Publikacje w czasopismach

  1. Reizer M. & Orza J. A. G., 2018.  Identification of PM10 air pollution origins at a rural background site. E3S Web of Conferences, 28 (2018) 01031. DOI: 10.1051/e3sconf/20182801031.
  2. Błaszczak B., Juda-Rezler K., Rogula-Kozłowska W., Reizer M., Mathews B., Maciejewska K., Klejnowski K., 2017. Ionic Composition of Fine Particulate Matter from Urban and Regional Background Sites in Poland. Environmental Engineering Science, 34(4), 236-250. DOI: 10.1089/ees.2016.0193.
  3. Błaszczak B., Rogula-Kozłowska W., Mathews B., Juda-Rezler K., Klejnowski K. & Rogula-Kopiec P., 2016. Chemical Compositions of PM2.5 at Two Non-Urban Sites from the Polluted Region in Europe. Aerosol and Air Quality Research, 16 (10), 2333-2348. DOI: 10.4209/aaqr.2015.09.0538.
  4. Viaene P., Belis C.A., Blond N., Bouland C., Juda-Rezler K., Karvosenoja N., Martilli A., Miranda A., Pisoni E. & Volta M., 2016. Air quality integrated assessment modelling in the context of EU policy: A way forward. Environmental Science & Policy, 65, 22-28. DOI: 10.1016/j.envsci.2016.05.024.
  5. Thunis P., Miranda A., Baldasano J.M., Blond N., Douros J., Graff A., Janssen S., Juda-Rezler K., Karvosenoja N., Maffeis G., Martilli A., Rasoloharimahefa M., Real E., Viaene P., Volta M. & White L., 2016. Overview of current regional and local scale air quality modelling practices: Assessment and planning tools in the EU. Environmental Science & Policy, 65, 13-21. DOI: 10.1016/j.envsci.2016.03.013.
  6. Reizer M. & Juda-Rezler K., 2016. Explaining the high PM10 concentrations observed in Polish urban areas. Air Quality, Atmosphere & Health, 9 (5), 517–531. DOI 10.1007/s11869-015-0358-z.
  7. Maciejewska K., Juda-Rezler K., Reizer M. & Klejnowski K., 2015. Modelling of black carbon statistical distribution and return periods of extreme concentrations. Environmental Modelling & Software, 74, 212-226, DOI: 10.1016/j.envsoft.2015.04.016.
  8. Reizer M., Juda-Rezler K. & Maciejewska K., 2014. Source apportionment of episodic PM10 air pollution in Polish urban areas. ProScience 1 (2014) 85-93. W: Conference Proceedings of 1st International Conference on Atmospheric Dust – DUST 2014. DOI:10.14644/dust.2014.014.
  9. Tainio M., Juda-Rezler K., Reizer M., Warchałowski A., Trapp W. & Skotak K., 2013. Future climate and adverse health effects caused by fine particulate matter air pollution: case study for Poland. Regional Environmental Change, Vol. 13 (3), 705-715. DOI:10.1007/s10113-012-0366-6.
  10. Konarski P., Zawada A., Kowalczyk D. & Juda-Rezler K., 2013. Core-shell structure of fly ash particles – SIMS depth profile analysis. Surface and Interface Analysis, Vol. 45 (1), 592-595. DOI:10.1002/sia.5143.
  11. Juda-Rezler K. & Kowalczyk D., 2013. Size distribution and trace elements contents of coal fly ash from pulverized boilers. Polish Journal of Environmental Studies, Vol. 22 (1), 25-40.
  12. Maciejewska K., Juda-Rezler K. & Reizer M., 2013. Simulation of air quality over Central-Eastern Europe – Performance evaluation of WRF-CAMx modelling system. W: European Geosciences Union (EGU) General Assembly Conference Abstracts, Vol. 15, Vienna, 11986.
  13. Juda-Rezler K., Reizer M., Huszar P., Krüger B.C., Zanis P., Syrakov D., Katragkou E., Trapp W., Melas D., Chervenkov H., Tegoulias I. & Halenka T., 2012. Modelling the effects of climate change on air quality over Central and Eastern Europe: concept, evaluation and projections. Climate Research, Vol. 53 (3), 179-203. DOI:10.3354/cr01072.
  14. Juda-Rezler K., Reizer M. & Oudinet J.P., 2011. Determination and analysis of PM10 source apportionment during episodes of air pollution in Central Eastern European urban areas: The case of wintertime 2006. Atmospheric Environment, Vol. 45 (36), 6557-6566. DOI:10.1016/j.atmosenv.2011.08.020.
  15. Huszar P., Juda-Rezler K., Halenka T., Chervenkov H., Syrakov D., Krueger B. C., Zanis P., Melas D., Katragkou E., Reizer M., Trapp W. & Belda M., 2011. Effects of climate change on ozone and particulate matter over Central and Eastern Europe. Climate Research, Vol. 50 (1), 51-68. DOI:10.3354/cr01036.
