Your search keyword '"Laurier Poissant"' showing total 28 results

1. Salt-marsh plants as potential sources of Hg0 into the atmosphere

Author

Laurier Poissant, Nelson J. O'Driscoll, Miguel Caetano, João Canário, Holger Hintelmann, and Martin Pilote

Subjects

Atmospheric Science, geography, geography.geographical_feature_category, Marsh, 010504 meteorology & atmospheric sciences, biology, Chemistry, chemistry.chemical_element, Estuary, 010501 environmental sciences, biology.organism_classification, 01 natural sciences, Mercury (element), Halimione portulacoides, Flux (metallurgy), Salt marsh, Environmental chemistry, Relative humidity, Spartina maritima, 0105 earth and related environmental sciences, General Environmental Science

Abstract

To assess the role of salt-marsh plants on the vegetation-atmospheric Hg0 fluxes, three salt marsh plant species, Halimione portulacoides, Sarcocornia fruticosa and Spartina maritima were selected from a moderately contaminated site in the Tagus estuary during May 2012. Total mercury in stems and leaves for each plant as well as total gaseous mercury and vegetation-air Hg0 fluxes were measured over two continuous days. Mercury fluxes were estimated with a dynamic flux Tedlar® bag coupled to a high-resolution automated mercury analyzer (Tekran 2537A). Other environmental parameters such as air temperature, relative humidity and net solar radiation were also measured aside. H. portulacoides showed the highest total mercury concentrations in stems and leaves and the highest average vegetation-air Hg0 flux (0.48 ± 0.40 ng Hg m−2 h−1). The continuous measurements converged to a daily pattern for all plants, with enhanced fluxes during daylight and lower flux during the night. It is noteworthy that throughout the measurements a negative flux (air-vegetation) was never observed, suggesting the absence of net Hg0 deposition. Based on the above fluxes and the total area occupied by each species we have estimated the total amount of Hg0 emitted from this salt-marsh plants. A daily emission of 1.19 mg Hg d−1 was predicted for the Alcochete marsh and 175 mg Hg d−1 for the entire salt marsh area of the Tagus estuary.

Published

2017

2. Annual hydrogen, carbon monoxide and carbon dioxide concentrations and surface to air exchanges in a rural area (Québec, Canada)

Author

Richard Villemur, Philippe Constant, and Laurier Poissant

Subjects

Hydrology, Atmospheric Science, geography, Biogeochemical cycle, geography.geographical_feature_category, Sink (geography), Trace gas, Soil respiration, chemistry.chemical_compound, Deposition (aerosol physics), chemistry, Diurnal cycle, Greenhouse gas, Environmental chemistry, Carbon dioxide, Environmental science, General Environmental Science

Abstract

The industrialization and the demographic expansion have both influenced the biogeochemical cycle of hydrogen (H 2 ), carbon monoxide (CO) and carbon dioxide (CO 2 ). In the actual context, knowledge about the spatial distribution of the natural sources and sinks of these trace gases is then crucial to infer possible effects of climate and land use changes on their global budget. This article reports the H 2 , CO and CO 2 concentrations and micrometeorological fluxes measured during 1 year in a rural area of the mixed wood ecozone of Canada. Land use represents a critical issue in the control of trace gas natural sources or sinks of that region, which is the most densely habited in Canada. On average, the site emitted CO 2 at a rate of 7.7 g m −2 d −1 and consumed H 2 and CO at 0.34 and 5.1 mg m −2 d −1 , respectively. Temperature was the most important factor affecting the H 2 and CO surface to air exchanges. The strength of the soil sink was maximal at the end of the summer, while H 2 and CO emissions were observed at the snow-melting period. In winter, H 2 and CO depositions were attributed to their oxidation by photochemically active compounds within the snow cover. When soil temperature was above 10 °C, trace gas fluxes followed a well-defined diurnal cycle. H 2 and CO 2 deposition rates were positively correlated with H 2 O fluxes, while CO followed the inverse trend. CO 2 diurnal variations resulted from a balance between photosynthesis and soil respiration, while some biotic and abiotic factors were proposed to explain the trend observed for H 2 . In the case of CO, emissions originating from heat- and photo-induced reactions were involved in the attenuation in the strength of the soil sink during daytime. Measured fluxes were compared with the literature to show the relative importance of the rural areas in the studied trace gases budget.

Published

2008

3. Modeling the global atmospheric transport and deposition of mercury to the Great Lakes

Author

Roland R. Draxler, Mark Cohen, Daniel A. Jaffe, Thomas M. Holsen, Mae Sexauer Gustin, Laurier Poissant, Richard S. Artz, R. Tordon, Frits Steenhuisen, Christopher P. Loughner, David Niemi, Alexandra Steffen, Jozef M. Pacyna, Simon Wilson, Xinrong Ren, Hang Lei, Paul Kelley, Winston T. Luke, Seth N. Lyman, Dominique Ratte, Pierrette Blanchard, Young-Ji Han, Martin Pilote, Arctic and Antarctic studies, and University of California Press

Subjects

Atmospheric Science, Environmental Engineering, mercury, 010504 meteorology & atmospheric sciences, chemistry.chemical_element, Atmospheric mercury, 010501 environmental sciences, Oceanography, Atmospheric sciences, 01 natural sciences, Atmospheric Sciences, Ecotoxicology, Mercury contamination, lcsh:Environmental sciences, 0105 earth and related environmental sciences, Hydrology, lcsh:GE1-350, Ecology, atmospheric deposition, Geology, Elemental mercury, Geotechnical Engineering and Engineering Geology, Mercury (element), Deposition (aerosol physics), chemistry, Atmospheric chemistry, Environmental science, source attribution, Mercury deposition

Abstract

Mercury contamination in the Great Lakes continues to have important public health and wildlife ecotoxicology impacts, and atmospheric deposition is a significant ongoing loading pathway. The objective of this study was to estimate the amount and source-attribution for atmospheric mercury deposition to each lake, information needed to prioritize amelioration efforts. A new global, Eulerian version of the HYSPLIT-Hg model was used to simulate the 2005 global atmospheric transport and deposition of mercury to the Great Lakes. In addition to the base case, 10 alternative model configurations were used to examine sensitivity to uncertainties in atmospheric mercury chemistry and surface exchange. A novel atmospheric lifetime analysis was used to characterize fate and transport processes within the model. Model-estimated wet deposition and atmospheric concentrations of gaseous elemental mercury (Hg(0)) were generally within ∼10% of measurements in the Great Lakes region. The model overestimated non-Hg(0) concentrations by a factor of 2–3, similar to other modeling studies. Potential reasons for this disagreement include model inaccuracies, differences in atmospheric Hg fractions being compared, and the measurements being biased low. Lake Erie, downwind of significant local/regional emissions sources, was estimated by the model to be the most impacted by direct anthropogenic emissions (58% of the base case total deposition), while Lake Superior, with the fewest upwind local/regional sources, was the least impacted (27%). The U.S. was the largest national contributor, followed by China, contributing 25% and 6%, respectively, on average, for the Great Lakes. The contribution of U.S. direct anthropogenic emissions to total mercury deposition varied between 46% for the base case (with a range of 24–51% over all model configurations) for Lake Erie and 11% (range 6–13%) for Lake Superior. These results illustrate the importance of atmospheric chemistry, as well as emissions strength, speciation, and proximity, to the amount and source-attribution of mercury deposition.

