This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Bezyk Y, Górka M, Sówka I, Nęcki J and Strąpoć D, 2023. Temporal dynamics and controlling factors of CO2 and CH4 variability in the urban atmosphere of Wroclaw, Poland. Science of the Total Environment 893: 164771, DOI 10.1016/j.scitotenv.2023.164771.BezykYGórkaMSówkaINęckiJStrąpoćD2023Temporal dynamics and controlling factors of CO2 and CH4 variability in the urban atmosphere of Wroclaw, PolandScience of the Total Environment89316477110.1016/j.scitotenv.2023.164771Open DOISearch in Google Scholar
Davis KJ, Deng A, Lauvaux T, Miles NL, Richardson SJ, Sarmiento DP, Gurney KR, Hardesty RM, Bonin TA, Brewer WA, Lamb BK, Shepson PB, Harvey RM, Cambaliza MO, Sweeney C, Turnbull JC, Whetstone J and Karion A, 2017. The Indianapolis Flux Experiment (INFLUX): A test-bed for developing urban greenhouse gas emission measurements. Elementa: Science of the Anthropocene 5: 21.DavisKJDengALauvauxTMilesNLRichardsonSJSarmientoDPGurneyKRHardestyRMBoninTABrewerWALambBKShepsonPBHarveyRMCambalizaMOSweeneyCTurnbullJCWhetstoneJKarionA2017The Indianapolis Flux Experiment (INFLUX): A test-bed for developing urban greenhouse gas emission measurementsElementa: Science of the Anthropocene521Search in Google Scholar
Fang SX, Zhou LX, Tans PP, Ciais P, Steinbacher M, Xu L and Luan T, 2014. In situ measurement of atmospheric CO2 at the four WMO/GAW stations in China. Atmospheric Chemistry and Physics 14(5): 2541–2554.FangSXZhouLXTansPPCiaisPSteinbacherMXuLLuanT2014In situ measurement of atmospheric CO2 at the four WMO/GAW stations in ChinaAtmospheric Chemistry and Physics14525412554Search in Google Scholar
Jasek-Kamińska A, Zimnoch M, Wachniew P and Różański K, 2020. Urban CO2 budget: Spatial and seasonal variability of CO2 emissions in Krakow, Poland. Atmosphere 11: 629. DOI 10.3390/atmos11060629.Jasek-KamińskaAZimnochMWachniewPRóżańskiK2020Urban CO2 budget: Spatial and seasonal variability of CO2 emissions in Krakow, PolandAtmosphere1162910.3390/atmos11060629Open DOISearch in Google Scholar
Kuc T, 1991. Concentration and carbon isotopic composition of atmospheric CO2 in Southern Poland. Tellus 43B: 373–378.KucT1991Concentration and carbon isotopic composition of atmospheric CO2 in Southern PolandTellus43B373378Search in Google Scholar
Kuc T, Różański K, Zimnoch M, Necki J, Chmura L and Jelen D, 2007. Two decades of regular observations of 14CO2 and 13CO2 content in atmospheric carbon dioxide in central Europe: Long term changes of regional anthropogenic Fossil CO2 emissions. Radiocarbon 49(2): 807–816.KucTRóżańskiKZimnochMNeckiJChmuraLJelenD2007Two decades of regular observations of 14CO2 and 13CO2 content in atmospheric carbon dioxide in central Europe: Long term changes of regional anthropogenic Fossil CO2 emissionsRadiocarbon492807816Search in Google Scholar
Lauvaux T, Miles NL, Deng A, Richardson SJ, Cambaliza MO, Davis KJ, Gaudet B, Gurney KR, Huang J, O’Keefe D, Song Y, Karion A, Oda T, Patarasuk R, Razlivanov I, Sarmiento D, Shepson P, Sweeney C, Turnbull J and Wu K, 2016. High-resolution atmospheric inversion of urban CO2 emissions during the dormant season of the Indianapolis Flux Experiment (INFLUX). Journal of Geophysical Research: Atmospheres 121(10): 5213–5236.LauvauxTMilesNLDengARichardsonSJCambalizaMODavisKJGaudetBGurneyKRHuangJO’KeefeDSongYKarionAOdaTPatarasukRRazlivanovISarmientoDShepsonPSweeneyCTurnbullJWuK2016High-resolution atmospheric inversion of urban CO2 emissions during the dormant season of the Indianapolis Flux Experiment (INFLUX)Journal of Geophysical Research: Atmospheres1211052135236Search in Google Scholar
