Acceso abierto

Associations between weather conditions and ragweed pollen variations in Szeged, Hungary


1. Cohen AJ, Anderson HR, Ostro B, Pandey KD, Krzyzanowski M, Kunzli N, Gutschmidt K, Pope A, Romieu I, Samet JM, Smith K. The global burden of disease due to outdoor air pollution. J Toxicol Environ Health A 2005;68:1301-7.10.1080/15287390590936166Search in Google Scholar

2. D’Amato G. Environmental urban factors (air pollution and allergens) and the rising trends in allergic respiratory diseases. Allergy 2002;57(Suppl 72):30-3.10.1034/j.1398-9995.57.s72.5.xSearch in Google Scholar

3. Peterson B, Saxon A. Global increases in allergic respiratory disease: The possible role of diesel exhaust particles. Ann Allerg Asthma Immunol 1996;77:263-70.10.1016/S1081-1206(10)63318-2Search in Google Scholar

4. D’Amato G, Cecchi L, Bonini S, Nunes C, Annesi-Maesano I, Behrendt H, Liccardi G, Popov T, van Cauwenberge P. Allergenic pollen and pollen allergy in Europe. Allergy 2007;62:976-90.10.1111/j.1398-9995.2007.01393.x17521313Search in Google Scholar

5. Agren C. Particles killing half a million. Acid News. AirClim [displayed 5 July 2012]. Available at in Google Scholar

6. Štefanić E, Kovačević V, Lazanin Ž. Airborne ragweed pollen concentration in north-eastern Croatia and its relationship with meteorological parameters. Ann Agric Environ Med 2005;12:75-9.Search in Google Scholar

7. Peternel R, Čulig J, Hrga I, Hercog P. Airborne ragweed ( 2002-2004. Aerobiologia 2006;22:161-8.10.1007/s10453-006-9028-9Search in Google Scholar

8. Ianovici N, Sirbu C. Analysis of airborne ragweed (Ambrosiaartemisiifolia Universităţii din Oradea, Fascicula Biologie 2007;14:101-8.Search in Google Scholar

9. Chrenova J, Mičieta K, Ščevkova J. Monitoring of Ambrosia pollen concentration in the atmosphere of Bratislava (Slovakia) during years 2002-2007. Aerobiologia 2010;26:83-8.10.1007/s10453-009-9145-3Search in Google Scholar

10. Šikoparija B, Smith M, Skjoth CA, Radišić P, Milkovska S, Šimić S, Brandt J. The Pannonian plain as a source of Ambrosia 2009;53:263-272.Search in Google Scholar

11. Jarai-Komlodi M, Juhasz M. Ambrosia elatior (L.) in Hungary (1989-1990). Aerobiologia 1993;9:75-8.10.1007/BF02311373Search in Google Scholar

12. Makra L, Juhasz M, Borsos E, Beczi R. Meteorological variables connected with airborne ragweed pollen in Southern Hungary. Int J Biometeorol 2004;49:37-47.10.1007/s00484-004-0208-415103548Search in Google Scholar

13. Juhasz M, Juhasz IE. A hazai gyomnovenyek aeropollinologiai jelentősege [Aeropollinological importance of domestic weeds, in Hungarian]. Kornyezeti artalmak es a legzőrendszer 2002;12:149-60.Search in Google Scholar

14. Makra L, Juhasz M, Beczi R, Borsos E. The history and impacts of airborne Hungary. Grana 2005;44:57-64.10.1080/00173130510010558Search in Google Scholar

15. Kadocsa E, Juhasz M. A szenanathas betegek allergenspektrumanak valtozasa a Del-Alfoldon (1990-1998) [Change of allergen spectrum of hay-fever patients in Southern Great Plain (1990-1998), in Hungarian]. Orvosi Hetilap 2000;141:12617-20.Search in Google Scholar

16. Kazinczi G, Beres I, Pathy Zs, Novak R. Common ragweed (Ambrosia artemisiifolia to the results in Hungary. II. Importance and harmful effect, allergy, habitat, allelopathy and benefi cial characteristics. Herbologia 2008;9:56-93.Search in Google Scholar