Published

2016

4. Trend, seasonal and multivariate analysis study of total gaseous mercury data from the Canadian atmospheric mercury measurement network (CAMNet)

Author

S. Beauchamp, B. Wiens, Christian Temme, C. M. Banic, Alexandra Steffen, Pierrette Blanchard, R. Tordon, and Laurier Poissant

Subjects

MERCURE, Atmospheric Science, Multivariate analysis, Meteorology, Air pollution, chemistry.chemical_element, Seasonality, Atmospheric sciences, medicine.disease, medicine.disease_cause, Mercury (element), Trend analysis, chemistry, medicine, Environmental science, Precipitation, Air quality index, General Environmental Science

Abstract

Long-term monitoring data of total gaseous mercury (TGM) concentrations from the Canadian Atmospheric Mercury Measurement Network (CAMNet) were analysed for temporal trends, seasonality and comparability within the network and compared to other network and model results. Data collected from 11 Canadian measurement sites between 1995 and 2005 were analysed. Sites within CAMNet were characterized by principle component analysis (PCA) into four main categories. For the first time since automated TGM measurements have been made within CAMNet, this paper reveals statistically significant decreasing TGM concentrations from rural locations in Canada during this time period. The largest declines were observed close to the urban areas of Toronto and Montreal, where levels fell by 17% at Point Petre, and 13% at St. Anicet, respectively. Many of the TGM changes are comparable with the overall trends observed in total mercury concentrations in precipitation, for similar time periods, at co-located or nearby National Atmospheric Deposition programme's Mercury Deposition Network (NADP-MDN) sites. The results show that these changes are mostly driven by local or regional changes in mercury emissions. Other sites within CAMNet reflect reported changes in hemispherical global background concentrations of airborne mercury, where slight decreases or no statistically significant trend in TGM concentrations exist over the same time period.

Published

2007

5. Spatial and temporal distribution of pesticide air concentrations in Canadian agricultural regions

Author

Ludovic Tuduri, Ed Sverko, Yi-Fan Li, Clair Murphy, Wayne Belzer, Laurier Poissant, Don T. Waite, Fabien Aulagnier, Pierrette Blanchard, Yuan Yao, and Tom Harner

Subjects

Atmospheric Science, Chlorothalonil, Bromoxynil, Pesticide residue, Pesticide application, Environmental engineering, Chlordane, Pesticide, chemistry.chemical_compound, Dieldrin, chemistry, Environmental chemistry, Environmental science, Carbofuran, General Environmental Science

Abstract

The Canadian Pesticide Air Sampling Campaign was initiated in 2003 to assess atmospheric levels of pesticides, especially currently used pesticides (CUPs) in agricultural regions across Canada. In the first campaign during the spring to summer of 2003, over 40 pesticides were detected. The spatial and temporal distribution of pesticides in the Canadian atmosphere was shown to reflect the pesticide usage in each region. Several herbicides including triallate, bromoxynil, MCPA, 2,4-D, dicamba, trifluralin and ethalfluralin were detected at highest levels at Bratt's Lake, SK in the prairie region. Strong relationships between air concentrations and dry depositions were observed at this site. Although no application occurred in the Canadian Prairies in 2003, high air concentrations of lindane (γ-hexachlorocyclohexane) were still observed at Bratt's Lake and Hafford, SK. Two fungicides (chlorothalonil and metalaxyl) and two insecticides (endosulfan and carbofuran) were measured at highest levels at Kensington, PEI. Maximum concentrations of chlorpyrifos and metolachlor were found at St. Anicet, QC. The southern Ontario site, Egbert showed highest concentration of alachlor. Malathion was detected at the highest level at the west coast site, Abbotsford, BC. In case of legacy chlorinated insecticides, high concentrations of DDT, DDE and dieldrin were detected in British Columbia while α-HCH and HCB were found to be fairly uniform across the country. Chlordane was detected in Ontario, Quebec and Prince Edward Island. This study demonstrates that the sources for the observed atmospheric occurrence of pesticides include local current pesticide application, volatilization of pesticide residues from soil and atmospheric transport. In many instances, these data represent the first measurements for certain pesticides in a given part of Canada.

Published

2006

6. A review of currently used pesticides (CUPs) in Canadian air and precipitation. Part 2: Regional information and perspectives

Author

Laurier Poissant, Wayne Belzer, Tom Harner, Yi-Fan Li, Pierrette Blanchard, Ludovic Tuduri, Clair Murphy, and Don T. Waite

Subjects

Atmospheric Science, business.industry, Environmental resource management, Environmental engineering, Air pollution, Pesticide, medicine.disease_cause, Work (electrical), medicine, Environmental science, Precipitation, Emission inventory, business, General Environmental Science

Abstract

This paper, and its companion (that dealt with lindane and endosulfan) review available data on the presence of currently used pesticides (CUPs) in air and precipitation in Canada, since the late 1980s. Pesticides usage/sales are also given when available. Data from local studies/initiatives, region-wide monitoring networks and remote locations are compiled to summarize atmospheric levels of different CUP classes (e.g. acid herbicides, organophosphates, “new” organochlorines, triazines, etc.) and how this varies among regions and with time. Based on this information, and other parameters not specific to Canada, knowledge gaps are identified and ideas for further research work are proposed.

