Global climate change, CO2 and climatic catastrophes

• Autorzy: Dąbski Maciej

Identyfikatory

DOI

10.7306/2025.56

• Języki publikacji: EN

Abstrakty

EN

I refer to the ongoing discussion between the climatic skeptics and mainstream scientists and high¬light some skeptical argumentation, arguing that the current warming is not unprecedented in its magnitude nor dynamics and in the geological past the correlation between temperature and CO₂ was frequently zero or negative. There is no evidence that CO₂ was the triggering factor for global temperature changes. There are significant cl¬mate drivers other than greenhouse gases which may, at least partly, explain the current warming. Arguments are provided to support the notion that the solar irradiance coupled with cosmic rays, oceanic oscillation and changes in atmospheric aerosols can explain much of the warming since preindustrial times. Finally, the current global environmental trends do not indicate impending climatic catastrophe. Nevertheless, I emphasize that the development of human civilization undoubtedly influenced global climate, and that some anthropogenic influences are still to be studied. Many feedbacks between atmosphere, ocean, land and human activities remain poorly known and there are reasons to decouple economic development from the burning offossil fuels.

Słowa kluczowe

EN

global climate change; CO2; climatic catastrophes

• Wydawca: Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy
• Czasopismo: Przegląd Geologiczny
• Rocznik: 2025
• Tom: Vol. 73, nr 5
• Strony: 486--494
• Opis fizyczny: Bibliogr. 95 poz., wykr.

Twórcy

autor

Dąbski Maciej

• Faculty of Geography and Regional Studies, University of Warsaw, Krakowskie Przedmieście 30, 00-927 Warsaw, Poland

