400-Year Record of Atmospheric Mercury from Tree-Rings in Northwestern Canada

400-Year Record of Atmospheric Mercury from Tree-Rings in Northwestern Canada

Tree-rings are a promising high-resolution archive for gaseous atmospheric mercury (composed primarily of Hg0) reconstruction, but the influence of cambial age (ring number from pith) and tree-specific differences are uncertainties with potential implications for interpreting tree-ring Hg signals. W...

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Bibliographic Details
Published in:Environmental science & technology Vol. 52; no. 17; pp. 9625 - 9633
Main Authors: Clackett, Sydney P, Porter, Trevor J, Lehnherr, Igor
Format: Journal Article
Language:English
Published: United States American Chemical Society 04-09-2018
Subjects:
Archives & records
Atmospheric chemistry
Atmospheric composition
Boreal forests
Datasets
Mercury
Mercury (metal)
Picea glauca
Reconstruction
Spatial distribution
Taiga
Tree rings
Trees
Uncertainty
Canada
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Summary:Tree-rings are a promising high-resolution archive for gaseous atmospheric mercury (composed primarily of Hg0) reconstruction, but the influence of cambial age (ring number from pith) and tree-specific differences are uncertainties with potential implications for interpreting tree-ring Hg signals. We address these uncertainties and reconstruct the last 400 years of Hg0 change using a tree-ring Hg data set from 20 white spruce (Picea glauca) trees from a pristine site in central Yukon. Cambial age has no significant influence on tree-ring Hg concentration, but tree-specific differences in mean concentration are prevalent and must be normalized to a common mean to accurately constrain long-term trends in the mean tree-ring Hg record. Our record shows stable, low Hg0 concentrations prior to ∼1750 CE, a persistent rise from ∼1750–1950 (increasing more rapidly post-1850), a pause from ∼1951–1975, and then a resumed increase to record-high levels at present. This general pattern is reflected in other proxy-based Hg reconstructions worldwide. This study provides a novel long-term Hg0 reconstruction in the Western subarctic from one of the most widely distributed boreal tree species in North America and, therefore this proxy may also hold potential for investigating broader spatial patterns in Hg0 cycling across the subarctic and northern boreal forest.
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ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.8b01824