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The use of Hediste diversicolor in the study of emerging contaminants
Marine Environmental Research2020
23 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 30
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Adília Pires,
Adília Pires,
M.S.S. Silva,
M.S.S. Silva,
M.S.S. Silva,
M.S.S. Silva,
M.S.S. Silva,
M.S.S. Silva,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Mónica Almeida,
Miguel Oliveira
Adília Pires,
Adília Pires,
Adília Pires,
Miguel Oliveira
Mónica Almeida,
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Mónica Almeida,
Adília Pires,
Mónica Almeida,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
M.S.S. Silva,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Miguel Oliveira
Mónica Almeida,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Mónica Almeida,
Adília Pires,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Adília Pires,
Miguel Oliveira
Miguel Oliveira
Adília Pires,
Adília Pires,
Adília Pires,
Adília Pires,
Miguel Oliveira
Adília Pires,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Adília Pires,
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Miguel Oliveira
Summary
Researchers reviewed how a common estuary worm called Hediste diversicolor responds to three types of pollutants — pharmaceuticals, metal nanoparticles, and microplastics — finding that even very low concentrations disrupt the worm's behavior and nerve function, making it a valuable indicator species for monitoring pollution in coastal ecosystems.
The contamination of aquatic environments has been the focus of research to understand effects on ecosystems and its species. Benthic organisms are considered potential targets since sediments act as sources and sinks for environmental contaminants. This review presents information on the effects of three types of emerging contaminants: pharmaceuticals (tested concentrations between 0.1 ng/L - 250 mg/L and 0.01 ng/g - 2.5 μg/g), metal-based nanoparticles (<100 nm) (tested concentrations between 10 μg/L - 1 mg/L and 5 - 140 μg/g) and micro(nano)plastics (tested concentrations between 5 μg/L - 50 mg/L and 10 - 50 mg/kg), on the polychaete Hediste diversicolor, a key species in estuarine/coastal ecosystems. Data shows that these contaminants promote alterations in burrowing activity (lowest concentration inducing effects: 10 ng/L), neurotransmission and damage related parameters (lowest concentration inducing effects: 100 ng/L). The characteristics of this polychaete, such as regenerative capacity, make the use of this species in biomedical studies involving environmental contaminants valuable.