The adverse effects of virgin microplastics on the fertilization and larval development of sea urchins

Concepción Martínez-Gómez; Víctor M. León; Susana Calles; Marina Gomáriz-Olcina; A. Dick Vethaak

doi:10.1016/j.marenvres.2017.06.016

The adverse effects of virgin microplastics on the fertilization and larval development of sea urchins

Concepción Martínez-Gómez^*, Víctor M. León, Susana Calles, Marina Gomáriz-Olcina, A. Dick Vethaak

^*Corresponding author for this work

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Abstract

Over the last decade, laboratory experiments have revealed a wide range of adverse effects in marine organisms following exposure to microplastics. This study investigated the working hypothesis that the observed effects of two types of virgin micro polymers ((polystyrene (PS) and high density polyethylene (HDPE)) might be, at least in part, due to the leaching of co-contaminants. For this purpose, the toxicity of these two polymeric materials and their leachates was tested on gametes and zygotes of the sea urchin Paracentrotus lividus following validated procedures. Zygotes were exposed for 48 hours to virgin and aged microspheres and leachates of fluorescent PS (10^3, 10^4 and 10^5 particles/mL) and agranular HDPE fluff (0.005, 0.5 and 5 g/L). Additionally, sea urchin eggs were exposed for 10 minutes to virgin fluorescent PS microspheres (10^3, 10^4 and 10^5 particles/mL). After exposure, the fertilization rate and percentage of larval abnormalities as well as larval growth were determined and compared to control groups. Overall, toxic effects on embryonic development and larval growth of the sea urchin were found for all treatments (untreated and weathered particles and leachates) with both polymeric materials. Furthermore, the highest toxicity (% abnormalities and reduction of the larval growth > 50%) was found after exposure to the lowest concentrations of leachate solutions for both types of polymeric materials. Microplastic ingestion was observed in the gastric cavity of the larvae in a dose- dependent manner, but not in a toxicity-dependent manner. Furthermore, eggs pre-exposed to concentrations of PS microspheres (10^3, 10^4 and 10^5 particles/mL) showed a toxic effect on the fertilization rate and on subsequent larval development as well as growth in a dose-dependent manner. These findings demonstrate that virgin microplastics are toxic to sea urchins through the leaching of chemicals, e.g., additives, residual monomers and other co-contaminants, which has been confirmed by chemical analysis elsewhere. The results of this study highlight the necessity to wash or weather microplastics before they are used in experimental laboratory studies to allow a more realistic extrapolation of the results to field conditions.

Original language	English
Pages (from-to)	69-76
Number of pages	8
Journal	Marine Environmental Research
Volume	130
Early online date	30 Jun 2017
DOIs	https://doi.org/10.1016/j.marenvres.2017.06.016
Publication status	Published - Sept 2017

Funding

This work was supported by the Spanish Ministry of Economy and Competitiveness (IMPACTA Project - CTM2013-48194-C3-1-R ) and by the CleanSea project , part of the European Union Seventh Framework Programme ( FP7/2007–2013 ), under grant agreement n° 308370 . The contents of this publication are the sole responsibility of the CleanSea Project and should in no way be regarded as reflecting the views of the European Union. Dr. Angela Köhler is acknowledged for providing the HDPE fluff. Appendix A This work was supported by the Spanish Ministry of Economy and Competitiveness (IMPACTA Project - CTM2013-48194-C3-1-R) and by the CleanSea project, part of the European Union Seventh Framework Programme (FP7/2007?2013), under grant agreement n? 308370. The contents of this publication are the sole responsibility of the CleanSea Project and should in no way be regarded as reflecting the views of the European Union. Dr. Angela K?hler is acknowledged for providing the HDPE fluff.

Funders	Funder number
FP7/2007
IMPACTA
Spanish Ministry of Economy and Competitiveness	- CTM2013-48194-C3-1-R
Seventh Framework Programme	308370
Ministerio de Economía y Competitividad
Seventh Framework Programme

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The adverse effects of virgin microplastics on the fertilization and larval development of sea urchinsFinal published version, 1.14 MBLicence: Article 25fa Dutch Copyright Act

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title = "The adverse effects of virgin microplastics on the fertilization and larval development of sea urchins",

abstract = "Over the last decade, laboratory experiments have revealed a wide range of adverse effects in marine organisms following exposure to microplastics. This study investigated the working hypothesis that the observed effects of two types of virgin micro polymers ((polystyrene (PS) and high density polyethylene (HDPE)) might be, at least in part, due to the leaching of co-contaminants. For this purpose, the toxicity of these two polymeric materials and their leachates was tested on gametes and zygotes of the sea urchin Paracentrotus lividus following validated procedures. Zygotes were exposed for 48 hours to virgin and aged microspheres and leachates of fluorescent PS (10\textasciicircum{}3, 10\textasciicircum{}4 and 10\textasciicircum{}5 particles/mL) and agranular HDPE fluff (0.005, 0.5 and 5 g/L). Additionally, sea urchin eggs were exposed for 10 minutes to virgin fluorescent PS microspheres (10\textasciicircum{}3, 10\textasciicircum{}4 and 10\textasciicircum{}5 particles/mL). After exposure, the fertilization rate and percentage of larval abnormalities as well as larval growth were determined and compared to control groups. Overall, toxic effects on embryonic development and larval growth of the sea urchin were found for all treatments (untreated and weathered particles and leachates) with both polymeric materials. Furthermore, the highest toxicity (\% abnormalities and reduction of the larval growth > 50\%) was found after exposure to the lowest concentrations of leachate solutions for both types of polymeric materials. Microplastic ingestion was observed in the gastric cavity of the larvae in a dose- dependent manner, but not in a toxicity-dependent manner. Furthermore, eggs pre-exposed to concentrations of PS microspheres (10\textasciicircum{}3, 10\textasciicircum{}4 and 10\textasciicircum{}5 particles/mL) showed a toxic effect on the fertilization rate and on subsequent larval development as well as growth in a dose-dependent manner. These findings demonstrate that virgin microplastics are toxic to sea urchins through the leaching of chemicals, e.g., additives, residual monomers and other co-contaminants, which has been confirmed by chemical analysis elsewhere. The results of this study highlight the necessity to wash or weather microplastics before they are used in experimental laboratory studies to allow a more realistic extrapolation of the results to field conditions.",

