Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell Count

Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell Count

The toxic effects of individual and binary mixtures of five metal oxide nanoparticles (NPs) were evaluated based on changes in two endpoints of algal growth: the cell count and chlorophyll content. Various effects were observed according to the concentration tested and type of NPs, and there were no...

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Main Authors: Kyung-Seok Ko, Dong-Chan Koh, In Chul Kong
Format: Article
Language:English
Published: MDPI AG 2018-01-01
Series:Materials
Subjects:
algal growth
chlorophyll content
cell count
nanoparticles
toxicity
Online Access:http://www.mdpi.com/1996-1944/11/1/121
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spelling doaj-7c31fe43467740018240f96747d1df1c2020-11-24T22:26:35ZengMDPI AGMaterials1996-19442018-01-0111112110.3390/ma11010121ma11010121Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell CountKyung-Seok Ko0Dong-Chan Koh1In Chul Kong2Groundwater Department, Geologic Environment Division, Korea Institute of Geoscience and Mineral Resources (KIGAM), Daejeon 34132, KoreaGroundwater Department, Geologic Environment Division, Korea Institute of Geoscience and Mineral Resources (KIGAM), Daejeon 34132, KoreaDepartment of Environmental Engineering, Yeungman University, Kyungbuk 38541, KoreaThe toxic effects of individual and binary mixtures of five metal oxide nanoparticles (NPs) were evaluated based on changes in two endpoints of algal growth: the cell count and chlorophyll content. Various effects were observed according to the concentration tested and type of NPs, and there were no significant differences in findings for the two endpoints. In general, ZnO NPs caused the greatest inhibition of algal growth, and Fe2O3 NPs the least. The EC50 for ZnO was 2.0 mg/L for the cell count and 2.6 mg/L for the chlorophyll content, and it was 76 and 90 mg/L, respectively, for Fe2O3. The EC50 values were in the order ZnO > NiO > CuO > TiO2 > Fe2O3. Subsequently, the effects of 30 binary mixture combinations on the chlorophyll content were evaluated. Comparisons were made between the observed and the expected toxicities calculated based on the individual NP toxicities. Overall, additive action (67%) was mainly observed, followed by antagonistic (16.5%) and synergistic (16.5%) actions. These results suggest that environmental exposure to NP mixtures may cause toxicity levels similar to the sum of those of the constituent NPs.http://www.mdpi.com/1996-1944/11/1/121algal growthchlorophyll contentcell countnanoparticlestoxicity
collection DOAJ
language English
format Article
sources DOAJ
author Kyung-Seok Ko
Dong-Chan Koh
In Chul Kong
spellingShingle Kyung-Seok Ko
Dong-Chan Koh
In Chul Kong
Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell Count
Materials
algal growth
chlorophyll content
cell count
nanoparticles
toxicity
author_facet Kyung-Seok Ko
Dong-Chan Koh
In Chul Kong
author_sort Kyung-Seok Ko
title Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell Count
title_short Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell Count
title_full Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell Count
title_fullStr Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell Count
title_full_unstemmed Toxicity Evaluation of Individual and Mixtures of Nanoparticles Based on Algal Chlorophyll Content and Cell Count
title_sort toxicity evaluation of individual and mixtures of nanoparticles based on algal chlorophyll content and cell count
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2018-01-01
description The toxic effects of individual and binary mixtures of five metal oxide nanoparticles (NPs) were evaluated based on changes in two endpoints of algal growth: the cell count and chlorophyll content. Various effects were observed according to the concentration tested and type of NPs, and there were no significant differences in findings for the two endpoints. In general, ZnO NPs caused the greatest inhibition of algal growth, and Fe2O3 NPs the least. The EC50 for ZnO was 2.0 mg/L for the cell count and 2.6 mg/L for the chlorophyll content, and it was 76 and 90 mg/L, respectively, for Fe2O3. The EC50 values were in the order ZnO > NiO > CuO > TiO2 > Fe2O3. Subsequently, the effects of 30 binary mixture combinations on the chlorophyll content were evaluated. Comparisons were made between the observed and the expected toxicities calculated based on the individual NP toxicities. Overall, additive action (67%) was mainly observed, followed by antagonistic (16.5%) and synergistic (16.5%) actions. These results suggest that environmental exposure to NP mixtures may cause toxicity levels similar to the sum of those of the constituent NPs.
topic algal growth
chlorophyll content
cell count
nanoparticles
toxicity
url http://www.mdpi.com/1996-1944/11/1/121
work_keys_str_mv AT kyungseokko toxicityevaluationofindividualandmixturesofnanoparticlesbasedonalgalchlorophyllcontentandcellcount
AT dongchankoh toxicityevaluationofindividualandmixturesofnanoparticlesbasedonalgalchlorophyllcontentandcellcount
AT inchulkong toxicityevaluationofindividualandmixturesofnanoparticlesbasedonalgalchlorophyllcontentandcellcount
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