Effect of Regional Baric Systems on the Occurrence of Bioclimatic Conditions in Poland

Bartoszek K., Wereski S., Krzyżewska A., Dobek M., 2017. The influence of atmospheric circulation on bioclimatic conditions in Lublin (Poland). Bulletin of Geography. Physical Geography Series 12: 41–49. DOI 10.1515/bgeo-2017-0004. BartoszekK. WereskiS. KrzyżewskaA. DobekM. 2017 The influence of atmospheric circulation on bioclimatic conditions in Lublin (Poland) Bulletin of Geography. Physical Geography Series 12 41 49 10.1515/bgeo-2017-0004 Open DOISearch in Google Scholar

Bartzokas A., Lolis C.J., Kassomenos P.A., McGregor G.R., 2013. Climatic characteristics of summer human thermal discomfort in Athens and its connection to atmospheric circulation. Natural Hazards and Earth System Sciences 13(12): 3271–3279. BartzokasA. LolisC.J. KassomenosP.A. McGregorG.R. 2013 Climatic characteristics of summer human thermal discomfort in Athens and its connection to atmospheric circulation Natural Hazards and Earth System Sciences 13 12 3271 3279 Search in Google Scholar

Bednorz E., 2011. Synoptic conditions of snow cover occurrence in Central European lowlands. International Journal of Climatology 31: 1108–1118. DOI 10.1002/joc.2130. BednorzE. 2011 Synoptic conditions of snow cover occurrence in Central European lowlands International Journal of Climatology 31 1108 1118 10.1002/joc.2130 Open DOISearch in Google Scholar

Bielec-Bąkowska Z., 2014. Silne wyże nad Europą. Wydawnictwo Uniwersytetu Śląskiego Katowice. http://hdl.handle.net/20.500.12128/2944. Bielec-BąkowskaZ. 2014 Silne wyże nad Europą Wydawnictwo Uniwersytetu Śląskiego Katowice http://hdl.handle.net/20.500.12128/2944. Search in Google Scholar

Błażejczyk A., Błażejczyk K., Baranowski J., Kuchcik M., 2018. Heat stress mortality and desired adaptation responses of healthcare system in Poland. International Journal of Biometeorology 62(3): 307–318. DOI 10.1007/s00484-017-1423-0. BłażejczykA. BłażejczykK. BaranowskiJ. KuchcikM. 2018 Heat stress mortality and desired adaptation responses of healthcare system in Poland International Journal of Biometeorology 62 3 307 318 10.1007/s00484-017-1423-0 Open DOISearch in Google Scholar

Błażejczyk K., 2006. Climate and bioclimate of Poland. In: Degórski M. (ed.), Natural and human environment of Poland. A geographical overview. Polish Academy of Sciences Institute of Geography and Spatial Organization, Polish Geographical Society, Warsaw: 31–48. BłażejczykK. 2006 Climate and bioclimate of Poland DegórskiM. (ed.), Natural and human environment of Poland. A geographical overview Polish Academy of Sciences Institute of Geography and Spatial Organization, Polish Geographical Society Warsaw 31 48 Search in Google Scholar

Błażejczyk K., 2013. Distribution of Universal Thermal Climate Index (UTCI) in Warsaw. Geographia Polonica 86(1): 79–80. BłażejczykK. 2013 Distribution of Universal Thermal Climate Index (UTCI) in Warsaw Geographia Polonica 86 1 79 80 Search in Google Scholar

Błażejczyk K., Baranowski J., Błażejczyk A., 2014a. Heat stress and occupational health and safety – Spatial and temporal differentiation. Miscellanea Geographica – Regional Studies and Development 18(1): 61–67. BłażejczykK. BaranowskiJ. BłażejczykA. 2014a Heat stress and occupational health and safety – Spatial and temporal differentiation Miscellanea Geographica – Regional Studies and Development 18 1 61 67 Search in Google Scholar

Błażejczyk K., Błażejczyk A., 2014. Assessment of bioclimatic variability on regional and local scales in Central Europe using UTCI”. Scientific Annales of “Alexandru Ioan Cuza” University of Iasi – Geography Series 60(1): 67–82. BłażejczykK. BłażejczykA. 2014 Assessment of bioclimatic variability on regional and local scales in Central Europe using UTCI” Scientific Annales of “Alexandru Ioan Cuza” University of Iasi – Geography Series 60 1 67 82 Search in Google Scholar

Błażejczyk K., Błażejczyk M., 2006. BioKlima ver.2.6. Polish Academy of Sciences, http://www.igipz.pan.pl/Bioklimazgik.html. BłażejczykK. BłażejczykM. 2006 BioKlima ver.2.6 Polish Academy of Sciences http://www.igipz.pan.pl/Bioklimazgik.html. Search in Google Scholar

Błażejczyk K., Epstein Y., Jendritzky G., Staiger H., Tinz, B., 2012. Comparison of UTCI to selected thermal indices. International Journal of Biometeorology 56(3): 515–535. DOI 10.1007/s00484-011-0453-2. BłażejczykK. EpsteinY. JendritzkyG. StaigerH. TinzB. 2012 Comparison of UTCI to selected thermal indices International Journal of Biometeorology 56 3 515 535 10.1007/s00484-011-0453-2 Open DOISearch in Google Scholar

