Establishing trace element concentrations for lichens and bryophytes in the ring of fire region of the Hudson Bay Lowlands, Ontario, Canada

Peatlands dominate the landscape of the Hudson Bay Lowlands in Ontario, Canada. Recently, mineral deposits of chromium (Cr), nickel (Ni), and copper (Cu) were discovered in the region and anticipated future industrial mining operations have the potential to impact the environment. Lichens and bryoph...

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Bibliographic Details
Published in:Environmental monitoring and assessment 2022-03, Vol.194 (3), p.226-226, Article 226
Main Authors: McDonough, Andrew M., Bird, Adam W., Luciani, Michael A., Todd, Aaron K.
Format: Article
Language:English
Subjects:
Air Pollutants - analysis
Aluminium
Aluminum
Anthropogenic factors
Aquatic plants
Atmospheric particulates
Atmospheric Protection/Air Quality Control/Air Pollution
Atmospheric transport
Bays
Biomonitoring
Biomonitors
Bryophytes
Chromium
Cladonia
Copper
Deposition
Dust storms
Earth and Environmental Science
Ecology
Ecotoxicology
Environment
Environmental impact
Environmental Management
Environmental Monitoring
Environmental science
Foliage
Human influences
Inclusions
Industrialization
Iron
Isotopes
Lichens
Lichens - chemistry
Lowlands
Mineral deposits
Monitoring/Environmental Analysis
Nickel
Nutrients
Ontario
Particulates
Peat
Peatlands
Thalli
Titanium
Trace elements
Trace elements (nutrients)
Trace Elements - analysis
Vanadium
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Summary:Peatlands dominate the landscape of the Hudson Bay Lowlands in Ontario, Canada. Recently, mineral deposits of chromium (Cr), nickel (Ni), and copper (Cu) were discovered in the region and anticipated future industrial mining operations have the potential to impact the environment. Lichens and bryophytes are considered excellent biomonitors and indicators of deposition, deriving their nutrients directly from the atmosphere. Trace element concentrations in lichens and bryophytes have not been reported in the Hudson Bay Lowlands. Here, we seek to determine the baseline trace element concentrations of six non-vascular species ( Evernia mesomorpha , Bryoria spp., Cladonia stellaris , Cladonia stygia , Sphagnum fuscum , and Sphagnum capillifolium ) common to the region, explore linear relationships of trace elements with iron (Fe) as a signature of particulates with geogenic origin, and calculate trace element enrichment factors. Thalli, foliage, and peat (0–30 cm) were collected from 55 locations between 2013 and 2018 and analyzed for trace elements. Thalli and foliar concentrations are among the lowest reported in the broader literature and differ substantially from peat. Fe concentrations were significantly correlated (Pearson’s r  ≥ 0.8) with aluminum (Al), titanium (Ti), and vanadium (V) in all six species. Enrichment factors show some anthropogenic deposition effects non-vascular organism chemistry. Most trace element concentrations in lichens and bryophytes are indicative of long-range atmospheric transport of dust, but some is attributed to industry, with only minimal inclusions from the local area. Epiphytic lichens are well suited for ongoing atmospheric biomonitoring as industrialization commences.
ISSN:0167-6369
1573-2959
DOI:10.1007/s10661-022-09890-0