Gaseous Elemental Mercury Level and Distribution in a Heavily Contaminated Site: the Ex-chlor Alkali Plant in Torviscosa (Northern Italy)

Acquavita, Alessandro; Biasiol, Stefano; Lizzi, Daniel; Mattassi, Giorgio; Pasquon, Mariangela; Skert, Nicola; Marchiol, Luca

doi:10.1007/s11270-016-3234-z

Cited by 12 publications

(8 citation statements)

References 55 publications

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“…As previously mentioned, the pristine environment was chosen for its suitability for comparison with other impacted sites at a considerable distance from Hg-bearing sediments and soils affected by the mining activity of the Idrija Hg mine and from other potential emissions. These sites (BAS and PIR) were previously investigated and showed GEM contents that were on average lower than those found in the other sites (1.02 ± 0.32 and 1.88 ± 1.07 ng m -3 , respectively) [51,52]. It is notable that MON, which is located in an urban area, showed lower values (1.19 ± 0.40 ng m -3 ) considering the hourly average, but the maximum reached up to 17.28 ng m -3 .…”

Section: Gem Level and Distributionmentioning

confidence: 73%

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Spatial and Temporal Trends of Gaseous Elemental Mercury over a Highly Impacted Coastal Environment (Northern Adriatic, Italy)

et al. 2020

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Mercury (Hg) is a global pollutant, being highly persistent in the atmosphere, in particular gaseous elemental mercury (GEM), which can easily be emitted and then transported over long distances. In the Gulf of Trieste (northern Adriatic Sea, Italy), contamination by Hg is well characterised but little is known regarding the concentrations, sources and fate of GEM in the atmosphere. In this work, discrete measurements of GEM were recorded from several sites at different times of the year. The database is consistent with temporal night-day variations monitored using a continuous real-time device. The meteorological conditions were collected as ancillary parameters. GEM levels varied from <LOD (2.0 ng m−3) to 48.5 ng m−3 (mean 2.7 ng m−3), with no significant differences found among sites. A clear daily pattern emerged, with maximum values reached just after sunset. Air temperature, relative humidity, wind speed and direction were identified as the main micrometeorological factors influencing both the spatial and temporal variation of GEM. Our results show that average atmospheric GEM values are higher than the natural background of the Northern Hemisphere and will be useful in future selection regarding the most suitable sites to monitor atmospheric Hg depositions and fluxes from soil and water.

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Section: Gem Level and Distributionmentioning

confidence: 73%

“…Basic statistics of gaseous elemental mercury (GEM) dataset calculated on raw data (not resampled) and grouped by location. (*) Data published by[52] and ( §)[51].…”

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confidence: 99%

Spatial and Temporal Trends of Gaseous Elemental Mercury over a Highly Impacted Coastal Environment (Northern Adriatic, Italy)

et al. 2020

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“…However, in general, atmospheric Hg concentrations are rarely above risk-inducing levels, and the major problem with long-range transport of Hg is its deposition and subsequent introduction to the food chain [1]. Hg in ambient air exists mainly in the form of elemental Hg [10,12,13], but there are more Hg compounds in water with varying solubilities: Hg(II) chloride is readily soluble, Hg(I) chloride and HgS are less soluble, and Hg 0 is insoluble in water [14]. Inorganic Hg is then methylated in water by bacterial species (Pseudomonas) in biota, which leads to the formation of very toxic methylmercury (MeHg) that can enter the food chain of the aquatic ecosystem [14].…”

Section: Introductionmentioning

confidence: 99%

Mercury (Hg) Contaminated Sites in Kazakhstan: Review of Current Cases and Site Remediation Responses

