Publisher DOI: 10.1039/d3em00133d
Title: Determination of the distribution of rare earth elements La and Gd in Daphnia magna via micro and nano-SXRF imaging
Language: English
Authors: Revel, Marion Leonie 
Medjoubi, Kadda 
Rivard, Camille 
Vantelon, Delphine 
Hursthouse, Andrew 
Heise, Susanne  
Keywords: rare earth elements; ecotoxicology; impact on daphnids; microimaging; bioaccumulation
Issue Date: 25-May-2023
Publisher: RSC Publ.
Journal or Series Name: Environmental science 
Volume: 25
Issue: 8
Startpage: 1288
Endpage: 1297
Project: European training network on rare earth elements environmental transfer: from rock to human 
Abstract: 
While our awareness of the toxicity of rare earth elements to aquatic organisms increases, our understanding of their direct interaction and accumulation remains limited. This study describes the acute toxicity of lanthanum (La) and gadolinium (Gd) in Daphnia magna neonates and discusses potential modes of action on the basis of the respective patterns of biodistribution. Ecotoxicological bioassays for acute toxicity were conducted and dissolved metal concentrations at the end of the tests were determined. The results showed a significant difference in nominal EC50 (immobility) between La (>30 mg L−1) and Gd (13.93 (10.92 to 17.38) mg L−1). Daphnids that were then exposed to a concentration close to the determined EC50 of Gd (15 mg L−1, nominal concentration) for 48 h and 72 h were studied by synchrotron micro and nano-X-ray fluorescence to evaluate the biodistribution of potentially accumulated metals. X-ray fluorescence analyses showed that La was mainly found in the intestinal track and appeared to accumulate in the hindgut. This accumulation might be explained by the ingestion of solid La precipitates formed in the media. In contrast, Gd could only be detected in a small amount, if at all, in the intestinal tract, but was present at a much higher concentration in the tissues and became more pronounced with longer exposure time. The solubility of Gd is higher in the media used, leading to higher dissolved concentrations and uptake into tissue in ionic form via common metal transporting proteins. By studying La and Gd biodistribution in D. magna after an acute exposure, the present study has demonstrated that different uptake pathways of solid and dissolved metal species may lead to different accumulation patterns and toxicity.
URI: http://hdl.handle.net/20.500.12738/15323
ISSN: 2050-7895
Review status: This version was peer reviewed (peer review)
Institute: Department Medizintechnik 
Fakultät Life Sciences 
Type: Article
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