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Klima (German Wikipedia)

Analysis of information sources in references of the Wikipedia article "Klima" in German language version.

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archive.org

archive.org

  • Julius von Hann: Handbuch der Klimatologie (= Friedrich Ratzel [Hrsg.]: Bibliothek Geographischer Handbücher). Von J. Engelhorn, Stuttgart 1883, S. 1 (Online).

ia601407.us.archive.org

arizona.edu

journals.uair.arizona.edu

atmos-chem-phys-discuss.net

  • J. Hansen, M. Sato, P. Hearty, R. Ruedy, M. Kelley, V. Masson-Delmotte, G. Russell, G. Tselioudis, J. Cao, E. Rignot, I. Velicogna, E. Kandiano, K. von Schuckmann, P. Kharecha, A. N. Legrande, M. Bauer, K.-W. Lo: Ice melt, sea level rise and superstorms: evidence from paleoclimate data, climate modeling, and modern observations that 2 °C global warming is highly dangerous. In: Atmospheric Chemistry and Physics (Discussions). Band 15, Nr. 14, 2015, S. 20059–20179, doi:10.5194/acpd-15-20059-2015 (englisch, Online [PDF]).

cam.ac.uk

repository.cam.ac.uk

  • A. Berger, M. Cruci, D. A. Hodell, C. Mangili, J. F. McManus, B. Otto-Bliesner, K. Pol, D. Raynaud, L. C. Skinner, P. C. Tzedakis, E. W. Wolff, Q. Z. Yin, A. Abe-Ouchi, C. Barbante, V. Brovkin, I. Cacho, E. Capron, P. Ferretti, A. Ganopolski, J. O. Grimalt, B. Hönisch, K. Kawamura, A. Landais, V. Margari, B. Martrat, V. Masson-Delmotte, Z. Mokeddem, F. Parrenin, A. A. Prokopenko, H. Rashid, M. Schulz, N. Vazquez Riveiros (Past Interglacials Working Group of PAGES): Interglacials of the last 800,000 years. In: Reviews of Geophysics (AGU Publications). Band 54, Nr. 1, März 2016, S. 162–219, doi:10.1002/2015RG000482 (englisch, Online [PDF]).

carbonbrief.org

columbia.edu

  • James Hansen, Makiko Sato, Pushker Kharecha, David Beerling, Robert Berner, Valerie Masson-Delmotte, Mark Pagani, Maureen Raymo, Dana L. Royer, James C. Zachos: Target Atmospheric CO2: Where Should Humanity Aim? In: The Open Atmospheric Science Journal. Vol. 2, 2008, S. 217–231, doi:10.2174/1874282300802010217 (PDF)

d-nb.info

  • Sascha Leufke (Autor), Michael Hemmer, Gabriele Schrüfer, Jan Christoph Schubert (Hrsg.): Klimazonen im Geographieunterricht – Fachliche Vorstellungen und Schülervorstellungen im Vergleich in Münsteraner Arbeiten zur Geographiedidaktik, Band 02, 2011, PDF. S. 20–21.

de-ipcc.de

  • Julian M . Allwood, Valentina Bosetti, Navroz K . Dubash, Luis Gómez-Echeverri, Christoph von Stechow (Hrsg.): IPCC, 2013/14: Anhang zu den Zusammenfassungen für politische Entscheidungsträger der Beiträge der Arbeitsgruppen I, II und III zum Fünften Sachstandsbericht des Zwischenstaatlichen Ausschusses für Klimaänderungen (IPCC). Deutsche Übersetzung durch Deutsche IPCC-Koordinierungsstelle. Bonn 2016 (Online [PDF; 1,3 MB]).

