"Luiz de Queiroz" College of Agriculture, University of São Paulo, Piracicaba, 13418-900, Brazil.
Chemosphere. 2019 Dec;236:124324. doi: 10.1016/j.chemosphere.2019.07.055. Epub 2019 Jul 8.
Plants benefit from the simultaneous uptake of nitrate (NO) and ammonium (NH), which can influence the bioaccumulation of heavy metals. Nevertheless, there are no studies on the effect of nitrogen forms on grasses used for cadmium (Cd) phytoextraction. The objective was to evaluate the response of Panicum maximum cv. Tanzania to NO/NH ratios and Cd levels. A 3 × 3 factorial experiment was conducted under greenhouse conditions, in a randomized complete block design replicated three times, with three NO/NH ratios (100/0, 70/30 and 50/50) and three Cd levels (0.0, 0.5 and 1.0 mM). Although it increased plant total nitrogen concentration, Cd exposure reduced shoot and root growth. Moreover, it altered nitrogen metabolism and induced the accumulation of NO and NH mainly in shoots. The supply of 50/50 disturbed glutamine synthetase activity and changed root morphology under Cd toxicity. However, while the exclusive use of NO mitigated toxicity symptoms, by favoring Cd accumulation in roots and maintaining normal nitrogen metabolism, plants grown with 50/50 showed increased uptake, transport and accumulation of this metal. Thus, Cd uptake and accumulation are strongly related to the form of nitrogen available, and the supply of 50/50 increases the phytoextraction of this metal.
植物从同时吸收硝酸盐(NO)和铵(NH)中受益,这会影响重金属的生物积累。然而,目前还没有研究氮素形态对用于镉(Cd)植物提取的草的影响。本研究的目的是评估坦桑尼亚帕尼姆最大品种对不同氮素形态和 Cd 水平的响应。在温室条件下,采用完全随机区组设计进行了 3×3 析因试验,重复三次,设置了 3 种氮素形态比(100/0、70/30 和 50/50)和 3 种 Cd 水平(0.0、0.5 和 1.0mM)。尽管 Cd 暴露增加了植物总氮浓度,但降低了地上部和地下部的生长。此外,它改变了氮代谢,并主要在地上部诱导了 NO 和 NH 的积累。在 Cd 毒性下,50/50 的供应扰乱了谷氨酰胺合成酶的活性并改变了根系形态。然而,虽然单独使用 NO 可以减轻毒性症状,通过促进 Cd 在根部的积累并维持正常的氮代谢,但用 50/50 培养的植物表现出对这种金属更高的吸收、运输和积累。因此,Cd 的吸收和积累与可用氮素形态密切相关,50/50 的供应增加了该金属的植物提取。