Published

2006

7. A review of currently used pesticides (CUPs) in Canadian air and precipitation: Part 1: Lindane and endosulfans

Author

Pierrette Blanchard, Don T. Waite, Tom Harner, Ludovic Tuduri, Yi-Fan Li, Clair Murphy, Wayne Belzer, and Laurier Poissant

Subjects

Atmospheric Science, Persistent organic pollutant, Environmental engineering, Air pollution, Pesticide, medicine.disease_cause, chemistry.chemical_compound, Deposition (aerosol physics), chemistry, medicine, Environmental science, Physical geography, Precipitation, Emission inventory, Lindane, Endosulfan, General Environmental Science

Abstract

This paper, and its companion, review available data on the presence of currently used pesticides (CUPs) in air and precipitation of Canada, since the late 1980s. Pesticides usage/sales are also given when available. Two older CUPs—lindane, which shows a wealth of data, and endosulfan, one of the most abundant and ubiquitous organochlorine pesticides in the North American atmosphere today—are the focus of this first part. Data from local process studies, monitoring work in source and receptor regions, and modelling efforts are compiled to give an overall picture of the atmospheric levels and deposition and how this varies between regions and with time.

Published

2006

8. Explorative and innovative dynamic flux bag method development and testing for mercury air–vegetation gas exchange fluxes

Author

Hong H. Zhang, Martin Pilote, Xiaohong Xu, and Laurier Poissant

Subjects

Hydrology, Atmospheric Science, Volatilisation, Ozone, biology, chemistry.chemical_element, Flux, Bulrush, biology.organism_classification, Mercury (element), chemistry.chemical_compound, Deposition (aerosol physics), chemistry, Environmental chemistry, Bowen ratio, General Environmental Science, Scirpus fluviatilis

Abstract

An intensive field study quantifying total gaseous mercury (TGM) and mercury speciation fluxes in a wetland ecosystem (Bay St. Franc - ois wetlands, Quebec, Canada) was conducted in summer 2003. This study is one of the first attempts to design and develop an innovative approach—dynamic flux bag (DFB) technique to measure in situ mercury air-vegetation exchange with a monoculture of river bulrush (Scirpus fluviatilis). Air-vegetation flux measurements were conducted under dry condition at site 1 and flood condition at site 2. TGM fluxes fluctuated from � 0.91 to 0.64 ng/m 2 (leaf area)/h with an average value of -0.2670.28 ng/m 2 (leaf area)/h at site 1 and ranged from � 0.98 to 0.08 ng/m 2 (leaf area)/h with a mean flux of � 0.3370.24 ng/m 2 (leaf area)/h at site 2 (positive sign means volatilization, and negative sign indicates deposition). The data indicated that TGM air-vegetation exchange is bidirectional. However, the net flux is primarily featured by dry deposition of TGM from atmosphere to the vegetation. In mercury speciation study using the DFB approach, particulate mercury (PM) and reactive gaseous mercury (RGM) represented less than 1% of total mercury. Ambient ozone concentrations had significant influences on RGM concentrations (r ¼ 0.54, po0.05), implicating oxidation of gaseous elemental mercury (GEM) by ozone to form RGM. A discussion about the similarities and discrepancies between the DFB and other approaches (dynamic flux chamber and modified Bowen ratio) is presented. During the course of this study, some operational effects associated with the bag design, mainly the emergence of condensation within the bag, were encountered. Several improvements relating to the DFB design were recommended. Upon improvement, the DFB method could be one of the most promising techniques to study the role of a single plant in air-vegetation exchange of mercury. r 2005 Elsevier Ltd. All rights reserved.

Published

2005

9. A year of continuous measurements of three atmospheric mercury species (GEM, RGM and Hg) in southern Qu�bec, Canada

Author

Martin Pilote, Hong H. Zhang, Philippe Constant, Laurier Poissant, and Conrad Beauvais

Subjects

MERCURE, Atmospheric Science, Ozone, Air pollution, chemistry.chemical_element, Mineralogy, Seasonality, medicine.disease_cause, medicine.disease, Mercury (element), Aerosol, Troposphere, chemistry.chemical_compound, chemistry, Environmental chemistry, Atmospheric chemistry, medicine, Environmental science, General Environmental Science

Abstract

An intensive field campaign was conducted from 1 January to 31 December 2003 in St. Anicet (Quebec, Canada) using a set of Automatic Atmospheric Mercury Speciation Analyzers (Tekran 2537A with 1130 and 1135 units) for the measurements of gaseous elemental mercury (GEM), reactive gaseous mercury (RGM) and particulate mercury (Hg p ). This study is one of the first attempts to present the most extensive data sets of a year of continuous measurements of atmospheric mercury species. Average concentrations of GEM, RGM and Hg p in 2003 were 1.65±0.42 ng m −3 , 3±11 and 26±54 pg m −3 (mean±SD), respectively. On an average, the atmospheric mercury apportioned as follows: GEM (98.4%)>Hg p (1.4%)>RGM (0.2%). Regional atmospheric mercury sources contributed to the Southern Quebec atmospheric mercury contamination. The results showed large seasonality of GEM, RGM and Hg p (GEM: 0.37–10.4 ng m −3 ; RGM: 0–386 pg m −3 and Hg p : 0–1528 pg m −3 ). As a whole, mercury speciation concentrations are larger in wintertime than in summertime. RGM and Hg p concentrations showed the sharpest seasonal variations. Hourly variations were observed for the mercury species. Maximum RGM and Hg p concentrations were measured normally during mid-day with a Gaussian shape whereas GEM showed a bimodal shape with minimum values early in the morning. The backward trajectory model showed that atmospheric mercury speciation might be transported from local or regional sources. Also, it was observed that atmospheric mercury transformation times converting GEM to Hg p were short (∼4 h). However, atmospheric kinetics involving O 3 and OH radicals do not support such fast oxidation processes with normal concentrations.

Published

2005

10. Mercury gas exchanges over selected bare soil and flooded sites in the bay St. François wetlands (Québec, Canada)

Author

Hong H. Zhang, Martin Pilote, Philippe Constant, Laurier Poissant, Xiaohong Xu, and Conrad Beauvais

Subjects

Hydrology, Atmospheric Science, geography, Volatilisation, geography.geographical_feature_category, chemistry.chemical_element, Fluvial, Wetland, Mercury (element), Flux (metallurgy), Dry weight, chemistry, Water environment, Environmental science, Bay, General Environmental Science