17. Paldy A, Bobvos J, Magyar D, Nekam K, Bitay Zs, Csajbok V, Kelemen A. Parlagfűallergia. A parlagfű pollinozis - a poliszenzitizaltsag kezdete? [Ragweed allergy. Ragweed pollinosis - beginning of pollen sensitization? in Hungarian]. Egeszsegtudomany 2010;54:47-55.Search in Google Scholar

18. Strausz J, Boszormenyi Nagy Gy, Csekeő A, Csoma Zs, Herjavecz I, Kovacs G, Nyari L, Ostoros Gy, Zsarnoczai I. [A pulmonologiai intezmenyek 2009 evi epidemiologiai es műkodesi adatai, in Hungarian]. Koranyi Bulletin 2010;2:2-25.Search in Google Scholar

19. Harsanyi E. [Parlagfu es allergia, in Hungarian]. Novenyvedelem 2009;45:454-8.Search in Google Scholar

20. Stepalska D, Myszkowska D, Wolek J, Piotrowicz K, Obtulowicz K. The infl uence of meteorological factors on Ambrosia 2008;47:297-304.Search in Google Scholar

21. Bartkova-Scevkova J. The infl uence of temperature, relative humidity and rainfall on the occurrence of pollen allergens ( of Bratislava (Slovakia). Int J Biometeorol 2003;48:1-5.10.1007/s00484-003-0166-212690548Search in Google Scholar

22. Puc M. Ragweed and mugwort pollen in Szczecin, Poland. Aerobiologia 2006;22:67-78.10.1007/s10453-005-9010-ySearch in Google Scholar

23. Kasprzyk I. Non-native Ambrosia pollen in the atmosphere of Rzeszow (SE Poland); evaluation of the effect of weather conditions on daily concentrations and starting dates of the pollen season. Int J Biometeorol 2008;52:341-51.10.1007/s00484-007-0129-018046583Search in Google Scholar

24. Peternel R, Čulig J, Srnec L, Mitić B, Vukušić I, Hrga I. Variation in ragweed ( concentration in central Croatia, 2002-2003. Ann Agric Environ Med 2005;12:11-6.Search in Google Scholar

25. Ziska LH, Gebhard DE, Frenz DA, Faulkner S, Singer BD, Straka JG. Cities as harbingers of climate change: Common ragweed, urbanization, and public health. J Allergy Clin Immunol 2003;111:290-5.10.1067/mai.2003.5312589347Search in Google Scholar

26. Matyasovszky I, Makra L, Guba Z, Patkai Zs, Paldy A, Sumeghy Z. Estimating the daily Poaceae pollen concentration in Hungary by linear regression conditioning on weather types. Grana 2011;50:208-16.10.1080/00173134.2011.602984Search in Google Scholar

27. Makra L, Juhasz M, Mika J, Bartzokas A, Beczi R, Sumeghy Z. An objective classifi cation system of air mass types for Szeged, Hungary with special attention to plant pollen levels. Int J Biometeorol 2006;50:403-21.10.1007/s00484-006-0026-y16575583Search in Google Scholar

28. Hart MA, de Dear R, Beggs PJ. A synoptic climatology of pollen concentrations during the six warmest months in Sydney, Australia. Int J Biometeorol 2007;51:209-20.10.1007/s00484-006-0053-817024397Search in Google Scholar

29. Makra L, Tombacz Sz, Balint B, Sumeghy Z, Santa T, Hirsch T. Infl uences of meteorological parameters and biological and chemical air pollutants to the incidence of asthma and rhinitis. Climate Res 2008;37:99-119.10.3354/cr00752Search in Google Scholar

30. Tonello MS, Prieto AR. Modern vegetation-pollen-climate relationships for the Pampa grasslands of Argentina. J Biogeogr 2008;5:926-38.Search in Google Scholar

31. Koppen W. [Grundriss Der Klimakunde, in German]. Berlin: Walter De Gruyter & Co; 1931.Search in Google Scholar

32. Hirst JM. An automatic volumetric spore trap. Ann Appl Biol 1952;39:257-65.10.1111/j.1744-7348.1952.tb00904.xSearch in Google Scholar

