Salicylic acid foliar application meliorates Portulaca oleraceae L. growth responses under Pb and Ni over-availability while keeping reliable phytoremediation potential.
IF 4.3 3区 材料科学Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Farzad Rasouli, Sahar Jalalian, Faezeh Hayati, Mohammad Bagher Hassanpouraghdam, Mohammad Asadi, Asghar Ebrahimzadeh, Ivana Puglisi, Andrea Baglieri
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引用次数: 0
Abstract
The efficacy of SA foliar use on Pb and Ni-induced stress tolerance and phytoremediation potential by Portulaca oleraceae L. were assayed as a factorial trial based on a completely randomized design with four repetitions. The factors included; SA foliar application (0 and 100 µM) and HMs application of Pb [0, 150, and 225 mg kg-1 soil Lead (II) nitrate] and Ni [0, 220, and 330 mg kg-1 soil Nickel (II) nitrate]. Plant height, stem diameter, shoot and root fresh and dry weight, photosynthetic pigments, total soluble proteins, palmitic acid, stearic acid, arachidic acid, and some macro- and micro-elements contents were reduced facing the HMs stress, but SA foliar application ameliorated these traits. HMs stress increased malondialdehyde content, total antioxidant activity, total flavonoids, phenolics, and linolenic acid content, while SA foliar application declined the mentioned parameters. Moreover, shoot and root Pb and Ni content enhanced in the purslane plants supplemented by SA under the HMs stress. The results propose SA foliar application as a reliable methodology to recover purslane growth characters and fatty acid profiles in the soil contaminated with the HMs. The idea is that SA would be potentially effective in alleviating HMs contamination while keeping reasonable phytoremediation potential.
在完全随机设计的基础上,通过四次重复的因子试验,评估了叶面喷施 SA 对马齿苋的铅和镍诱导的胁迫耐受性和植物修复潜力的功效。试验因素包括:SA 叶面喷施(0 和 100 µM)和 HMs 施加铅[0、150 和 225 mg kg-1 土壤硝酸铅(II)]和镍[0、220 和 330 mg kg-1 土壤硝酸镍(II)]。面对 HMs 胁迫,植株高度、茎秆直径、芽和根的鲜重和干重、光合色素、总可溶性蛋白质、棕榈酸、硬脂酸、花生四烯酸以及一些宏量和微量元素的含量都有所降低,但叶面喷施 SA 可改善这些性状。HMs胁迫增加了丙二醛含量、总抗氧化活性、总黄酮类化合物、酚类化合物和亚麻酸含量,而叶面喷施 SA 则降低了上述参数。此外,在 HMs 胁迫下,补充 SA 的马齿苋植株的芽和根中铅和镍的含量均有所增加。研究结果表明,叶面施肥是恢复马齿苋生长特性和受 HMs 污染土壤中脂肪酸含量的可靠方法。这意味着 SA 有可能有效缓解 HMs 污染,同时保持合理的植物修复潜力。