Abstract

In order to evaluate and understand the mercury gas exchange processes in fluvial wetlands, related researches were initiated in a St. Lawrence River wetland (Bay St. Francois, Que., Canada). Mercury fluxes were measured using dynamic flux chamber methods, coupled with an automatic mercury vapor analyzer (namely, Tekran, Model 2537A). Mercury air–surface gas exchanges as well as meteorological conditions were measured during two intensive field campaigns from August to September, 1999 and May, 2000, respectively. The field studies in 1999 were performed under bare soil (unvegetated portions) dry wetland conditions whereas the studies in 2000 were conducted under flooded conditions. Both field measurements were performed at the same location in the aim to study the impact of the water levels on the mercury fluxes. The water-level effect was simply to provide either a dry or a flooded site. Water-level fluctuations in fluvial wetland can result in a conversion between a standing water environment and an environment in which sediments are exposed to air. Mercury flux dynamics and processes would alter accordingly to changing environmental conditions. The average concentration of total Hg in the soil and water were ∼0.06 ng mg−1 (dry weight basis) and ∼1 ng l−1, respectively. The predominant flux of Hg° over both bare soil and water was emission. Median Hg flux under dry conditions was 0.83 ng m−2 h−1 in comparison with 0.50 ng m−2 h−1 under flooded conditions. Correlations between Hg flux, net radiation and temperature (bare soil or water) indicated that the main process involved in air–soil gas exchange under dry conditions is the enthalpy of volatilization; whereas photoreduction predominates under flooded conditions. This paper discusses the Hg flux results under both conditions in the perspective of water-level fluctuations and their impacts on the air–surface exchange of mercury.

Published

2004

11. Occurrence, temperature and seasonal trends of α- and γ-HCH in air (Québec, Canada)

Author

Laurier Poissant and Mourad Garmouma

Subjects

Atmospheric Science, Persistent organic pollutant, chemistry.chemical_compound, Air water interface, Chemistry, Environmental chemistry, Environmental engineering, medicine, Hexachlorocyclohexane, Seasonality, Anthropogenic factor, medicine.disease, General Environmental Science

Abstract

Atmospheric concentrations of α - and γ -hexachlorocyclohexane (HCH) were measured during 1993–1995 along the St. Lawrence River in Quebec, Canada. Average α - and γ -HCH concentrations (pg/m 3 ) were St. Anicet: 93–101; Villeroy: 92–42; Mingan: 96–20, respectively. α -HCH mean concentrations were similar in all sites and appeared to be more influenced by long-range transport than local sources. γ -HCH mean levels in St. Anicet were 2 and 5 times higher than in Villeroy and Mingan, respectively. The time-series of γ -HCH air concentrations at St. Anicet and Villeroy were characterised by highly elevated springtime episodes, which are in agreement with the γ -HCH usage in Quebec as corn seed dressing pesticide. No temporal trend was observed for the α -HCH in air. Clausius–Clapeyron plots (log conc. vs. 1/ T ) showed a stronger correlation between temperature and measured γ -HCH concentrations at St. Anicet and Villeroy than Mingan. On a regional scale, the influence of the local sources of γ -HCH implied a seasonal variability in air concentrations due to its short transport, while at the background site (Mingan), the observed α - and γ -HCH concentrations in air were the result of its long-range transport and/or water/air gas exchanges.

Published

2004

12. Isotopic evidence of trace metal sources and transport in eastern Canada as recorded from wet deposition

Author

Clément Gariépy, Laurier Poissant, Jean Carignan, and Antonio Simonetti

Subjects

Pollution, Atmospheric Science, Meteorology, media_common.quotation_subject, Soil Science, chemistry.chemical_element, Aquatic Science, Oceanography, Atmospheric sciences, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), medicine, Trace metal, Precipitation, Earth-Surface Processes, Water Science and Technology, media_common, Strontium, Radiogenic nuclide, Ecology, Isotope, Paleontology, Forestry, Seasonality, medicine.disease, Geophysics, Deposition (aerosol physics), chemistry, Space and Planetary Science, Geology

Abstract

Abundances of heavy metals and Pb and Sr isotope ratios have been determined in precipitation collected between December 1997 and June 1999 at St. Anicet and L'Assomption, near Montreal, Canada. Median enrichment factors for the heavy metals, relative to upper crustal abundances, are all »10 indicative of an anthropogenic origin. The 206Pb/207Pb values exhibit a large variation at both stations, with values of 1.170–1.190 and 1.130–1.150 recorded during the winter and summer seasons, respectively. The Pb isotope systematics defined by most of the samples from both stations may be explained by mixing of anthropogenic emissions from U.S. and Canadian sources. Comparison of Pb isotope ratios and heavy metal abundances between the same, individual precipitation events from both stations, however, do not systematically yield similar values and may be attributable to significant, local anthropogenic sources. The 87Sr/86Sr values for precipitations also exhibit a seasonal variation at both stations with the least radiogenic values being recorded, in general, during the winter months (

Published

2000

13. Potential sources of atmospheric total gaseous mercury in the St. Lawrence River valley

Author

Laurier Poissant

Subjects

Atmospheric Science, River valley, Gaseous mercury, Meteorology, Air pollution, chemistry.chemical_element, Seasonality, Atmospheric sciences, medicine.disease_cause, medicine.disease, Mercury (element), chemistry, medicine, Environmental science, Spatial variability, Emission inventory, Bay, General Environmental Science

Abstract

The potential source contribution function (PSCF) has been used to study the source–receptor relationships for total gaseous mercury (TGM) found in air collected at two sites along the St. Lawrence River valley, namely at St. Anicet and Mingan. TGM concentrations have been measured with high time-resolution analysers (Tekran instrument). The source–receptor analyses have been applied with regards to the seasonality of TGM. Median TGM concentrations are significantly less (χ2: α=0.01) during the summertime than other periods at both sites. A total of 12 225 trajectory end-points for St. Anicet and 4480 trajectory end points for Mingan have been used to create potential source area maps. This study identifies preferred potential sources of TGM at St. Anicet during wintertime with strongest probability stretching from the Gulf of Mexico to the southern tip of Greenland. This pattern mimics, the North American anthropogenic Hg emission inventory. Furthermore, some Eurasian mercury air mass intrusions are suggested at Mingan during wintertime. The summertime period at Mingan points out some potential sources stretching from the american mid-west to the St. Lawrence River valley as well as areas around the southern tip of the Hudson Bay.

Published

1999

14. Water-air and soil-air exchange rate of total gaseous mercury measured at background sites

Author

Alain Casimir and Laurier Poissant

Subjects

MERCURE, Hydrology, Atmospheric Science, Biogeochemical cycle, Ozone, Air pollution, Flux, chemistry.chemical_element, medicine.disease_cause, Atmospheric sciences, Soil contamination, Mercury (element), chemistry.chemical_compound, chemistry, medicine, Environmental science, Water pollution, General Environmental Science

Abstract

In order to evaluate and understand the processes of water-air and soil-air exchanges involved at background sites, an intensive field measurement campaign has been achieved during the summer of 1995 using high-time resolution techniques (10 min) at two sites (land and water) in southern Quebec (Canada). Mercury flux was measured using a dynamic flux chamber technique coupled with an automatic mercury vapour-phase analyser (namely, Tekran®). The flux chamber shows that the rural grassy site acted primarily as a source of atmospheric mercury, its flux mimicked the solar radiation, with a maximum daytime value of ∼ 8.3 ng m−2 h−1 of TGM. The water surface location (St. Lawrence River site located about 3 km from the land site) shows deposition and evasion fluxes almost in the same order of magnitude (−0.5 vs 1.0 ng m−2 h−1).The latter is influenced to some extent by solar radiation but primarily by the formation of a layer of stable air over the water surface in which some redox reactions might promote evasion processes over the water surface. This process does not appear over the soil surface. As a whole, soil-air exchange rate is about 6–8 fold greater than the water-air exchange.