Błażejczyk K., Idzikowska D., Błażejczyk A., 2013b. Forecast changes for heat and cold stress in Warsaw in the 21st century, and their possible influence on mortality risk. Papers on Global Change 20: 47–62. BłażejczykK. IdzikowskaD. BłażejczykA. 2013b Forecast changes for heat and cold stress in Warsaw in the 21st century, and their possible influence on mortality risk Papers on Global Change 20 47 62 Search in Google Scholar

Błażejczyk K., Jendritzky G., Bröde P., Fiala D., Havenith G., Epstein Y., Psikuta A., Kampmann B., 2013a. An introduction to the Universal Thermal Climate Index (UTCI). Geographia Polonica 86(1): 5–10. BłażejczykK. JendritzkyG. BrödeP. FialaD. HavenithG. EpsteinY. PsikutaA. KampmannB. 2013a An introduction to the Universal Thermal Climate Index (UTCI) Geographia Polonica 86 1 5 10 Search in Google Scholar

Błażejczyk K., Kuchcik M., Błażejczyk A., Milewski P., Szmyd J., 2014b. Assessment of urban thermal stress by UTCI – experimental and modelling studies: An example from Poland. Die Erde 145(1–2): 16–33. BłażejczykK. KuchcikM. BłażejczykA. MilewskiP. SzmydJ. 2014b Assessment of urban thermal stress by UTCI – experimental and modelling studies: An example from Poland Die Erde 145 1–2 16 33 Search in Google Scholar

Błażejczyk K., Kunert A., 2011. Bioklimatyczne uwarunkowania rekreacji i turystyki w Polsce. Monografie Instytutu Geografii i Przestrzennego Zagospodarowania PAN 13. Polska Akademia Nauk, Instytut Geografii i Przestrzennego Zagospodarowania im, Warszawa. Stanisława Leszczyckiego. Wyd. 2. BłażejczykK. KunertA. 2011 Bioklimatyczne uwarunkowania rekreacji i turystyki w Polsce Monografie Instytutu Geografii i Przestrzennego Zagospodarowania PAN 13. Polska Akademia Nauk, Instytut Geografii i Przestrzennego Zagospodarowania im, Warszawa. Stanisława Leszczyckiego. Wyd. 2. Search in Google Scholar

Błażejczyk K., Nejedlik P., Skrynyk O., Halaś A., Skrynyk O., Baranowski J., Mikulova K., 2020. Thermal stress in the northern Carpathians and air circulation. Miscellanea Geographica – Regional Studies on Development 24(3): 147–160. BłażejczykK. NejedlikP. SkrynykO. HalaśA. SkrynykO. BaranowskiJ. MikulovaK. 2020 Thermal stress in the northern Carpathians and air circulation Miscellanea Geographica – Regional Studies on Development 24 3 147 160 Search in Google Scholar

Błażejczyk K., Twardosz R., 2010. Long-term changes of bioclimatic conditions in Cracow (Poland). In: Przybylak R. (ed.), The Polish climate in the European context: An historical overview. Springer, Dordrecht. DOI 10.1007/978-90-481-3167-9_10: 235–246. BłażejczykK. TwardoszR. 2010 Long-term changes of bioclimatic conditions in Cracow (Poland) PrzybylakR. (ed.), The Polish climate in the European context: An historical overview Springer Dordrecht 10.1007/978-90-481-3167-9_10 235 246 Open DOISearch in Google Scholar

Błażejczyk K., Twardosz R., Kunert A., 2003. Zmienność warunków biotermicznych w Krakowie w XX wieku na tle wahań cyrkulacji atmosferycznej. In: Błażejczyk K., Krawczyk B., Kuchcik M. (eds.), Postępy w badaniach klimatycznych i bioklimatycznych. IGiPZ PAN, Warszawa, Prace Geograficzne 188: 233–246. BłażejczykK. TwardoszR. KunertA. 2003 Zmienność warunków biotermicznych w Krakowie w XX wieku na tle wahań cyrkulacji atmosferycznej BłażejczykK. KrawczykB. KuchcikM. (eds.), Postępy w badaniach klimatycznych i bioklimatycznych IGiPZ PAN Warszawa Prace Geograficzne 188: 233 246 Search in Google Scholar

Błażejczyk K., Twardosz R., Wałach P., Czarnecka K., Błażejczyk A., 2022. Heat strain and mortality effects of prolonged Central European heat wave – An example of June 2019 in Poland. International Journal of Biometeorology 66: 149–161. DOI 10.1007/s00484-021-02202-0. BłażejczykK. TwardoszR. WałachP. CzarneckaK. BłażejczykA. 2022 Heat strain and mortality effects of prolonged Central European heat wave – An example of June 2019 in Poland International Journal of Biometeorology 66 149 161 10.1007/s00484-021-02202-0 Open DOISearch in Google Scholar

Brecht B.M., Schädler G., Schipper J.W., 2020. UTCI climatology and its future change in Germany–an RCM ensemble approach. Meteorologische Zeitschrift 29(2): 97–116. BrechtB.M. SchädlerG. SchipperJ.W. 2020 UTCI climatology and its future change in Germany–an RCM ensemble approach Meteorologische Zeitschrift 29 2 97 116 Search in Google Scholar

