Cadmium in Mytilus spp.: Worldwide survey and relationship between seawater and mussel content
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Cited by (46)
Environmental and human health risk assessment of trace metals in the mussel ecosystem from the Southwestern Mediterranean
2020, Marine Pollution BulletinA mitochondrial genome phylogeny of Mytilidae (Bivalvia: Mytilida)
2019, Molecular Phylogenetics and EvolutionCitation Excerpt :The family Mytilidae, also known as marine mussels, has received much attention for its economic and environmental importance: some members of this family are well-known as invasive and/or biofouling species (e.g., Limnoperna fortunei) that damage power plant cooling systems and fish farms (Bayne and Bayne, 1976; Jenner et al., 1998), while others (e.g., Mytilus spp., Perna spp.) are edible and have important commercial value (Vakily, 1989; Taylor et al., 1992; Pawiro, 2010). In addition, Mytilus species have long been used as indicator species for assessing environmental pollution (Phillips, 1976; Cossa, 1988; Vázquez-Luis et al., 2016). More recently, they have been the focus of biomaterials research due to the potential commercial importance of the adhesive proteins in its byssal threads (Hwang et al., 2007; Kim et al., 2017).
Environmental radioactivity analyses in Italy following the Fukushima Dai-ichi nuclear accident
2012, Journal of Environmental RadioactivityCitation Excerpt :Likewise the atmospheric particulate data, also 131I atmospheric deposition values are similar to Europe literature (Margineanu et al., 2011; Pittauerova et al., 2011). Mussels are largely used as bioindicators for their ability to concentrate efficiently within their tissues several contaminants present in seawater (Cossa et al., 1980; Cossa, 1988; Phillips, 1980; Rainbow, 1990). Seawater and mussels were collected in La Spezia coastal area before and after the arrival of the Fukushima “plume”.
Animal excrement: A potential biomonitor of heavy metal contamination in the marine environment
2008, Science of the Total Environment