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Klimatické změny (Czech Wikipedia)

Analysis of information sources in references of the Wikipedia article "Klimatické změny" in Czech language version.

refsWebsite
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32doi.org
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16worldcat.org
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8web.archive.org
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7cmes.cz
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6phys.org
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5ametsoc.org
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5nature.com
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4researchgate.net
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4wiley.com
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3nih.gov
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2oup.com
485th place
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2arxiv.org
69th place
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2uchicago.edu
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1lorraine-lisiecki.com
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1muni.cz
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1perun-klima.cz
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1academia.edu
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1tellusa.net
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1iop.org
1,725th place
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1whoi.edu
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1noaa.gov
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1climate.gov
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1ucar.edu
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1niwa.co.nz
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1science.org
1,160th place
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1colostate.edu
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1gnosis.cz
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1globalchange.gov
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1rice.edu
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1pnas.org
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1umich.edu
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1geochemicalperspectivesletters.org
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1utoronto.ca
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1harvard.edu
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1geosociety.org
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1uottawa.ca
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1sinauer.com
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1theconversation.com
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1euanmearns.com
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academia.edu

  • HULME, Mike. Climate Change, Concept of. International Encyclopedia of Geography: People, the Earth, Environment and Technology. 2016-01-01, s. 1. Dostupné online [cit. 2022-01-11]. 

ametsoc.org

journals.ametsoc.org

arxiv.org

  • MARTY, Bernard; ZIMMERMANN, Laurent; PUJOL, Magali; BURGESS, Ray; PHILIPPOT, Pascal. Nitrogen Isotopic Composition and Density of the Archean Atmosphere. S. 101–104. Science [online]. 2013-10-04. Roč. 342, čís. 6154, s. 101–104. Dostupné online. DOI 10.1126/science.1240971. (anglicky) 
  • SCHRÖDER, K.-P.; CONNON SMITH, Robert. Distant future of the Sun and Earth revisited. S. 155–163. Monthly Notices of the Royal Astronomical Society [online]. 2008-05-01. Roč. 386, čís. 1, s. 155–163. Dostupné online. DOI 10.1111/j.1365-2966.2008.13022.x. (anglicky) 

climate.gov

  • What is the MJO, and why do we care? | NOAA Climate.gov. www.climate.gov [online]. [cit. 2022-01-11]. Dostupné online. (anglicky) 

cmes.cz

slovnik.cmes.cz

  • Změna klimatu. Meteorologický slovník [online]. Česká meteorologická společnost [cit. 2022-01-11]. Dostupné online. 
  • Oscilace Maddenova–Julianova. Meteorologický slovník [online]. [cit. 2022-01-11]. Dostupné online. 
  • Oscilace severoatlantická. Meteorologický slovník [online]. [cit. 2022-01-11]. Dostupné online. 
  • Oscilace kvazidvouletá. Meteorologický slovník [online]. [cit. 2022-01-11]. Dostupné online. 
  • Oscilace dekádní pacifická. Meteorologický slovník [online]. [cit. 2022-01-11]. Dostupné online. 
  • Oscilace multidekádní atlantická. Meteorologický slovník [online]. [cit. 2022-01-11]. Dostupné online. 
  • Oscilace arktická. Meteorologický slovník [online]. [cit. 2022-01-11]. Dostupné online. 

colostate.edu

atmos.colostate.edu

  • Annular Modes - Introduction. www.atmos.colostate.edu [online]. [cit. 2022-01-11]. Dostupné online. 