• https://orcid.org/0000-0003-1018-9639

Bibliografia

• 1. ALIMONTI G., MARIANI L., PRODI F., RICCI R.A. 2022 - A critical assessment of extreme events trends in times of global warming. The European Physical Journal Plus, 137, 112.
• 2. AL-RAWAS G., NIKOO M.R., AL-WARDY M. 2024 - A review on the prevention and control of flash flood hazards on a global scale: early warning systems, vulnerability assessment, environmental, and public health burden. International Journal of Disaster Risk Reduction, 115, 105024.
• 3. ANDELA N., MORTON D.C., GIGLIO L., CHEN Y., VAN DER WERF G.R., KASIBHATLA P.S., DEFRIES R.S., COLLATZ G.J., HANTSON S., KLOSTER S., BACHELET D., FORREST M., LASSLOP G., LI F., MANGEON S., YUE C., RANDERSON J.T. 2017 - A human-driven decline in global burned area. Science, 356: 1356-1362.
• 4. ANTARCTIC ICE MASS 2025 - Antarctic Ice Mass Loss 2002-2023; https://svs.gsfc.nasa.gov/31158/; accessed 20 April, 2025.
• 5. AMO 2022 - AMO (Atlantic Multidecadal Oscillation) Index; https://psl.noaa.gov/data/timeseries/AMO/; accessed 10 February, 2025.
• 6. ARCTIC SEA ICE 2025 - Arctic Sea Ice Extent. U.S. Global Change Research Program; https://www.globalchange.gov/indicators/arctic-sea-ice-extent; accessed 20 April, 2025.
• 7. BARICHIVICH J., OSBORN T., HARRIS I., VAN DER SCHRIER G., JONES P. 2024 - Monitoring global drought using the self-calibrating Palmer Drought Severity Index. [In:] Blunden J., Boyer T. (eds.), State of the Climate in 2023. Bulletin of the American Meteorological Society, 105 (8): S70-S71.
• 8. BARRAL A., GOMEZ B., FOUREL F., DAVIERO-GOMEZ V., LÉCUYER C. 2017 - CO2 and temperature decoupling at the million-year scale during the Cretaceous Greenhouse. Scientific Reports, 7, 8310.
• 9. BARRIENDOS M., RODRIGO F.S. 2006 - Study of historical flood events on Spanish rivers using documentary data. Hydrological Sciences Journal, 51 (5): 765-783.
• 10. BJÖRNSSON H. 2017 - The Glaciers of Iceland. A Historical, Cultural and Scientific Overview. Atlantis Advances in Quaternary Science. Atlantis Press: 560-561.
• 11. BOUCHER O., HALLORAN P.R., BURKE E.J., DOUTRIAUX-BOUCHER M., JONES C.D., LOWE J., RINGERM.A., ROBERTSON E., WUP. 2012 - Reversibility in an Earth System model in response to CO2 concentration changes. Environmental Research Letters, 7, 024013.
• 12. BUDZISZEWSKA M., KARDAŚ A., BOHDANOWICZ Z. 2023 - Klimatyczne ABC. Interdyscyplinarne podstawy współczesnej wiedzy o zmianie klimatu (in Polish). Wydawnictwa Uniwersytetu Warszawskiego.
• 13. CHEN Y., HALL J., VAN WEES D., ANDELA N., HANTSON S., GIGLIO L., VAN DER WERF G.R., MORTON D.C., RANDERSON J.T. 2023 - Multi-decadal trends and variability in burned area from the fifth version of the Global Fire Emissions Database (GFED5). Earth System Science Data, 15: 5227-5259.
• 14. CHRISTY J.R., MCNIDER R.T. 2017 - Satellite bulk tropospheric temperatures as a metric for climate sensitivity. Asia-Pacific Journal of Atmospheric Sciences, 53 (4): 511-518.
• 15. CREEL R.C., AUSTERMANN J., KOPP R.E., KHAN N.S., ALBRECHT T., KINGSLAKE J. 2024 - Global mean sea level likely higher than present during the Holocene. Nature Communications, 15, 10731.
• 16. CROK M., MAY A. (eds.) 2023 - The Frozen Climate Views of the IPCC. Clintel Foundation.
• 17. DEVASTHALE A., KARLSSON K.G. 2023 - Decadal stability and trends in the global cloud amount and cloud top temperature in the satellite-based climate data records. Remote Sensing, 15(15), 3819.
• 18. DÖRING M., LEUENBERGER M.C. 2022 - Comparison of Holocene temperature reconstructions based on GISP2 multiple-gas-isotope measurements. Quaternary Science Reviews, 280, 107274.
• 19. DUCH W. 2021 - Największe susze i najgorętsze upały w historii Polski (in Polish); https://historia.org.pl; accessed 20 April, 2025.