Published

1998

15. The Southern Ontario Oxidant Study (sontos): Overview and case studies for 1992

Author

Octavio T. Meld, Laurier Poissant, P.B. Roussel, Paul B. Shepson, H. Niki, Neville W. Reid, W. Moroz, John W. Drummond, Gervase I. Mackay, D.R. Hastie, and H. I. Schiff

Subjects

Shore, Atmospheric Science, geography.geographical_feature_category, Meteorology, Air pollution, Windsor, medicine.disease_cause, Metropolitan area, Measurement site, On board, Geography, Period (geology), medicine, Physical geography, Air mass, General Environmental Science

Abstract

The southern Ontario oxidant study (SONTOS) is one of the scientific responses to the problem of ozone exceedences in the Windsor/Quebec City corridor, the strip extending from Windsor in the extreme southwest of Ontario, along the north shores of Lake Erie and Lake Ontario and down the St Lawrence valley. This corridor includes the two major metropolitan areas of Toronto and Montreal and experiences more exceedences of the Canadian ozone guideline per year than any other part of the country. The overall objective of SONTOS is to elucidate the factors which lead to these high levels. The study design is based on intensive measurements made at a site to the NNW of Toronto, with supplementary measurements at other sites and on board an aircraft. This paper, and the seven which follow, describe and interpret the measurements made in the summer of 1992. Although this summer was noteworthy for generally very low ozone concentrations, a number of interesting observations have been made which have a bearing on the oxidant phenomenon in southern Ontario. In particular, this paper describes two specific events. In one, which occurred on 6 August 1992, the intensive measurement site experienced the impact of a polluted air mass, which had apparently travelled to the site from Toronto, by way of Lake Ontario. This case has been contrasted with an event in the last week of August, in which large-scale, organised southwesterly flow led to the conditions which more typically give rise to widespread ozone episodes in the province. Events similar to the 6 August episode occurred on several occasions during the study period, and underline the very important role of the Great Lakes in ozone transport and delivery in southern Ontario.

Published

1996

16. Multivariate analysis of a 1992 SONTOS data subset

Author

P.B. Roussel, Neville W. Reid, H. Niki, Laurier Poissant, and Jan W. Bottenheim

Subjects

Atmospheric Science, Meteorology, Air pollution, Wind direction, medicine.disease_cause, Wind speed, Troposphere, chemistry.chemical_compound, chemistry, Principal component analysis, medicine, Environmental science, Relative humidity, Isoprene, Partial correlation, General Environmental Science

Abstract

Statistical analysis of observations made between 7 and 31 August 1992 at a rural site in Southern Ontario, Canada, is presented using principal component analysis (PCA), as well as rank and partial correlation analyses. Data for ozone, CO, SO 2 , NO, NO y (NO + NO 2 including NO x , PAN and HNO 3 ), ethane, ethylene, propane, acetylene and isoprene are employed, as well as such meteorological information as temperature, relative humidity, wind speed and direction. The analysis involved several scenarios classifying the data according to daytime, nighttime and wind direction. A normal correlation analysis suggests that isoprene might be important in the build-up of ozone in the S-W sector, whereas it is not important in the N-E wind sector. PCA show that the chemical and the meteorological variables interact differently within the different scenarios. Finally, the relationships between ozone and isoprene for both wind sectors are found to be the same when the data are subjected to a partial correlation analysis including the meteorological parameters and it is concluded that the S-W ozone-isoprene relationship might be biased by temperature.

Published

1996

17. Ten-year trends of atmospheric mercury in the high Arctic compared to Canadian sub-Arctic and mid-latitude sites

Author

Martin Pilote, R. Tordon, Amanda Cole, Katrine Aspmo Pfaffhuber, Hayley Hung, Torunn Berg, Alexandra Steffen, and Laurier Poissant

Subjects

Atmospheric Science, chemistry.chemical_element, lcsh:QC1-999, Latitude, Mercury (element), lcsh:Chemistry, Atmosphere, Zeppelinobservatoriet, Deposition (aerosol physics), lcsh:QD1-999, Arctic, chemistry, Middle latitudes, Temperate climate, Physical geography, Mercury cycle, lcsh:Physics, geographic locations

Abstract

Global emissions of mercury continue to change at the same time as the Arctic is experiencing ongoing climatic changes. Continuous monitoring of atmospheric mercury provides important information about long-term trends in the balance between transport, chemistry, and deposition of this pollutant in the Arctic atmosphere. Ten-year records of total gaseous mercury (TGM) from 2000 to 2009 were analyzed from two high Arctic sites at Alert (Nunavut, Canada) and Zeppelin Station (Svalbard, Norway); one sub-Arctic site at Kuujjuarapik (Nunavik, Québec, Canada); and three temperate Canadian sites at St. Anicet (Québec), Kejimkujik (Nova Scotia) and Egbert (Ontario). Five of the six sites examined showed a decreasing trend over this time period. Overall trend estimates at high latitude sites were: −0.9% yr−1 (95% confidence limits: −1.4, 0) at Alert and no trend (−0.5, +0.7) at Zeppelin Station. Faster decreases were observed at the remainder of the sites: −2.1% yr−1 (−3.1, −1.1) at Kuujjuarapik, −1.9% yr−1 (−2.1, −1.8) at St. Anicet, −1.6% yr−1 (−2.4, −1.0) at Kejimkujik and −2.2% yr−1 (−2.8, −1.7) at Egbert. Trends at the sub-Arctic and mid-latitude sites agree with reported decreases in background TGM concentration since 1996 at Mace Head, Ireland, and Cape Point, South Africa, but conflict with estimates showing an increase in global anthropogenic emissions over a similar period. Trends in TGM at the two high Arctic sites were not only less negative (or neutral) overall but much more variable by season. Possible reasons for differences in seasonal and overall trends at the Arctic sites compared to those at lower latitudes are discussed, as well as implications for the Arctic mercury cycle. The first calculations of multi-year trends in reactive gaseous mercury (RGM) and total particulate mercury (TPM) at Alert were also performed, indicating increases from 2002 to 2009 in both RGM and TPM in the spring when concentrations are highest.

