Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the Herbicide

Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the Herbicide

Background: One of the main reasons of environmental contaminations is the broad application of herbicides. Controlled release technologies such as encapsulation of herbicides are as an effective tool to reduce environmental contaminations. The aim of the present study was successful nanocapsulation...

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Main Authors: Samaneh Torbati *, Mehdi Mahmoudian, Neda Alimirzaei
Format: Article
Language:English
Published: Arak University of Medical Sciences 2018-02-01
Series:Iranian Journal of Toxicology
Subjects:
Aryloxy-Phenoxy Propionate
Environmental Pollution
Herbicide Encapsulation
Phytotoxicity
Spirodela Polyrhiza
Online Access:https://ijt.arakmu.ac.ir/article-1-655-en.pdf
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spelling doaj-1fed4670c245438eacdcf2364df0aa422020-11-24T20:58:36ZengArak University of Medical SciencesIranian Journal of Toxicology2008-29672251-94592018-02-01122455410.29252/arakmu.12.2.45Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the HerbicideSamaneh Torbati *0Mehdi Mahmoudian1Neda Alimirzaei2Ph.D of Plant Physiology, Urmia Lake Research Institute, Urmia University, Urmia, Iran.*Corresponding author: E-mail: s.torbati@urmia.ac.ir Department of Nanotechnology, Faculty of Sciences, Urmia University, Urmia, Iran.Department of Nanotechnology, Faculty of Sciences, Urmia University, Urmia, Iran.Background: One of the main reasons of environmental contaminations is the broad application of herbicides. Controlled release technologies such as encapsulation of herbicides are as an effective tool to reduce environmental contaminations. The aim of the present study was successful nanocapsulation of Gallant Super (GS), its characterization and compare the physiological responses of Spirodela polyrhiza L. upon exposure to GS and its encapsulated form. Methods: Nanocapsulation of GS in the poly (methyl methacrylate) (PMMA) was performed in the Department of Nanotechnology, Faculty of Sciences and biological effects of the contaminants on S. polyrhiza was investigated in Biotechnology Research Center, both in Urmia University, Urmia, Iran in 2016. The surface morphology of PMMA/GS nanocapsules was studied by SEM and TEM and their chemical characterization was determined by FT-IR spectroscopy. For assessment of the effects of the encapsulated Gallant Super (ECGS) and GS on S. polyrhiza, some plant physiological parameters were investigated. Results: Direct treatment of GS had more and notable negative effects on the plant growth when compared with ECGS treatments. Moreover, different examined concentrations of the two contaminant groups led to the remarkable induction of the activities of the antioxidant enzymes such as SOD. Even though the enhancement of the antioxidant enzymes activities when the plant was treated with GS was notably more than the effects of ECGS. Conclusion: ECGS caused to the fewer changes in the plant physiological parameters and negative effects of the treatment of ECGs were less than when the plant had direct contact with GS. https://ijt.arakmu.ac.ir/article-1-655-en.pdfAryloxy-Phenoxy PropionateEnvironmental PollutionHerbicide EncapsulationPhytotoxicitySpirodela Polyrhiza
collection DOAJ
language English
format Article
sources DOAJ
author Samaneh Torbati *
Mehdi Mahmoudian
Neda Alimirzaei
spellingShingle Samaneh Torbati *
Mehdi Mahmoudian
Neda Alimirzaei
Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the Herbicide
Iranian Journal of Toxicology
Aryloxy-Phenoxy Propionate
Environmental Pollution
Herbicide Encapsulation
Phytotoxicity
Spirodela Polyrhiza
author_facet Samaneh Torbati *
Mehdi Mahmoudian
Neda Alimirzaei
author_sort Samaneh Torbati *
title Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the Herbicide
title_short Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the Herbicide
title_full Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the Herbicide
title_fullStr Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the Herbicide
title_full_unstemmed Toxicological Effects of a Post Emergent Herbicide on Spirodela polyrhiza as a Model Macrophyte: A Comparison of the Effects of Pure and Nano-capsulated Form of the Herbicide
title_sort toxicological effects of a post emergent herbicide on spirodela polyrhiza as a model macrophyte: a comparison of the effects of pure and nano-capsulated form of the herbicide
publisher Arak University of Medical Sciences
series Iranian Journal of Toxicology
issn 2008-2967
2251-9459
publishDate 2018-02-01
description Background: One of the main reasons of environmental contaminations is the broad application of herbicides. Controlled release technologies such as encapsulation of herbicides are as an effective tool to reduce environmental contaminations. The aim of the present study was successful nanocapsulation of Gallant Super (GS), its characterization and compare the physiological responses of Spirodela polyrhiza L. upon exposure to GS and its encapsulated form. Methods: Nanocapsulation of GS in the poly (methyl methacrylate) (PMMA) was performed in the Department of Nanotechnology, Faculty of Sciences and biological effects of the contaminants on S. polyrhiza was investigated in Biotechnology Research Center, both in Urmia University, Urmia, Iran in 2016. The surface morphology of PMMA/GS nanocapsules was studied by SEM and TEM and their chemical characterization was determined by FT-IR spectroscopy. For assessment of the effects of the encapsulated Gallant Super (ECGS) and GS on S. polyrhiza, some plant physiological parameters were investigated. Results: Direct treatment of GS had more and notable negative effects on the plant growth when compared with ECGS treatments. Moreover, different examined concentrations of the two contaminant groups led to the remarkable induction of the activities of the antioxidant enzymes such as SOD. Even though the enhancement of the antioxidant enzymes activities when the plant was treated with GS was notably more than the effects of ECGS. Conclusion: ECGS caused to the fewer changes in the plant physiological parameters and negative effects of the treatment of ECGs were less than when the plant had direct contact with GS.
topic Aryloxy-Phenoxy Propionate
Environmental Pollution
Herbicide Encapsulation
Phytotoxicity
Spirodela Polyrhiza
url https://ijt.arakmu.ac.ir/article-1-655-en.pdf
work_keys_str_mv AT samanehtorbati toxicologicaleffectsofapostemergentherbicideonspirodelapolyrhizaasamodelmacrophyteacomparisonoftheeffectsofpureandnanocapsulatedformoftheherbicide
AT mehdimahmoudian toxicologicaleffectsofapostemergentherbicideonspirodelapolyrhizaasamodelmacrophyteacomparisonoftheeffectsofpureandnanocapsulatedformoftheherbicide
AT nedaalimirzaei toxicologicaleffectsofapostemergentherbicideonspirodelapolyrhizaasamodelmacrophyteacomparisonoftheeffectsofpureandnanocapsulatedformoftheherbicide
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