Impacts of pharmaceuticals and personal care products mixtures in marine bivalves

Detalhes bibliográficos
Autor(a) principal: Lopes, Joel Martins
Data de Publicação: 2021
Tipo de documento: Dissertação
Idioma: eng
Título da fonte: Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)
Texto Completo: http://hdl.handle.net/10773/33452
Resumo: Mixture of contaminants often determine biological responses of marine species, making difficult the interpretation of toxicological data. Among these contaminants are pharmaceuticals and personal care products (PCPs) such as 17 α-ethinylestradiol (EE2) and Sodium Lauryl Sulfate (SLS). Due to their large production and everyday use by the human population, they will eventually enter the marine environment, manly through wastewater. Once in the marine environment EE2 and SLS may interact with organisms and induce toxic effects, in bivalves. Beside contamination, organisms are also exposed to climate change, responsible for a gradual increase in the ocean temperature, which can cause physiological and biochemical impairments in aquatic organisms as well as increased the sensibility of organisms to pollutants. Furthermore, it is already reported that warming may change the properties and toxicity of pollutants. The present study evaluated the effects of EE2 under warming conditions and EE2 and SLS in Mytilus galloprovincialis at control temperature. For this, mussels were distributed into two climatic rooms to maintain organisms at two different temperatures: 17 ± 1 and 21 ± 1 °C. The tested concentrations used resemble low to highly polluted sites for the first experiment with EE2 at 17 and 21 °C were 5.0; 25.0; 125.0 and 625.0 ng/L, at the second experiment 125.0 ng/L for EE2, 4.0 mg/L for SLS and the mixture of both substances (EE2+SLS) at control temperature. The exposure lasted 28 days and at the end, concentrations in mussel’s tissues, histopathological alterations, biochemical, behavioural and quantitative RT-PCR analyses were evaluated. Results obtained clearly showed when organisms are exposed to EE2 at two different temperatures, higher toxic impacts are revealed under warming conditions in comparison to mussels exposed control temperature, suggesting that temperature rise may significantly increase the sensitivity of bivalves indicating an interactive effect induced by the combination of EE2 and temperature. This is demonstrated by the histopathological alterations, inhibition of superoxide dismutase (SOD), greater lipid peroxidation (LPO) levels, higher metabolic capacity and decreased acetylcholinesterase (AChE) activity in the presence of EE2 at 21 °C compared to mussels exposed to control temperature. Furthermore demonstrates, impacts of EE2 and SLS, acting alone or combined, to the bivalve M. galloprovincialis. Results showed that both contaminants represent a threat to mussels. EE2 is more harmful to females and SLS to males, causing alterations on their behaviour, metabolic capacity, and oxidative status. Nevertheless, it was not evident a synergistic effect when both contaminants were acting together. Moreover, regarding histopathological alterations in bivalve’s gills with both contaminants induced negative impacts in mussels, corroborating qPCR analysis that showed clear response to contaminants exposure. The results obtained highlight the harmful capacity of both contaminants but further research on this matter is needed, namely considering different climate change scenarios.
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spelling Impacts of pharmaceuticals and personal care products mixtures in marine bivalvesOxidative stressMetabolismHistopathological alterationsBehavioural alterationsEmerging contaminantsMixture of contaminants often determine biological responses of marine species, making difficult the interpretation of toxicological data. Among these contaminants are pharmaceuticals and personal care products (PCPs) such as 17 α-ethinylestradiol (EE2) and Sodium Lauryl Sulfate (SLS). Due to their large production and everyday use by the human population, they will eventually enter the marine environment, manly through wastewater. Once in the marine environment EE2 and SLS may interact with organisms and induce toxic effects, in bivalves. Beside contamination, organisms are also exposed to climate change, responsible for a gradual increase in the ocean temperature, which can cause physiological and biochemical impairments in aquatic organisms as well as increased the sensibility of organisms to pollutants. Furthermore, it is already reported that warming may change the properties and toxicity of pollutants. The present study evaluated the effects of EE2 under warming conditions and EE2 and SLS in Mytilus galloprovincialis at control temperature. For this, mussels were distributed into two climatic rooms to maintain organisms at two different temperatures: 17 ± 1 and 21 ± 1 °C. The tested concentrations used resemble low to highly polluted sites for the first experiment with EE2 at 17 and 21 °C were 5.0; 25.0; 