Bröde P., Fiala D., Błażejczyk K., Holmer I., Jendritzky G., Kampmann B., Tinz B., Havenith G., 2012. Deriving the operational procedure for the Universal Thermal Climate Index (UTCI). International Journal of Biometeorology 56(3): 481–449. DOI 10.1007/s00484-011-0454-1. BrödeP. FialaD. BłażejczykK. HolmerI. JendritzkyG. KampmannB. TinzB. HavenithG. 2012 Deriving the operational procedure for the Universal Thermal Climate Index (UTCI) International Journal of Biometeorology 56 3 481 449 10.1007/s00484-011-0454-1 Open DOISearch in Google Scholar

Bröde P., Krüger E.L., Fiala D., 2013. UTCI: Validation and practical application to the assessment of urban outdoor thermal comfort. Geographia Polonica 86(1): 11–20. BrödeP. KrügerE.L. FialaD. 2013 UTCI: Validation and practical application to the assessment of urban outdoor thermal comfort Geographia Polonica 86 1 11 20 Search in Google Scholar

Brunner L., Hegerl G.C., Steiner A.K., 2017. Connecting atmospheric blocking to European temperature extremes in spring. Journal of Climate 30(2): 585–594. DOI 10.1175/JCLI-D-16-0518.1. BrunnerL. HegerlG.C. SteinerA.K. 2017 Connecting atmospheric blocking to European temperature extremes in spring Journal of Climate 30 2 585 594 10.1175/JCLI-D-16-0518.1 Open DOISearch in Google Scholar

Brunner L., Schaller N., Anstey J., Sillmann J., Steiner A.K., 2018. Dependence of present and future European temperature extremes on the location of atmospheric blocking. Geophysical Research Letters 45: 6311–6320. DOI 10.1029/2018GL077837. BrunnerL. SchallerN. AnsteyJ. SillmannJ. SteinerA.K. 2018 Dependence of present and future European temperature extremes on the location of atmospheric blocking Geophysical Research Letters 45 6311 6320 10.1029/2018GL077837 Open DOISearch in Google Scholar

Bryś K., Ojrzyńska H., 2016. Bodźcowość warunków biometeorologicznych we Wrocławiu. Acta Geographica Lodziensia 104: 193–200. BryśK. OjrzyńskaH. 2016 Bodźcowość warunków biometeorologicznych we Wrocławiu Acta Geographica Lodziensia 104 193 200 Search in Google Scholar

Dayan U., Tubia A., Levy I., 2012. On the importance of synoptic classification methods with respect to environmental phenomena. International Journal of Climatology 32: 681–694. DOI 10.1002/joc.2297. DayanU. TubiaA. LevyI. 2012 On the importance of synoptic classification methods with respect to environmental phenomena International Journal of Climatology 32 681 694 10.1002/joc.2297 Open DOISearch in Google Scholar

Esteban P., Jones P.D., Martin-Vide J., Mases M., 2005. Atmospheric circulation patterns related to heavy snowfall days in Andorra, Pyrenees. International Journal of Climatology 25: 319–329. DOI 10.1002/joc.1103. EstebanP. JonesP.D. Martin-VideJ. MasesM. 2005 Atmospheric circulation patterns related to heavy snowfall days in Andorra, Pyrenees International Journal of Climatology 25 319 329 10.1002/joc.1103 Open DOISearch in Google Scholar

Farajzadeh H., Saligheh M., Alijani B., Matzarakis A., 2015. Comparison of selected thermal indices in the north-west of Iran. Natural Environment Change 1(1): 1–20. FarajzadehH. SalighehM. AlijaniB. MatzarakisA. 2015 Comparison of selected thermal indices in the north-west of Iran Natural Environment Change 1 1 1 20 Search in Google Scholar

Fiala D., Lomas K.J., Stohrer M., 1999. A computer model of human thermoregulation for a wide range of environmental conditions: The passive system. Journal of Applied Physiology 87: 1957–1972. DOI 10.1152/jappl.1999.87.5.1957. FialaD. LomasK.J. StohrerM. 1999 A computer model of human thermoregulation for a wide range of environmental conditions: The passive system Journal of Applied Physiology 87 1957 1972 10.1152/jappl.1999.87.5.1957 Open DOISearch in Google Scholar

Fiala D., Lomas K.J., Stohrer M., 2001. Computer 253 prediction of human thermoregulatory and temperature responses to a wide range of environmental conditions. International Journal of Biometeorology 45(3): 143–159. DOI 10.1007/s004840100099. FialaD. LomasK.J. StohrerM. 2001 Computer 253 prediction of human thermoregulatory and temperature responses to a wide range of environmental conditions International Journal of Biometeorology 45 3 143 159 10.1007/s004840100099 Open DOISearch in Google Scholar

