Mercury Water−Air Exchange over the Upper St. Lawrence River and Lake Ontario
Citations Over TimeTop 10% of 2000 papers
Abstract
The paper presents an analysis of a set of data that includes both Hg profiles and modeled fluxes over water surface (using the two-layer model) and develops some insights regarding mercury water−air exchanges in Lake Ontario and the Upper St. Lawrence River (USLR). This paper presents the first in situ estimation of the water−air Hg gas exchange in Lake Ontario. It shows that water−air exchange fluxes over Lake Ontario and the Upper St. Lawrence River contributed to atmospheric mercury built-up over water bodies. TGM concentrations over Lake Ontario were significantly higher on the South shore than on the North shore, whereas the degree of saturation was higher on the North shore. Moreover TGM concentrations over water bodies were significantly higher than the reference station located on the ground surface (St. Anicet) indicated. TGM gradient measurements suggested that the South shore of Lake Ontario was mostly in evasion mode, whereas on the North shore and the Upper St. Lawrence River, both evasion and deposition were observed. However, Hg gas evasion should be far larger than gas deposition. Hg fluxes were calculated through the two-layer model. Model calculation indicated Hg supersaturation (476−2163%) and Hg fluxes between ∼0 and 9.28 ng/m2/h (median 2.88 ng/m2/h). Hg gradients were weakly related to solar radiation, whereas the calculated Hg fluxes were not. Modeled Hg fluxes are related to Henry's law and wind speed. It is suggested that the two-layer model gives the order of magnitude of the Hg flux but cannot express adequately the fine structure of Hg water−air fluxes. Further research is needed to elucidate the fine structure of the Hg water−air gas exchange flux. This study points out the complexity of Hg water−air gas exchange flux processes over large lakes or rivers and that Hg gas exchange is dynamic, changing in space and time.
Related Papers
- → Drug Supersaturation in Simulated Human Intestinal Fluids Representing Different Nutritional States(2010)96 cited
- → Evolution of Supersaturation of Amorphous Pharmaceuticals: Nonlinear Rate of Supersaturation Generation Regulated by Matrix Diffusion(2015)52 cited
- → Study on Effects of Different Carrier Gases on Characteristics of the Supersaturated Environment in the One-/Multi-section Growth Tube(2018)15 cited
- → Effect of Two Kinds of Supersaturation on Crystal Qualities during Cocrystallization(2019)7 cited
- → A new model relating secondary nucleation rate and supersaturation(1996)6 cited