Lin JC, Mitchell L, Crosman E, Mendoza DL, Buchert M, Bares R, Fasoli B, Bowling DR, Pataki D, Catharine D, Strong C, Gurney KR, Patarasuk R, Baasandorj M, Jacques A, Hoch S, Horel J and Ehleringer J, 2018. CO2 and carbon emissions from cities: Linkages to air quality, socioeconomic activity, and stakeholders in the Salt Lake City urban area. Bulletin of the American Meteorological Society 99(11): 2325–2339.LinJCMitchellLCrosmanEMendozaDLBuchertMBaresRFasoliBBowlingDRPatakiDCatharineDStrongCGurneyKRPatarasukRBaasandorjMJacquesAHochSHorelJEhleringerJ2018CO2 and carbon emissions from cities: Linkages to air quality, socioeconomic activity, and stakeholders in the Salt Lake City urban areaBulletin of the American Meteorological Society991123252339Search in Google Scholar
Marcotullio PJ, Hughes S, Sarzynski A, Pincetl S, Sanchez Pena L, Romero-Lankao P, Runfla D and Seto KC, 2014. Urbanization and the carbon cycle: Contributions from social science. Earth’s Future 2(10): 496–514.MarcotullioPJHughesSSarzynskiAPincetlSSanchez PenaLRomero-LankaoPRunflaDSetoKC2014Urbanization and the carbon cycle: Contributions from social scienceEarth’s Future210496514Search in Google Scholar
Metya A, Datye A, Chakraborty S, Tiwari YK, Sarma D, Bora A and Gogoi N, 2021. Diurnal and seasonal variability of CO2 and CH4 concentration in a semi-urban environment of western India. Scientific Reports 11(1): 2931.MetyaADatyeAChakrabortySTiwariYKSarmaDBoraAGogoiN2021Diurnal and seasonal variability of CO2 and CH4 concentration in a semi-urban environment of western IndiaScientific Reports1112931Search in Google Scholar
Moore J and Jacobson AD, 2015. Seasonally varying contributions to urban CO2 in the Chicago, Illinois, USA region: Insights from a high-resolution CO2 concentration and δ13C record Urban CO2 concentrations and δ13C values from the Chicago, IL, USA region. Elementa: Science of the Anthropocene, 3:000052. DOI: 10.12952/journal.elementa.000052MooreJJacobsonAD2015Seasonally varying contributions to urban CO2 in the Chicago, Illinois, USA region: Insights from a high-resolution CO2 concentration and δ13C record Urban CO2 concentrations and δ13C values from the Chicago, IL, USA regionElementa: Science of the Anthropocene300005210.12952/journal.elementa.000052Open DOISearch in Google Scholar
Necki JM, Galkowski M, Chmura L, Gerbig C, Zimnoch M, Zieba D, Bartyzel J, Wolkowicz W and Różański K, 2016. Regional representativeness of CH4 and N2O mixing ratio measurements at high-altitude mountain station Kasprowy Wierch, Southern Poland. Aerosol and Air Quality Research, 16(3): 568–580, DOI 10.4209/aaqr.2015.05.0357.NeckiJMGalkowskiMChmuraLGerbigCZimnochMZiebaDBartyzelJWolkowiczWRóżańskiK2016Regional representativeness of CH4 and N2O mixing ratio measurements at high-altitude mountain station Kasprowy Wierch, Southern PolandAerosol and Air Quality Research16356858010.4209/aaqr.2015.05.0357Open DOISearch in Google Scholar
Necki JM, Schmidt M, Różański K, Zimnoch M, Korus A, Lasa J, Graul R and Levin I, 2003. Six-year record of atmospheric carbon dioxide and methane at a high-altitude mountain site in Poland. Tellus 55B: 94.NeckiJMSchmidtMRóżańskiKZimnochMKorusALasaJGraulRLevinI2003Six-year record of atmospheric carbon dioxide and methane at a high-altitude mountain site in PolandTellus55B94Search in Google Scholar
Pawlak W, Fortuniak K and Siedlecki M, 2010. Measurements of vertical carbon dioxide net flux in the center of Lodz – preliminary results from the period 2006–2009. Acta Agrophysica. Rozprawy i Monografie 2(179): 59–70.PawlakWFortuniakKSiedleckiM2010Measurements of vertical carbon dioxide net flux in the center of Lodz – preliminary results from the period 2006–2009Acta Agrophysica. Rozprawy i Monografie21795970Search in Google Scholar
Piotrowska N, Pazdur A, Pawełczyk S, Rakowski A, Sensuła B and Tudyka K, 2019. Human activity recorded in carbon isotopic composition of atmospheric CO2 in Gliwice urban area and surroundings (Southern Poland) in the Years 2011–2013. Radiocarbon 62(1): 141–156, DOI 10.1017/RDC.2019.92.PiotrowskaNPazdurAPawełczykSRakowskiASensułaBTudykaK2019Human activity recorded in carbon isotopic composition of atmospheric CO2 in Gliwice urban area and surroundings (Southern Poland) in the Years 2011–2013Radiocarbon62114115610.1017/RDC.2019.92Open DOISearch in Google Scholar
