von Hellfeld, RebeccaGade, Christophten Doeschate, Mariel T.I.Davison, Nicolas J.Brownlow, Andrew C.Mbadugha, LenkaHastings, AstleyPaton, Graeme2024-01-292024-01-292024-02-01von Hellfeld, R, Gade, C, ten Doeschate, M T I, Davison, N J, Brownlow, A C, Mbadugha, L, Hastings, A & Paton, G 2024, 'High resolution visualisation of tiemannite microparticles, essential in the detoxification process of mercury in marine mammals', Environmental Pollution, vol. 342, 123027. https://doi.org/10.1016/j.envpol.2023.1230270269-7491RIS: urn:6280D3B404FF258F9064263C8B9E83E3ORCID: /0000-0001-9863-7613/work/147566764ORCID: /0000-0002-4543-9776/work/147567338ORCID: /0000-0003-4283-7813/work/147568586https://hdl.handle.net/2164/22660RvH and AH are funded by the Net Zero Technology Centre and the University of Aberdeen, through their partnership with the UK National Decommissioning Centre, and DEFRA (ETPP-33/C10). RvH received additional funding from the University of Aberdeen under the interdisciplinary project funding and the internal funding to pump-prime interdisciplinary research and impact (CF10723-32). AH received additional funding from the UK Energy Research Centre research programme (UKERC-4, EP/S029575/1). CG is funded by Chevron through its Anchor Partnership with the UK National Decommissioning Centre. The Scottish Marine Animal Stranding Scheme is funded by Marine Scottland with additional support provided by the University of Glasgow.52392649engAcademicUniversity of GlasgowSDG 14 - Life Below Water2040 Environment and BiodiversityBiomagnificationMercuryScanning electron microscopyQH301 BiologyGE Environmental SciencesUK Research and Innovation (UKRI)EP/S029575/1QH301GEJournal article10.1016/j.envpol.2023.123027342