• 20. EGONDI T., KYOBUTUNGI C., ROCKLÖV J. 2015 - Temperature variation and heat wave and cold spell impacts on years of life lost among the urban poor population of Nairobi, Kenya. International Journal of Environmental Research and Public Health, 12 (3): 2735-2748.
• 21. ESOTC 2022 - European State of the Climate 2022; https://climate.copernicus.eu/esotc/2022; accessed 10 February, 2025.
• 22. FORMETTAG., FEYEN L. 2019 - Empirical evidence of declining global vulnerability to climate-related hazards. Global Environmental Change, 57, 101920.
• 23. FREDERIKSE T., LANDERER F., CARON L., ADHIRAKI S., PARKES D., HUMPHREY V.W., DANGENDORF S., HOGARTH P., ZANNAL., CHENG L., WU Y.H. 2020 - The causes of sea-level rise since 1900. Nature, 584: 393-397.
• 24. FU S.H., GASPARRINI A., RODRIGUEZ P.S., JHAP. 2018 - Mortality attributable to hot and cold ambient temperatures in India: a nationally representative case-crossover study. PLoS Medicine, 15 (7), e1002619.
• 25. GANOPOLSKI A., ROCHE D.M. 2009 - On the nature of lead-lag relationships during glacial-interglacial climate transitions. Quaternary Science Reviews, 28 (27-28): 3361-3378.
• 26. GEOLOGICAL SURVEY OF DENMARK 2025 - For the 28th year in a row, Greenland's ice sheet is shrinking. Geological Survey of Denmark and Greenland; https://eng.geus.dk/about/news/news-archive/2024/september/ice-sheet-melt-2024; accessed 20 April 2025.
• 27. GLOBAL OCEAN MEAN SEA LEVEL 2025 - Global Ocean Mean Sea Level time series and trend from Observations Reprocessing. Copernicus Marine Service; https://marine.copernicus.eu/access-data/ocean-monitoring-indicators/time-series-mean-sea-level-anomalies-over-global-ocean-and-associated-trend; accessed 10 February, 2025.
• 28. GLOBAL TEMPERATURE REPORT 2025 - Global temperature report. Earth System Science Center, the University of Alabama in Huntsville; https://www.nsstc.uah.edu/climate/; accessed 10 February, 2025.
• 29. GOESSLING H.F., RACKOW T., JUNG T. 2024 - Recent global temperature surge intensified by record-low planetary albedo. Science 387: 68-73.
• 30. GOLDBERG J. 2025 - Faults on power grid skyrocketed in hours before L.A. firestorm began. „Los Angeles Times”; https://www.latimes.com/california/story/2025-01-09/power-grids-at-three-major-fires-saw- massive-influx-in-faults-before-fires; accessed 20 April, 2025.
• 31. HADCET 2025 - Hadley Centre Central England Temperature (Had CET) dataset; https://www.metoffice.gov.uk/hadobs/hadcet/graphs/ts_meantemp_cet.png; accessed 6 February 2025.
• 32. HARRISON R.G., NICOLL K.A., AMBAUM M.H.P., MARLTON G.J., APLIN K.L., LOCKWOOD M. 2020 - Precipitation modification by ionization. Physical Review Letters, 124, 198701.
• 33. HEAT WAVE INDEX 2025 - Heat Wave Index in the United States between 1895 and2020; https://www.statista.com/statistics/1293872/usheat-wave-index/; accessed 12 April 2025.
• 34. HUMLUM O., ELBERLING B., HORMES A., FJORDHEIM K., HANSEN O.H., HEINEMEIER J. 2005 - Late-Holocene glacier growth in Svalbard, documented by subglacial relict vegetation and living soil microbes. The Holocene, 15 (3): 396-407.
• 35. IPCC 2021 - Climate Change 2021: the Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change; https://www.ipcc.ch/report/ar6/wg1/; accessed 10 February, 2025.
• 36. IPCC 2023 - Climate Change 2023: Synthesis Report; https://www.ipcc.ch/report/ar6/syr/; accessed 10 February, 2025.
• 37. JENKINS S., SMITH C., ALLEN M., GRAINGER R. 2023 - Tonga eruption increases chance of temporary surface temperature anomaly above 1.5°C. Nature Climate Change, 13: 127-129.
• 38. JONKMAN S.N., CURRAN A., BOUWER L.M. 2024 - Floods have become less deadly: an analysis of global flood fatalities 1975-2022. Natural Hazards, 120: 6327-6342.
• 39. JUDD E.J., TIERNEY J.E., LUNT D.J., MONTANEZ I.P., HUBER B.T., WING S.L., VALDES P.J. 2024 - A 485-million-year history of Earth’s surface temperature. Science, 385, eadk3705.
