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Selenium nanoparticle protected strawberry against salt stress through modifications in salicylic acid, ion homeostasis, antioxidant machinery, and photosynthesis performance
Since plant responses to selenium nanoparticles (nSe) had not been clarified, this study was carried out to evaluate the effects of nSe (10 and 100 μM) on photosynthesis performance, ion homeostasis, antioxidant system, and phenylpropanoids in strawberry exposed to salt stress. Inductively Coupled P...
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Published in: | Acta biologica cracoviensia. Series Botanica. 2020-01, Vol.62 (1), p.33 |
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description | Since plant responses to selenium nanoparticles (nSe) had not been clarified, this study was carried out to evaluate the effects of nSe (10 and 100 μM) on photosynthesis performance, ion homeostasis, antioxidant system, and phenylpropanoids in strawberry exposed to salt stress. Inductively Coupled Plasma-Mass Spectroscopy analyses indicated that foliar-applied nSe can be taken up by leaves and trans-located to roots. Salinity led to an increase in Na concentration and reductions in Ca and K contents which were relieved by the nSe applications. Moreover, the nSe treatment at 10 μM alleviated the NaCl-induced lesion to PSII functioning, contributing to improvement in water-splitting complex (Fv/Fo) under salinity. The exposure to nSe at a concentration of 100 µM exhibited a moderate stress, determined by the increases in hydrogen peroxide (H2O2) and lipid peroxidation rate (membrane integrity index). The nSe10 treatment increased catalase activity and phenylpropanoid derivatives contents (salicylic acid, catechin, and caffeic acid) and decreased the content of oxidants under salinity condition. Consequently, nSe utilization at a suitable dose can be an effective method to alleviate signs of salt stress via improvements in photosynthesis, ion hemostasis, photosynthesis performance, salicylic acid (a vital signaling defensive hormone), and antioxidant machinery. |
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Consequently, nSe utilization at a suitable dose can be an effective method to alleviate signs of salt stress via improvements in photosynthesis, ion hemostasis, photosynthesis performance, salicylic acid (a vital signaling defensive hormone), and antioxidant machinery.</description><identifier>ISSN: 0001-5296</identifier><identifier>EISSN: 1898-0295</identifier><identifier>DOI: 10.24425/abcsb.2019.127751</identifier><language>eng</language><publisher>Warsaw: Polish Academy of Sciences</publisher><subject>Abiotic stress ; Acids ; Antioxidants ; Caffeic acid ; Catalase ; Catechin ; Hemostasis ; Hemostatics ; Homeostasis ; Hydrogen peroxide ; Inductively coupled plasma mass spectrometry ; Lipid peroxidation ; Lipids ; Machinery ; Mass spectroscopy ; Nanoparticles ; Oxidants ; Oxidizing agents ; Peroxidation ; Phenylpropanoids ; Photosynthesis ; Photosystem II ; Salicylic acid ; Salinity ; Salinity effects ; Salinity tolerance ; Salts ; Selenium ; Sodium chloride ; Strawberries ; Stress ; Water splitting</subject><ispartof>Acta biologica cracoviensia. 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Series Botanica.</title><description>Since plant responses to selenium nanoparticles (nSe) had not been clarified, this study was carried out to evaluate the effects of nSe (10 and 100 μM) on photosynthesis performance, ion homeostasis, antioxidant system, and phenylpropanoids in strawberry exposed to salt stress. Inductively Coupled Plasma-Mass Spectroscopy analyses indicated that foliar-applied nSe can be taken up by leaves and trans-located to roots. Salinity led to an increase in Na concentration and reductions in Ca and K contents which were relieved by the nSe applications. Moreover, the nSe treatment at 10 μM alleviated the NaCl-induced lesion to PSII functioning, contributing to improvement in water-splitting complex (Fv/Fo) under salinity. The exposure to nSe at a concentration of 100 µM exhibited a moderate stress, determined by the increases in hydrogen peroxide (H2O2) and lipid peroxidation rate (membrane integrity index). The nSe10 treatment increased catalase activity and phenylpropanoid derivatives contents (salicylic acid, catechin, and caffeic acid) and decreased the content of oxidants under salinity condition. 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subjects | Abiotic stress Acids Antioxidants Caffeic acid Catalase Catechin Hemostasis Hemostatics Homeostasis Hydrogen peroxide Inductively coupled plasma mass spectrometry Lipid peroxidation Lipids Machinery Mass spectroscopy Nanoparticles Oxidants Oxidizing agents Peroxidation Phenylpropanoids Photosynthesis Photosystem II Salicylic acid Salinity Salinity effects Salinity tolerance Salts Selenium Sodium chloride Strawberries Stress Water splitting |
title | Selenium nanoparticle protected strawberry against salt stress through modifications in salicylic acid, ion homeostasis, antioxidant machinery, and photosynthesis performance |
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