doi.org

dx.doi.org

  • LISIECKI, Lorraine E.; RAYMO, Maureen E. A Pliocene-Pleistocene stack of 57 globally distributed benthic δ 18 O records: PLIOCENE-PLEISTOCENE BENTHIC STACK. Paleoceanography [online]. 2005-03. Roč. 20, čís. 1. Dostupné online. DOI 10.1029/2004PA001071. (anglicky) 
  • HSIUNG, Jane. Estimates of Global Oceanic Meridional Heat Transport. Journal of Physical Oceanography. 1985-11-01, roč. 15, čís. 11, s. 1405–1413. Dostupné online [cit. 2022-01-11]. ISSN 0022-3670. DOI 10.1175/1520-0485(1985)015<1405:EOGOMH>2.0.CO;2. (EN) 
  • VALLIS, Geoffrey K.; FARNETI, Riccardo. Meridional energy transport in the coupled atmosphere-ocean system: scaling and numerical experiments: MERIDIONAL ENERGY TRANSPORT. Quarterly Journal of the Royal Meteorological Society. 2009-10, roč. 135, čís. 644, s. 1643–1660. Dostupné online [cit. 2022-01-11]. DOI 10.1002/qj.498. (anglicky) 
  • TRENBERTH, Kevin E.; FASULLO, John T.; KIEHL, Jeffrey. Earth's Global Energy Budget. Bulletin of the American Meteorological Society. 2009-03, roč. 90, čís. 3, s. 311–324. Dostupné online [cit. 2022-01-11]. ISSN 0003-0007. DOI 10.1175/2008BAMS2634.1. (anglicky) 
  • HASSELMANN, K. Stochastic climate models Part I. Theory. Tellus. 1976-12, roč. 28, čís. 6, s. 473–485. Dostupné online [cit. 2022-01-11]. DOI 10.1111/j.2153-3490.1976.tb00696.x. (anglicky) 
  • LIU, Zhengyu. Dynamics of Interdecadal Climate Variability: A Historical Perspective*. Journal of Climate. 2012-03-15, roč. 25, čís. 6, s. 1963–1995. Dostupné online [cit. 2022-01-11]. ISSN 0894-8755. DOI 10.1175/2011JCLI3980.1. (anglicky) 
  • BROWN, Patrick T.; LI, Wenhong; CORDERO, Eugene C. Comparing the model-simulated global warming signal to observations using empirical estimates of unforced noise. Scientific Reports. 2015-09, roč. 5, čís. 1, s. 9957. Dostupné online [cit. 2022-01-11]. ISSN 2045-2322. DOI 10.1038/srep09957. PMID 25898351. (anglicky) 
  • MEEHL, Gerald A.; HU, Aixue; ARBLASTER, Julie M. Externally Forced and Internally Generated Decadal Climate Variability Associated with the Interdecadal Pacific Oscillation. Journal of Climate. 2013-09-15, roč. 26, čís. 18, s. 7298–7310. Dostupné online [cit. 2022-01-11]. ISSN 0894-8755. DOI 10.1175/JCLI-D-12-00548.1. (anglicky) 
  • ENGLAND, Matthew H.; MCGREGOR, Shayne; SPENCE, Paul. Recent intensification of wind-driven circulation in the Pacific and the ongoing warming hiatus. Nature Climate Change. 2014-03, roč. 4, čís. 3, s. 222–227. Dostupné online [cit. 2022-01-11]. ISSN 1758-678X. DOI 10.1038/nclimate2106. (anglicky) 
  • BROWN, Patrick T.; LI, Wenhong; LI, Laifang. Top-of-atmosphere radiative contribution to unforced decadal global temperature variability in climate models. Geophysical Research Letters. 2014-07-28, roč. 41, čís. 14, s. 5175–5183. Dostupné online [cit. 2022-01-11]. DOI 10.1002/2014GL060625. (anglicky) 
  • PALMER, M D; MCNEALL, D J. Internal variability of Earth’s energy budget simulated by CMIP5 climate models. Environmental Research Letters. 2014-03-01, roč. 9, čís. 3, s. 034016. Dostupné online [cit. 2022-01-11]. ISSN 1748-9326. DOI 10.1088/1748-9326/9/3/034016. 
  • WANG, Chunzai. A review of ENSO theories. National Science Review. 2018-11-01, roč. 5, čís. 6, s. 813–825. Dostupné online [cit. 2022-01-11]. ISSN 2095-5138. DOI 10.1093/nsr/nwy104. (anglicky) 
  • BALDWIN, M. P.; GRAY, L. J.; DUNKERTON, T. J. The quasi-biennial oscillation. Reviews of Geophysics. 2001-05, roč. 39, čís. 2, s. 179–229. Dostupné online [cit. 2022-01-11]. DOI 10.1029/1999RG000073. (anglicky) 
  • NEWMAN, Matthew; ALEXANDER, Michael A.; AULT, Toby R. The Pacific Decadal Oscillation, Revisited. Journal of Climate. 2016-06-15, roč. 29, čís. 12, s. 4399–4427. Dostupné online [cit. 2022-01-11]. ISSN 0894-8755. DOI 10.1175/JCLI-D-15-0508.1. (anglicky) 
  • KNUDSEN, Mads Faurschou; SEIDENKRANTZ, Marit-Solveig; JACOBSEN, Bo Holm. Tracking the Atlantic Multidecadal Oscillation through the last 8,000 years. Nature Communications. 2011-09, roč. 2, čís. 1, s. 178. Dostupné online [cit. 2022-01-11]. ISSN 2041-1723. DOI 10.1038/ncomms1186. PMID 21285956. (anglicky) 
  • SKONIECZNY, C.; MCGEE, D.; WINCKLER, G. Monsoon-driven Saharan dust variability over the past 240,000 years. Science Advances. 2019-01-18, roč. 5, čís. 1, s. eaav1887. Dostupné online [cit. 2022-01-11]. ISSN 2375-2548. DOI 10.1126/sciadv.aav1887. PMID 30613782. (anglicky) 
  • STOCKER, Thomas F.; JOHNSEN, Sigfùs J. A minimum thermodynamic model for the bipolar seesaw: THERMAL BIPOLAR SEESAW. Paleoceanography. 2003-12, roč. 18, čís. 4, s. n/a–n/a. Dostupné online [cit. 2022-01-11]. DOI 10.1029/2003PA000920. (anglicky) 