Röckmann T, Eyer S, Van Der Veen C, Popa ME, Tuzson B, Monteil G, Houweling S, Harris E, Brunner D, Fischer H, Zazzeri G, Lowry D, Nisbet EG, Brand WA, Necki JM, Emmenegger L and Mohn J, 2016. In situ observations of the isotopic composition of methane at the Cabauw tall tower site. Atmospheric Chemistry and Physics 16(16): 10469–10487.RöckmannTEyerSVan Der VeenCPopaMETuzsonBMonteilGHouwelingSHarrisEBrunnerDFischerHZazzeriGLowryDNisbetEGBrandWANeckiJMEmmeneggerLMohnJ2016In situ observations of the isotopic composition of methane at the Cabauw tall tower siteAtmospheric Chemistry and Physics16161046910487Search in Google Scholar
Różański K, Necki J, Chmura L, Sliwka I, Zimnoch M, Bielewski J, Galkowski M, Bartyzel J and Rosiek J, 2014. Anthropogenic changes of CO2, CH4, N2O, CFCl3, CF2Cl2, CCl2FCClF2, CHCl3, CH3CCl3, CCl4, SF6 and SF5CF3 mixing ratios in the atmosphere over southern Poland. Geological Quarterly 58(4): 673–684.RóżańskiKNeckiJChmuraLSliwkaIZimnochMBielewskiJGalkowskiMBartyzelJRosiekJ2014Anthropogenic changes of CO2, CH4, N2O, CFCl3, CF2Cl2, CCl2FCClF2, CHCl3, CH3CCl3, CCl4, SF6 and SF5CF3 mixing ratios in the atmosphere over southern PolandGeological Quarterly584673684Search in Google Scholar
Sensuła B, 2023. Poziom CO2 w powietrzu atmosferycznym w Gliwicach – pierwsze wyniki badań przełomowych. In: Pikoń K and Bogacka M, eds., Contemporary problems of power engineering and environmental protection 2022. Politechnika Śląska, Gliwice: 94–103.SensułaB2023Poziom CO2 w powietrzu atmosferycznym w Gliwicach – pierwsze wyniki badań przełomowychIn:PikońKBogackaMeds.,Contemporary problems of power engineering and environmental protection 2022Politechnika ŚląskaGliwice94103Search in Google Scholar
Sensuła B, Chmura Ł, Nęcki J and Zimnoch M, 2023a. The atmospheric carbon dioxide level in Gliwice, Kraków and Kasprowy Wierch in the end of the summer and the beginning of the fall, 2022. In: Pikoń K and Bogacka M, eds., Contemporary problems of power engineering and environmental protection 2022. Politechnika Śląska, Gliwice: 55–60.SensułaBChmuraŁNęckiJZimnochM2023aThe atmospheric carbon dioxide level in Gliwice, Kraków and Kasprowy Wierch in the end of the summer and the beginning of the fall, 2022In:PikońKBogackaMeds.,Contemporary problems of power engineering and environmental protection 2022Politechnika ŚląskaGliwice5560Search in Google Scholar
Sensuła B, Michczyński A, Piotrowska N and Wilczyński S, 2018. Anthropogenic CO2 emission records in scots pine growing in the most industrialized region of Poland from 1975 to 2014. Radiocarbon 60(4): 1041–1053, DOI 10.1017/RDC.2018.59.SensułaBMichczyńskiAPiotrowskaNWilczyńskiS2018Anthropogenic CO2 emission records in scots pine growing in the most industrialized region of Poland from 1975 to 2014Radiocarbon6041041105310.1017/RDC.2018.59Open DOISearch in Google Scholar
Sensuła B, Piotrowska N, Nowińska K, Koruszowic M, Lazaj D, Osadnik R, Paluch R, Stasiak B and Strączek B, 2023b. Characteristics of pine needles exposed to pollution in Silesia, Poland: Carbon isotopes, IWUE, and trace element concentrations in pine needles. Radiocarbon 65(1): 233–246, DOI 10.1017/RDC.2023.1.SensułaBPiotrowskaNNowińskaKKoruszowicMLazajDOsadnikRPaluchRStasiakBStrączekB2023bCharacteristics of pine needles exposed to pollution in Silesia, Poland: Carbon isotopes, IWUE, and trace element concentrations in pine needlesRadiocarbon65123324610.1017/RDC.2023.1Open DOISearch in Google Scholar