33. Galan C, Cariňanos P, Garcia-Mozo H, Alcazar P, Dominguez- Vilches E. Model for forecasting pollen in South-West Andalusia, Spain. Int J Biometeorol 2001;45:59-63.10.1007/s00484010008911513048Search in Google Scholar

34. Jolliffe IT. Principal component analysis: A beginner’s guide - II. Pitfalls, myths and extensions. Weather 1993;48:246-53.10.1002/j.1477-8696.1993.tb05899.xSearch in Google Scholar

35. Liu PWG. Simulation of the daily average PM10 concentrations at Ta-Liao with Box-Jenkins time series models and multivariate analysis. Atmos Environ 2009;43:2104-13.10.1016/j.atmosenv.2009.01.055Search in Google Scholar

36. Jahn W, Vahle H. [Die Faktoranalyse und ihre Anwendung, in German]. Berlin: Verlag die Wirtschaft; 1968.Search in Google Scholar

37. Dechamp C, Penel V. Bilan des comptes polliniques de l’annee 2001, du reseau Surveillance Ambroisie Rhone-Alpes (SARA) [Results of pollen counts for 2001 from the Rhone- Alpes ragweed pollen-monitoring network (SARA), in Franch]. Rev Fr Allergol Clin Immunol 2002;42:539-42.Search in Google Scholar

38. Hernandez-Ceballos MA, Garcia-Mozo H, Adame JA, Dominguez-Vilches E, De la Morena, BA, Bolivar JP, Galan C. Synoptic and meteorological characterisation of olive pollen transport in Cordoba province (south-western Spain). Int J Biometeorol 2011;55:17-34.10.1007/s00484-010-0306-4Search in Google Scholar

39. Deak JA. Habitat-pattern and landscape ecological evaluation of the micro-regions of Csongrad county. [PhD thesis]. Szeged: University of Szeged, Faculty of Nature Science and Informatics; 2010.Search in Google Scholar

40. Bianchi DE, Schwemmin DJ, Wagner Jr WH. Pollen release in the common ragweed ( 1959;120:235-43.Search in Google Scholar

41. Fornaciari M, Bricchi E, Greco F, Fascini D, Giannoni C, Frenguelli G, Romano B. Daily variations of pollen count and infl uence of meteoclimatic parameters in East Perugia during 1989. Aerobiologia 1992;8:407-13.10.1007/BF02272907Search in Google Scholar

42. Galan C, Alcazar P, Cariňanos P, Garcia H, Dominguez- Vilches E. Meteorological factors affecting daily pollen counts in southwest Spain. Int J Biometeorol 2000;43:191-5.10.1007/s004840050008Search in Google Scholar

43. Barnes C, Pacheco F, Landuyt J, Hu F, Portnoy J. Hourly variation of airborne ragweed pollen in Kansas City. Ann Allergy Asthma Immunol 2001;86:166-71.10.1016/S1081-1206(10)62686-5Search in Google Scholar

44. Kozlowski TT, Pallardy SG. Acclimation and adaptive responses of woody plants to environmental stresses. Bot Rev 2002;68:270-334.10.1663/0006-8101(2002)068[0270:AAAROW]2.0.CO;2Search in Google Scholar

45. Gioulekas D, Balafoutis C, Damialis A, Papakosta D, Gioulekas G, Patakas D. Fifteen years’ record of airborne allergenic pollen and meteorological parameters in Thessaloniki, Greece. Int J Biometeorol 2004;48:128-36.10.1007/s00484-003-0190-2Search in Google Scholar

46. Makra L, Santa T, Matyasovszky I, Damialis A, Karatzas K, Bergmann KC, Vokou D. Airborne pollen in three European cities: Detection of atmospheric circulation pathways by applying three-dimensional clustering of backward trajectories. J Geophys Res 2010;115:D24220. doi:10.1029/ 2010JD01474310.1029/2010JD014743Search in Google Scholar

Inglés, Slovenian
Calendario de la edición:
4 veces al año
Temas de la revista:
Medicine, Basic Medical Science, other