Effect of Foliar Application of Nano-selenium on the Anatomical Characteristics of Date Palm Phoenix dactylifera L. Barhi Cultivar under Salt Stress

Q4 Agricultural and Biological Sciences
A. Mahdi, A. M. Abd, K. Awad
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引用次数: 0

Abstract

This study investigated the effect of salinity on the anatomical features of date palm (Phoenix dactylifera L.) and the potential roles of nano selenium (Se NPs) in alleviating the adverse effects of salinity. Two concentrations (80 and 160 mg.L-1) of SeNPs were applied as a foliar spray on date palms irrigated with different concentrations of saline water (2.5 [control], 5, 10 and 20 ds.m-1). Results showed that 5 ds.m-1 salinity had no significant effect on the anatomical structure of date palm, whether applied alone or in combination with foliar spray of Se NPs. However, the vascular bundle dimensions and thickness of the xylem, phloem and mesophyll were significantly higher in plants exposed to 10 ds.m-1 salinity compared with the control plants. In particular, foliar spray of SeNPs at 80 mg.L-1 concentration enhanced the effect on these plants. By contrast, 20 ds.m-1 salinity significantly reduced all studied parameters except for the thickness of the upper and lower cuticle, which increased. Se NPs at 80 mg.L-1 concentration had a significant effect in alleviating the adverse effects of salinity at high levels. The results of this study proved that SeNPs at 80 mg.L-1 concentration were more effective in alleviating the adverse effects of salinity on the anatomical structure of date palm leaves than 160 mg.L-1 concentration.
盐胁迫下叶面施用纳米硒对枣椰树解剖特征的影响
本研究探讨了盐度对枣椰树(Phoenix dactylifera L.)解剖特征的影响,以及纳米硒(Se NPs)在缓解盐度不利影响中的潜在作用。在不同浓度盐水(2.5[对照]、5、10和20 ds.m-1)灌溉的枣椰树上喷施两种浓度(80和160 mg.L-1)的SeNPs。结果表明:5ds。无论是单独施用还是与Se NPs叶面喷施,m-1盐度对枣椰树解剖结构均无显著影响。而木质部、韧皮部和叶肉的维管束尺寸和厚度在处理10 d后显著增加。M-1盐度与对照植株比较。其中,SeNPs叶面喷施剂量为80 mg。L-1浓度对这些植物的作用增强。相比之下,20岁。M-1盐度显著降低了除上下角质层厚度增加外的所有研究参数。硒NPs在80毫克。L-1浓度对缓解高盐度的不利影响有显著作用。本研究结果证明,SeNPs在80 mg。L-1浓度比160 mg更能有效缓解盐度对枣椰树叶片解剖结构的不利影响。l - 1的浓度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Basrah Journal of Agricultural Sciences
Basrah Journal of Agricultural Sciences Environmental Science-Pollution
CiteScore
1.20
自引率
0.00%
发文量
35
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