A1 Refereed original research article in a scientific journal
The analysis of freshwater pearl mussel shells using mu-XRF (micro-x-ray fluorescence) and the applicability for environmental reconstruction
Authors: Leppänen JJ, Saarinen T, Jilbert T, Oulasvirta P
Publisher: SPRINGER INTERNATIONAL PUBLISHING AG
Publication year: 2021
Journal: SN Applied Sciences
Journal name in source: SN APPLIED SCIENCES
Journal acronym: SN APPL SCI
Article number: 1
Volume: 3
Issue: 1
Number of pages: 8
ISSN: 2523-3963
eISSN: 2523-3971
DOI: https://doi.org/10.1007/s42452-020-03978-3(external)
Self-archived copy’s web address: https://research.utu.fi/converis/portal/detail/Publication/52805442(external)
Freshwater pearl mussel is a highly threatened species, and many populations are currently on the brink of local extinction. For example, in south Finland, only two populations are currently viable. Even though the reasons for the mussels' demise are relatively well known, the long-term impacts of water quality are not completely resolved. Here, mu-XRF analysis and historical records were used to evaluate whether the differences in water chemistry or past environmental changes in three rivers in southern Finland are visible in mussel shell chemistry. The results show that the cracks inside mussel shells, invisible to the naked eye, may greatly affect the elemental composition results. Further, anomalies which could be related to inclusion of detrital matter inside the shells were detected. Manganese (Mn) seems to be related to mussel growth dynamics, especially in the nacreous layer, while high values of iron (Fe) and Mn are also present at the top sections of the prismatic layer. Line scan analysis revealed high variation between replicates. The mu-XRF method could be used as prescreening method in mussel sclerochemistry studies, but more studies are needed to clarify the ability of FPM shells to reliably record the environmental conditions.
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