Ge Q., Kong Q., Xi J., Zheng J., 2016. Application of UTCI in China from tourism perspective. Theortical and Applied Climatology 128: 551–561. DOI 10.1007/s00704-016-1731-z. GeQ. KongQ. XiJ. ZhengJ. 2016 Application of UTCI in China from tourism perspective Theortical and Applied Climatology 128 551 561 10.1007/s00704-016-1731-z Open DOISearch in Google Scholar

Głogowski A., Bryś K., Bryś T., 2020. Influence of NAOon forming the UTCI index in Kłodzko. Theortical and Applied Climatology 142: 1555–1567. DOI 10.1007/s00704-020-03340-y. GłogowskiA. BryśK. BryśT. 2020 Influence of NAOon forming the UTCI index in Kłodzko Theortical and Applied Climatology 142 1555 1567 10.1007/s00704-020-03340-y Open DOISearch in Google Scholar

Idzikowska D., 2011. Relationship between mortality and UTCI in Paris, Rome, Warsaw and Budapest. Prace i Studia Geograficzne 47: 311–318. IdzikowskaD. 2011 Relationship between mortality and UTCI in Paris, Rome, Warsaw and Budapest Prace i Studia Geograficzne 47 311 318 Search in Google Scholar

Kalkstein L.S., Tan G., Skindlov J.A., 1987. An evaluation of three Clustering procedures for use in synoptic climatological classification. Journal of Climatology and Applied Meteorology 26: 717–730. DOI 10.1175/1520-0450(1987)026<0717:AEOTCP>2.0.CO;2. KalksteinL.S. TanG. SkindlovJ.A. 1987 An evaluation of three Clustering procedures for use in synoptic climatological classification Journal of Climatology and Applied Meteorology 26 717 730 10.1175/1520-0450(1987)026<0717:AEOTCP>2.0.CO;2 Open DOISearch in Google Scholar

Kalnay E., Kanamitsu M., Kistler R., Collins W., Deaven D., Gandin L., Iredell M., Saha S., White G., Woollen J., Zhu Y., Leetmaa A., Reynolds R., Chelliah M., Ebisuzaki W., Higgins W., Janowiak J., Mo K.C., Ropelewski C., Wang J., Jenne R., Joseph D., 1996. The NCEP/NCAR 40-year reanalysis project. Bulletin of American Meteorological Society 77: 437–471. DOI 10.1175/1520-0477(1996)077<0437:TNYRP>2.0.CO;2. KalnayE. KanamitsuM. KistlerR. CollinsW. DeavenD. GandinL. IredellM. SahaS. WhiteG. WoollenJ. ZhuY. LeetmaaA. ReynoldsR. ChelliahM. EbisuzakiW. HigginsW. JanowiakJ. MoK.C. RopelewskiC. WangJ. JenneR. JosephD. 1996 The NCEP/NCAR 40-year reanalysis project Bulletin of American Meteorological Society 77 437 471 10.1175/1520-0477(1996)077<0437:TNYRP>2.0.CO;2 Open DOISearch in Google Scholar

Katavoutas G., Flocas H.A., 2018. Universal Thermal Climate Index (UTCI) and synoptic circulation patterns over the metropolitan city of Athens, Greece. Global NEST Journal 20(3): 477–487. DOI 10.30955/gnj.002556. KatavoutasG. FlocasH.A. 2018 Universal Thermal Climate Index (UTCI) and synoptic circulation patterns over the metropolitan city of Athens, Greece Global NEST Journal 20 3 477 487 10.30955/gnj.002556 Open DOISearch in Google Scholar

Kažys J., Malūnavičiūtė I., 2015. The evaluation of summer beaching conditions on the Baltic sea coast using the UTCI index. The International Journal of Climate Change: Impacts and Responses 7(4): 41–59. KažysJ. MalūnavičiūtėI. 2015 The evaluation of summer beaching conditions on the Baltic sea coast using the UTCI index The International Journal of Climate Change: Impacts and Responses 7 4 41 59 Search in Google Scholar

Kolendowicz L., Półrolniczak M., Szyga-Pluta K., Bednorz E., 2018. Human-biometeorological conditions in the southern Baltic coast based on the Universal Thermal Climate Index (UTCI). Theoretical and Applied Climatology 134: 363–379. DOI 10.1007/s00704-017-2279-2. KolendowiczL. PółrolniczakM. Szyga-PlutaK. BednorzE. 2018 Human-biometeorological conditions in the southern Baltic coast based on the Universal Thermal Climate Index (UTCI) Theoretical and Applied Climatology 134 363 379 10.1007/s00704-017-2279-2 Open DOISearch in Google Scholar

Koźmiński C., Michalska B., 2019. Ocena bioklimatycznych warunków rekreacji i turystyki w strefie polskiego Wybrzeża Bałtyku na podstawie wskaźnika UTCI. Przegląd Geograficzny 91(2): 113–126. DOI 10.7163/PrzG.2019.2.7. KoźmińskiC. MichalskaB. 2019 Ocena bioklimatycznych warunków rekreacji i turystyki w strefie polskiego Wybrzeża Bałtyku na podstawie wskaźnika UTCI Przegląd Geograficzny 91 2 113 126 10.7163/PrzG.2019.2.7 Open DOISearch in Google Scholar