doi.org

  • Michael Hantel, Helmut Kraus, Christian-Dietrich Schönwiese: 11 Climate Definitions. In: G. Fischer G. (Hrsg.): Climatology. Part 1. Landolt-Börnstein – Group V Geophysics (Numerical Data and Functional Relationships in Science and Technology). 4c1. Springer, doi:10.1007/10356990_2.
  • Matthias Heymann: Klimakonstruktionen – Von der klassischen Klimatologie zur Klimaforschung. In: NTM Zeitschrift für Geschichte der Wissenschaften, Technik und Medizin. Band 17, Nr. 2, Mai 2009, S. 171–197, doi:10.1007/s00048-009-0336-3.
  • Das Klima als Wettergesamtheit. doi:10.1175/1520-0493(1927)55<401:DKAWCA>2.0.CO;2.
  • Stefan Rahmstorf, Jason E. Box, Georg Feulner, Michael E. Mann, Alexander Robinson, Scott Rutherford, Erik J. Schaffernicht: Exceptional twentieth-century slowdown in Atlantic Ocean overturning circulation. In: Nature Climate Change. Band 5, März 2015, S. 475–480, doi:10.1038/nclimate2554 (englisch, Online [PDF]).
  • Duo Chan, Qigang Wu: Significant anthropogenic-induced changes of climate classes since 1950. In: Nature Scientific Reports. Band 5, August 2015, doi:10.1038/srep13487 (englisch).
  • John W. Williams, Stephen T. Jackson, John E. Kutzbach: Projected distributions of novel and disappearing climates by 2100 AD. In: PNAS. Band 104, Nr. 14, April 2015, S. 5738–5742, doi:10.1073/pnas.0606292104 (englisch, Online [PDF]).
  • Steven J. Phillips, Michael M. Loranty, Pieter S. A. Beck, Theodoros Damoulas, Sarah J. Knight, Scott J. Goetz: Shifts in Arctic vegetation and associated feedbacks under climate change. In: Nature Climate Change. Band 3, Nr. 7, März 2013, S. 673–677, doi:10.1038/nclimate1858 (englisch, Online [PDF]).
  • Giuseppe Zappa, Paulo Ceppi, Theodore G. Shepherd: Time-evolving sea-surface warming patterns modulate the climate change response of subtropical precipitation over land. In: PNAS. Band 117, Nr. 9, Februar 2020, S. 4539–4545, doi:10.1073/pnas.1911015117 (englisch, Online [PDF]).
  • Naia Morueta-Holme, Kristine Engemann, Pablo Sandoval-Acuña, Jeremy D. Jonas, R. Max Segnitz, Jens-Christian Svenning: Strong upslope shifts in Chimborazo's vegetation over two centuries since Humboldt. In: PNAS. Band 112, Nr. 41, Oktober 2015, S. 12741–12745, doi:10.1073/pnas.1509938112 (englisch, Online [PDF]).
  • Paul F. Hoffmann, Alan J. Kaufman, Galen P. Halverson, Daniel P. Schrag: A Neoproterozoic Snowball Earth. In: Science. Band 281, Nr. 5381, Januar 1998, S. 1342–1346, doi:10.1126/science.281.5381.1342 (englisch, Online [PDF]).
  • Dorian S. Abbot, Raymond T. Pierrehumbert: Mudball: Surface dust and Snowball Earth deglaciation. In: Journal of Geophysical Research. Band 115, D3, Februar 2010, doi:10.1029/2009JD012007 (englisch).
  • Richard J. Twitchett: The palaeoclimatology, palaeoecology and palaeoenvironmental analysis of mass extinction events. In: Palaeogeography, Palaeoclimatology, Palaeoecology. Band 232, Nr. 2–4, März 2006, S. 190–213, doi:10.1016/j.palaeo.2005.05.019 (englisch, Online [PDF]).
  • V. Ramanathan, R. J. Cicerone, H. B. Singh, J. T. Kiehl: Trace gas trends and their potential role in climate change. In: Journal of Geophysical Research. Band 90, D3, Juni 1985, S. 5547–5566, doi:10.1029/JD090iD03p05547 (englisch, Online [PDF]).
