水胁迫下茜草对含锌介孔二氧化硅纳米颗粒的物理化学响应。

Biotechnologia Pub Date : 2023-09-25 eCollection Date: 2023-01-01 DOI:10.5114/bta.2023.130729
Maryam Mohamadzadeh, Mohsen Janmohammadi, Amin Abbasi, Naser Sabaghnia, Viorel Ion
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引用次数: 0

摘要

鹰嘴豆是半干旱地区种植的重要食用豆类,缺水和营养缺乏对作物生产产生负面影响。本研究旨在研究来自不同来源的锌和硅,包括大块和纳米结构,对伊朗西北部马拉赫种植的鹰嘴豆植物在田间条件下的各种生化性状的影响。主要试验因子由三个土壤水分水平组成:灌溉至田间容量的90%、60%和30%。将亚地块分配给不同肥料的叶面施用:对照(蒸馏水)、硫酸锌(ZnSO)、二氧化硅纳米颗粒(SiO2 NPs)、ZnSO+SiO2 NPs和含锌介孔二氧化硅纳米粒子(MSNPs-Zn)。结果表明,尽管土壤水分的减少对几个生化过程产生了负面影响,但在常规本体和纳米结构中叶面施用锌和硅会显著影响植物抗氧化系统、质膜完整性以及光合色素和相容溶质的浓度。然而,在60%FC下,MSNPs-Zn和ZnSO+SiO2对过氧化氢酶、抗坏血酸过氧化物酶、愈创木酚过氧化物酶、超氧化物歧化酶和花青素的诱导作用最强。此外,叶面喷洒MSNPs-Zn减轻了水分亏缺胁迫对光合色素(叶绿素a/b和类胡萝卜素含量)的负面影响。水分胁迫显著诱导叶片中游离脯氨酸的积累。总体而言,结果表明,叶面喷施MSNPs-Zn,特别是在60%FC条件下,改善了植物的防御系统,清除了活性氧,增强了色素的积累和稳定性,从而减轻了干旱胁迫的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Physiochemical response of <i>Cicer arietinum</i> to zinc-containing mesoporous silica nanoparticles under water stress.

Physiochemical response of <i>Cicer arietinum</i> to zinc-containing mesoporous silica nanoparticles under water stress.

Physiochemical response of <i>Cicer arietinum</i> to zinc-containing mesoporous silica nanoparticles under water stress.

Physiochemical response of Cicer arietinum to zinc-containing mesoporous silica nanoparticles under water stress.

Chickpea is an important food legume cultivated in semiarid regions, where water scarcity and nutrient deficiencies negatively affect crop production. This study aimed to investigate the effect of zinc and silicon from different sources, including bulk and nanostructures, on various biochemical traits of chickpea plants grown under field conditions in Maragheh, Northwest Iran. The main experimental factor consisted of three soil moisture levels: irrigation to 90% of field capacity (FC), 60% FC, and 30% FC. The subplots were assigned for foliar application of different fertilizers: control (distilled water), zinc sulfate (ZnSO), silicon dioxide nanoparticles (SiO2 NPs), ZnSO + SiO2 NPs, and zinc-containing mesoporous silica nanoparticles (MSNPs -Zn). The results showed that although decreased soil moisture had a negative impact on several biochemical processes, foliar application of Zn and Si in both conventional bulk and nanostructure significantly affected plant antioxidant system, plasma membrane integrity, and the concentrations of photosynthetic pigments and compatible solutes. However, the most inducing effects on catalase, ascorbate peroxidase, guaiacol peroxidase, superoxide dismutase, and anthocyanin were observed with the foliar spray of MSNPs-Zn and ZnSO + SiO2 under 60% FC. Moreover, foliar spray of MSNPs-Zn alleviated the negative effects of water deficit stress on photosynthetic pigments (chlorophyll a /b and carotenoid content). Water stress significantly induced the accumulation of free proline in the leaves. Overall, the results indicated that foliar spray of MSNPs -Zn, especially under 60% FC, improved the plant's defense system, scavenged reactive oxygen species, and enhanced the accumulation and stability of pigments, thereby mitigating the effects of drought stress.

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