Krzyżewska A., Wereski S., Demczuk P., 2020. Biometeorological conditions during an extreme heatwave event in Poland in August 2015. Weather 75(6): 183–189. DOI 10.1002/wea.3497. KrzyżewskaA. WereskiS. DemczukP. 2020 Biometeorological conditions during an extreme heatwave event in Poland in August 2015 Weather 75 6 183 189 10.1002/wea.3497 Open DOISearch in Google Scholar

Krzyżewska A., Wereski S., Dobek M., 2021. Summer UTCI variability in Poland in twenty-first century. International Journal of Biometeorology, Special Issue: UTCI – 10 Years of Applications 65: 1497–1513. DOI 10.1007/s00484-020-01965-2. KrzyżewskaA. WereskiS. DobekM. 2021 Summer UTCI variability in Poland in twenty-first century International Journal of Biometeorology, Special Issue: UTCI – 10 Years of Applications 65 1497 1513 10.1007/s00484-020-01965-2 Open DOISearch in Google Scholar

Kuchcik M., 2021. Mortality and Thermal environment (UTCI) in Poland – long-term, multi-city study. International Journal of Biometeorology 65: 1529–1541. DOI 10.1007/s00484-020-01995-w. KuchcikM. 2021 Mortality and Thermal environment (UTCI) in Poland – long-term, multi-city study International Journal of Biometeorology 65 1529 1541 10.1007/s00484-020-01995-w Open DOISearch in Google Scholar

Kuchcik M., Błażejczyk K., Halaś A., 2021. Changes in bioclimatic indices. In: Falarz M. (ed.), Climate change in Poland. Springer Climate, Springer Nature, Switzerland: 471–491. KuchcikM. BłażejczykK. HalaśA. 2021 Changes in bioclimatic indices FalarzM. (ed.), Climate change in Poland Springer Climate, Springer Nature Switzerland 471 491 Search in Google Scholar

Lindner K., 2011. Assessment of sensible climate in Warsaw using UTCI. Prace i Studia Geograficzne 47: 285–291. LindnerK. 2011 Assessment of sensible climate in Warsaw using UTCI Prace i Studia Geograficzne 47 285 291 Search in Google Scholar

Lindner-Cendrowska K., 2013. Assessment of bioclimatic conditions in cities for tourism and recreational purposes (A Warsaw case study). Geographia Polonica 86(1): 55–66. Lindner-CendrowskaK. 2013 Assessment of bioclimatic conditions in cities for tourism and recreational purposes (A Warsaw case study) Geographia Polonica 86 1 55 66 Search in Google Scholar

Lorenc H., 1996. Struktura i zasoby energetyczne wiatru w Polsce. Materiały Badawcze IMGW Meteorologia 25, Warszawa. LorencH. 1996 Struktura i zasoby energetyczne wiatru w Polsce Materiały Badawcze IMGW Meteorologia 25 Warszawa Search in Google Scholar

Lupo A.R., 2021. Atmospheric blocking events: A review. Annales of the New York Academy of Sciences 1504(1): 5–24. DOI 10.1111/nyas.14557. LupoA.R. 2021 Atmospheric blocking events: A review Annales of the New York Academy of Sciences 1504 1 5 24 10.1111/nyas.14557 Open DOISearch in Google Scholar

Mann H.B., 1945. Nonparametric tests against trend. Econometrica 13(3): 245–259. DOI 10.2307/1907187. MannH.B. 1945 Nonparametric tests against trend Econometrica 13 3 245 259 10.2307/1907187 Open DOISearch in Google Scholar

Matzarakis A., Muthers S., Rutz F., 2014. Application and comparison of UTCI and PET in temperate climate conditions. Finisterra 49(98): 21–31. MatzarakisA. MuthersS. RutzF. 2014 Application and comparison of UTCI and PET in temperate climate conditions Finisterra 49 98 21 31 Search in Google Scholar

Matzarakis A., Nastos P.T., 2011. Human-biometeorological assessment of heat waves in Athens. Theoretical and Applied Climatology 105(1–2): 99–106. DOI 10.1007/s00704-010-0379-3. MatzarakisA. NastosP.T. 2011 Human-biometeorological assessment of heat waves in Athens Theoretical and Applied Climatology 105 1–2 99 106 10.1007/s00704-010-0379-3 Open DOISearch in Google Scholar

Mąkosza A., 2013. Bioclimatic conditions of the Lubuskie Voivodeship. Geographia Polonica 86(1): 37–46. MąkoszaA. 2013 Bioclimatic conditions of the Lubuskie Voivodeship Geographia Polonica 86 1 37 46 Search in Google Scholar

Milewski P., 2013. Application of the UTCI to the local bioclimate of Poland's Ziemia Kłodzka region. Geographia Polonica 86(1): 47–54. MilewskiP. 2013 Application of the UTCI to the local bioclimate of Poland's Ziemia Kłodzka region Geographia Polonica 86 1 47 54 Search in Google Scholar

Miszuk B., 2021. Multi-annual changes in heat stress occurrence and its circulation conditions in the polish–Saxon border region. Atmosphere 12: 163. DOI 10.3390/atmos12020163. MiszukB. 2021 Multi-annual changes in heat stress occurrence and its circulation conditions in the polish–Saxon border region Atmosphere 12 163 10.3390/atmos12020163 Open DOISearch in Google Scholar