Published

2013

18. A practical demonstration of the absolute PCAS bias

Author

Laurier Poissant

Subjects

Atmospheric Science, Analisis factorial, Distribution (mathematics), Operations research, Simple (abstract algebra), Applied mathematics, General Environmental Science, Mathematics

Abstract

This paper gives a practical demonstration that the receptor models based on the absolute PCA techniques, to apportion atmospheric contaminants to sources, might bias results. The demonstration is done with two simple examples. Results show in both cases that the mean of ζ j (APCS jk ∗ ) is in fact closer to the absolute PC 0 ∗ than the source distribution ( S j ). These three terms being not, as previously stated, always equal. In this circumstance, elements concentrated in the sources are not accurately reproduced.

Published

1994

19. Parameterized rainwater quality model in urban environment

Author

Patrick Béron and Laurier Poissant

Subjects

Hydrology, Atmospheric Science, Meteorology, media_common.quotation_subject, Stormwater, Sampling (statistics), Parameterized complexity, Rainout, Rainwater harvesting, Environmental science, Quality (business), Water quality, Intensity (heat transfer), General Environmental Science, media_common

Abstract

A rainwater quality model based on a scavenging coefficient parameterized with rainfall intensity and calibrated on sequential sampling data has been developed. The model can predict ratio to maximum concentration for different species during events at each rainfall amount step. Once calibrated, this model needs as input simple hydrological data, namely instantaneous rainfall intensity and cumulative rainfall depth. These limited and easily available data make it particularly suitable for stormwater control purposes.

Published

1994

20. Trace inorganic elements in rainfall in the Montreal Island

Author

Patrick Béron, Laurier Poissant, and Jean-Pierre Schmit

Subjects

Atmospheric Science, Zirconium, chemistry.chemical_element, Mineralogy, Sorption, Crust, Yttrium, Rubidium, Cerium, chemistry, Environmental chemistry, Environmental science, Earth (chemistry), Scavenging, General Environmental Science

Abstract

Using inductively coupled plasma-mass spectrometry (ICP-MS), 24 inorganic elements were analysed for about 65 station-events during the summer of 1989, at Montreal Island (Canada). Enrichment factors indicate that numerous elements are enriched as compared to the Earth's crust, since only six elements (titanium, iron, rubidium, yttrium, zirconium, and cerium) can be considered natural. A comparison with results from a rural area indicates that most elements are affected by urbanization. For the majority of the elements, scavenging below the cloud (wash-out) seems to be a significant atmosphere cleansing mechanism, although one element, lead, appears to be rather governed by long-range transportation and rain-out (in-cloud scavenging). Correlation between elements indicates that some elements have similar behaviour, which can be partly explained by sorption phenomena or chemical bonding in the same compound.

Published

1994

21. Mercury concentrations and foliage/atmosphere fluxes in a maple forest ecosystem in Québec, Canada

Author

David R. S. Lean, Emmanuel Yumvihoze, Martin Pilote, and Laurier Poissant

Subjects

MERCURE, Atmospheric Science, Meteorology, Soil Science, chemistry.chemical_element, Growing season, Aquatic Science, engineering.material, Oceanography, Flux (metallurgy), Geochemistry and Petrology, Forest ecology, Earth and Planetary Sciences (miscellaneous), Earth-Surface Processes, Water Science and Technology, Maple, Topsoil, Ecology, Paleontology, Forestry, Mercury (element), Geophysics, chemistry, Space and Planetary Science, Environmental chemistry, engineering, Environmental science, Tonne

Abstract

[1] This paper presents mercury (Hg) concentrations and foliage/atmosphere fluxes in a maple forest ecosystem in southern Quebec, Canada. The average total gaseous mercury (TGM) concentration measured at an open field site was significantly (p < 0.001) higher than that measured at an adjacent maple forest site, some 300 m away (1.40 ng m−3 versus 1.03 ng m−3, respectively). Foliage/atmosphere flux of TGM, measured with a dynamic flux bag device, indicated an average deposition flux of 0.39 ± 0.38 ng m−2 h−1 in the maple tree foliage. Although, bi-directional Hg fluxes were observed, the compensation point in the maple forest was low (∼0.6 ng m−3) explaining a net Hg deposition process at TGM background levels. Foliage mercury concentrations increased from 8.7 ± 1.5 ng g−1 to 30.8 ± 3.0 ng g−1 during the leaf-growing season. The average Hg deposition flux was in a similar range to the Hg accumulation rate in the maple tree foliage assuming a foliage productivity rate of 220 g m−2 a−1 (i.e., 0.39 versus 0.55 ng m−2 h−1). Although significant Hg accumulated in foliage, its transport to non-organic surface topsoil was not significant. When the uptake of mercury measured in this experiment was extrapolated to include all of the maple forest in North America (12.5 million ha), it amounted potentially to more than 600 kg of mercury per year. This represents approximately 0.5% of mercury emissions in Canada and the United States (approximately 120 metric tons).

Published

2008

22. Fate of inorganic mercury and methyl mercury within the snow cover in the low arctic tundra on the shore of Hudson Bay (Québec, Canada)

Author

Laurier Poissant, David R. S. Lean, Emmanuel Yumvihoze, Philippe Constant, and Richard Villemur

Subjects

MERCURE, Atmospheric Science, Soil Science, chemistry.chemical_element, Aquatic Science, Oceanography, chemistry.chemical_compound, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Sulfate, Earth-Surface Processes, Water Science and Technology, Total suspended solids, Ecology, Paleontology, Forestry, Snow, Tundra, Mercury (element), Geophysics, chemistry, Space and Planetary Science, Environmental chemistry, Snowmelt, Environmental science, human activities, Bay

Abstract

[1] Snow samples were collected in the seasonal snow cover of the low arctic tundra (Whapmagoostui-Kuujjuarapik, Quebec) during episodic atmospheric mercury depletion events (AMDEs) and in the snowmelt period, long after AMDEs had occurred. Total and methyl mercury analyses were done in order to investigate the critical factors influencing the fate of mercury once deposited in the snowpack. Following AMDEs, snow total mercury (THg) concentrations increased and were inversely proportional to the distance from Hudson Bay. The correlations between MeHg, sulfate (SO42−), and chlorine (Cl−) snow concentrations implicated marine aerosols as a significant source of MeHg, independent of AMDEs. However, the newly deposited MeHg was unstable in the snow cover as 15–56% of the MeHg was demethylated or otherwise “lost” during the nighttime period. In contrast, during the snowmelt period, marine aerosols were not a significant source of MeHg. MeHg snow concentrations higher than 200 pg L−1 were observed when snow's heterotrophic plate counts, total suspended volatile solids, and total suspended solids were higher than 5.0 × 105 CFU L−1, 25 mg L−1, and 90 mg L−1, respectively. During the snowmelt, although the THg snow concentrations remained at 8–9 ng L−1, the proportion of MeHg increased from 2.7 to 7.6%. This is the first report suggestive of the presence of mercury methylation activities within the snow cover of the low arctic tundra.

