II. Natürlicher und anthropogener Klimawandel

7. Der Herzschlag der Ozeane: Welche Rolle spielen PDO, AMO, NAO & Co.?

1. Taylor, J. (1997): The Heated Rhetoric of Global Warming 15.9.1997, https://www.cato.org/publications/commentary/heated-rhetoric-global-warming

2. MacDonald, G. M., Case, R. A. (2005): Variations in the Pacific Decadal Oscillation over the past millennium: Geophysical Research Letters 32, 1-4.

3. Mantua, N. J., Hare, S. R., Zhang, Y., Wallace, J. M., Francis, R. C. (1997): A Pacific Interdecadal Climate Oscillation with Impacts on Salmon Production: Bulletin of the American Meteorological Society 78 (6), 1069-1079.

4. Spencer, R. W. (2008): Global Warming as a Natural Response to Cloud Changes Associated with the Pacific Decadal Oscillation (PDO): SPPI – Science & Policy Institute, http://scienceandpublicpolicy.org/images/stories/papers/reprint/Spencer-GW_as_Natural_response.pdf, 1-10.

5. Easterbrook, D. J. (2011): Geologic Evidence of Recurring Climate Cycles and Their Implications for the Cause of Global Climate Changes – The Past is the Key to the Future, in Easterbrook, D. J., ed., Evidence-Based Climate Science, Elsevier, S. 3-51.

6. Vahrenholt, F., Lüning, S. (2012): Die kalte Sonne, Hamburg, Hoffmann und Campe.

7. Wills, R. C., Schneider, T., Wallace, J. M., Battisti, D. S., Hartmann, D. L. (2018): Disentangling Global Warming, Multidecadal Variability, and El Niño in Pacific Temperatures: Geophysical Research Letters 45 (5), 2487-2496.

8. Kosaka, Y., Xie, S.-P. (2016): The tropical Pacific as a key pacemaker of the variable rates of global warming: Nature Geoscience 9 (9), 669-673.

9. Meehl, G. A., Hu, A., Santer, B. D., Xie, S.-P. (2016): Contribution of the Interdecadal Pacific Oscillation to twentieth-century global surface temperature trends: Nature Clim. Change 6 (11), 1005-1008.

10. Steinman, B. A., Mann, M. E., Miller, S. K. (2015): Atlantic and Pacific multidecadal oscillations and Northern Hemisphere temperatures: Science 347 (6225), 988-991.

11. Varotsos, C. A., Franzke, C. L. E., Efstathiou, M. N., Degermendzhi, A. G. (2014): Evidence for two abrupt warming events of SST in the last century: Theoretical and Applied Climatology 116 (1), 51-60.

12. Chikamoto, Y., Mochizuki, T., Timmermann, A., Kimoto, M., Watanabe, M. (2016): Potential tropical Atlantic impacts on Pacific decadal climate trends: Geophysical Research Letters 43 (13), 7143-7151.

13. England, M. H., McGregor, S., Spence, P., Meehl, G. A., Timmermann, A., Cai, W., Gupta, A. S., McPhaden, M. J., Purich, A., Santoso, A. (2014): Recent intensification of wind-driven circulation in the Pacific and the ongoing warming hiatus: Nature Climate Change 4, 222.

14. Trenberth, K. E., Fasullo, J. T. (2013): An apparent hiatus in global warming?: Earth’s Future 1 (1), 19-32.

15. Trenberth, K. E., Fasullo, J. T., Branstator, G., Phillips, A. S. (2014): Seasonal aspects of the recent pause in surface warming: Nature Climate Change 4 (10), 911-916.

16. Dai, A., Fyfe, J. C., Xie, S.-P., Dai, X. (2015): Decadal modulation of global surface temperature by internal climate variability: Nature Climate Change 5, 555.

17. Smith, D. M., Booth, B. B. B., Dunstone, N. J., Eade, R., Hermanson, L., Jones, G. S., Scaife, A. A., Sheen, K. L., Thompson, V. (2016): Role of volcanic and anthropogenic aerosols in the recent global surface warming slowdown: Nature Climate Change 6 (10), 936-940.

18. Trenberth, K. E., Shea, D. J. (2006): Atlantic hurricanes and natural variability in 2005: Geophysical Research Letters 33 (12).

19. Kerr, R. A. (2000): A North Atlantic Climate Pacemaker for the Centuries: Science 288 (5473), 1984-1985.

20. Wyatt, M. G., Kravtsov, S., Tsonis, A. A. (2012): Atlantic Multidecadal Oscillation and Northern Hemisphere’s climate variability: Climate Dynamics 38 (5-6), 929-949.