  • Kyle G. Pressel, Colleen M. Kaul, Tapio Schneider: Possible climate transitions from breakup of stratocumulus decks under greenhouse warming. In: Nature Geoscience. Band 12, Nr. 3, März 2019, S. 163–167, doi:10.1038/s41561-019-0310-1 (englisch).
  • David P. G. Bond, Paul B. Wignall: Large igneous provinces and mass extinctions: An update. In: The Geological Society of America (GSA) Special Paper. Band 505, September 2014, S. 29–55, doi:10.1130/2014.2505(02) (englisch, Online [PDF]).
  • Henk Brinkhuis, Stefan Schouten, Margaret E. Collinson, Appy Sluijs, Jaap S. Sinninghe Damsté, Gerald R. Dickens, Matthew Huber, Thomas M. Cronin, Jonaotaro Onodera, Kozo Takahashi, Jonathan P. Bujak, Ruediger Stein, Johan van der Burgh, James S. Eldrett, Ian C. Harding, André F. Lotter, Francesca Sangiorgi, Han van Konijnenburg-van Cittert, Jan W. de Leeuw, Jens Matthiessen, Jan Backman, Kathryn Moran: Episodic fresh surface waters in the Eocene Arctic Ocean. In: Nature. Band 441, 2006, S. 606–609, doi:10.1038/nature04692 (englisch, Online [PDF]).
  • Mathew J. Owens, Mike Lockwood, Ed Hawkins, Ilya Usoskin, Gareth S. Jones, Luke Barnard, Andrew Schurer, John Fasullo: The Maunder Minimum and the Little Ice Age: an update from recent reconstructions and climate simulations. In: Journal of Space Weather and Space Climate. Band 7, Dezember 2017, doi:10.1051/swsc/2017034 (englisch, Online [PDF]).
  • Dim Coumou, Vladimir Petoukhov, Stefan Rahmstorf, Stefan Petri, Hans Joachim Schellnhuber: Quasi-resonant circulation regimes and hemispheric synchronization of extreme weather in boreal summer. In: PNAS. Band 111, Nr. 34, August 2014, S. 12331–12336, doi:10.1073/pnas.1412797111 (englisch).
  • Kai Kornhuber, Scott Osprey, Dim Coumou, Stefan Petri, Vladimir Petoukhov, Stefan Rahmstorf, Lesley Gray: Extreme weather events in early summer 2018 connected by a recurrent hemispheric wave-7 pattern. In: Environmental Research Letters. Band 14, Nr. 5, April 2019, doi:10.1088/1748-9326/ab13bf (englisch).
  • Peter U. Clark, Jeremy D. Shakun, Shaun A. Marcott, Alan C. Mix, Michael Eby, Scott Kulp, Anders Levermann, Glenn A. Milne, Patrik L. Pfister, Benjamin D. Santer, Daniel P. Schrag, Susan Solomon, Thomas F. Stocker, Benjamin H. Strauss, Andrew J. Weaver, Ricarda Winkelmann, David Archer, Edouard Bard, Aaron Goldner, Kurt Lambeck, Raymond T. Pierrehumbert, Gian-Kasper Plattner: Consequences of twenty-first-century policy for multi-millennial climate and sea-level change. In: Nature Climate Change. Band 6, April 2016, S. 360–369, doi:10.1038/nclimate2923 (englisch, Online [PDF]).
  • Richard E. Zeebe: Time-dependent climate sensitivity and the legacy of anthropogenic greenhouse gas emissions. In: PNAS. Band 110, Nr. 34, August 2013, S. 13739–13744, doi:10.1073/pnas.1222843110 (englisch).
  • A. Ganopolski, R. Winkelmann, H. J. Schellnhuber: Critical insolation–CO2 relation for diagnosing past and future glacial inception. In: Nature. Band 529, Nr. 7585, Januar 2016, S. 200–203, doi:10.1038/nature16494 (englisch, Online).
  • Susan Solomon, Gian-Kasper Plattner, Reto Knutti, Pierre Friedlingstein: Irreversible climate change due to carbon dioxide emissions. In: PNAS. Band 106, Nr. 6, Februar 2009, S. 1704–1709, doi:10.1073/pnas.0812721106 (englisch).