  • ROBERT, François; CHAUSSIDON, Marc. A palaeotemperature curve for the Precambrian oceans based on silicon isotopes in cherts. S. 969–972. Nature [online]. 2006-10. Roč. 443, čís. 7114, s. 969–972. Dostupné online. DOI 10.1038/nature05239. (anglicky) 
  • GAUCHER, Eric A.; GOVINDARAJAN, Sridhar; GANESH, Omjoy K. Palaeotemperature trend for Precambrian life inferred from resurrected proteins. S. 704–707. Nature [online]. 2008-02. Roč. 451, čís. 7179, s. 704–707. Dostupné online. DOI 10.1038/nature06510. (anglicky) 
  • FLAMENT, Nicolas; COLTICE, Nicolas; REY, Patrice F. The evolution of the 87Sr/86Sr of marine carbonates does not constrain continental growth. S. 177–188. Precambrian Research [online]. 2013-05. Roč. 229, s. 177–188. Dostupné online. DOI 10.1016/j.precamres.2011.10.009. (anglicky) 
  • FRANCK, S.; BOUNAMA, Christine; VON BLOH, Werner. Causes and timing of future biosphere extinctions. S. 85–92. Biogeosciences [online]. 2006-03-10. Roč. 3, čís. 1, s. 85–92. Dostupné online. DOI 10.5194/bg-3-85-2006. (anglicky) 
  • KRISSANSEN-TOTTON, Joshua; ARNEY, Giada N.; CATLING, David C. Constraining the climate and ocean pH of the early Earth with a geological carbon cycle model. S. 4105–4110. Proceedings of the National Academy of Sciences [online]. 2018-04-17 [cit. 2021-10-15]. Roč. 115, čís. 16, s. 4105–4110. Dostupné v archivu pořízeném z originálu dne 2021-11-04. DOI 10.1073/pnas.1721296115. (anglicky) 
  • MARTY, Bernard; ZIMMERMANN, Laurent; PUJOL, Magali; BURGESS, Ray; PHILIPPOT, Pascal. Nitrogen Isotopic Composition and Density of the Archean Atmosphere. S. 101–104. Science [online]. 2013-10-04. Roč. 342, čís. 6154, s. 101–104. Dostupné online. DOI 10.1126/science.1240971. (anglicky) 
  • TARTÈSE, R.; CHAUSSIDON, M.; GURENKO, A.; DELARUE, F.; ROBERT, F. Warm Archaean oceans reconstructed from oxygen isotope composition of early-life remnants. S. 55–65. Geochemical Perspectives Letters [online]. 2017. S. 55–65. Dostupné online. DOI 10.7185/geochemlet.1706. (anglicky) 
  • CROWLEY, Thomas J.; HYDE, William T.; PELTIER, W. Richard. CO 2 levels required for deglaciation of a “near-snowball” Earth. S. 283–286. Geophysical Research Letters [online]. 2001-01-15. Roč. 28, čís. 2, s. 283–286. Dostupné online. DOI 10.1029/2000GL011836. Bibcode 2001GeoRL..28..283C. (anglicky) 
  • TABOR, Neil; ROYER, Dana. CO2 as a primary driver of Phanerozoic climate. GSA Today [online]. Dostupné online. DOI 10.1130/1052-5173(2004)014<0004:CAAPDO>2.0.CO:2.. (anglicky) 
  • PRICE, Gregory D.; TWITCHETT, Richard J.; WHEELEY, James R.; BUONO, Giuseppe. Isotopic evidence for long term warmth in the Mesozoic. S. 1438. Scientific Reports [online]. 2013-12. Roč. 3, čís. 1, s. 1438. Dostupné online. DOI 10.1038/srep01438. (anglicky) 
  • STEIN, Ruediger; FAHL, Kirsten; SCHRECK, Michael; KNORR, Gregor; NIESSEN, Frank; FORWICK, Matthias; GEBHARDT, Catalina. Evidence for ice-free summers in the late Miocene central Arctic Ocean. S. 11148. Nature Communications [online]. 2016-09. Roč. 7, čís. 1, s. 11148. Dostupné online. DOI 10.1038/ncomms11148. (anglicky) 
  • WOLBACH, Wendy S.; BALLARD, Joanne P.; MAYEWSKI, Paul A.; ADEDEJI, Victor; BUNCH, Ted E.; FIRESTONE, Richard B.; FRENCH, Timothy A. Extraordinary Biomass-Burning Episode and Impact Winter Triggered by the Younger Dryas Cosmic Impact ∼12,800 Years Ago. 1. Ice Cores and Glaciers. S. 165–184. The Journal of Geology [online]. 2018-03. Roč. 126, čís. 2, s. 165–184. Dostupné online. DOI 10.1086/695703. (anglicky) 
  • WOLBACH, Wendy S.; BALLARD, Joanne P.; MAYEWSKI, Paul A.; PARNELL, Andrew C.; CAHILL, Niamh; ADEDEJI, Victor; BUNCH, Ted E. Extraordinary Biomass-Burning Episode and Impact Winter Triggered by the Younger Dryas Cosmic Impact ∼12,800 Years Ago. 2. Lake, Marine, and Terrestrial Sediments. S. 185–205. The Journal of Geology [online]. 2018-03. Roč. 126, čís. 2, s. 185–205. Dostupné online. DOI 10.1086/695704. (anglicky) 
  • SCHRÖDER, K.-P.; CONNON SMITH, Robert. Distant future of the Sun and Earth revisited. S. 155–163. Monthly Notices of the Royal Astronomical Society [online]. 2008-05-01. Roč. 386, čís. 1, s. 155–163. Dostupné online. DOI 10.1111/j.1365-2966.2008.13022.x. (anglicky) 
  • SVENSMARK, Henrik. Cosmoclimatology: a new theory emerges. S. 1.18–1.24. Astronomy & Geophysics [online]. 2007-02. Roč. 48, čís. 1, s. 1.18–1.24. Dostupné online. DOI 10.1111/j.1468-4004.2007.48118.x. (anglicky) 

