的资源。对于大多数模式,成本随着相关土壤 P 浓度的降低而增加。因此,成本可以分为与土壤 P 浓度无关的部分,以及描述随着土壤 P 浓度下降成本增加速度的部分。成本对土壤 P 浓度的敏感性差异主要源于经济上如何构建菌根真菌菌丝或探索土壤体积的根系,以及用于水解或动员不溶性 P 形态的分泌物的成本。一般来说,在高土壤 P 浓度下需要最少碳的获取模式,随着土壤 P 浓度的下降,成本增加的幅度更大。成本与浓度之间的关系表明了不同模式共存的一些原因,以及不同获取模式在不同地点之间的差异。
