镍胁迫下，利用能量过滤X射线能谱仪对粉叶银桦变种粉叶银桦的解剖元素进行定位

Anatomical element localization by EDXS in Grevillea exul var. exul under nickel stress.

作者信息

Rabier J, Laffont-Schwob I, Notonier R, Fogliani B, Bouraïma-Madjèbi S

机构信息

Equipe Biomarqueurs et Bioindicateurs Environnementaux, Institut Méditerranéen d'Ecologie et de Paléoécologie, UMR CNRS 6116, Université de Provence, Case 17, 3 Place Victor Hugo, 13331 Marseille Cedex 3, France.

出版信息

Environ Pollut. 2008 Dec;156(3):1156-63. doi: 10.1016/j.envpol.2008.04.001. Epub 2008 May 23.

DOI:10.1016/j.envpol.2008.04.001

PMID:18457907

Abstract

Grevillea exul var. exul, an endemic serpentinic Proteaceae of New Caledonia, was chosen to study the spatial distribution of Ni because this species supports strong content of metals, which can allow important absorptions thus detectable by microanalysis. Fine transversal sections of axenic G. exul var. exul plants grown during 15 days on nickel sulphate medium were examined by EDXS microanalysis. It showed that in Ni treated plants, Ni was concentrated mostly in the phloem compared to the xylem and the epidermis, either in roots or in the basal part of the stems and was mostly in the epidermis in the upper part of the stems and not detectable in the leaves. This metal took the place of P and K in the treated plants whereas the localization of these macroelements was quite uniform in control sections. We assume that a mechanism of phloem loading is implicated to restrict Ni accumulation in G. exul var. exul.

摘要

新喀里多尼亚特有的蛇纹石山龙眼科植物粉叶山龙眼（Grevillea exul var. exul）被选来研究镍的空间分布，因为该物种含有大量金属，能大量吸收金属，从而可通过微分析检测到。对在硫酸镍培养基上生长15天的无菌粉叶山龙眼植株的精细横向切片进行了能量色散X射线光谱（EDXS）微分析。结果表明，在经镍处理的植株中，与木质部和表皮相比，镍主要集中在韧皮部，在根部或茎基部如此，而在茎上部则主要集中在表皮，在叶片中无法检测到。在处理过的植株中，这种金属取代了磷和钾的位置，而在对照切片中这些大量元素的定位相当均匀。我们推测，韧皮部装载机制与限制粉叶山龙眼对镍的积累有关。

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镍胁迫下，利用能量过滤X射线能谱仪对粉叶银桦变种粉叶银桦的解剖元素进行定位

Anatomical element localization by EDXS in Grevillea exul var. exul under nickel stress.

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