Journal article
Beyond the transect: An alternative microchemical imaging method for fine scale analysis of trace elements in fish otoliths during early life
N McGowan, AM Fowler, K Parkinson, DP Bishop, K Ganio, PA Doble, DJ Booth, DJ Hare
Science of the Total Environment | ELSEVIER | Published : 2014
Abstract
Microchemical analysis of otolith (calcified 'ear stones' used for balance and orientation) of fishes is an important tool for studying their environmental history and management. However, the spatial resolution achieved is often too coarse to examine short-term events occurring in early life. Current methods rely on single points or transects across the otolith surface, which may provide a limited view of elemental distributions, a matter that has not previously been investigated. Imaging by laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS) permits microchemical analyses of short-term events in early life with high (<10μm) resolution, two-dimensional (2D) visualization..
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Awarded by Australian Research Council
Funding Acknowledgements
The authors wish to acknowledge financial support from the Australian Research Council (LP100200254), Agilent Technologies and Kennelec Scientific.