• 40. KAUFMAN D.S., AGER T.A., ANDERSON N.J., ANDERSON P.M., ANDREWS J.T., BARTLEIN P.J., BRUBAKER L.B., COATS L.L., CWYNAR L.C., DUVALL M.L., DYKE A.S., EDWARDS M.E., EISNER W.R., GAJEWSKI K., GEIRSDÓTTIR A., HU F.S., JENNINGS A.E., KAPLAN M.R., KERWIN M.W., LOZHKIN A.V., MACDONALD G.M., MILLER G.H., MOCK C.J., OSWALD W.W., OTTO-BLIESNER B.L., PORINCHU D.F., RÜHLAND K., SMOL J.P., STEIG E.J., WOLFE B.B. 2004 - Holocene thermal maximum in the western Arctic (0-180 W). Quaternary Science Reviews, 23 (5-6): 529-560.
• 41. KAUFMAN D.S., BROADMAN E. 2023 - Revisiting the Holocene global temperature conundrum. Nature, 614: 425-435.
• 42. KAUSE A., BRUINE DE BRUIN W., PERSSON J., THORÉN H., OLSSON L., WALLIN A., DESSAI S., VAREMAN N. 2022 - Confidence levels and likelihood terms in IPCC reports: a survey of experts from different scientific disciplines. Climatic Change, 173, 2.
• 43. KENCH P.S., FORD M.R., OWEN S.D. 2018 - Patterns of island change and persistence offer alternate adaptation pathways for atoll nations. Nature Communications, 9, 605.
• 44. KOBASHI T., MENVIEL L., JELTSCH-THÖMMES A., VINTHER B.M., BOX J.E., MUSCHELER R., NAKAEGAWA T., PFISTER P.L., DÖRING M., LEUENBERGER M., WANNER H., OHMURA A. 2017 - Volcanic influence on centennial to millennial Holocene Greenland temperature change. Scientific Reports, 7, 1441.
• 45. KOONIN S.E. 2024 - Unsettled. What Climate Science Tells Us, What it Doesn’t, and Why it Matters. Ben Bella Books.
• 46. KOWALCZAK P. 2024 - Zmiany klimatu. Polityka, ideologia, nauka, fakty (in Polish). 3S Media & Fundacja Najwyższy Czas.
• 47. KUMAR V., DHAKA S.K., HITCHMAN M.H., YODEN S. 2023 - The influence of solar-modulated regional circulations and galactic cosmic rays on global cloud distribution. Scientific Reports, 13, 3707.
• 48. LACELLE D., FONTAINE M., FOREST A.P., KOKELJ S. 2014 - High-resolution stable water isotopes as tracers of thaw unconformities in permafrost: a case study from western Arctic Canada. Chemical Geology, 368: 85-96.
• 49. LEWIS S.E., WÜRST R.A.J., WEBSTER J.M., SHIELDS G.A. 2008 - Mid-late Holocene sea-level variability in eastern Australia. Terra Nova, 21 (1): 74-81.
• 50. LINDSEY R. 2021 - Climate Change: Incoming Sunlight; https://www.climate.gov/news-features/understanding-climate/climate-change-incoming-sunlight; accessed 18 February, 2025.
• 51. LINDZEN R.S., CHRISTY J.R. 2024 - Reassessing the climate change narrative. Asia-Pacific Journal of Atmospheric Sciences, 60: 319-327.
• 52. LIUZ., ZHU J., ROSENTHAL Y., ZHANG X., OTTO-BLIESNER B.L., TIMMERMANN A., SMITH R.S., LOHMANN S.G., ZHENG W., TIMM O.E. 2014 - The Holocene temperature conundrum. Proceedings of the National Academy of Sciences, 111 (34): E3501-E3505.
• 53. LÜDECKE H.J. 2023- Analysis of the Moreno et al. (2022) Publication on EIKE Using Peter Gleick’s Toolbox. International Journal of Communication, 17: 2068-2076.
• 54. MANN M.E., BRADLEY R.S., HUGHES M.K. 1998 - Global-scale temperature patterns and climate forcing over the past six centuries. Nature, 392: 779-787.
• 55. MANN M.E., BRADLEY R.S., HUGHES M.K. 1999 - Northern Hemisphere temperatures during the past millennium: Inferences, uncertainties, and limitations. Geophysical Research Letters, 26: 759-762.
• 56. MARKS L. 2025 - Contemporary global warming versus climate change in the Holocene. Przegląd Geologiczny, 73 (2): 170-176.
• 57. MASSELOT P.A., MISTRY M., VANOLI J., SCHNEIDER R., IUNGMAN T., GARCIA-LEON D., CISCAR J.C., FEYEN L., ORRU H., URBANA., BREITNER S., HUBERV., SCHNEIDERA., SAMOLI E., STAFOGGIA M., DE’DONATO F., RAO S., ARMSTRONG B., NIEUWENHUIJSEN M., VICEDO-CABRERA A.M., GASPARRINI A. 2023 - Excess mortality attributed to heat and cold: a health impact assessment study in 854 cities in Europe. The Lancet Planetary Health, 7 (4): e271-e281.
• 58. MAUE R.N. 2025 - Global Tropical Cyclone Activity; https://climatlas.com/tropical; accessed 18 February, 2025.