Nastos P.T., Matzarakis A., 2012. The effect of air temperature and human thermal indices on mortality in Athens, Greece. Theoretical and Applied Climatology 108(3–4): 591–599. NastosP.T. MatzarakisA. 2012 The effect of air temperature and human thermal indices on mortality in Athens, Greece Theoretical and Applied Climatology 108 3–4 591 599 Search in Google Scholar

Nidzgorska-Lencewicz J., 2015. Variability of human-biometerological conditions in Gdańsk. Polish Journal of Environmental Studies 24(1): 215–226. Nidzgorska-LencewiczJ. 2015 Variability of human-biometerological conditions in Gdańsk Polish Journal of Environmental Studies 24 1 215 226 Search in Google Scholar

Nidzgorska-Lencewicz J., Mąkosza J., 2013. Assessment of bioclimatic conditions within the area of Szczecin agglomeration. Meteorologische Zeitschrift 22(5): 615–626. Nidzgorska-LencewiczJ. MąkoszaJ. 2013 Assessment of bioclimatic conditions within the area of Szczecin agglomeration Meteorologische Zeitschrift 22 5 615 626 Search in Google Scholar

Novak M., 2013. Use of the UTCI in the Czech Republic. Geographia Polonica 86(1): 21–28. NovakM. 2013 Use of the UTCI in the Czech Republic Geographia Polonica 86 1 21 28 Search in Google Scholar

Nowosad M., Rodzik B., Wereski S., Dobek M., 2013. The UTCI index in Lesko and Lublin and its circulation determinants. Geographia Polonica 86(1): 29–36. DOI 10.7163/GPol.2013.4. NowosadM. RodzikB. WereskiS. DobekM. 2013 The UTCI index in Lesko and Lublin and its circulation determinants Geographia Polonica 86 1 29 36 10.7163/GPol.2013.4 Open DOISearch in Google Scholar

Okoniewska M., 2021. Daily and seasonal variabilities of thermal stress (based on the UTCI) in air masses typical for Central Europe: An example from Warsaw. International Journal of Biometeorology 65: 1543–1552. DOI 10.1007/s00484-020-01997-8. OkoniewskaM. 2021 Daily and seasonal variabilities of thermal stress (based on the UTCI) in air masses typical for Central Europe: An example from Warsaw International Journal of Biometeorology 65 1543 1552 10.1007/s00484-020-01997-8 Open DOISearch in Google Scholar

Okoniewska M., Więcław M., 2013. Zmienność wieloletnia warunków bioklimatycznych w II połowie XX wieku w Polsce w godzinach okołopołudniowych na podstawie uniwersalnego wskaźnika obciążenia cieplnego. Journal of Health Sciences 3(15): 116–131. OkoniewskaM. WięcławM. 2013 Zmienność wieloletnia warunków bioklimatycznych w II połowie XX wieku w Polsce w godzinach okołopołudniowych na podstawie uniwersalnego wskaźnika obciążenia cieplnego Journal of Health Sciences 3 15 116 131 Search in Google Scholar

Owczarek M., 2019. The influence of large-scale factors on the heat load on human beings in Poland in the summer months. Theoretical and Applied Climatology 137: 855–869. DOI 10.1007/s00704-018-2633-z. OwczarekM. 2019 The influence of large-scale factors on the heat load on human beings in Poland in the summer months Theoretical and Applied Climatology 137 855 869 10.1007/s00704-018-2633-z Open DOISearch in Google Scholar

Owczarek M., 2021. The influence of air temperature diversity in Central Europe on the occurrence of very strong and extreme cold stress in Poland in winter months. Geographia Polonica 94(2): 251–266. DOI 10.7163/GPol.0204. OwczarekM. 2021 The influence of air temperature diversity in Central Europe on the occurrence of very strong and extreme cold stress in Poland in winter months Geographia Polonica 94 2 251 266 10.7163/GPol.0204 Open DOISearch in Google Scholar

Owczarek M., Marosz M., Kitowski M., 2019. The influence of atmospheric circulation on the occurrence of heat stress on human beings on polish coast of the Baltic Sea. In: Kolendowicz L., Bednorz E., Tomczyk A.M. (eds.), Climate variability in Poland and Europe and its circulation conditions. Studia i Prace z Geografii 77: 135–156. OwczarekM. MaroszM. KitowskiM. 2019 The influence of atmospheric circulation on the occurrence of heat stress on human beings on polish coast of the Baltic Sea KolendowiczL. BednorzE. TomczykA.M. (eds.), Climate variability in Poland and Europe and its circulation conditions. Studia i Prace z Geografii 77 135 156 Search in Google Scholar

Owczarek M., Tomczyk A.M., 2022. Impact of atmospheric circulation on the occurrence of very strong and extreme cold stress in Poland. Quaestiones Geographicae 41(3): 111–126. DOI 10.2478/quageo-2022-0028. OwczarekM. TomczykA.M. 2022 Impact of atmospheric circulation on the occurrence of very strong and extreme cold stress in Poland Quaestiones Geographicae 41 3 111 126 10.2478/quageo-2022-0028 Open DOISearch in Google Scholar

