A novel method for in situ imaging of root exudates and labile elements reveals phosphorus deficiency-induced mobilization of rare earth elements in the rhizosphere of Phytolacca americana
文献类型: 外文期刊
第一作者: Liu, Chong
作者: Liu, Chong;Ding, Ting-Xuan;Liu, Chang;Liu, Wen-Shen;Tang, Ye-Tao;Qiu, Rong-Liang;Liu, Chong;van der Ent, Antony;van der Ent, Antony;Morel, Jean Louis;Sirguey, Catherine;van der Ent, Antony;Liu, Wen-Shen;Tang, Ye-Tao;Qiu, Rong-Liang
作者机构:
关键词: Root exudates; Mass spectrometry imaging; Rhizosphere effect; Spatial distribution; DGT
期刊名称:PLANT AND SOIL ( 影响因子:4.9; 五年影响因子:5.2 )
ISSN: 0032-079X
年卷期: 2023 年
页码:
收录情况: SCI
摘要: AimsPhosphorus (P) deficiency-induced mobilization of rare earth elements (REEs) in the rhizosphere contributes to REE accumulation in the hyperaccumulator Phytolacca americana, but a lack of in situ methods for visualization of the root-soil interface limits our understanding of the underlying processes.MethodsDiffusive gradients in thin-films (DGT) devices were used for probing root exudates, REEs and P in the P. americana rhizosphere. Desorption electrospray ionization mass spectrometry and laser-ablation inductively coupled mass spectrometry were used for in situ imaging of root exudates, REEs and P sorbed on the DGT.ResultsThe novel approach demonstrated here is capable of synchronously and quantitatively characterizing the distribution of root exudates and labile elements in the rhizosphere. The secretion fluxes of citrate and oxalate in the rhizosphere under P deficiency were three times higher than under P sufficient condition; and the lanthanum (La) fluxes in the rhizosphere under P deficiency were ten times greater than at P sufficiency condition. The enrichment of P and La under P deficiency and depletion under P sufficient conditions in the rhizosphere suggests that P deficiency-induced organic acid secretion is crucial for the mobilization of soil REEs and subsequent REE accumulation in P. americana.ConclusionThe combination of DGT devices with mass spectrometry imaging is technically feasible for in situ synchronous imaging of root exudates, REEs and labile elements at the root-soil interface. Our study shed light on processes of mobilization of mineral elements in the rhizosphere induced as a side-effect of the P acquisition mechanism.
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