  16. Juda-Rezler K., Reizer M. & Trapp W., 2011. Analysis of possibile climate change impacts on air pollution by sulfur species over central-eastern Europe. Environmental Protection Engineering, Vol. 37 (2), 109-121.
  17. Uherek E., Halenka T., Balkanski Y., Berntsen T.K., Borken-Kleefeld J., Borrego C., Gauss M., Hoor P., Juda-Rezler K., Lelieveld J., Melas D., Rypdal K. & Schmid S., 2010. Transport Impacts on Atmosphere and Climate: Land Transport. Atmospheric Environment, Vol. 44 (37), 4772–4816. DOI:10.1016/j.atmosenv.2010.01.002.
  18. Juda-Rezler K., 2010. New challenges in air quality and climate modelling. Archives of Environmental Protection, Vol. 36 (1), 3-28.
  19. Juda-Rezler K. & Manczarski P., 2010. Zagrożenia związane z zanieczyszczeniem powietrza atmosferycznego i gospodarką odpadami komunalnymi. Nauka 4/2010, 97-106.
  20. Kundzewicz Z.W. & Juda-Rezler K., 2010. Zagrożenia związane ze zmianami klimatu. Nauka 4/2010, 69-76.
  21. Kwaśniewski J., Kundzewicz Z.W. & Juda-Rezler K., 2010. Aksjologia zagrożeń. Nauka 4/2010, 19-22.
  22. Juda-Rezler K., 2006. Integrated Assessment Modelling of Air Pollution on a Regional Scale. Environmental Protection Engineering, 32 (3), 47-54.
  23. Juda-Rezler K., 2006. Urban Air Pollution and Its Health Effects. Polish Journal of Environmental Studies, 15 (5c), 118-122.
  24. Juda-Rezler K., 2006. Assessing the Winter Time Air Pollution in Cracow (Poland) in Relation with Possible Influences on Human Health and Cultural Heritage. Polish Journal of Environmental Studies, 15 (5c), 123-128.
  25. Juda-Rezler K., 2004. Application of an Integrated Assessment Modelling System in Minimization of the Environmental Risk in Poland. Polish Journal of Environmental Studies, 13, 276-278.
  26. Juda-Rezler K., 2004. Modelling of the air pollution by sulphur species in Poland. Environmental Protection Engineering, 30 (3), 53-70.
  27. Holnicki P., Żochowski A., Abert K. & Juda-Rezler K., 2002. Forecasting of sulphur deposition on a regional scale. Environmental Protection Engineering, 28 (3-4), 95-107.
  28. Holnicki P., Żochowski A. & Warchałowski A., 2001. Regional-scale air pollution dispersion model REGFOR1. Environment Protection Engineering, 27 (3-4), 101-113.
  29. Lowles I., ApSimon H., Juda-Rezler K., Abert K., Brechler J., Holpuch  J. & Grossinho A., 1998. Integrated Assessment Models – tools for developing emission abatement strategies for the Black Triangle Region. Journal of Hazardous Material, 61, 229-237. DOI:10.1016/S0304-3894(98)00127-7.
  30. Jezierska D. & Juda-Rezler K., 1998. Ocena udziału energetyki zawodowej w Polsce w bilansie emisji metali ciężkich. Prace naukowe Politechniki Warszawskiej, Inżynieria Środowiska, Zeszyt 26, 173-187.
  31. Abert K., Budziński K. & Juda-Rezler K., 1994. Regional air pollution models for Poland. Ecological Engineering, 3, 225-244. DOI:10.1016/0925-8574(94)90052-3.
  32. Juda K., 1986. Modelling of the air pollution in the Cracow Area. Atmospheric Environment, 20, 2449-2558. DOI:10.1016/0004-6981(86)90074-0.
  33. Nowicki M., 1985. MONAT-84: experimental study for the needs of air pollution control in Cracow, Poland. Environmental Protection Engineering, 11 (2), 11-16.
  34. Janota-Bzowski J., 1985. Identification of air pollution sources by making use of tracers. Environment Protection Engineering, 11 (2), 27-30.
  35. Dobija J., 1985. Evaluation of effects of sulphur compounds on the soil environment. Environmental Protection Engineering, 11 (2), 31-36.
  36. Nowicki M. & Jaworski W., 1985. A novel nation-wide system for keeping records of emission and immission of air pollutants. Environmental Protection Engineering, 11 (2), 45-50.
  37. Chróściel St. & Markiewicz M.T., 1985. Modeling the Atmospheric Dispersion of the Sulphur Dioxide in Urban Area refereed to the Cracow Agglomeration. Environment Protection Engineering, 11 (2), 65-72.
  38. Juda J., 1968. Planung und Auswertung von Messungen der Verunveinigungen in der Luft, Staub, 28 (5), 186-192.
  39. Juda J. & Medenbach K., 1959. Untersuchung von Finstäuben nach der λ Variationsmethode im Phasenkontrast. Zeitschriftf für Wiessenschaftliche Mikroskopie, 4, 577-594.