铵态氮影响 Cd 和 Zn 的吸收、转运、亚细胞分布和化学形态，从而介导矮波兰小麦（Triticum polonicum L.）幼苗中 Cd/Zn 的相互作用。

Ammonium N influences the uptakes, translocations, subcellular distributions and chemical forms of Cd and Zn to mediate the Cd/Zn interactions in dwarf polish wheat (Triticum polonicum L.) seedlings.

机构信息

Triticeae Research Institute, Sichuan Agricultural University, Wenjiang, 611130, Sichuan, China.

College of Resources, Sichuan Agricultural University, Wenjiang, 611130, Sichuan, China.

出版信息

Chemosphere. 2018 Feb;193:1164-1171. doi: 10.1016/j.chemosphere.2017.11.058. Epub 2017 Nov 14.

DOI:10.1016/j.chemosphere.2017.11.058

PMID:29874745

Abstract

Ammonium (NH) would influence the uptake and translocation of Cd and Zn to mediate their interactions in wheat. Thus, the effects of NH on Cd and Zn uptake, translocation, subcellular distributions and Cd chemical forms in dwarf polish wheat (DPW, Triticum polonicum L.) under Cd, Zn and Cd + Zn stresses with lack or supply of NH was investigated. The biomasses of root and shoot were reduced by NH. NH enhanced Cd and Zn uptakes, but inhibited their translocations. Under lack and supply of NH, Zn inhibited Cd uptakes, but promoted Cd translocations. Meanwhile, NH reinforced the inhibition of Cd uptake and the promotion of Cd translocation caused by Zn. Cd inhibited Zn uptake and promoted Zn translocation under lack of NH. Meanwhile, Cd slightly reduced the Zn uptake, but did not affect the translocation under supply of NH. Therefore, NH alleviated the inhibition of Zn uptake and partly reduced the promotion of Zn translocation stimulated by Cd. NH and Zn changed the subcellular distributions and chemical forms of Cd. NH and Cd also influenced the subcellular distributions of Zn. The changed subcellular distributions and chemical forms were associated with Cd and Zn uptakes and translocations, which physiologically revealed and illustrated NH participates in Cd/Zn interactions.

摘要

铵（NH）会影响 Cd 和 Zn 的吸收和转运，从而介导它们在小麦中的相互作用。因此，研究了在 Cd、Zn 和 Cd+Zn 胁迫下，缺乏或供应 NH 对矮波兰小麦（DPW，Triticum polonicum L.）中 Cd、Zn 的吸收、转运、亚细胞分布和 Cd 化学形态的影响。NH 降低了根和地上部分的生物量。NH 促进了 Cd 和 Zn 的吸收，但抑制了它们的转运。在缺乏和供应 NH 的情况下，Zn 抑制了 Cd 的吸收，但促进了 Cd 的转运。同时，NH 增强了 Zn 对 Cd 吸收的抑制和对 Cd 转运的促进作用。在缺乏 NH 的情况下，Cd 抑制 Zn 的吸收并促进 Zn 的转运。同时，Cd 轻微降低了 Zn 的吸收，但在供应 NH 的情况下不影响 Zn 的转运。因此，NH 缓解了 Cd 对 Zn 吸收的抑制作用，并部分降低了 Cd 对 Zn 转运的促进作用。NH 和 Zn 改变了 Cd 的亚细胞分布和化学形态。NH 和 Cd 也影响了 Zn 的亚细胞分布。亚细胞分布和化学形态的变化与 Cd 和 Zn 的吸收和转运有关，这从生理上揭示和说明了 NH 参与了 Cd/Zn 的相互作用。

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铵态氮影响 Cd 和 Zn 的吸收、转运、亚细胞分布和化学形态，从而介导矮波兰小麦（Triticum polonicum L.）幼苗中 Cd/Zn 的相互作用。

Ammonium N influences the uptakes, translocations, subcellular distributions and chemical forms of Cd and Zn to mediate the Cd/Zn interactions in dwarf polish wheat (Triticum polonicum L.) seedlings.

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