• 59. MAYEWSKI P.A., ROHLING E.E., STANGER J.C., KARLEN W., MAASCH K.A., MEEKER L.D., MEYERSON E.A., GASSE F., VAN KREVELD S., HOLMGREN K., LEE-THORP J., ROSQVIST G., RACK F., STAUBWASSER M., SCHNEIDER R.R., STEIG E.J. 2004 - Holocene climate variability. Quaternary Research, 62 (3): 243-255.
• 60. MCINTYRE S., MCKITRICK R. 2005 - Hockey sticks, principal components, and spurious significance. Geophysical Research Letters, 32, L03710.
• 61. MCKITRICK R., CHRISTY J. 2018 - A test of the tropical 200- to 300-hPa warming rate in climate models. Earth and Space Science, 5: 529-536.
• 62. MOBERG A., SONECHKIN D.M., HOLMGREN K., DATSENKO N.M., KARLEN W. 2005 - Highly variable Northern Hemisphere temperatures reconstructed from low- and high-resolution proxy data. Nature, 433: 613-617.
• 63. MOORE G., HALFAR J., MAIEED H., ADEY W., KRONZ A. 2017 - Amplification of the Atlantic Multi decadal Oscillation associated with the onset of the industrial-era warming. Scientific Reports, 7, 40861.
• 64. NAZZARENO D., SANTONI G., CEVASCO A., FIORILLO F., BELLOCCHI G. 2021 - Damaging hydrological events during the exiting of the Little Ice Age in a highland area of Southern Italy. International Journal of Hydrology Science and Technology, 11 (2): 136-165.
• 65. NUCLEAR WEAPON TESTS 2025 - Nuclear weapon tests per year. Our World in Data; https://ourworldindata.org/grapher/number-of-nuclear-weapons-tests; accessed 2 April 2025.
• 66. NUMBER OF RECORDED NATURAL DISASTER EVENTS 2025 - Number of recorded natural disaster events, 1900 to 2023. Our World in Data; https://ourworldindata.org/grapher/number-of-natural-disaster-events; accessed 9 April, 2025.
• 67. PAPROTNY D., SEBASTIAN A., MORALES-NÁPOLES O., JON- KMAN S.N. 2018 - Trends in flood losses in Europe over the past 150 years. Nature Communications, 9, 1985.
• 68. RENSSEN H., SEPPÄ H., CROSTA X., GOOSSE H., ROCHE D.M. 2012 - Global characterization of the Holocene Thermal Maximum. Quaternary Science Reviews, 48: 7-19.
• 69. RÉMY S., BELLOUIN N., PARRINGTON M., ADES M., ALEXE M., BENEDETTI A., BOUCHER O., KIPLING Z. 2024 - Tropospheric aerosols. [In:] Blunden J., Boyer T. (eds.), State of the Climate in 2023. Bulletin of the American Meteorological Society, 105 (8): S91-S94.
• 70. RODELL M., WIESE D.N. 2024 - Groundwater and terrestrial water storage. [In:] Blunden J., Boyer T. (eds.), State of the Climate in 2023. Bulletin of the American Meteorological Society, 105 (8): S67-S68.
• 71. ROTT N. 2023 - Canada’s wildfires are part of a worrying trend - but they're not without precedent; https://www.npr.org/2023/06/26/1184393713/canadas-wildfires-are-partof-a-worrying-trend-but-theyre-not-without-precedent; accessed 29 May, 2025.
• 72. SAMBORSKA V., RITCHIE H. 2024 - Wildfires. Our World in Data; https://ourworldindata.org/wildfires, accessed 2 February 2025.
• 73. SANCHEZ-LUGO A., MORICE C., NICOLAS J.P., ARGUEZ A., SEZAKI F., GOTO A. 2024 - Global surface temperature. [In:] Blunden J., Boyer T. (eds.), State of the Climate in 2023. Bulletin of the American Meteorological Society, 105 (8): S29-S33.
• 74. SCAFETTA N., WEST B.J. 2007 - Phenomenological reconstructions of the solar signature in the Northern Hemisphere surface temperature records since 1600. Journal of Geophysical Research, 112, D24S03.
• 75. SCAFETTA N., MILANI F., BIANCHINI A. 2020 - A 60-year cycle in the Meteorite fall frequency suggests a possible interplanetary dust forcing of the Earth’s climate driven by planetary oscillations. Geophysical Research Letters, 47, e2020GL089954.
• 76. SCHNEIDER L., SMERDON J.E., BÜNTGEN U., WILSON R.J.S., MYGLAN V.S., KIRDYANOW A.V., ESPER J. 2015 - Revising mid latitude summer temperatures back to AD 600 based on a wood density network. Geophysical Research Letters, 42: 4556-4562.
• 77. SCOVRONICK N., SERA F., ACQUAOTTA F., GARZENA D., FRATIANNI S., WRIGHT C.Y., GASPARRINI A.2018- The association between ambient temperature and mortality in South Africa: a time-series analysis. Environmental Research, 161: 229-235.