euanmearns.com

geochemicalperspectivesletters.org

  • TARTÈSE, R.; CHAUSSIDON, M.; GURENKO, A.; DELARUE, F.; ROBERT, F. Warm Archaean oceans reconstructed from oxygen isotope composition of early-life remnants. S. 55–65. Geochemical Perspectives Letters [online]. 2017. S. 55–65. Dostupné online. DOI 10.7185/geochemlet.1706. (anglicky) 

geosociety.org

globalchange.gov

science2017.globalchange.gov

  • USGCRP. Climate Science Special Report. science2017.globalchange.gov [online]. [cit. 2019-04-27]. Dostupné online. (anglicky) 

gnosis.cz

magazin.gnosis.cz

  • Klimatické jevy a anomálie | Magazín Gnosis [online]. [cit. 2022-01-11]. Dostupné online. 

harvard.edu

adsabs.harvard.edu

iop.org

iopscience.iop.org

lorraine-lisiecki.com

  • LISIECKI, Lorraine E.; RAYMO, Maureen E. A Pliocene-Pleistocene stack of 57 globally distributed benthic δ 18 O records: PLIOCENE-PLEISTOCENE BENTHIC STACK. Paleoceanography [online]. 2005-03. Roč. 20, čís. 1. Dostupné online. DOI 10.1029/2004PA001071. (anglicky) 

muni.cz

amper.ped.muni.cz

  • HOLLAN, Jan. Pojmy vztahující se ke globální změně [online]. amper.ped.muni.cz [cit. 2014-01-15]. Dostupné online. 

