Laser Ablation ICP-MS Analysis of Faviidae Corals for Environmental Monitoring of a Tropical Estuary
Niels C. Munksgaard A B , Yasmin Antwertinger A and David L. Parry AA Faculty of Science, Charles Darwin University, Darwin NT 0909, Australia.
B Corresponding author. Email: niels.munksgaard@cdu.edu.au
Environmental Chemistry 1(3) 188-196 https://doi.org/10.1071/EN04058
Submitted: 20 July 2004 Accepted: 6 October 2004 Published: 7 December 2004
Environmental Context: The composition of calcium carbonate in annual skeletal growth bands reflects the environmental conditions in which coral grows, enabling their use as long-term bio-monitors and archives of environmental conditions. Such archives will provide a baseline against which recent and future pollutant levels can be compared.
Abstract: An LA-ICP-MS linescan procedure has been developed for the determination of sub-millimetre scale elemental compositions of Al, Ba, Cu, La, Mg, Mn, Pb, Rb, Sr, U, and Zn in corallite walls of Faviidae corals, with the aim of establishing coral-based pollution monitoring in a tropical estuary. By selectively analyzing corallite walls, analytical signals from voids, organic, and detrital phases were minimized. Although the relative ablation yields of coral aragonite and NIST glass calibration standards differed and was dependent on pulse energy, accurate internal-standard normalized results could be verified for Ba, Cu, La, Mn, Pb, Sr, U, and Zn through the use of a secondary carbonate standard (MACS-1) and comparison with solution ICP-MS analysis. Signal smoothing and pre-acquisition surface cleaning procedures were applied. Corallite wall compositions varied by factors of up to five over distances of a few hundred micrometres. Significantly, the compositional variations along and perpendicular to the coral growth axis were of similar magnitude on a sub-millimetre scale. Consequently, compositional variations along the growth axis could not be interpreted chronologically on a sub-annual time scale. However, compositional records based on multi-annual integrated line scans should still reflect long-term environmental influences.
Keywords. : biological monitoring — corals — LA-ICP-MS — trace elements
Acknowledgements
The Australian Research Council, the Australian Institute of Marine Sciences, the Geological Survey of the Northern Territory, and the Office of the Supervising Scientist provided financial support for establishing the LA-ICP-MS laboratory at Charles Darwin University. We thank Norman Pearson and Suzy Elhlou for assistance while using the Macquarie University LA-ICP-MS and Janice Lough for access to the coral-dating laboratory at the Australian Institute of Marine Sciences. Y.A. gratefully acknowledges financial assistance from Power and Water Corporation and a scholarship from the Australian Institute of Nuclear Science and Engineering.
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