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References [1] Sgro, L. A., et al., Investigating the origin of nuclei particles in GDI engine exhaust, Combustion and Flame, 159(4): p. 1687-1692, 2012. [2] Burtscher, H., Physical characterization of particulate emissions from diesel engines , a review. Journal of Aerosol Science, 36(7): p. 896-932, 2005. [3] Ulrich, A., Wichser, A., Analysis of additive metals in fuel and emission aerosols of diesel vehicles with and without particle traps , Analytical and Bioanalytical Chemistry, 377(1): pp. 71-81, 2003. [4] Hu, S., et al., Metals emitted from heavy

J., Remmert S., Campbell R., Cracknell R.: Particulate emissions from a highly boosted GDI engine. Int. J. Engine Res. 2017. 8. Liang B., Ge Y., Tan J., Han X., Gao L., Hao L., Ye W., Dai P.: Comparison of PM emissions from a gasoline direct injected (GDI) vehicle and a port fuel injected (PFI) vehicle measured by electrical low pressure impactor (ELPI) with two fuels: Gasoline and M15 methanol gasoline. J. Aerosol. Sci., 57, 2013. 9. Merkisz J., Fuc P., Lijewski P. et al.: The analysis of exhaust gas thermal energy recovery through a TEG generator in city traffic


The aim of this work was to investigate the diversity of diatom assemblages developed in the Przyrwa stream, to assess water quality based on benthic diatoms and to make an attempt at the identification of physicochemical factors having the greatest impact on the differentiation of diatom assemblages. Studies were conducted in 2011-2012 on the Przyrwa stream, a left-side tributary of the Wisłok River flowing through the city of Rzeszów and with its spring section located on the borders of the city. A total of 259 diatom taxa were identified in the Przyrwa stream during three studied seasons. At all investigated sites, the most abundant population consisted of Ulnaria ulna (Nitzsch) Compère, Cocconeis pediculus Ehrenb., Achnanthidium minutissimum (Kütz.) Czarnecki var. minutissimum, Navicula gregaria Donkin, Planothidium frequentissimum (Lange-Bert.) Lange-Bert., P. lanceolatum (Brébisson) Lange-Bert., Navicula lanceolata (C. Agardh) Ehrenb., Amphora pediculus (Kütz.) Grunow, Eolimna minima, (Grunow) Lange-Bert., Melosira varians C. Agardh and Cyclotella meneghiniana Kütz. Based on IPS (Specific Pollution Sensitivity Index) and GDI (Generic Diatom Index) indices, the ecological status of the Przyrwa stream was assessed as moderate to poor (mostly III-IV class of water quality), while the TDI (Trophic Diatom Index) index indicated a poor to bad ecological status (mainly IV-V class of water quality).

REFERENCES 1. Achleitner E., Bcker H., Funaioli A. (2007), Direct injection systems for otto engines., SAE Technical Paper, 2007-01-1416. 2. Berndorfer A., Breuer S., Piock W., Bacho P. (2013), Diffusion Combustion Phenomena in GDi Engines caused by Injection Process, SAE Technical Paper, 2013-01-0261. 3. Bosch R. (2014), Automotive Electrics and Automotive Electronics , Springer Vieweg , 5th Edition, Springer , Germany, 4. Boudy F., Seers P. (2009), Impact of physical properties of bio-diesel on the injection process in a common-rail direct

Maritime Studies Split, 465-469. [5], 26. 04. 2014. [6] GeoSeaPortal, 26. 04. 2014. [7] Giff G., van Loenen, B., Crompvoets, J., Zevenbergen, J. (2008): Geoportals in Selected European States: A Non-Technical Comparative Analysis, GSDI 10, Feb 2008, Trininad. [8] He, X., Persson, H., & Östman, A. (2012): Geoportal usability evaluation. Int. J. Spat. Data Infrastruct. Res, 7, 88-106. [9] Heaps, W. (2011): Marine Spatial Data Infrastructure as Backbone for Coastal Mapping, Hydro International

ganatlebis sakitxebze , “Publicistic Letters”, Vol. 4, Tbilisi 2012. Chavchavadze I., Isev ganatlebis sakitxebze , “Publicistic Letters”, Vol. 4, Tbilisi 2012. Chavchavadze I., Eri da istoria, osmalos saqartvelo , “Publicistic Letters”, Vol. 4, Tbilisi 2012. Chavchavadze I., Poliakebis gandevna prusiidan , “Iveria” 1886, No. 14. Chavchavadze I., Irlandia da inglisi , [access on: 20.12.2017]. Ckhaidze I., The Moderist Theory of Nationalism and The Georgian National Project , Tbilisi 2009. Davitashvili Z., Nationalism and

, Šárka (2018): The Visegrad Four as an ambitious actor of (Central-) European foreign and security policy. Politics in Central Europe 13 (2): 9–20, doi: 10.2478/pce-2018-0014. Castillejo, Clare (2016): The European Union Trust Fund for Africa: A glimpse of the future for EU development cooperation (Discussion Paper 22/2016). Bonn: German Development Institute / Deutsches Institut für Entwicklungspolitik (DIE): available at . (7 January 2019). Checkel, Jeffrey T. (2001): Why Comply? Social Learning and

sustainable lifestyle: Daily practices, contextual motivations and subjective values. Journal of Consumer Behaviour , 9 (6), 437-453. Botsman, R., Rogers, R. (2010). What’s mine is yours. The rise of collaborative consumption . New York, NY: Harper Business. Butcher, J. (2003). The moralization of tourism: Sun, sand… and saving the world? London: Routledge. Dubois, E., Schor, J., Carfagna, L. (2014, Spring). Connected consumption: A sharing economy takes hold. Rotman Management , 50-55. Frick, K., Hauser, M., Gürtler, D. (2013). Sharity: Die Zukunft des Teilens, GDI

- Metadata. ISO, Switzerland, 2003 ISO (2007). ISO/TS 19139:2007 - Geographic information - Metadata - XML schema implementation, ISO, Switzerland, 2007 Kanisová H., Muller M. (2004) - UML srozumitelně. Computer Press, Brno, 2004. ISBN 80-251-0231-9 (in Czech). Kliment T. (2010a). Discovery service testing according to INSPIRE implementing rules -. Abstract in proceedings of GI2010 - X - Border SDI/GDI - Symposium, Dresden, Germany, 2010. ISSN 1801-6480 Kliment T. (2010b). Design and pilot realization of the testing process for the INSPIRE discovery service. ENVIRO

„Interoperabilität und offene GIS-Welten“ gibt einen Überblick zu diesem sich rasant entwickelnden komplexen Themenfeld. Neben Modellsprachen und weltweiter Normungsaktivität werden hier auch die europäischen INSPIRE-Bemühungen zum Aufbau einer Geodateninfrastruktur, Bundes-, Landes-, regionale und lokale GDI-Aktivität (Geodateninfrastruktur) und im Kapitel „Digital Earth“ auch Copernicus, Geosensornetzwerke, 3D-Stadt-, Bauwerks- und Landschaftsmodelle behandelt. Die Raumplanung profitiert von diesen Entwicklungen enorm, denn neue Daten werden europaweit weitestgehend harmonisiert