author = "Concepci{\'o}n Mart{\'i}nez-G{\'o}mez and Le{\'o}n, \{V{\'i}ctor M.\} and Susana Calles and Marina Gom{\'a}riz-Olcina and Vethaak, \{A. Dick\}",

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T1 - The adverse effects of virgin microplastics on the fertilization and larval development of sea urchins

AU - Martínez-Gómez, Concepción

AU - León, Víctor M.

AU - Calles, Susana

AU - Gomáriz-Olcina, Marina

AU - Vethaak, A. Dick

PY - 2017/9

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N2 - Over the last decade, laboratory experiments have revealed a wide range of adverse effects in marine organisms following exposure to microplastics. This study investigated the working hypothesis that the observed effects of two types of virgin micro polymers ((polystyrene (PS) and high density polyethylene (HDPE)) might be, at least in part, due to the leaching of co-contaminants. For this purpose, the toxicity of these two polymeric materials and their leachates was tested on gametes and zygotes of the sea urchin Paracentrotus lividus following validated procedures. Zygotes were exposed for 48 hours to virgin and aged microspheres and leachates of fluorescent PS (10^3, 10^4 and 10^5 particles/mL) and agranular HDPE fluff (0.005, 0.5 and 5 g/L). Additionally, sea urchin eggs were exposed for 10 minutes to virgin fluorescent PS microspheres (10^3, 10^4 and 10^5 particles/mL). After exposure, the fertilization rate and percentage of larval abnormalities as well as larval growth were determined and compared to control groups. Overall, toxic effects on embryonic development and larval growth of the sea urchin were found for all treatments (untreated and weathered particles and leachates) with both polymeric materials. Furthermore, the highest toxicity (% abnormalities and reduction of the larval growth > 50%) was found after exposure to the lowest concentrations of leachate solutions for both types of polymeric materials. Microplastic ingestion was observed in the gastric cavity of the larvae in a dose- dependent manner, but not in a toxicity-dependent manner. Furthermore, eggs pre-exposed to concentrations of PS microspheres (10^3, 10^4 and 10^5 particles/mL) showed a toxic effect on the fertilization rate and on subsequent larval development as well as growth in a dose-dependent manner. These findings demonstrate that virgin microplastics are toxic to sea urchins through the leaching of chemicals, e.g., additives, residual monomers and other co-contaminants, which has been confirmed by chemical analysis elsewhere. The results of this study highlight the necessity to wash or weather microplastics before they are used in experimental laboratory studies to allow a more realistic extrapolation of the results to field conditions.

AB - Over the last decade, laboratory experiments have revealed a wide range of adverse effects in marine organisms following exposure to microplastics. This study investigated the working hypothesis that the observed effects of two types of virgin micro polymers ((polystyrene (PS) and high density polyethylene (HDPE)) might be, at least in part, due to the leaching of co-contaminants. For this purpose, the toxicity of these two polymeric materials and their leachates was tested on gametes and zygotes of the sea urchin Paracentrotus lividus following validated procedures. Zygotes were exposed for 48 hours to virgin and aged microspheres and leachates of fluorescent PS (10^3, 10^4 and 10^5 particles/mL) and agranular HDPE fluff (0.005, 0.5 and 5 g/L). Additionally, sea urchin eggs were exposed for 10 minutes to virgin fluorescent PS microspheres (10^3, 10^4 and 10^5 particles/mL). After exposure, the fertilization rate and percentage of larval abnormalities as well as larval growth were determined and compared to control groups. Overall, toxic effects on embryonic development and larval growth of the sea urchin were found for all treatments (untreated and weathered particles and leachates) with both polymeric materials. Furthermore, the highest toxicity (% abnormalities and reduction of the larval growth > 50%) was found after exposure to the lowest concentrations of leachate solutions for both types of polymeric materials. Microplastic ingestion was observed in the gastric cavity of the larvae in a dose- dependent manner, but not in a toxicity-dependent manner. Furthermore, eggs pre-exposed to concentrations of PS microspheres (10^3, 10^4 and 10^5 particles/mL) showed a toxic effect on the fertilization rate and on subsequent larval development as well as growth in a dose-dependent manner. These findings demonstrate that virgin microplastics are toxic to sea urchins through the leaching of chemicals, e.g., additives, residual monomers and other co-contaminants, which has been confirmed by chemical analysis elsewhere. The results of this study highlight the necessity to wash or weather microplastics before they are used in experimental laboratory studies to allow a more realistic extrapolation of the results to field conditions.

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The adverse effects of virgin microplastics on the fertilization and larval development of sea urchins

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