Toxicological effects of the rare earth element neodymium in Mytilus galloprovincialis

Freitas, Rosa; Costa, Silvana; Cardoso, Celso E. D.; Morais, Tiago; Moleiro, Pedro; Matias, Ana Catarina; Pereira, Ana F.; Machado, Joana César; Correia, Beatriz; Pinheiro, Diana Célia Sousa Nunes; Rodrigues, Adriana; Colónia, João; Soares, Amadeu M.V.M.; Pereira, Eduarda

doi:10.1016/j.chemosphere.2019.125457

Cited by 80 publications

(24 citation statements)

References 61 publications

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“…The increased mobilisation and concentration of REEs in water systems could have significant impacts primarily to aquatic organisms (Freitas et al, 2020). The REE-content in seawater can be determined by factors relating to different input sources (e.g., terrestrial, hydrothermal) and scavenging processes related to depth, salinity, and oxygen levels (Greaves et al, 1999;Nozaki, 2001).…”

Section: Introductionmentioning

confidence: 99%

A first attempt to evaluate the toxicity to Phaeodactylum tricornutum Bohlin exposed to rare earth elements

Siciliano

Sabatino²,

Paone³

et al. 2022

Front. Environ. Sci.

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The increasing use and demand of rare earth elements in many emerging technologies is leading to a potentially higher input to the marine environment. This study compared for the first time the effect of lanthanum (La), cerium (Ce), neodymium (Nd), samarium (Sm), europium (Eu), gadolinium (Gd), dysprosium (Dy), and erbium (Er) to the microalga Phaeodactylum tricornutum Bohlin. The algal growth inhibition was investigated after 72 h of exposure. The median effect concentrations (EC50) ranged from 0.98 mg/L to 13.21 mg/L and elements were ranked as follows: Gd > Ce > Er > La > Eu > Nd > Dy > Sm. The comparison of predicted no effect concentrations (PNEC) for hazard and risk assessment with measured environmental concentrations showed that ecological risks deriving from REEs could be present, but limited to specific environments like estuarine waters. The results support evidence of actions to manage the REE impact in seawater environments, looking to improve the monitoring tailored to the different and dynamic nature of ecosystems.

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Section: Introductionmentioning

confidence: 99%

A first attempt to evaluate the toxicity to Phaeodactylum tricornutum Bohlin exposed to rare earth elements

Siciliano

Sabatino²,

Paone³

et al. 2022

Front. Environ. Sci.

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“…As shown for Nd, Y, Ce, and La, the contents of individual REEs in the biomass of the macroinvertebrates were in the range of 10–70 nmol/g dry mass. These REE contents are generally an order of magnitude greater than values reported in the limited studies of pristine and human-impacted streams. , In addition, the Nd contents were about 5-fold higher than found in the tissue of a marine mussel experimentally exposed to 40 μg/L of Nd for a 4-week period . Further, the REE contents were intermediate between the contents for Pb and Cd, both of which are recognized trace metal toxicants for aquatic biota .…”

Section: Resultsmentioning

confidence: 64%

Enhanced Rare Earth Element Mobilization in a Mountain Watershed of the Colorado Mineral Belt with Concomitant Detection in Aquatic Biota: Increasing Climate Change-Driven Degradation to Water Quality

Rue

McKnight

2021

Environ. Sci. Technol.

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In the western USA, one legacy of historic mining is drainage of acidic, metal-rich water generated by exposure to oxygen of sulfide minerals in mine workings, referred to as acid mine drainage (AMD). Streams receiving AMD and natural acid rock drainage (ARD) have a low pH, high dissolved metal concentrations, and extensive streambed oxide deposits. Recently, enhanced ARD generation in the Snake River watershed in the Rocky Mountains has been shown to be associated with warmer summer air temperatures, which has been attributed to expanding weathering fronts that promote oxidation due to earlier drying of shallow soils. In mountain watersheds where complex orogeny disseminated minerals throughout the landscape, weathering processes may also mobilize rare earth elements (REEs). We report that in the Snake River REEs are currently distributed in streams at concentrations ranging from 1 to 100 μg/L. Further, analysis of archived sample indicates that REE increases over time are also associated with increased summer air temperatures. In downstream reaches where the Snake River discharges into a water supply reservoir, colloidal and particulate metal oxides are abundant and sorptive processes may influence REE speciation. We also show that REEs accumulate in benthic invertebrates at concentrations comparable to toxic metals associated with ARD.