Güney

Akimzhanova

Kumisbek

et al. 2020

IJERPH

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Mercury (Hg) emissions from anthropogenic sources pose a global problem. In Central Asia, Kazakhstan’s central and northern regions are among the most severely Hg-contaminated territories. This is due to two former acetaldehyde (in Temirtau) and chlor-alkali (in Pavlodar) plants, discharges from which during the second half of the 20th century were estimated over 2000 tons of elemental Hg. However, the exact quantities of Hg released through atmospheric emissions to the environment, controlled discharges to the nearby aquatic systems, leakages in the cell plant, and contaminated sludge are still unknown. The present review is the initiation of a comprehensive field investigation study on the current state of these contaminated sites. It aims to provide a critical review of published literature on Hg in soils, sediments, water, and biota of the impacted ecosystems (Nura and Irtysh rivers, and Lake Balkyldak and their surrounding areas). It furthermore compares these contamination episodes with selected similar international cases as well as reviews and recommends demercuration efforts. The findings indicate that the contamination around the acetaldehyde plant site was significant and mainly localized with the majority of Hg deposited in topsoils and riverbanks within 25 km from the discharge point. In the chlor-alkali plant site, Lake Balkyldak in North Kazakhstan is the most seriously contaminated receptor. The local population of both regions might still be exposed to Hg due to fish consumption illegally caught from local rivers and reservoirs. Since the present field data is limited mainly to investigations conducted before 2010 and given the persisting contamination and nature of Hg, a recent up-to-date environmental assessment for both sites is highly needed, particularly around formerly detected hotspots. Due to incomplete site remediation efforts, recommendations given by several researchers for the territories of the former chlor-alkali and acetaldehyde plant site include ex-situ soil washing, soil pulping with gravitational separation, ultrasound and transgenic algae for sediments, and electrokinetic recovery for the former and removal and/or confinement of contaminated silt deposits and soils for the latter. However, their efficiency first needs to be validated. Findings and lessons from these sites will be useful not only on the local scale but also are valuable resources for the assessment and management of similar contaminated sites around the globe.

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“…There are three most critical Hg species in the Atmosphere 2021, 12, 275 2 of 21 troposphere: gaseous elemental mercury (Hg 0 ), reactive gaseous or oxidized mercury, and total particulate mercury [4,5]. Atmospheric Hg emission sources can be natural (water/soil surface evasion, emission from earth's crust, volcanic eruptions, bush and forest fires) or anthropogenic (biomass and coal combustion, metal smelters and incinerators, gold mining, and other industrial processes); however, compared to the pre-industrial levels, anthropogenic activities have increased Hg emissions and cycling in the environment by a factor of three to five [3,6,7].…”

Section: Introductionmentioning

confidence: 99%

“…During the CAP operation process, Hg is extensively used as a catalyst during brine water electrolysis to produce chlorine and sodium hydroxide and is often discharged with wastewater, solid waste, and atmospheric emissions. This type of plant may continuously release Hg to the surrounding environment (water, soil, and air) not only during the production process but also after its operations are seized [7,14,16,19,20]. Numerous studies have assessed the impact of Hg emissions resulting from the use of the Hg-cell technique in operations of CAPs worldwide [7,14,16,19,20]; some of these studies have focused on atmospheric Hg emissions [21][22][23].…”

Section: Introductionmentioning

confidence: 99%

Environmental Partitioning, Spatial Distribution, and Transport of Atmospheric Mercury (Hg) Originating from a Site of Former Chlor-Alkali Plant

et al. 2021

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Gaseous Elemental Mercury Level and Distribution in a Heavily Contaminated Site: the Ex-chlor Alkali Plant in Torviscosa (Northern Italy)

Cited by 12 publications

References 55 publications

Spatial and Temporal Trends of Gaseous Elemental Mercury over a Highly Impacted Coastal Environment (Northern Adriatic, Italy)

Spatial and Temporal Trends of Gaseous Elemental Mercury over a Highly Impacted Coastal Environment (Northern Adriatic, Italy)

Mercury (Hg) Contaminated Sites in Kazakhstan: Review of Current Cases and Site Remediation Responses

Environmental Partitioning, Spatial Distribution, and Transport of Atmospheric Mercury (Hg) Originating from a Site of Former Chlor-Alkali Plant

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