Sensuła B, Toroń B, Rocznik J, Sasiela A, Świątkowski J and Tomaszowska A, 2022. Characteristics of pine needles exposed to multi-source pollution in Silesia: Radiocarbon concentration in pine needles and elemental analysis of the needles’ surface deposits. Radiocarbon 64(6): 1333–1344, DOI 10.1017/RDC.2022.85.SensułaBTorońBRocznikJSasielaAŚwiątkowskiJTomaszowskaA2022Characteristics of pine needles exposed to multi-source pollution in Silesia: Radiocarbon concentration in pine needles and elemental analysis of the needles’ surface depositsRadiocarbon6461333134410.1017/RDC.2022.85Open DOISearch in Google Scholar
Vardag SN, Gerbig C, Janssens-Maenhout G and Levin I, 2015. Estimation of continuous anthropogenic CO2: Model-based evaluation of CO2, CO, δ13C(CO2) and Δ14C(CO2) tracer methods, Atmospheric Chemistry and Physics 15: 12705–12729, DOI 10.5194/acp-15-12705-2015.VardagSNGerbigCJanssens-MaenhoutGLevinI2015Estimation of continuous anthropogenic CO2: Model-based evaluation of CO2, CO, δ13C(CO2) and Δ14C(CO2) tracer methodsAtmospheric Chemistry and Physics15127051272910.5194/acp-15-12705-2015Open DOISearch in Google Scholar
WEB site: http://www.hydrowskaz.pl/. Accessed 2023 June 27.WEB site: http://www.hydrowskaz.pl/. Accessed 2023 June 27Search in Google Scholar
WEB site: https://dane.imgw.pl/datastore. Accessed 2023 June 27.WEB site: https://dane.imgw.pl/datastore. Accessed 2023 June 27Search in Google Scholar
WEB site: https://gml.noaa.gov/ccgg/trends/. Accessed 2023 June 2.WEB site: https://gml.noaa.gov/ccgg/trends/. Accessed 2023 June 2Search in Google Scholar
WEB site: https://stilt.icos-cp.eu/viewer/. Accessed 2023 June 27.WEB site: https://stilt.icos-cp.eu/viewer/. Accessed 2023 June 27Search in Google Scholar
WEB site: https://www.manualsdir.com/manuals/408536/vaisala-gmp343.html. Accessed 2023 June 2.WEB site: https://www.manualsdir.com/manuals/408536/vaisala-gmp343.html. Accessed 2023 June 2Search in Google Scholar
Zimnoch M, Florkowski T, Nęcki JM, Neubert REM, 2004. Diurnal variability of δ13C and δ18O of atmospheric CO2 in the urban atmosphere of Kraków, Poland. Isotopes in Environmental and Health Studies 40(2): 129–143.ZimnochMFlorkowskiTNęckiJMNeubertREM2004Diurnal variability of δ13C and δ18O of atmospheric CO2 in the urban atmosphere of Kraków, PolandIsotopes in Environmental and Health Studies402129143Search in Google Scholar
Zimnoch M, Jelen D, Galkowski M, Kuc T, Necki J, Chmura L, Gorczyca Z, Jasek A and Różański K, 2012. Partitioning of atmospheric carbon dioxide over central Europe: composition. Isotopes in Environmental and Health Studies 48(3): 421–433.ZimnochMJelenDGalkowskiMKucTNeckiJChmuraLGorczycaZJasekARóżańskiK2012Partitioning of atmospheric carbon dioxide over central Europe: compositionIsotopes in Environmental and Health Studies483421433Search in Google Scholar
Zimnoch M, Morawski F, Kuc T, Samek L, Bartyzel J, Gorczyca Z, Skiba A and Różański K, 2020. Summer–winter contrast in carbon isotope and elemental composition of total suspended particulate matter in the urban atmosphere of Krakow, Southern Poland. Nukleonika 65(3): 181–191.ZimnochMMorawskiFKucTSamekLBartyzelJGorczycaZSkibaARóżańskiK2020Summer–winter contrast in carbon isotope and elemental composition of total suspended particulate matter in the urban atmosphere of Krakow, Southern PolandNukleonika653181191Search in Google Scholar
Zimnoch M, Necki J, Chmura L, Jasek A, Jelen D, Galkowski M, Kuc T, Gorczyca Z, Bartyzel J and Różański K, 2018. Quantification of carbon dioxide and methane emissions in urban areas: Source apportionment based on atmospheric observations. Mitigation and Adaptation Strategies for Global Change 24(6): 1051–1071, DOI 10.1007/s11027-018-9821-0.ZimnochMNeckiJChmuraLJasekAJelenDGalkowskiMKucTGorczycaZBartyzelJRóżańskiK2018Quantification of carbon dioxide and methane emissions in urban areas: Source apportionment based on atmospheric observationsMitigation and Adaptation Strategies for Global Change2461051107110.1007/s11027-018-9821-0Open DOISearch in Google Scholar