Transformation of copper oxide nanoparticles as affected by ionic strength and its effects on the toxicity and bioaccumulation of copper in zebrafish embryo

This study aimed to investigate the transformation of copper oxide nanoparticles (CuO NPs) in aquatic environments under different ionic strength and further examine its effects on copper toxicity and bioaccumulation by monitoring the responses and uptake behaviours of zebrafish embryo. Ionic streng...

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Published inEcotoxicology and environmental safety Vol. 225; p. 112759
Main Authors Chao, Shu-Ju, Huang, C.P., Lam, Chi-Cuong, Hua, Lap-Cuong, Chang, Shih-Hsien, Huang, Chihpin
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.12.2021
Elsevier
Subjects
Bioaccumulation
Copper oxide nanoparticles
Copper speciation
Ionic strength
Zebrafish embryo
Copper speciation
Ionic strength
Bioaccumulation
Zebrafish embryo
Copper oxide nanoparticles
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Abstract This study aimed to investigate the transformation of copper oxide nanoparticles (CuO NPs) in aquatic environments under different ionic strength and further examine its effects on copper toxicity and bioaccumulation by monitoring the responses and uptake behaviours of zebrafish embryo. Ionic strength (IS) was simulated according to surface water (1.5 mM), groundwater (15 mM), and wastewater (54 mM), representing low-, mid-, and high-IS water, respectively. At the highest exposure of 10 mg CuO/L, zebrafish larvae mortality was increased from 21.3% to 33.3%, when IS decreased from 54 to 1.5 mM. Low-IS solution also caused the highest numbers of delayed hatching embryo (81.3%) and opaque yolk deformation (36.3%). Copper bioaccumulation markedly increased when larvae were exposed to low-IS water (35%) relative to high-IS water (15%). Exposing to low-IS particularly enhanced copper uptake (~15 ng Cu/g inside embryo), facilitating the copper accumulation in the heart of larvae, whereas aggregated CuO NPs (>500 nm) in mid- and high-IS water were blocked from the embryo and found abundantly in the body axis and tail. Results indicate that CuO NPs in low-IS solutions rapidly form the relatively small CuO NP aggregates with a high copper dissolution, which would pose great concern for aquatic organisms. [Display omitted] •CuO NPs in low-IS solution induced the highest mortality and sublethal responses.•Low-IS solution facilitated the uptake of CuO NPs and copper ion into embryo.•Death and delayed hatching of embryo were induced by ionic Cu(II) of CuO NPs.•Particle-form of CuO NPs mainly caused a slow heartbeat in larvae.•CuO NPs in low-IS solution distributed to the cardiac area of the embryo.
AbstractList This study aimed to investigate the transformation of copper oxide nanoparticles (CuO NPs) in aquatic environments under different ionic strength and further examine its effects on copper toxicity and bioaccumulation by monitoring the responses and uptake behaviours of zebrafish embryo. Ionic strength (IS) was simulated according to surface water (1.5 mM), groundwater (15 mM), and wastewater (54 mM), representing low-, mid-, and high-IS water, respectively. At the highest exposure of 10 mg CuO/L, zebrafish larvae mortality was increased from 21.3% to 33.3%, when IS decreased from 54 to 1.5 mM. Low-IS solution also caused the highest numbers of delayed hatching embryo (81.3%) and opaque yolk deformation (36.3%). Copper bioaccumulation markedly increased when larvae were exposed to low-IS water (35%) relative to high-IS water (15%). Exposing to low-IS particularly enhanced copper uptake (~15 ng Cu/g inside embryo), facilitating the copper accumulation in the heart of larvae, whereas aggregated CuO NPs (>500 nm) in mid- and high-IS water were blocked from the embryo and found abundantly in the body axis and tail. Results indicate that CuO NPs in low-IS solutions rapidly form the relatively small CuO NP aggregates with a high copper dissolution, which would pose great concern for aquatic organisms.
This study aimed to investigate the transformation of copper oxide nanoparticles (CuO NPs) in aquatic environments under different ionic strength and further examine its effects on copper toxicity and bioaccumulation by monitoring the responses and uptake behaviours of zebrafish embryo. Ionic strength (IS) was simulated according to surface water (1.5 mM), groundwater (15 mM), and wastewater (54 mM), representing low-, mid-, and high-IS water, respectively. At the highest exposure of 10 mg CuO/L, zebrafish larvae mortality was increased from 21.3% to 33.3%, when IS decreased from 54 to 1.5 mM. Low-IS solution also caused the highest numbers of delayed hatching embryo (81.3%) and opaque yolk deformation (36.3%). Copper bioaccumulation markedly increased when larvae were exposed to low-IS water (35%) relative to high-IS water (15%). Exposing to low-IS particularly enhanced copper uptake (~15 ng Cu/g inside embryo), facilitating the copper accumulation in the heart of larvae, whereas aggregated CuO NPs (>500 nm) in mid- and high-IS water were blocked from the embryo and found abundantly in the body axis and tail. Results indicate that CuO NPs in low-IS solutions rapidly form the relatively small CuO NP aggregates with a high copper dissolution, which would pose great concern for aquatic organisms. [Display omitted] •CuO NPs in low-IS solution induced the highest mortality and sublethal responses.•Low-IS solution facilitated the uptake of CuO NPs and copper ion into embryo.•Death and delayed hatching of embryo were induced by ionic Cu(II) of CuO NPs.•Particle-form of CuO NPs mainly caused a slow heartbeat in larvae.•CuO NPs in low-IS solution distributed to the cardiac area of the embryo.
ArticleNumber 112759
Author Huang, C.P.
Lam, Chi-Cuong
Hua, Lap-Cuong
Chang, Shih-Hsien
Chao, Shu-Ju
Huang, Chihpin
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Keywords Copper speciation
Ionic strength
Bioaccumulation
Zebrafish embryo
Copper oxide nanoparticles
Language English
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Snippet This study aimed to investigate the transformation of copper oxide nanoparticles (CuO NPs) in aquatic environments under different ionic strength and further...
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Publisher
StartPage 112759
SubjectTerms Bioaccumulation
Copper oxide nanoparticles
Copper speciation
Ionic strength
Zebrafish embryo
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Title Transformation of copper oxide nanoparticles as affected by ionic strength and its effects on the toxicity and bioaccumulation of copper in zebrafish embryo
URI https://dx.doi.org/10.1016/j.ecoenv.2021.112759
https://search.proquest.com/docview/2571927126
https://doaj.org/article/409a0e45f4de453ba11a90d0011e7549
Volume 225
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