125.0 and 625.0 ng/L, at the second experiment 125.0 ng/L for EE2, 4.0 mg/L for SLS and the mixture of both substances (EE2+SLS) at control temperature. The exposure lasted 28 days and at the end, concentrations in mussel’s tissues, histopathological alterations, biochemical, behavioural and quantitative RT-PCR analyses were evaluated. Results obtained clearly showed when organisms are exposed to EE2 at two different temperatures, higher toxic impacts are revealed under warming conditions in comparison to mussels exposed control temperature, suggesting that temperature rise may significantly increase the sensitivity of bivalves indicating an interactive effect induced by the combination of EE2 and temperature. This is demonstrated by the histopathological alterations, inhibition of superoxide dismutase (SOD), greater lipid peroxidation (LPO) levels, higher metabolic capacity and decreased acetylcholinesterase (AChE) activity in the presence of EE2 at 21 °C compared to mussels exposed to control temperature. Furthermore demonstrates, impacts of EE2 and SLS, acting alone or combined, to the bivalve M. galloprovincialis. Results showed that both contaminants represent a threat to mussels. EE2 is more harmful to females and SLS to males, causing alterations on their behaviour, metabolic capacity, and oxidative status. Nevertheless, it was not evident a synergistic effect when both contaminants were acting together. Moreover, regarding histopathological alterations in bivalve’s gills with both contaminants induced negative impacts in mussels, corroborating qPCR analysis that showed clear response to contaminants exposure. The results obtained highlight the harmful capacity of both contaminants but further research on this matter is needed, namely considering different climate change scenarios.A mistura de contaminantes frequentemente determina as respostas biológicas das espécies marinhas, dificultando a interpretação dos dados toxicológicos. Entre esses contaminantes estão produtos farmacêuticos e de cuidados pessoais (PCPs), como 17 α- etinilestradiol (EE2) e Lauril Sulfato de Sódio (SLS). Devido à sua grande produção e uso diário pela população humana, eles acabarão entrando no meio marinho, principalmente por meio de águas residuais. Uma vez no ambiente marinho, EE2 e SLS podem interagir com organismos e induzir efeitos tóxicos em bivalves. Junto com a contaminação, os organismos também estão expostos às mudanças climáticas, responsáveis pelo aumento gradual da temperatura dos oceanos, que pode causar danos fisiológicos e bioquímicos aos organismos aquáticos, além de aumentar a sensibilidade dos organismos aos poluentes. Além disso, já foi relatado que o aquecimento pode alterar as propriedades e a toxicidade dos poluentes. O presente estudo avaliou os efeitos de EE2 em condições de aquecimento e EE2 e SLS em Mytilus galloprovincialis em temperatura de controlo. Para isso, os mexilhões foram distribuídos em duas salas climáticas para manter os organismos em duas temperaturas diferentes: 17 ± 1 e 21 ± 1 °C. As concentrações testadas usadas se assemelham a locais de baixa a altamente poluídos para a primeira experiência com EE2 a 17 e 21 °C foram 5.0; 25.0; 125.0 e 625.0 ng/L, na segunda experiência 125.0 ng/L para EE2, 4.0 mg/L para SLS e a mistura de ambas as substâncias (EE2 + SLS) na temperatura de controle. A exposição durou 28 dias e no final foram avaliadas, concentrações nos tecidos do mexilhão, alterações histopatológicas, análises bioquímicas, comportamentais e quantitativas de RT-PCR. Os resultados obtidos mostraram claramente quando os organismos são expostos ao EE2 em duas temperaturas diferentes, impactos tóxicos mais elevados são revelados sob condições de aquecimento em comparação com os mexilhões expostos à temperatura de controlo, sugerindo que o aumento da temperatura pode aumentar significativamente a sensibilidade dos bivalves, indicando um efeito interativo induzido pela combinação de EE2 e temperatura. Isso é demonstrado pelas alterações histopatológicas, inibição da superoxide dismutase (SOD), maiores níveis de peroxidação lipídica (LPO), maior capacidade metabólica e diminuição da atividade da acetilcolinesterase (AChE) na presença de EE2 a 21 ° C em comparação com mexilhões expostos à temperatura de controlo. Além disso, demonstra, impactos de EE2 e SLS, agindo isoladamente ou combinados, para o bivalve M. galloprovincialis. Os resultados mostraram que ambos os contaminantes representam uma ameaça para os mexilhões. O EE2 é mais prejudicial ao sexo feminino e o SLS ao masculino, causando alterações no comportamento, capacidade metabólica e estado oxidativo. No entanto, não foi evidente um efeito sinérgico quando os dois contaminantes atuaram juntos. Além disso, em relação às alterações histopatológicas nas brânquias de bivalves com ambos, os contaminantes induziram impactos negativos nos mexilhões, corroborando a análise de qPCR que mostrou resposta clara à exposição aos contaminantes. Os resultados obtidos evidenciam a capacidade nociva de ambos os contaminantes, mas são necessários mais estudos nesta matéria, nomeadamente considerando diferentes cenários de alterações climáticas.2022-03-11T10:52:31Z2021-12-15T00:00:00Z2021-12-15info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/33452engLopes, Joel Martinsinfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2024-02-22T12:04:21Zoai:ria.ua.pt:10773/33452Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T03:04:52.638758Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse
dc.title.none.fl_str_mv Impacts of pharmaceuticals and personal care products mixtures in marine bivalves
title Impacts of pharmaceuticals and personal care products mixtures in marine bivalves
spellingShingle Impacts of pharmaceuticals and personal care products mixtures in marine bivalves
Lopes, Joel Martins
Oxidative stress
Metabolism
Histopathological alterations
Behavioural alterations
Emerging contaminants
title_short Impacts of pharmaceuticals and personal care products mixtures in marine bivalves
title_full Impacts of pharmaceuticals and personal care products mixtures in marine bivalves
title_fullStr Impacts of pharmaceuticals and personal care products mixtures in marine bivalves
title_full_unstemmed Impacts of pharmaceuticals and personal care products mixtures in marine bivalves
title_sort Impacts of pharmaceuticals and personal care products mixtures in marine bivalves
author Lopes, Joel Martins
author_facet Lopes, Joel Martins
author_role author
dc.contributor.author.fl_str_mv Lopes, Joel Martins
dc.subject.por.fl_str_mv Oxidative stress
Metabolism
Histopathological alterations
Behavioural alterations
Emerging contaminants
topic Oxidative stress
Metabolism
Histopathological alterations
Behavioural alterations
Emerging contaminants
description Mixture of contaminants often determine biological responses of marine species, making difficult the interpretation of toxicological data. Among these contaminants are pharmaceuticals and personal care products (PCPs) such as 17 α-ethinylestradiol (EE2) and Sodium Lauryl Sulfate (SLS). Due to their large production and everyday use by the human population, they will eventually enter the marine environment, manly through wastewater. Once in the marine environment EE2 and SLS may interact with organisms and induce toxic effects, in bivalves. Beside contamination, organisms are also exposed to climate change, responsible for a gradual increase in the ocean temperature, which can cause physiological and biochemical impairments in aquatic organisms as well as increased the sensibility of organisms to pollutants. Furthermore, it is already reported that warming may change the properties and toxicity of pollutants. The present study evaluated the effects of EE2 under warming conditions and EE2 and SLS in Mytilus galloprovincialis at control temperature. For this, mussels were distributed into two climatic rooms to maintain organisms at two different temperatures: 17 ± 1 and 21 ± 1 °C. The tested concentrations used resemble low to highly polluted sites for the first experiment with EE2 at 17 and 21 °C were 5.0; 25.0; 125.0 and 625.0 ng/L, at the second experiment 125.0 ng/L for EE2, 4.0 mg/L for SLS and the mixture of both substances (EE2+SLS) at control temperature. The exposure lasted 28 days and at the end, concentrations in mussel’s tissues, histopathological alterations, biochemical, behavioural and quantitative RT-PCR analyses were evaluated. Results obtained clearly showed when organisms are exposed to EE2 at two different temperatures, higher toxic impacts are revealed under warming conditions in comparison to mussels exposed control temperature, suggesting that temperature rise may significantly increase the sensitivity of bivalves indicating an interactive effect induced by the combination of EE2 and temperature. This is demonstrated by the histopathological alterations, inhibition of superoxide dismutase (SOD), greater lipid peroxidation (LPO) levels, higher metabolic capacity and decreased acetylcholinesterase (AChE) activity in the presence of EE2 at 21 °C compared to mussels exposed to control temperature. Furthermore demonstrates, impacts of EE2 and SLS, acting alone or combined, to the bivalve M. galloprovincialis. Results showed that both contaminants represent a threat to mussels. EE2 is more harmful to females and SLS to males, causing alterations on their behaviour, metabolic capacity, and oxidative status. Nevertheless, it was not evident a synergistic effect when both contaminants were acting together. Moreover, regarding histopathological alterations in bivalve’s gills with both contaminants induced negative impacts in mussels, corroborating qPCR analysis that showed clear response to contaminants exposure. The results obtained highlight the harmful capacity of both contaminants but further research on this matter is needed, namely considering different climate change scenarios.
publishDate 2021
dc.date.none.fl_str_mv 2021-12-15T00:00:00Z
2021-12-15
2022-03-11T10:52:31Z
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