  • Richard E. Zeebe, Andy Ridgwell, James C. Zachos: Anthropogenic carbon release rate unprecedented during the past 66 million years. In: Nature Geoscience. Band 9, Nr. 4, April 2016, S. 325–329, doi:10.1038/ngeo2681 (englisch, Online [PDF]).
  • Gerta Keller, Paula Mateo, Jahnavi Punekar, Hassan Khozyem, Brian Gertsch, Jorge Spangenberg, Andre Mbabi Bitchong, Thierry Adatte: Environmental changes during the Cretaceous-Paleogene mass extinction and Paleocene-Eocene Thermal Maximum: Implications for the Anthropocene. In: Gondwana Research. Band 56, April 2018, S. 69–89, doi:10.1016/j.gr.2017.12.002 (englisch, Online [PDF]).
  • A. Berger, M. Cruci, D. A. Hodell, C. Mangili, J. F. McManus, B. Otto-Bliesner, K. Pol, D. Raynaud, L. C. Skinner, P. C. Tzedakis, E. W. Wolff, Q. Z. Yin, A. Abe-Ouchi, C. Barbante, V. Brovkin, I. Cacho, E. Capron, P. Ferretti, A. Ganopolski, J. O. Grimalt, B. Hönisch, K. Kawamura, A. Landais, V. Margari, B. Martrat, V. Masson-Delmotte, Z. Mokeddem, F. Parrenin, A. A. Prokopenko, H. Rashid, M. Schulz, N. Vazquez Riveiros (Past Interglacials Working Group of PAGES): Interglacials of the last 800,000 years. In: Reviews of Geophysics (AGU Publications). Band 54, Nr. 1, März 2016, S. 162–219, doi:10.1002/2015RG000482 (englisch, Online [PDF]).
  • James Hansen, Makiko Sato, Pushker Kharecha, David Beerling, Robert Berner, Valerie Masson-Delmotte, Mark Pagani, Maureen Raymo, Dana L. Royer, James C. Zachos: Target Atmospheric CO2: Where Should Humanity Aim? In: The Open Atmospheric Science Journal. Vol. 2, 2008, S. 217–231, doi:10.2174/1874282300802010217 (PDF)
  • Richard K. Bambach: Phanerozoic biodiversity mass extinctions. In: Annual Review of Earth and Planetary Sciences. Band 34, Mai 2006, S. 127–155, doi:10.1146/annurev.earth.33.092203.122654 (englisch).
  • James F. Kasting, Shuhei Ono: Palaeoclimates: the first two billion years. In: The Royal Society Publishing, Philosophical Transactions B. Juni 2006, doi:10.1098/rstb.2006.1839 (englisch).
  • Robert E. Kopp, Joseph L. Kirschvink, Isaac A. Hilburn, Cody Z. Nash: The Paleoproterozoic snowball Earth: A climate disaster triggered by the evolution of oxygenic photosynthesis. In: PNAS. Band 102, Nr. 32, Juni 2005, S. 11131–11136, doi:10.1073/pnas.0504878102 (englisch).
  • David Beerling, Robert A. Berner, Fred T. Mackenzie, Michael B. Harfoot, John A. Pyle: Methane and the CH4-related greenhouse effect over the past 400 million years. In: American Journal of Science. Band 309, Februar 2009, S. 97–113, doi:10.2475/02.2009.01 (englisch, Online [PDF]).
  • David P. G. Bond, Stephen E. Grasby: On the causes of mass extinctions. In: Palaeogeography, Palaeoclimatology, Palaeoecology. Band 478, Nr. 15, Juli 2017, S. 3–29, doi:10.1016/j.palaeo.2016.11.005 (englisch).
  • Michael J. Benton, Richard J. Twitchett: How to kill (almost) all life: the end-Permian extinction event. In: Trends in Ecology and Evolution. Band 18, Nr. 7, Juli 2003, S. 358–365, doi:10.1016/S0169-5347(03)00093-4 (englisch, Online [PDF]).
  • F. Wilhelms, H. Miller, M. D. Gerasimoff, C. Druecker, A. Frenzel, D. Fritzsche, H. Grobe, S. B. Hansen, S. A. E. Hilmarsson, G. Hoffmann, K. Hörnby, A. Jaeschke, S. S. Jakobsdottir, P. Juckschat, A. Karsten, L. Karsten, P. R. Kaufmann, T. Karlin, E. Kohlberg, G. Kleffel, A. Lambrecht, A. Lambrecht, G. Lawer, I. Schaermeli, J. Schmitt, S. G. Sheldon, M. Takata, M. Trenke, B. Twarloh, F. Valero-Delgado, D. Wilhelms-Dick: The EPICA Dronning Maud Land deep drilling operation. In: Annals of Glaciology. Band 55, Nr. 68, 2014, S. 355–366, doi:10.3189/2014AoG68A189 (englisch, Online [PDF]).