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“…Published literature concerning REEs showed that aquatic organisms are able to uptake REEs from waters (Cyris, 2013;Rogowska et al, 2018;Freitas et al, 2020aFreitas et al, , 2020bMestre et al, 2019;Pinto et al, 2019) and from sediments (Pastorino et al, 2020). Like other chemical elements, Gd toxicity is influenced by the characteristics of the organisms exposed such as age, size, the type of exposure (chronicfor a long period of time; or acutefor a short period of time) and the concentrations of other REEs in solution.…”

Section: Gadolinium Bioaccumulation In Aquatic Organismsmentioning

confidence: 99%

“…Gadolinium and in general all REEs toxicity studies have focused particularly on species of economic interest or those related directly to public health, such as the bacteria Vibrio fischeri (González et al, 2015), the algae Raphidocelis subcapitata and those belonging to Chlorella species (Hao et al, 1997;Fujiwara et al, 2008;Balusamy et al, 2015;González et al, 2015;Joonas et al, 2017). Nevertheless, researches involving more marine and freshwater species have been reported recently, thus covering a greater biodiversity (Blaise et al, 2018;Pinto et al, 2019;Duarte and Caçador, 2020;Freitas et al, 2020aFreitas et al, , 2020bHenriques et al, 2019;Moreira et al, 2020).…”

Section: Gadolinium Bioaccumulation In Aquatic Organismsmentioning

confidence: 99%

“…Pollutants discharged in water environments usually changes cellular balance between prooxidant mechanisms and antioxidant defences of the target cell. In particular, studies employing marine (Freitas et al, 2020a(Freitas et al, , 2020bHenriques et al, 2019;Pinto et al, 2019;Mestre et al, 2019) and freshwater (Hanana et al, 2017;Perrat et al, 2017;Blinova et al, 2018) species, demonstrated that they are negatively affected by REEs, which often cause alterations on the oxidative status of the animals. These chemicals can both reduce the antioxidants capacity to eliminate oxyradicals or enhance the intracellular formation of the so-called reactive oxygen species (ROS).…”

Section: Effects Of Gadolinium In Aquatic Invertebrate Speciesmentioning

confidence: 99%

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What do we know about the ecotoxicological implications of the rare earth element gadolinium in aquatic ecosystems?

Trapasso

Chiesa

Freitas

et al. 2021

Science of The Total Environment

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More research on gadolinium (Gd) occurrence in freshwater than marine environments • Few publications on the accumulation and effects of Gd in aquatic invertebrates • Higher diversity of freshwater species than marine species in Gd impacts studies. • Aquatic invertebrates differently bioaccumulate Gd according to its speciation. • Gd causes alterations at different biological levels in aquatic invertebrates.

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Toxicological effects of the rare earth element neodymium in Mytilus galloprovincialis

Cited by 80 publications

References 61 publications

A first attempt to evaluate the toxicity to Phaeodactylum tricornutum Bohlin exposed to rare earth elements

A first attempt to evaluate the toxicity to Phaeodactylum tricornutum Bohlin exposed to rare earth elements

Enhanced Rare Earth Element Mobilization in a Mountain Watershed of the Colorado Mineral Belt with Concomitant Detection in Aquatic Biota: Increasing Climate Change-Driven Degradation to Water Quality

What do we know about the ecotoxicological implications of the rare earth element gadolinium in aquatic ecosystems?

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