Park S., Tuller S.E., Jo M., 2014. Application of Universal Thermal Climate Index (UTCI) for microclimatic analysis in urban thermal environments. Landscape and Urban Planning 125: 146–155. ParkS. TullerS.E. JoM. 2014 Application of Universal Thermal Climate Index (UTCI) for microclimatic analysis in urban thermal environments Landscape and Urban Planning 125 146 155 Search in Google Scholar

Pecelj M., Błażejczyk A., Vagić N., Ivanović P., 2021. The assessment of human bioclimate of Vranje health resort (Serbia) based on Universal Thermal Climate Index (UTCI) with the focus on extreme biothermal conditions. Geographia Polonica 94(2): 201–222. PeceljM. BłażejczykA. VagićN. IvanovićP. 2021 The assessment of human bioclimate of Vranje health resort (Serbia) based on Universal Thermal Climate Index (UTCI) with the focus on extreme biothermal conditions Geographia Polonica 94 2 201 222 Search in Google Scholar

Pfahl S., 2014. Characterising the relationship between weather extremes in Europe and synoptic circulation features. Natural Hazards and Earth System Sciences 14: 1461–1475. DOI 10.5194/nhess-14-1461-2014. PfahlS. 2014 Characterising the relationship between weather extremes in Europe and synoptic circulation features Natural Hazards and Earth System Sciences 14 1461 1475 10.5194/nhess-14-1461-2014 Open DOISearch in Google Scholar

Pfahl S., Wernli H., 2012. Quantifying the relevance of atmospheric blocking for co-located temperature extremes in the Northern Hemisphere on (sub-)daily time scales. Geophysical Research Letters 39(12): L12807. DOI 10.1029/2012GL052261. PfahlS. WernliH. 2012 Quantifying the relevance of atmospheric blocking for co-located temperature extremes in the Northern Hemisphere on (sub-)daily time scales Geophysical Research Letters 39 12 L12807 10.1029/2012GL052261 Open DOISearch in Google Scholar

Porębska M., Zdunek M., 2013. Analysis of extreme temperature events in Central Europe related to high pressure blocking situations in 2001–2011. Meteorolologische Zeitschrift 22(5): 533–540. DOI 10.1127/0941-2948%2F2013%2F0455. PorębskaM. ZdunekM. 2013 Analysis of extreme temperature events in Central Europe related to high pressure blocking situations in 2001–2011 Meteorolologische Zeitschrift 22 5 533 540 10.1127/0941-2948%2F2013%2F0455 Open DOISearch in Google Scholar

Półrolniczak M., Szyga-Pluta K., Kolendowicz L., 2016. Bioklimat wybranych miast pasa Pobrzeży Południowobałtyckich na podstawie uniwersalnego wskaźnika obciążenia cieplnego. Acta Geographica Lodziensia 104: 147–161. PółrolniczakM. Szyga-PlutaK. KolendowiczL. 2016 Bioklimat wybranych miast pasa Pobrzeży Południowobałtyckich na podstawie uniwersalnego wskaźnika obciążenia cieplnego Acta Geographica Lodziensia 104 147 161 Search in Google Scholar

Rozbicka K., Rozbicki T., 2018. Variablity of UTCI in South Warsaw depending on atmospheric circulation. Theoretical and Applied Climatology 133: 511–520. DOI 10.1007/s00704-017-2201-y. RozbickaK. RozbickiT. 2018 Variablity of UTCI in South Warsaw depending on atmospheric circulation Theoretical and Applied Climatology 133 511 520 10.1007/s00704-017-2201-y Open DOISearch in Google Scholar

Rutty M., Scott D., 2014. Thermal range of coastal tourism resort microclimates. Tourism Geographies. The International Journal of Tourism and Space, Place and Environment 16(3): 346–363. RuttyM. ScottD. 2014 Thermal range of coastal tourism resort microclimates Tourism Geographies. The International Journal of Tourism and Space, Place and Environment 16 3 346 363 Search in Google Scholar

Świątek M., 2014. Seasonal variability of climatic conditions for tourism and recreation along the southern coast of the Baltic Sea. Bulletin of Geography. Physical Geography Series 7: 57–80. ŚwiątekM. 2014 Seasonal variability of climatic conditions for tourism and recreation along the southern coast of the Baltic Sea Bulletin of Geography. Physical Geography Series 7 57 80 Search in Google Scholar

Tomczyk A.M., Bednorz E., 2016. Heat waves in Central Europe and their circulation conditions. International Journal of Climatology 36(2): 770–782. TomczykA.M. BednorzE. 2016 Heat waves in Central Europe and their circulation conditions International Journal of Climatology 36 2 770 782 Search in Google Scholar

Tomczyk A.M., Bednorz E., Matzarakis A., 2020. Human-biometeorological conditions during heatwaves in Poland. International Journal of Climatology 40(12): 5043–5055. TomczykA.M. BednorzE. MatzarakisA. 2020 Human-biometeorological conditions during heatwaves in Poland International Journal of Climatology 40 12 5043 5055 Search in Google Scholar

