Уточнить поиск
Результаты 1-6 из 6
The environmental situation in Baltic countries and their environmental management strategy.
1994
Kairiukstis L.
Can air pollution influence spruce bark beetle populations in the Central European mountains?
2002
Turcani, M. (Forest Research Institute, Banska Stiavnica (Slovak Republic). Forest Station) | Grodzki, W. | Fleischer, P. | Novotny, J.
Bark beetle populations were estimated periodically each year in 50 ha plots using a series of pheromone traps and through the dissection of 0.5 m sections of infested trees. Data were recorded on several parameters including the volume of infested trees, captures in pheromone traps, number of attacks, and the presence and relative abundance of related bark beetle species. In the period 2000-2001 3 transects were established in the High Tatra Mts., where captures in pheromone traps were recorded and compared with air pollution represented by ozone
Показать больше [+] Меньше [-]Ambient particulate matter source apportionment using receptor modelling in European and Central Asia urban areas
2020
Almeida, S.M. | Manousakas, M. | Diapouli, E. | Kertesz, Z. | Samek, L. | Hristova, E. | Šega, K. | Alvarez, R Padilla | Belis, C.A. | Eleftheriadis, K.
This work presents the results of a PM2.5 source apportionment study conducted in urban background sites from 16 European and Asian countries. For some Eastern Europe and Central Asia cities this was the first time that quantitative information on pollution source contributions to ambient particulate matter (PM) has been performed. More than 2200 filters were sampled and analyzed by X-Ray Fluorescence (XRF), Particle-Induced X-Ray Emission (PIXE), and Inductively Coupled Plasma Mass Spectrometry (ICP-MS) to measure the concentrations of chemical elements in fine particles. Samples were also analyzed for the contents of black carbon, elemental carbon, organic carbon, and water-soluble ions. The Positive Matrix Factorization receptor model (EPA PMF 5.0) was used to characterize similarities and heterogeneities in PM2.5 sources and respective contributions in the cities that the number of collected samples exceeded 75. At the end source apportionment was performed in 11 out of the 16 participating cities. Nine major sources were identified to have contributed to PM2.5: biomass burning, secondary sulfates, traffic, fuel oil combustion, industry, coal combustion, soil, salt and “other sources”. From the averages of sources contributions, considering 11 cities 16% of PM2.5 was attributed to biomass burning, 15% to secondary sulfates, 13% to traffic, 12% to soil, 8.0% to fuel oil combustion, 5.5% to coal combustion, 1.9% to salt, 0.8% to industry emissions, 5.1% to “other sources” and 23% to unaccounted mass. Characteristic seasonal patterns were identified for each PM2.5 source. Biomass burning in all cities, coal combustion in Krakow/POL, and oil combustion in Belgrade/SRB and Banja Luka/BIH increased in Winter due to the impact of domestic heating, whereas in most cities secondary sulfates reached higher levels in Summer as a consequence of the enhanced photochemical activity. During high pollution days the largest sources of fine particles were biomass burning, traffic and secondary sulfates.
Показать больше [+] Меньше [-]Biomass burning in eastern Europe during spring 2006 caused high deposition of ammonium in northern Fennoscandia
2013
Karlsson, Per Erik | Ferm, Martin | Tømmervik, Hans | Hole, Lars R. | Pihl Karlsson, Gunilla | Ruoho-Airola, Tuija | Aas, Wenche | Hellsten, Sofie | Akselsson, Cecilia | Mikkelsen, Teis Nørgaard | Nihlgård, Bengt
High air concentrations of ammonium were detected at low and high altitude sites in Sweden, Finland and Norway during the spring 2006, coinciding with polluted air from biomass burning in eastern Europe passing over central and northern Fennoscandia. Unusually high values for throughfall deposition of ammonium were detected at one low altitude site and several high altitude sites in north Sweden. The occurrence of the high ammonium in throughfall differed between the summer months 2006, most likely related to the timing of precipitation events. The ammonia dry deposition may have contributed to unusual visible injuries on the tree vegetation in northern Fennoscandia that occurred during 2006, in combination with high ozone concentrations. It is concluded that long-range transport of ammonium from large-scale biomass burning may contribute substantially to the nitrogen load at northern latitudes.
Показать больше [+] Меньше [-]Environmental regulations of agriculture in the Baltic Sea catchment areas, with reference to the European Union and the North Sea
1994
Bonde, T.A. (Royal Veterinary and Agricultural University, Department of Ecology and Molecular Biology, Microbiology Section, DK-1958 Frederiksberg C., Copenhagen (Denmark))
Soil field data and critical loads near a large point SO2 source in Northernmost Europe
1999
Koptsik, S. | Koptsik, G. (Moscow Univ. (Russia))