Journal article
How significant is atmospheric metal contamination from mining activity adjacent to the Tasmanian Wilderness World Heritage Area? A spatial analysis of metal concentrations using air trajectories models
L Schneider, M Mariani, KM Saunders, WA Maher, JJ Harrison, MS Fletcher, A Zawadzki, H Heijnis, SG Haberle
Science of the Total Environment | ELSEVIER | Published : 2019
Abstract
This study investigated metal contamination from historical mining in lakes in the Tasmanian Wilderness World Heritage Area (TWWHA) and surrounding region. The largest increase in sedimentation and metal contamination occurred ca. 1930 when open-cut mining commenced and new mining technology was introduced into the region. The geochemical signal of lake sediments changed from reflecting the underlying geology and lithology to that reflecting mining activities. The HYSPLIT air particle trajectory model explains metal distribution in the lakes, with those in the northwest region closest to the mines having the highest metal contamination. Lake metal concentrations since mining activities comme..
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Grants
Awarded by Association pour la Recherche sur le Cancer
Funding Acknowledgements
This research was supported/partially supported by ARC Projects DI110100019, IN140100050, and IN170100062, AINSE Research Award ALNGRA12003 and AINSE PGRA 12039. We thank our colleagues from Scott Nichols, Jared Pedro, Peter Shimeld, Lucy Gayler who greatly assisted field work of Basin Lake and Owen Tarn. Kate Harle for fieldwork coordination, processing data and sampling of lakes other than Basin and Owen Tarn.