nature.com

  • BROWN, Patrick T.; LI, Wenhong; CORDERO, Eugene C. Comparing the model-simulated global warming signal to observations using empirical estimates of unforced noise. Scientific Reports. 2015-09, roč. 5, čís. 1, s. 9957. Dostupné online [cit. 2022-01-11]. ISSN 2045-2322. DOI 10.1038/srep09957. PMID 25898351. (anglicky) 
  • ENGLAND, Matthew H.; MCGREGOR, Shayne; SPENCE, Paul. Recent intensification of wind-driven circulation in the Pacific and the ongoing warming hiatus. Nature Climate Change. 2014-03, roč. 4, čís. 3, s. 222–227. Dostupné online [cit. 2022-01-11]. ISSN 1758-678X. DOI 10.1038/nclimate2106. (anglicky) 
  • KNUDSEN, Mads Faurschou; SEIDENKRANTZ, Marit-Solveig; JACOBSEN, Bo Holm. Tracking the Atlantic Multidecadal Oscillation through the last 8,000 years. Nature Communications. 2011-09, roč. 2, čís. 1, s. 178. Dostupné online [cit. 2022-01-11]. ISSN 2041-1723. DOI 10.1038/ncomms1186. PMID 21285956. (anglicky) 
  • PRICE, Gregory D.; TWITCHETT, Richard J.; WHEELEY, James R.; BUONO, Giuseppe. Isotopic evidence for long term warmth in the Mesozoic. S. 1438. Scientific Reports [online]. 2013-12. Roč. 3, čís. 1, s. 1438. Dostupné online. DOI 10.1038/srep01438. (anglicky) 
  • STEIN, Ruediger; FAHL, Kirsten; SCHRECK, Michael; KNORR, Gregor; NIESSEN, Frank; FORWICK, Matthias; GEBHARDT, Catalina. Evidence for ice-free summers in the late Miocene central Arctic Ocean. S. 11148. Nature Communications [online]. 2016-09. Roč. 7, čís. 1, s. 11148. Dostupné online. DOI 10.1038/ncomms11148. (anglicky) 

nih.gov

ncbi.nlm.nih.gov

niwa.co.nz

  • Interdecadal Pacific Oscillation. NIWA [online]. 2016-01-19 [cit. 2022-01-11]. Dostupné online. (anglicky) 

noaa.gov

cpc.noaa.gov

  • Climate Prediction Center - ENSO FAQ. web.archive.org [online]. 2009-08-27 [cit. 2022-01-11]. Dostupné v archivu pořízeném z originálu dne 2009-08-27. 

oup.com

academic.oup.com

perun-klima.cz

  • Slovník pojmů z oblasti rizik a dopadů změny klimatu [online]. Projekt Perun, 2021-12 [cit. 2022-01-11]. Dostupné online. 

phys.org

  • Variations in atmospheric oxygen levels shaped Earth's climate through the ages. phys.org [online]. 2015-06-11 [cit. 2021-10-15]. Dostupné online. (anglicky) 
  • HOOD, Marlowe. Burning all fossil fuels would scorch Earth: study. phys.org [online]. 2016-05-23 [cit. 2021-10-15]. Dostupné online. (anglicky) 
  • Climate change caused by ocean, not just atmosphere, study finds. phys.org [online]. 2014-10-24 [cit. 2021-10-15]. Dostupné online. (anglicky) 
  • Human ancestors not to blame for ancient mammal extinctions in Africa. phys.org [online]. 2018-11-22 [cit. 2021-10-15]. Dostupné online. (anglicky) 
  • Researchers compare global temperature variability in glacial and interglacial periods. phys.org [online]. 2018-02-05 [cit. 2021-10-15]. Dostupné online. (anglicky) 
  • Does climate vary more from century to century when it is warmer?. phys.org [online]. 2018-10-12 [cit. 2021-10-15]. Dostupné online. (anglicky) 

pnas.org

  • KRISSANSEN-TOTTON, Joshua; ARNEY, Giada N.; CATLING, David C. Constraining the climate and ocean pH of the early Earth with a geological carbon cycle model. S. 4105–4110. Proceedings of the National Academy of Sciences [online]. 2018-04-17 [cit. 2021-10-15]. Roč. 115, čís. 16, s. 4105–4110. Dostupné v archivu pořízeném z originálu dne 2021-11-04. DOI 10.1073/pnas.1721296115. (anglicky) 

