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Contact: Pia Anttila
pia.anttila@fmi.fi
359-919-295-410
Finnish Meteorological Institute
Climate change may still increase the pollution load
Trends in the concentrations of nearly sixty atmospheric pollutants have been studied using the data collected in Finland at the Pallas-Sodankyl Observatory from 1996 to 2009. Concentrations of pollutants in Lapland are very low, typically about one tenth of the background concentrations in Southern Finland. Many of the concentrations studied remained unchanged over the long term and nearly half showed a decreasing trend.
Lower concentrations were measured for many pollutants hazardous to ecosystems and humans, such as sulphur dioxide, heavy metals and some polyaromatic hydrocarbons transported from the Kola Peninsula. Long-range transports of sulphates and stable organic compounds have also been decreasing in Pallas. With respect to pollutants from transport (nitrogen compounds, volatile hydrocarbons and ozone), however, the situation remained more or less unchanged.
Climate change affects the dispersion of pollutants
Using results from nine climate models, the project assessed how the transport of pollutants might evolve in the future. It is predicted that, with global warming, southwestern and western winds will become more common, while eastern winds will become rarer. In consequence, concentrations of pollutants carried by southwestern air currents will rise in Lapland. This group includes, for instance, nitrogen dioxide from transport. On the other hand, less pollution, such as sulphur dioxide and black carbon, will reach Lapland from the east. However, according to forecasts obtained with climate models, the changes in wind directions are so slight that the resulting changes in concentrations will be at most a couple of per cent by the year 2100.
Indirect impacts the most important
In consequence of climate change, the pollution loads in northern regions may increase because of growing emissions. By 2050, the Arctic Ocean may be totally free of ice in summer. Should this be the case, increasing ship traffic may cause pollution levels in Lapland to rise as well. The global efforts currently in progress to limit sulphur emissions from marine transport will probably prevent sulphur emissions from rising, but in the worst of cases the concentrations of nitrogen oxides and particles may double from the present level.
Research findings will be presented to the authorities at a seminar to be held in Muonio on 21 and 22 September. The study is a part of the project "Vulnerability Assessment of Ecosystem Services for Climate Change Impacts and Adaptation (VACCIA)" coordinated by the Finnish Environment Institute.
###
Additional information:
Air quality trends:
Pia Anttila, Research Scientist, Finnish Meteorological Institute, tel. (09) 1929 5410, pia.anttila@fmi.fi
Hannele Hakola, Head of Group, Finnish Meteorological Institute, tel. (09) 1929 5512, hannele.hakola@fmi.fi
Climate change:
Kimmo Ruosteenoja, Research Scientist, Finnish Meteorological Institute, tel. (09) 1929 4128, kimmo.ruosteenoja@fmi.fi
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AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
[ | E-mail | Share ]
Contact: Pia Anttila
pia.anttila@fmi.fi
359-919-295-410
Finnish Meteorological Institute
Climate change may still increase the pollution load
Trends in the concentrations of nearly sixty atmospheric pollutants have been studied using the data collected in Finland at the Pallas-Sodankyl Observatory from 1996 to 2009. Concentrations of pollutants in Lapland are very low, typically about one tenth of the background concentrations in Southern Finland. Many of the concentrations studied remained unchanged over the long term and nearly half showed a decreasing trend.
Lower concentrations were measured for many pollutants hazardous to ecosystems and humans, such as sulphur dioxide, heavy metals and some polyaromatic hydrocarbons transported from the Kola Peninsula. Long-range transports of sulphates and stable organic compounds have also been decreasing in Pallas. With respect to pollutants from transport (nitrogen compounds, volatile hydrocarbons and ozone), however, the situation remained more or less unchanged.
Climate change affects the dispersion of pollutants
Using results from nine climate models, the project assessed how the transport of pollutants might evolve in the future. It is predicted that, with global warming, southwestern and western winds will become more common, while eastern winds will become rarer. In consequence, concentrations of pollutants carried by southwestern air currents will rise in Lapland. This group includes, for instance, nitrogen dioxide from transport. On the other hand, less pollution, such as sulphur dioxide and black carbon, will reach Lapland from the east. However, according to forecasts obtained with climate models, the changes in wind directions are so slight that the resulting changes in concentrations will be at most a couple of per cent by the year 2100.
Indirect impacts the most important
In consequence of climate change, the pollution loads in northern regions may increase because of growing emissions. By 2050, the Arctic Ocean may be totally free of ice in summer. Should this be the case, increasing ship traffic may cause pollution levels in Lapland to rise as well. The global efforts currently in progress to limit sulphur emissions from marine transport will probably prevent sulphur emissions from rising, but in the worst of cases the concentrations of nitrogen oxides and particles may double from the present level.
Research findings will be presented to the authorities at a seminar to be held in Muonio on 21 and 22 September. The study is a part of the project "Vulnerability Assessment of Ecosystem Services for Climate Change Impacts and Adaptation (VACCIA)" coordinated by the Finnish Environment Institute.
###
Additional information:
Air quality trends:
Pia Anttila, Research Scientist, Finnish Meteorological Institute, tel. (09) 1929 5410, pia.anttila@fmi.fi
Hannele Hakola, Head of Group, Finnish Meteorological Institute, tel. (09) 1929 5512, hannele.hakola@fmi.fi
Climate change:
Kimmo Ruosteenoja, Research Scientist, Finnish Meteorological Institute, tel. (09) 1929 4128, kimmo.ruosteenoja@fmi.fi
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Source: http://www.eurekalert.org/pub_releases/2011-09/fmi-aqh092111.php
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