Abstract
Snow cover forms a natural base for the deposition of atmospheric impurities, which are stored practically constant in the snowpack during the winter season. In this study the deposition of different constituents, including trace metals, was measured. Analyses were carried out with inductively coupled plasma-massspectrometry (ICP-MS). The regional variations in the deposition of different constituents within an urban environment were evaluated. The impacts of local emission sources to the quality of snow were also estimated. The estimates of wintertime deposition are based one 4 month period (1.1.1995-31.3.1996). The vacations in spatial distributions of nitrate nitrogen and sulphate were comparatively small due to large proportional share of long-range transport. However, deposition rates of nitrate nitrogen were 36 % above the median level in the southwest part of the study are a nearby the Salmisaari energy plant and 12 % above the median level nearby the Hanasaari energy plant. The deposition rate of sulphate was 50 % higher in Ruoholahti-Seurasaari and Hermanninranta-Herttoniemi areas compared with the mean level of deposited sulphate. Nitrate deposition in Helsinki was only 70 % higher compared with background level, and accordingly the major part of deposited nitrate comes from distant sources. The local impacts of sulphate deposition
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Citation Formats
Soveri, J, Peltonen, K, and Jaervinen, O.
The wintertime deposition in the Helsinki city area during 1995- 1996: assessment using snow analyses; Laskeuma Helsingin seudulla lumesta maeaeritettynae talvikaudella 1995-1996.
Finland: N. p.,
1998.
Web.
Soveri, J, Peltonen, K, & Jaervinen, O.
The wintertime deposition in the Helsinki city area during 1995- 1996: assessment using snow analyses; Laskeuma Helsingin seudulla lumesta maeaeritettynae talvikaudella 1995-1996.
Finland.
Soveri, J, Peltonen, K, and Jaervinen, O.
1998.
"The wintertime deposition in the Helsinki city area during 1995- 1996: assessment using snow analyses; Laskeuma Helsingin seudulla lumesta maeaeritettynae talvikaudella 1995-1996."
Finland.
@misc{etde_635925,
title = {The wintertime deposition in the Helsinki city area during 1995- 1996: assessment using snow analyses; Laskeuma Helsingin seudulla lumesta maeaeritettynae talvikaudella 1995-1996}
author = {Soveri, J, Peltonen, K, and Jaervinen, O}
abstractNote = {Snow cover forms a natural base for the deposition of atmospheric impurities, which are stored practically constant in the snowpack during the winter season. In this study the deposition of different constituents, including trace metals, was measured. Analyses were carried out with inductively coupled plasma-massspectrometry (ICP-MS). The regional variations in the deposition of different constituents within an urban environment were evaluated. The impacts of local emission sources to the quality of snow were also estimated. The estimates of wintertime deposition are based one 4 month period (1.1.1995-31.3.1996). The vacations in spatial distributions of nitrate nitrogen and sulphate were comparatively small due to large proportional share of long-range transport. However, deposition rates of nitrate nitrogen were 36 % above the median level in the southwest part of the study are a nearby the Salmisaari energy plant and 12 % above the median level nearby the Hanasaari energy plant. The deposition rate of sulphate was 50 % higher in Ruoholahti-Seurasaari and Hermanninranta-Herttoniemi areas compared with the mean level of deposited sulphate. Nitrate deposition in Helsinki was only 70 % higher compared with background level, and accordingly the major part of deposited nitrate comes from distant sources. The local impacts of sulphate deposition were somewhat higher compared with nitrate deposition. According to correlation analysis the pH of the snowpack was principally higher near the roads than the average owing to the alkaline dust raised by motorvehicles. Additionally the depositions of iron, calcium, aluminium, cobalt, molybdenum, zink, copper and chromium correlated with the vicinity of roads. Certain components of steel alloys, such as chromium and molybdenum are probably largely originated from rusted vehicle bodyworks and snowploughs. The most distinct impact of motorvehicles became apparently high cobalt concentrations. In addition of exhaust emissions cobaltic originated from hard alloy anti-skid studs used in snow tires. The use of de-icing salt was the primary cause for 6-fold deposition rates of chloride and sodium in Helsinki study area compared with background levels. The depositions of most trace metals were also clearly higher in Helsinki study area compared with the background observation stations of southern Finland. However, gratifyingly the concentration of lead in urban snow was fairly low compared with the background level owing to the extensive use of unleaded gasoline. (orig.) 46 refs.}
place = {Finland}
year = {1998}
month = {Sep}
}
title = {The wintertime deposition in the Helsinki city area during 1995- 1996: assessment using snow analyses; Laskeuma Helsingin seudulla lumesta maeaeritettynae talvikaudella 1995-1996}
author = {Soveri, J, Peltonen, K, and Jaervinen, O}
abstractNote = {Snow cover forms a natural base for the deposition of atmospheric impurities, which are stored practically constant in the snowpack during the winter season. In this study the deposition of different constituents, including trace metals, was measured. Analyses were carried out with inductively coupled plasma-massspectrometry (ICP-MS). The regional variations in the deposition of different constituents within an urban environment were evaluated. The impacts of local emission sources to the quality of snow were also estimated. The estimates of wintertime deposition are based one 4 month period (1.1.1995-31.3.1996). The vacations in spatial distributions of nitrate nitrogen and sulphate were comparatively small due to large proportional share of long-range transport. However, deposition rates of nitrate nitrogen were 36 % above the median level in the southwest part of the study are a nearby the Salmisaari energy plant and 12 % above the median level nearby the Hanasaari energy plant. The deposition rate of sulphate was 50 % higher in Ruoholahti-Seurasaari and Hermanninranta-Herttoniemi areas compared with the mean level of deposited sulphate. Nitrate deposition in Helsinki was only 70 % higher compared with background level, and accordingly the major part of deposited nitrate comes from distant sources. The local impacts of sulphate deposition were somewhat higher compared with nitrate deposition. According to correlation analysis the pH of the snowpack was principally higher near the roads than the average owing to the alkaline dust raised by motorvehicles. Additionally the depositions of iron, calcium, aluminium, cobalt, molybdenum, zink, copper and chromium correlated with the vicinity of roads. Certain components of steel alloys, such as chromium and molybdenum are probably largely originated from rusted vehicle bodyworks and snowploughs. The most distinct impact of motorvehicles became apparently high cobalt concentrations. In addition of exhaust emissions cobaltic originated from hard alloy anti-skid studs used in snow tires. The use of de-icing salt was the primary cause for 6-fold deposition rates of chloride and sodium in Helsinki study area compared with background levels. The depositions of most trace metals were also clearly higher in Helsinki study area compared with the background observation stations of southern Finland. However, gratifyingly the concentration of lead in urban snow was fairly low compared with the background level owing to the extensive use of unleaded gasoline. (orig.) 46 refs.}
place = {Finland}
year = {1998}
month = {Sep}
}