Converging hazard assessment of gold nanoparticles to aquatic organisms

•Toxicity of gold to freshwater algae, daphnia and zebrafish was examined.•Naked and functionalized Au nanoparticles resulted harmless to these organisms.•Gold chloride resulted toxic after acute exposure, with LC50 between 1 and 2mgL−1.•Surface charge and size of Au nanoparticle are key factors to...

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Published in:	Chemosphere (Oxford) Vol. 93; no. 6; pp. 1194 - 1200
Main Authors:	García-Cambero, Jesús Pablo, Núñez García, Mercedes, López, Gema Díaz, Herranz, Ana López, Cuevas, Laureano, Pérez-Pastrana, Esperanza, Cuadal, Judith Sendra, Castelltort, Marc Ramis, Calvo, Argelia Castaño
Format:	Journal Article
Language:	English
Published:	Kidlington Elsevier Ltd 01-10-2013 Elsevier
Subjects:	Algae Animal, plant and microbial ecology Animals Applied ecology aquatic organisms Aquatic Organisms - drug effects Biological and medical sciences Danio rerio Daphnia Ecotoxicity Ecotoxicology, biological effects of pollution Fresh water environment Fundamental and applied biological sciences. Psychology gold Gold - toxicity Gold chloride Gold nanoparticle hazard characterization hyaluronic acid lethal concentration 50 Metal Nanoparticles - toxicity nanoparticles physicochemical properties Risk Assessment Scenedesmus subspicatus toxicity Water Pollutants, Chemical - toxicity Zebrafish Gold chloride Daphnia Zebrafish Scenedesmus subspicatus Ecotoxicity Gold nanoparticle Nanoparticle Toxicity Cladocera Chlorophyceae Crustacea Freshwater environment Aquatic environment Pisces Branchiopoda Organism Ecotoxicology Algae Scenedesmus Transition metal Risk analysis Vertebrata Brachydanio rerio Chlorophyta Arthropoda Cyprinidae Invertebrata Nanostructured materials Gold Chlorides Daphnia magna
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Abstract	•Toxicity of gold to freshwater algae, daphnia and zebrafish was examined.•Naked and functionalized Au nanoparticles resulted harmless to these organisms.•Gold chloride resulted toxic after acute exposure, with LC50 between 1 and 2mgL−1.•Surface charge and size of Au nanoparticle are key factors to explain its toxicity. The gold nanoparticles (Au-NPs) are being increasingly used because of their huge diversity of applications, and consequently, elevated levels in the environment are expected. However, due to their physico-chemical properties and functionalization a high variety of Au-NPs can be found, and complete toxicological information for each type of Au-NPs still lacks, and even, the toxicological information for the same species is sometimes contradictory. Therefore, hazard assessment should be done case by case. Hence, the objective of this study was to obtain ecotoxicological information of the same Au-NPs in aquatic organisms and to find a rationale for Au-NPs toxicity. For such a purpose, bare and hyaluronic acid capped Au-NPs (12.5nm) along with Au-NPs bulk material were tested on freshwater algae, Daphnia and zebrafish. Results showed that while gold nanoparticles were found to be harmless to the tested organisms, the soluble gold showed to be toxic to algae and Daphnia, with an LC50 between 1 and 2mgL−1. Comparing our results with those gathered in the literature, it appears that a common hazard assessment of Au-NPs on the studied organisms can be elucidated.
