Abstract
Mercury (Hg) is a global pollutant with human health and ecological impacts. Gas exchange between terrestrial surfaces and the atmosphere is an important route for Hg to enter and exit ecosystems. Here, we used a dynamic flux chamber to measure gaseous elemental Hg (GEM) exchange over different landscapes in Mississippi, including in situ measurements for a wetland (soil and water), forest floor, pond, mowed field and grass-covered lawn, as well as mesocosm experiments for three different agricultural soils. Fluxes were measured during both the summer and winter. Mean ambient levels of GEM ranged between 0.93–1.57 ng m−3. GEM emission fluxes varied diurnally with higher daytime fluxes, driven primarily by solar radiation, and lower and more stable nighttime fluxes, dependent mostly on temperature. GEM fluxes (ng m−2 h−1) were seasonally dependent with net emission during the summer (mean 2.15, range 0.32 to 4.92) and net deposition during the winter (−0.12, range −0.32 to 0.12). Total Hg concentrations in the soil ranged from 17.1 ng g−1 to 127 ng g−1 but were not a good predictor of GEM emissions. GEM flux and soil temperature were correlated over the forest floor, and the corresponding activation energy for Hg emission was ~31 kcal mol−1 using the Arrhenius equation. There were significant differences in GEM fluxes between the habitats with emissions for grass > wetland soil > mowed field > pond > wetland water ≈ forest ≈ agriculture soils. Overall, we demonstrate that these diverse landscapes serve as both sources and sinks for airborne Hg depending on the season and meteorological factors.
Highlights
Mercury (Hg) is a major global pollutant that at higher concentrations can cause serious human health and ecological impacts, and is among the top 10 hazardous chemicals listed by the WorldHealth Organization
Hg gas exchange was measured over a wetland, pond, forest floor, three different types of agricultural soil, a mowed field, and a residential lawn (Table 1)
We investigated Hg air-surface gas exchange at an ancient baldcypress (Taxodium distichum) wetland connected to Sky Lake during July 2014
Summary
Mercury (Hg) is a major global pollutant that at higher concentrations can cause serious human health and ecological impacts, and is among the top 10 hazardous chemicals listed by the WorldHealth Organization. Gaseous elemental mercury (GEM), which consists of over 95% of the total-Hg in the air, has a relatively long residence time of ~0.5 to 2 years [1,2]. It undergoes long distance transport after emission from sources and plays an important role in the global Hg cycle. GEM fluxes from natural surfaces are typically measured using either enclosure (e.g., dynamic flux chamber (DFC)) or micrometeorological methods, and are reported as ng of Hg emitted or deposited per m2 per hour [4] Both methods have their advantages and limitations, with the DFC being portable, simple to deploy, and not subject to Atmosphere 2019, 10, 538; doi:10.3390/atmos10090538 www.mdpi.com/journal/atmosphere
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