Tomczyk A.M., Bednorz E., Sulikowska A., 2019. Cold spells in Poland and Germany and their circulation conditions. International Journal of Climatology 39(10): 4002–4014. DOI 10.1002/joc.6054. TomczykA.M. BednorzE. SulikowskaA. 2019 Cold spells in Poland and Germany and their circulation conditions International Journal of Climatology 39 10 4002 4014 10.1002/joc.6054 Open DOISearch in Google Scholar

Tomczyk A.M., Owczarek M., 2020. Occurrence of strong and very strong heat stress in Poland and its circulation conditions. Theoretical and Applied Climatology 139: 893–905. DOI 10.1007/s00704-019-02998-3. TomczykA.M. OwczarekM. 2020 Occurrence of strong and very strong heat stress in Poland and its circulation conditions Theoretical and Applied Climatology 139 893 905 10.1007/s00704-019-02998-3 Open DOISearch in Google Scholar

Urban A., Kyselý J., 2014. Comparison of UTCI with other thermal indices in the assessment of heat and cold effects on cardiovascular mortality in the Czech Republic. International Journal of Environmental Research and Public Health 11(1): 952–967. UrbanA. KyselýJ. 2014 Comparison of UTCI with other thermal indices in the assessment of heat and cold effects on cardiovascular mortality in the Czech Republic International Journal of Environmental Research and Public Health 11 1 952 967 Search in Google Scholar

Ward J.H., 1963. Hierarchical grouping to optimize an objective function. Journal of American Statistical Association 58: 236–244. WardJ.H. 1963 Hierarchical grouping to optimize an objective function Journal of American Statistical Association 58 236 244 Search in Google Scholar

Wereski S., Krzyżewska A., Dobek M., 2020. Winter UTCI variability in Poland in the 21st century. Miscellanea Geographica 24(3): 128–137. DOI 10.2478/mgrsd-2020-0021. WereskiS. KrzyżewskaA. DobekM. 2020 Winter UTCI variability in Poland in the 21st century Miscellanea Geographica 24 3 128 137 10.2478/mgrsd-2020-0021 Open DOISearch in Google Scholar

Wibig J., 2021. Change of wind. In: Falarz M. (ed.), Climate change in Poland. Springer Climate. Springer, Cham: 391–420. DOI 10.1007/978-3-030-70328-8. WibigJ. 2021 Change of wind FalarzM. (ed.), Climate change in Poland Springer Climate. Springer, Cham 391 420 10.1007/978-3-030-70328-8 Open DOISearch in Google Scholar

Wilks D.S., 1995. Statistical methods in the atmospheric sciences, an introduction. International Geophysics Series 59. Academic Press: 464. WilksD.S. 1995 Statistical methods in the atmospheric sciences an introduction. International Geophysics Series 59. Academic Press 464 Search in Google Scholar

Yarnal B., 1993. Synoptic climatology in environmental analysis. Belhaven Press, London. YarnalB. 1993 Synoptic climatology in environmental analysis Belhaven Press London Search in Google Scholar

Yarnal B., Comrie A.C., Frakes B., Brown D.P., 2001. Developments and prospects in synoptic climatology. International Journal of Climatology 21: 1923–1950. DOI 10.1002/joc.675. YarnalB. ComrieA.C. FrakesB. BrownD.P. 2001 Developments and prospects in synoptic climatology International Journal of Climatology 21 1923 1950 10.1002/joc.675 Open DOISearch in Google Scholar

Zare S., Hasheminejad N., Shirvan H.E., Hemmatjo R., Sarebanzadeh K., Ahmadi S., 2018. Comparing Universal Thermal Climate Index (UTCI) with selected thermal indices/environmental parameters during 12 months of the year. Weather and Climate Extremes 19: 49–57. ZareS. HasheminejadN. ShirvanH.E. HemmatjoR. SarebanzadehK. AhmadiS. 2018 Comparing Universal Thermal Climate Index (UTCI) with selected thermal indices/environmental parameters during 12 months of the year Weather and Climate Extremes 19 49 57 Search in Google Scholar

Zare S., Shirvan H.E., Hemmatjo R., Nadri F., Jahani Y., Jamshidzadeh K., Paydar P., 2019. A comparison of the correlation between heat stress indices (UTCI, WBGT, WBDT, TSI) and physiological parameters of workers in Iran. Weather and Climate Extremes 26: 100213. ZareS. ShirvanH.E. HemmatjoR. NadriF. JahaniY. JamshidzadehK. PaydarP. 2019 A comparison of the correlation between heat stress indices (UTCI, WBGT, WBDT, TSI) and physiological parameters of workers in Iran Weather and Climate Extremes 26 100213 Search in Google Scholar

Zschenderlein P., Fink A.H., Pfahl S., Wernli H., 2019. Processes determining heat waves across different European climates. Quarterly Journal of the Royal Meteorological Society 145(724): 2973–2989. DOI 10.1002/qj.3599. ZschenderleinP. FinkA.H. PfahlS. WernliH. 2019 Processes determining heat waves across different European climates Quarterly Journal of the Royal Meteorological Society 145 724 2973 2989 10.1002/qj.3599 Open DOISearch in Google Scholar