researchgate.net

  • ROBERT, François; CHAUSSIDON, Marc. A palaeotemperature curve for the Precambrian oceans based on silicon isotopes in cherts. S. 969–972. Nature [online]. 2006-10. Roč. 443, čís. 7114, s. 969–972. Dostupné online. DOI 10.1038/nature05239. (anglicky) 
  • GAUCHER, Eric A.; GOVINDARAJAN, Sridhar; GANESH, Omjoy K. Palaeotemperature trend for Precambrian life inferred from resurrected proteins. S. 704–707. Nature [online]. 2008-02. Roč. 451, čís. 7179, s. 704–707. Dostupné online. DOI 10.1038/nature06510. (anglicky) 
  • FLAMENT, Nicolas; COLTICE, Nicolas; REY, Patrice F. The evolution of the 87Sr/86Sr of marine carbonates does not constrain continental growth. S. 177–188. Precambrian Research [online]. 2013-05. Roč. 229, s. 177–188. Dostupné online. DOI 10.1016/j.precamres.2011.10.009. (anglicky) 
  • FRANCK, S.; BOUNAMA, Christine; VON BLOH, Werner. Causes and timing of future biosphere extinctions. S. 85–92. Biogeosciences [online]. 2006-03-10. Roč. 3, čís. 1, s. 85–92. Dostupné online. DOI 10.5194/bg-3-85-2006. (anglicky) 

rice.edu

earthscience.rice.edu

science.org

sinauer.com

sites.sinauer.com

tellusa.net

theconversation.com

  • SCUDDER, Jillian. The sun won't die for 5 billion years, so why do humans have only 1 billion years left on Earth?. theconversation.com [online]. 2015-02-12 [cit. 2021-10-15]. Dostupné online. (anglicky) 

ucar.edu

cgd.ucar.edu

  • Climate Indices Information. web.archive.org [online]. 2006-06-22 [cit. 2022-01-11]. Dostupné v archivu pořízeném z originálu dne 2006-06-22. 

uchicago.edu

journals.uchicago.edu

  • WOLBACH, Wendy S.; BALLARD, Joanne P.; MAYEWSKI, Paul A.; ADEDEJI, Victor; BUNCH, Ted E.; FIRESTONE, Richard B.; FRENCH, Timothy A. Extraordinary Biomass-Burning Episode and Impact Winter Triggered by the Younger Dryas Cosmic Impact ∼12,800 Years Ago. 1. Ice Cores and Glaciers. S. 165–184. The Journal of Geology [online]. 2018-03. Roč. 126, čís. 2, s. 165–184. Dostupné online. DOI 10.1086/695703. (anglicky) 
  • WOLBACH, Wendy S.; BALLARD, Joanne P.; MAYEWSKI, Paul A.; PARNELL, Andrew C.; CAHILL, Niamh; ADEDEJI, Victor; BUNCH, Ted E. Extraordinary Biomass-Burning Episode and Impact Winter Triggered by the Younger Dryas Cosmic Impact ∼12,800 Years Ago. 2. Lake, Marine, and Terrestrial Sediments. S. 185–205. The Journal of Geology [online]. 2018-03. Roč. 126, čís. 2, s. 185–205. Dostupné online. DOI 10.1086/695704. (anglicky) 

umich.edu

deepblue.lib.umich.edu

  • WALKER, James C. G. Carbon dioxide on the early Earth. Origins of Life [online]. 1985-12-10. Dostupné online. (anglicky) 

uottawa.ca

mysite.science.uottawa.ca

utoronto.ca

atmosp.physics.utoronto.ca

web.archive.org

whoi.edu

  • El Niño & Other Oscillations - Woods Hole Oceanographic Institution [online]. [cit. 2022-01-11]. Dostupné online. (anglicky) 

wiley.com

doi.wiley.com

  • BROWN, Patrick T.; LI, Wenhong; LI, Laifang. Top-of-atmosphere radiative contribution to unforced decadal global temperature variability in climate models. Geophysical Research Letters. 2014-07-28, roč. 41, čís. 14, s. 5175–5183. Dostupné online [cit. 2022-01-11]. DOI 10.1002/2014GL060625. (anglicky) 
  • BALDWIN, M. P.; GRAY, L. J.; DUNKERTON, T. J. The quasi-biennial oscillation. Reviews of Geophysics. 2001-05, roč. 39, čís. 2, s. 179–229. Dostupné online [cit. 2022-01-11]. DOI 10.1029/1999RG000073. (anglicky) 
  • STOCKER, Thomas F.; JOHNSEN, Sigfùs J. A minimum thermodynamic model for the bipolar seesaw: THERMAL BIPOLAR SEESAW. Paleoceanography. 2003-12, roč. 18, čís. 4, s. n/a–n/a. Dostupné online [cit. 2022-01-11]. DOI 10.1029/2003PA000920. (anglicky) 

onlinelibrary.wiley.com

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