  • Oliver Wetter, Christian Pfister, Johannes P. Werner, Eduardo Zorita, Sebastian Wagner, Sonia I. Seneviratne, Jürgen Herget, Uwe Grünewald, Jürg Luterbacher, Maria-Joao Alcoforado, Mariano Barriendos, Ursula Bieber, Rudolf Brázdil, Karl H. Burmeister, Chantal Camenisch, Antonio Contino, Petr Dobrovolný, Rüdiger Glaser, Iso Himmelsbach, Andrea Kiss, Oldřich Kotyza, Thomas Labbé, Danuta Limanówka, Laurent Litzenburger, Øyvind Nordl, Kathleen Pribyl, Dag Retsö, Dirk Riemann, Christian Rohr, Werner Siegfried, Johan Söderberg, Jean-Laurent Spring: The year-long unprecedented European heat and drought of 1540 – a worst case. In: Climatic Change. Band 125, Nr. 3–4, August 2014, S. 349–363, doi:10.1007/s10584-014-1184-2 (englisch, Online [PDF]).
  • Dennis V. Kent, Paul E. Olsen, Cornelia Rasmussen, Christopher Lepre, Roland Mundil, Randall B. Irmis, George E. Gehrels, Dominique Giesler, John W. Geissman, William G. Parker: Empirical evidence for stability of the 405-kiloyear Jupiter–Venus eccentricity cycle over hundreds of millions of years. In: PNAS. Band 115, Nr. 24, Juni 2018, doi:10.1073/pnas.1800891115 (englisch).
  • Isabel P. Montañez, Jennifer C. McElwain, Christopher J. Poulsen, Joseph D. White, William A. DiMichele, Jonathan P. Wilson, Galen Griggs, Michael T. Hren: Climate, pCO2 and terrestrial carbon cycle linkages during late Palaeozoic glacial–interglacial cycles. In: Nature Geoscience. Band 9, Nr. 11, November 2016, S. 824–828, doi:10.1038/ngeo2822 (englisch, Online [PDF]).
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  • J. Hansen, M. Sato, P. Hearty, R. Ruedy, M. Kelley, V. Masson-Delmotte, G. Russell, G. Tselioudis, J. Cao, E. Rignot, I. Velicogna, E. Kandiano, K. von Schuckmann, P. Kharecha, A. N. Legrande, M. Bauer, K.-W. Lo: Ice melt, sea level rise and superstorms: evidence from paleoclimate data, climate modeling, and modern observations that 2 °C global warming is highly dangerous. In: Atmospheric Chemistry and Physics (Discussions). Band 15, Nr. 14, 2015, S. 20059–20179, doi:10.5194/acpd-15-20059-2015 (englisch, Online [PDF]).
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  • Will Steffen, Johan Rockström, Katherine Richardson, Timothy M. Lenton, Carl Folke, Diana Liverman, Colin P. Summerhayes, Anthony D. Barnosky, Sarah E. Cornell, Michel Crucifix, Jonathan F. Donges, Ingo Fetzer, Steven J. Lade, Marten Scheffer, Ricarda Winkelmann, Hans Joachim Schellnhuber: Trajectories of the Earth System in the Anthropocene. In: PNAS. Band 115, Nr. 33, August 2018, S. 8252–8259, doi:10.1073/pnas.1810141115 (englisch).
  • K. D. Burke, J. W. Williams, M. A. Chandler, A. M. Haywood, D. J. Lunt, B. L. Otto-Bliesner: Pliocene and Eocene provide best analogs for near-future climates. In: PNAS. Band 115, Nr. 52, Dezember 2018, S. 132882–13293, doi:10.1073/pnas.1809600115 (englisch).
  • David L. Kidder, Thomas R. Worsley: A human-induced hothouse climate? In: GSA Today (The Geological Society of America). Band 22, Nr. 2, Februar 2012, S. 4–11, doi:10.1130/G131A.1 (englisch, Online [PDF]).
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