Published

2007

23. Air-water gas exchange of mercury in the Bay Saint François wetlands: Observation and model parameterization

Author

Marc Amyot, Jerome Laroulandie, Martin Pilote, Laurier Poissant, Conrad Beauvais, Hong H. Zhang, Edenise Garcia, and Xiaohong Xu

Subjects

MERCURE, Earth's energy budget, Atmospheric Science, Daytime, Soil Science, chemistry.chemical_element, Wetland, Aquatic Science, Oceanography, Atmospheric sciences, Flux (metallurgy), Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Earth-Surface Processes, Water Science and Technology, Hydrology, geography, geography.geographical_feature_category, Ecology, Empirical modelling, Paleontology, Forestry, Mercury (element), Geophysics, chemistry, Space and Planetary Science, Environmental science, Bay

Abstract

[1] Total gaseous mercury (TGM) air-water flux measurements were taken using a dynamic flux chamber (DFC) coupled with a gaseous mercury (Hg) analyzer at the Bay St. Francois (BSF) wetlands (Quebec, Canada) in summer 2003. The measured TGM fluxes over water exhibited a consistent diurnal pattern, with maximum emissions during daytime and minimum fluxes occurring at night. Pearson correlation analysis showed that solar radiation was the most influential environmental parameter in TGM air-water exchange. Significant correlations were also found between TGM fluxes and 1 hour time-lagged water temperature, indicating the enhancement of fluxes by bacterial activities or chemical reactions. The concentrations of dissolved gaseous mercury (DGM) in water were measured during the 2003 sampling period and indicated that DGM was always supersaturated, which implied that the water body acted primarily as a source of mercury to the atmosphere. Several empirical models of mercury air-water gas exchange were developed and evaluated. Compared to the published models, these proposed models were capable of producing good results, leading to a better agreement between the measured and modeled fluxes (improvements by 48–98%). Among these empirical models, the ones linking TGM fluxes with net radiation were superior because of their strong predictive capability. Two preferred models were selected for air-water TGM flux estimation from Lake St. Pierre's surrounding wetlands. These two models yield a mean emission of 0.19–0.24 kg mercury during May–September each year from 1999 to 2003.

Published

2006

24. Gaseous mercury emissions from natural sources in Canadian landscapes

Author

Pat E. Rasmussen, R. Tordon, C. M. Banic, Goretty Dias, J. Kemp, Grant C. Edwards, B.J. Van Heyst, S. Beauchamp, W.H. Schroeder, and Laurier Poissant

Subjects

MERCURE, Atmospheric Science, Soil Science, chemistry.chemical_element, Aquatic Science, Oceanography, Flux (metallurgy), Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Earth-Surface Processes, Water Science and Technology, Hydrology, Gaseous mercury, geography, geography.geographical_feature_category, Ecology, Bedrock, Paleontology, Humidity, Forestry, Mercury (element), Geophysics, chemistry, Space and Planetary Science, Environmental chemistry, Soil water, Environmental science, Cycling

Abstract

[1] Field measurements of mercury air-surface exchange from natural settings were made in various Canadian landscapes. Soil and water samples were analyzed for mercury concentrations, and air-surface exchange fluxes from these substrates were determined using dynamic chamber, micrometeorological, or modeling methods. Environmental variables, including air and soil/water temperature, solar radiation, humidity, and wind speed, were monitored concurrently with the air-surface exchange to better understand the processes affecting the environmental cycling of mercury. Average mercury fluxes from aquatic landscapes ranged from 0.0 to 5.0 ng m−2 h−1 with total mercury concentration in water ranging from 0.3 to 6.5 ng L−1. A significant correlation (R2 = 0.47) was found between gaseous Hg fluxes and total Hg concentration in water. Mean gaseous Hg fluxes from forest soils varied from −0.4 to 2.2 ng m−2 h−1, while those from agricultural fields ranged from 1.1 to 2.9 ng m−2 h−1. Non-mineralized bedrock, sand, and till sites yielded fluxes ranging from −0.03 to 5.9 ng m−2 h−1. Mean fluxes from mercuriferous geological substrates at various locations were large compared to non-mercuriferous sites, ranging from 9.1 to 1760 ng m−2 h−1, and represent natural emissions. The corresponding total mercury substrate concentrations ranged from 0.360 to 180 ppm. A significant correlation (R2 = 0.66) was found between Hg fluxes and total Hg concentrations in mineralized and non-mineralized substrates. These gaseous Hg flux measurements represent a significant contribution to understanding natural mercury cycling, but there are still insufficient data and knowledge of processes to properly scale up fluxes from natural sources in Canada.

Published

2005

25. Atmospheric mercury speciation and deposition in the Bay St. François wetlands

Author

Hong Zhang, Xiaohong Xu, Conrad Beauvais, Martin Pilote, and Laurier Poissant

Subjects

MERCURE, Atmospheric Science, Soil Science, Mineralogy, chemistry.chemical_element, Wetland, Aquatic Science, Oceanography, Flux (metallurgy), Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Earth-Surface Processes, Water Science and Technology, geography, geography.geographical_feature_category, Volatilisation, Ecology, Chemistry, Paleontology, Forestry, Mercury (element), Geophysics, Deposition (aerosol physics), Space and Planetary Science, Environmental chemistry, Soil water, Bay

Abstract

[1] Atmospheric mercury speciation and deposition are critical to understanding the fate of mercury in the environment. The importance of atmospheric mercury speciation and deposition was investigated during an intensive field campaign in the Bay St. Francois wetlands in late summer 2002. Measured gaseous elemental mercury (GEM), reactive gaseous mercury (RGM), and particulate mercury (PM: 0.1–2.5 μm) concentrations were 0.85–2.16 ng/m3 (average 1.38 ng/m3), 0–22 pg/m3 (average 3.63 pg/m3), and 0.5–18 pg/m3 (average 6.44 pg/m3), respectively. PM and RGM represented