• 78. SHAKUN J.D., CLARK P.U., HE F., MARCOTT S.A., MIX A.C., LIU Z., OTTO-BLIESNER B., SCHMITTNERA., BARD E. 2012 - Global warming preceded by increasing carbon dioxide concentrations during the last deglaciation. Nature, 484: 49-54.
• 79. SHAVIV N.J., SVENSMARK H., VEIZER J. 2023 - The Phanerozoic climate. Annals of the New York Academy of Sciences, 1519 (1): 7-19.
• 80. SON J.Y., GOUVEIAN., BRAVO M.A., DE FREITAS C.U., BELL M.L. 2016 - The impact of temperature on mortality in a subtropical city: effects of cold, heat, and heat waves in Sao Paulo, Brazil. International Journal of Biometeorology, 60 (1): 113-21.
• 81. STACHOWSKA Z., VAN DER BILT W.G.M., STRZELECKI M.C. 2024 - Coastal lake sediments from Arctic Svalbard suggest colder summers are stormier. Nature Communications, 15, 9688.
• 82. STACKHOUSE JR. P.W., WONG T., SAWAENGPHOKHAI P., GARG J., LOEB N.G. 2024 - Earth radiation budget at the top-of-atmosphere. [In:] Blunden J., Boyer T. (eds.), State of the Climate in 2023. Bulletin of the American Meteorological Society, 105 (8): S83-S84.
• 83. STANOWISKO KNG 2019 - Stanowisko Komitetu Nauk Geologicznych Polskiej Akademii Nauk w debacie klimatycznej; chrome-extension://efaidnbmnnnibpcajpcglclefindmkaj/http://www.kngpan.agh.edu. pl/wp-content/uploads/Stanowisko-KNG_klimat_2019.pdf
• 84. STEINHILBER F., BEER J., FRÖHLICH C. 2009 - Total solar irradiance during the Holocene. Geophysical Research Letters 36, L19704.
• 85. STEPHENS S.L., MARTIN R.E., CLINTON N.E. 2007 - Prehistoric fire area and emissions from California’s forests, woodlands, shrub lands, and grasslands. Forest Ecology and Management, 251 (3): 205-216.
• 86. STUPNICKA E., BARANOWSKI T., BENDER W. 2006 - Wpływ czynników klimatycznych na procesy osadnicze w dolinach rzek środkowej Polski w okresie rzymskim i we wczesnym średniowieczu (in Polish). Archeologia Polski, LI (1-2): 93-120.
• 87. SVENSMARK H. 2007 - Cosmoclimatology: a new theory emerges. Astronomy & Geophysics, 48 (1): 1.18-1.24.
• 88. SYLVESTRE F., MAHAMAT-NOUR A., NARADOUM T., ALCOBA M., GALL., PARIS A., CRETAUXJ.F., PHAM-DUC B., LESCOULIER C., RECOUVREUR R., AHMAT M.M., GAYA D. 2024 - Strengthening of the hydrological cycle in the Lake Chad Basin under current climate change. Scientific Reports, 14, 24639.
• 89. WANG G., YANG P., ZHOU X. 2017 - Identification of the driving forces of climate change using the longest instrumental temperature record. Scientific Reports, 7 (7), 46091.
• 90. WIERZBOWSKI H. 2025 - Anthropogenic global warming from the perspective of the Phanerozoic evolution of Earth’s climate. Przegląd Geologiczny, 73 (2): 131-138.
• 91. WMO 2025 - WMO report documents spiralling weather and climate impacts; https://wmo.int/news/media-centre/wmo-report-documents-spiralling-weather-and-climate-impacts; accessed 9 April 2025.
• 92. WOODHOUSE C.A., OVERPECK J.T. 1998 - 2000 years of drought variability in the Central United States. Bulletin of the American Meteorological Society, 79 (12): 2693-2714.
• 93. VIRKKUNEN K., MOORE J.C., ISAKSSON E., POHJOLA V., PERÄMÄKI P., GRINSTED A., KEKONEN T. 2007 - Warm summers and ion concentrations in snow: comparison of present day with Medieval Warm Epoch from snow pits and an ice core from Lomonosovfonna, Svalbard. Journal of Glaciology, 53 (183): 623-634.
• 94. YANG P., WANG G., ZHANG F., ZHOU X. 2016 - Causality of global warming seen from observations: a scale analysis of driving force of the surface air temperature time series in the Northern Hemisphere. Climate Dynamics, 46: 3197-3204.
• 95. ZAMPIERI M., TORETI A., SCHINDLER A., SCOCCIMARRO E., GUALDI S. 2017 - Atlantic multi-decadal oscillation influence on weather regimes over Europe and the Mediterranean in spring and summer. Global and Planetary Change, 151: 92-100.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki (2025).