21. Wyatt, M. G., Curry, J. A. (2014): Role for Eurasian Arctic shelf sea ice in a secularly varying hemispheric climate signal during the 20th century: Climate Dynamics 42 (9), 2763-2782.

22. Schlesinger, M. E., Ramankutty, N. (1994): An oscillation in the global climate system of period 65–70 years: Nature 367 (6465), 723-726.

23. Yamamoto, A., Palter, J. B. (2016): The absence of an Atlantic imprint on the multidecadal variability of wintertime European temperature: Nature Communications 7, 10930.

24. O’Reilly, C. H., Woollings, T., Zanna, L. (2017): The Dynamical Influence of the Atlantic Multidecadal Oscillation on Continental Climate: Journal of Climate 30 (18), 7213-7230.

25. Sutton, R. T., Dong, B. (2012): Atlantic Ocean influence on a shift in European climate in the 1990s: Nature Geoscience 5, 788.

26. Sutton, R. T., Hodson, D. L. R. (2005): Atlantic Ocean Forcing of North American and European Summer Climate: Science 309 (5731), 115-118.

27. Muller, R. A., Curry, J., Groom, D., Jacobsen, R., Perlmutter, S., Rohde, R., Rosenfeld, A., Wickham, C., Wurtele, J. (2013): Decadal Variations in the Global Atmospheric Land Temperatures: Journal of Geophysical Research 118, 5280–5286.

28. Peña-Ortiz, C., Barriopedro, D., García-Herrera, R. (2015): Multidecadal Variability of the Summer Length in Europe: Journal of Climate 28 (13), 5375-5388.

29. Faillettaz, R., Beaugrand, G., Goberville, E., Kirby, R. R. (2019): Atlantic Multidecadal Oscillations drive the basin-scale distribution of Atlantic bluefin tuna: Science Advances 5 (1), eaar6993.

30. Harris, V., Edwards, M., Olhede, S. C. (2014): Multidecadal Atlantic climate variability and its impact on marine pelagic communities: Journal of Marine Systems 133, 55-69.

31. McCarthy, G. D., Gleeson, E., Walsh, S. (2015): The influence of ocean variations on the climate of Ireland: Weather 70 (8), 242-245.

32. Knight, J. R., Folland, C. K., Scaife, A. A. (2006): Climate impacts of the Atlantic Multidecadal Oscillation: Geophysical Research Letters 33 (17).

33. Kniebusch, M., Meier, H. E. M., Neumann, T., Börgel, F. (2019): Temperature Variability of the Baltic Sea Since 1850 and Attribution to Atmospheric Forcing Variables: Journal of Geophysical Research: Oceans 124 (6), 4168-4187.

34. Marullo, S., Artale, V., Santoleri, R. (2011): The SST Multidecadal Variability in the Atlantic–Mediterranean Region and Its Relation to AMO: Journal of Climate 24 (16), 4385-4401.

35. Macias, D., Garcia-Gorriz, E., Stips, A. (2013): Understanding the Causes of Recent Warming of Mediterranean Waters. How Much Could Be Attributed to Climate Change?: PLOS ONE 8 (11), e81591.

36. Krokos, G., Papadopoulos, V. P., Sofianos, S. S., Ombao, H., Dybczak, P., Hoteit, I. (2019): Natural Climate Oscillations may Counteract Red Sea Warming Over the Coming Decades: Geophysical Research Letters 46 (6), 3454-3461.

37. Lanci, L., Hirt, A. M. (2015): Evidence of Atlantic Multidecadal Oscillation in the magnetic properties of Alpine lakes during the last 2500years: Palaeogeography, Palaeoclimatology, Palaeoecology 440, 47-52.

38. Opel, T., Fritzsche, D., Meyer, H., Schütt, R., Weiler, K., Ruth, U., Wilhelms, F., Fischer, H. (2009): 115 year ice-core data from Akademii Nauk ice cap, Severnaya Zemlya: high-resolution record of Eurasian Arctic climate change: Journal of Glaciology 55 (189), 21-31.

39. Wu, H. C., Moreau, M., Linsley, B. K., Schrag, D. P., Corrège, T. (2014): Investigation of sea surface temperature changes from replicated coral Sr/Ca variations in the eastern equatorial Pacific (Clipperton Atoll) since 1874: Palaeogeography, Palaeoclimatology, Palaeoecology 412, 208-222.