AbstractList	The gold nanoparticles (Au-NPs) are being increasingly used because of their huge diversity of applications, and consequently, elevated levels in the environment are expected. However, due to their physico-chemical properties and functionalization a high variety of Au-NPs can be found, and complete toxicological information for each type of Au-NPs still lacks, and even, the toxicological information for the same species is sometimes contradictory. Therefore, hazard assessment should be done case by case. Hence, the objective of this study was to obtain ecotoxicological information of the same Au-NPs in aquatic organisms and to find a rationale for Au-NPs toxicity. For such a purpose, bare and hyaluronic acid capped Au-NPs (12.5 nm) along with Au-NPs bulk material were tested on freshwater algae, Daphnia and zebrafish. Results showed that while gold nanoparticles were found to be harmless to the tested organisms, the soluble gold showed to be toxic to algae and Daphnia, with an LC50 between 1 and 2 mg L(-1). Comparing our results with those gathered in the literature, it appears that a common hazard assessment of Au-NPs on the studied organisms can be elucidated. •Toxicity of gold to freshwater algae, daphnia and zebrafish was examined.•Naked and functionalized Au nanoparticles resulted harmless to these organisms.•Gold chloride resulted toxic after acute exposure, with LC50 between 1 and 2mgL−1.•Surface charge and size of Au nanoparticle are key factors to explain its toxicity. The gold nanoparticles (Au-NPs) are being increasingly used because of their huge diversity of applications, and consequently, elevated levels in the environment are expected. However, due to their physico-chemical properties and functionalization a high variety of Au-NPs can be found, and complete toxicological information for each type of Au-NPs still lacks, and even, the toxicological information for the same species is sometimes contradictory. Therefore, hazard assessment should be done case by case. Hence, the objective of this study was to obtain ecotoxicological information of the same Au-NPs in aquatic organisms and to find a rationale for Au-NPs toxicity. For such a purpose, bare and hyaluronic acid capped Au-NPs (12.5nm) along with Au-NPs bulk material were tested on freshwater algae, Daphnia and zebrafish. Results showed that while gold nanoparticles were found to be harmless to the tested organisms, the soluble gold showed to be toxic to algae and Daphnia, with an LC50 between 1 and 2mgL−1. Comparing our results with those gathered in the literature, it appears that a common hazard assessment of Au-NPs on the studied organisms can be elucidated. The gold nanoparticles (Au-NPs) are being increasingly used because of their huge diversity of applications, and consequently, elevated levels in the environment are expected. However, due to their physico-chemical properties and functionalization a high variety of Au-NPs can be found, and complete toxicological information for each type of Au-NPs still lacks, and even, the toxicological information for the same species is sometimes contradictory. Therefore, hazard assessment should be done case by case. Hence, the objective of this study was to obtain ecotoxicological information of the same Au-NPs in aquatic organisms and to find a rationale for Au-NPs toxicity. For such a purpose, bare and hyaluronic acid capped Au-NPs (12.5nm) along with Au-NPs bulk material were tested on freshwater algae, Daphnia and zebrafish. Results showed that while gold nanoparticles were found to be harmless to the tested organisms, the soluble gold showed to be toxic to algae and Daphnia, with an LC₅₀ between 1 and 2mgL⁻¹. Comparing our results with those gathered in the literature, it appears that a common hazard assessment of Au-NPs on the studied organisms can be elucidated.
Author	Cuadal, Judith Sendra Calvo, Argelia Castaño García-Cambero, Jesús Pablo Herranz, Ana López Pérez-Pastrana, Esperanza López, Gema Díaz Castelltort, Marc Ramis Cuevas, Laureano Núñez García, Mercedes
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Keywords	Gold chloride Daphnia Zebrafish Scenedesmus subspicatus Ecotoxicity Gold nanoparticle Nanoparticle Toxicity Cladocera Chlorophyceae Crustacea Freshwater environment Aquatic environment Pisces Branchiopoda Organism Ecotoxicology Algae Scenedesmus Transition metal Risk analysis Vertebrata Brachydanio rerio Chlorophyta Arthropoda Cyprinidae Invertebrata Nanostructured materials Gold Chlorides Daphnia magna
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Snippet	•Toxicity of gold to freshwater algae, daphnia and zebrafish was examined.•Naked and functionalized Au nanoparticles resulted harmless to these organisms.•Gold... The gold nanoparticles (Au-NPs) are being increasingly used because of their huge diversity of applications, and consequently, elevated levels in the...
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SubjectTerms	Algae Animal, plant and microbial ecology Animals Applied ecology aquatic organisms Aquatic Organisms - drug effects Biological and medical sciences Danio rerio Daphnia Ecotoxicity Ecotoxicology, biological effects of pollution Fresh water environment Fundamental and applied biological sciences. Psychology gold Gold - toxicity Gold chloride Gold nanoparticle hazard characterization hyaluronic acid lethal concentration 50 Metal Nanoparticles - toxicity nanoparticles physicochemical properties Risk Assessment Scenedesmus subspicatus toxicity Water Pollutants, Chemical - toxicity Zebrafish
Title	Converging hazard assessment of gold nanoparticles to aquatic organisms
URI	https://dx.doi.org/10.1016/j.chemosphere.2013.06.074 https://www.ncbi.nlm.nih.gov/pubmed/23916211 https://search.proquest.com/docview/1443995102
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