Published

2004

26. Relations mesurées en milieu rural au sud du Québec (Canada) entre la concentration de la vapeur mercurielle atmosphérique et quelques facteurs environnementaux

Author

Pascale Rancourt, Laurier Poissant, and Bruno Harvey

Subjects

Atmospheric Science, Pollution

Abstract

Le mercure est l'un des metaux les plus toxiques de l'environnement Meme en faible concentration, il peut avoir des effets importants sur les ecosystemes. La methode de mesure utilisee lors de celte etude permet des mesures en continu automatique a une frequence quart horaire (aux 15 minutes) avec une limite de detection de 0,2 ng/m3. Le train analytique de la mesure automatique du mercure est base sur l'amalgame de celui-ci sur une trappe garnie d'or suivie d'une desorption thermique et d'une analyse par fluorescence a froid (γ=253,7 nm). Des mesures effectuees en milieu rural (Saint-Anicet, Quebec, Canada) entre le 13 septembre et 30 novembre 1994, nous indiquent que des episodes de sources locales ou regionales s'ajoutent au bruit de fond estime ici a environ 1,4ng/m3. Des apports locaux et regionaux en provenance des secteurs des vents N-E et S-E s'ajoutent par episode au bruit de fond pour atteindre des pointes de concentrations maximales de 5,50 ng/m3. La grande region de Montreal pourrait enrichir d'environ 20 % les valeurs moyennes seuil de base. Un leger cycle diurne est mesure avec des maxima observes lors de la periode de jour, illustrant une certaine concomitance avec l'activite economique. Une relation entre le logarithme de la concentration de la vapeur mercurielle et la reciproque de la temperature mesuree au sol (Log Hg = A/T + K) est significative pour le secteur des vents S-O (R = - 0,37). Cette observation indiquerait que des phenomenes de volatilisation/condensation ou absorption/desorption du mercure a l'interieur de ce secteur de vent sont possibles entre les surfaces (particules, sol, eau, vegetation, etc.) et l'atmosphere. En contrepartie, la relation pour le secteur N-O est moins evidente laissant presumer que les concentrations mercurielles atmospheriques seraient plutot representatives du bruit de fond atmospherique et moins influence par des phenomenes locaux.

Published

1995

27. Nevada STORMS project: Measurement of mercury emissions from naturally enriched surfaces

Author

C. Montecinos, M. Sexauer Gustin, Pat E. Rasmussen, F. Schaedlich, Alan Vette, Z. Xiao, Ralf Ebinghaus, C. Hubble-Fitzgerald, Grant C. Edwards, Alain Casimir, Ralph R. Turner, J. Owens, Todd L. Leonard, D. Wallschlaeger, William H. Schroeder, Jonas Sommar, H. H. Kock, Martin Pilote, Laurier Poissant, Steve E. Lindberg, M. Majewski, Frank J. Marsik, Jacqueline London, R. J. Kemp, D. Schneeberger, and Hong Zhang

Subjects

MERCURE, Atmospheric Science, Air pollution, Soil Science, chemistry.chemical_element, Aquatic Science, Oceanography, Atmospheric sciences, medicine.disease_cause, Flux (metallurgy), Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), medicine, Earth-Surface Processes, Water Science and Technology, Physicochemical Processes, Hydrology, Ecology, Paleontology, Forestry, Storm, Mercury (element), Ambient air, Geophysics, chemistry, Space and Planetary Science, Soil water, Environmental science

Abstract

Diffuse anthropogenic and naturally mercury-enriched areas represent long- lived sources of elemental mercury to the atmosphere. The Nevada Study and Tests of the Release of Mercury From Soils (STORMS) project focused on the measurement of mercury emissions from anaturally enriched area. During the project, concurrent measurements of mercury fluxes from naturally mercury-enriched substrate were made September 1-4, 1997, using four micrometeorological methods and seven field flux chambers. Ambient air mercury concentrations ranged from 2 to nearly 200 ng m- 3 indicating that the field site is a source of atmospheric mercury. The mean day time mercury fluxes, durin p conditions of no precipitation, measured with field chambers were 50 to 360 ng m -2 h - , and with the micrometeorological methods we re 230 to 600 ng m- 2 h -1. This wide range in mercury emission rates reflects differences in method experimental designs and local source strengths. Mercury fluxes measured by many field chambers were significantly different (p < 0.05) but linearly correlated. This indicates that field chambers responded similarly to environmental conditions, but differences in experimental design and site heterogeneity had a significant influence on the magnitude of mercury fluxes. Data developed during the field study demonstrated that field flux chambers are ideal for assessment of the physicochemical processes driving mercury flux and development of an understanding of the magnitude of the influence of individual factors on flux. In general, mean mercury fluxes measured with micrometeorological methods during day time periods were nearly 3 times higher than me an fluxes measured with field flux chambers. Micrometeorological methods allow for derivation of a representative mercury flux occurring from an unconstrained system and provide an assessment of the actual magnitude and variability of fluxes occurring from an area.

28. Mercury flux measurements in a naturally enriched area: Correlation with environmental conditions during the Nevada Study and Tests of the Release of Mercury from Soils (STORMS)

Author

Martin Pilote, Alain Casimir, and Laurier Poissant

Subjects

MERCURE, Atmospheric Science, Air pollution, Soil Science, chemistry.chemical_element, Aquatic Science, Oceanography, Atmospheric sciences, medicine.disease_cause, Flux (metallurgy), Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), medicine, Water content, Geothermal gradient, Earth-Surface Processes, Water Science and Technology, Hydrology, Ecology, Paleontology, Forestry, Storm, Mercury (element), Geophysics, chemistry, Space and Planetary Science, Soil water, Environmental science

Abstract

An international intercomparison of micrometerological techniques and dynamic flux chamber methods applied to measure mercury fluxes was conducted from September 1 to 4, 1997, during the Nevada Study and Tests of the Release of Mercury From Soils (STORMS) in Reno, Nevada. Nine research groups from four countries met in the Steamboat Springs, Nevada Geothermal Area, to participate in the first international flux intercomparison ever attempted for mercury. The highly heterogeneous soil Hg concentrations and complex landscape within the study area (4 ha) were unfavorable for spatial intercomparison of Hg fluxes between the research groups. However, reliable and correlated Hg fluxes were measured between our micrometerological technique and a dynamic flux chamber method (r2 = 0.29), run side by side (5 m). Hg fluxes and their relationships with environmental factors were complex. After ∼90 days of dry condition, a series of storm events impacted the site and increased the soil moisture from