40. Moreno, J., Fatela, F., Moreno, F., Leorri, E., Taborda, R., Trigo, R. (2016): Grape harvest dates as indicator of spring-summer mean maxima temperature variations in the Minho region (NW of Portugal) since the 19th century: Global and Planetary Change 141, 39-53.

41. Tokinaga, H., Xie, S.-P., Mukougawa, H. (2017): Early 20th-century Arctic warming intensified by Pacific and Atlantic multidecadal variability: Proceedings of the National Academy of Sciences 114 (24), 6227-6232.

42. bmbf.de (2015): In der Arktis wird der Klimawandel besonders deutlich: 9.4.2015, https://www.bmbf.de/de/in-der-arktis-wird-der-klimawandel-besonders-deutlich-1138.html

43. bmu.de (2016): Wie das nördlichste Dorf der Welt den Klimawandel erforscht 13.7.2016, https://www.bmu.de/meldung/wie-das-noerdlichste-dorf-der-welt-den-klimawandel-erforscht/

44. Przybylak, R., Wyszyński, P., Woźniak, M. (2018): Air temperature conditions in northern Nordaustlandet (NE Svalbard) at the end of World War II: International Journal of Climatology 38 (6), 2775-2791.

45. Chylek, P., Klett, J. D., Lesins, G., Dubey, M. K., Hengartner, N. (2014): The Atlantic Multidecadal Oscillation as a dominant factor of oceanic influence on climate: Geophysical Research Letters 41 (5), 1689-1697.

46. Scafetta, N. (2013): Discussion on climate oscillations: CMIP5 general circulation models versus a semi-empirical harmonic model based on astronomical cycles: Earth-Science Reviews 126, 321-357.

47. Tung, K.-K., Zhou, J. (2013): Using data to attribute episodes of warming and cooling in instrumental records: Proceedings of the National Academy of Sciences 110 (6), 2058-2063.

48. Wu, Z., Huang, N. E., Wallace, J. M., Smoliak, B. V., Chen, X. (2011): On the time-varying trend in global-mean surface temperature: Climate Dynamics 37 (3-4), 759-773.

49. Zhou, J., Tung, K.-K. (2013): Deducing Multi-decadal Anthropogenic Global Warming Trends Using Multiple Regression Analysis: Journal of the Atmospheric Sciences 70.

50. Large, W. G., Yeager, S. G. (2012): On the Observed Trends and Changes in Global Sea Surface Temperature and Air–Sea Heat Fluxes (1984–2006): Journal of Climate 25 (18), 6123-6135.

51. Servain, J., Caniaux, G., Kouadio, Y. K., McPhaden, M. J., Araujo, M. (2014): Recent climatic trends in the tropical Atlantic: Climate Dynamics 43 (11), 3071-3089.

52. Spencer, R. W., Braswell, W. D. (2014): The role of ENSO in global ocean temperature changes during 1955–2011 simulated with a 1D climate model: Asia-Pacific Journal of Atmospheric Sciences 50 (2), 229-237.

53. Gervais, F. (2016): Anthropogenic CO2 warming challenged by 60-year cycle: Earth-Science Reviews 155, 129-135.

54. Lu, J., Hu, A., Zeng, Z. (2014): On the possible interaction between internal climate variability and forced climate change: Geophysical Research Letters 41 (8), 2962-2970.

55. Deutscher Wetterdienst (2020): Zeitreihen und Trends: https://www.dwd.de/DE/leistungen/zeitreihen/zeitreihen.html

56. Bellomo, K., Clement, A. C., Murphy, L. N., Polvani, L. M., Cane, M. A. (2016): New observational evidence for a positive cloud feedback that amplifies the Atlantic Multidecadal Oscillation: Geophysical Research Letters 43 (18), 9852-9859.

57. Yuan, T., Oreopoulos, L., Zelinka, M., Yu, H., Norris, J. R., Chin, M., Platnick, S., Meyer, K. (2016): Positive low cloud and dust feedbacks amplify tropical North Atlantic Multidecadal Oscillation: Geophysical Research Letters 43 (3), 1349-1356.

58. Mendoza, V. M., Oda, B., Garduño, R., Villanueva, E. E., Adem, J. (2014): Simulation of the PDO effect on the North America summer climate with emphasis on Mexico: Atmospheric Research 137, 228-244.

59. Stephenson, D. B., Wanner, H., Brönnimann, S., Luterbacher, J. (2003): The History of Scientific Research on the North Atlantic Oscillation, in Hurrell, W., Kushnir, Y., Ottersen, G., and Visbeck, M., eds., The North Atlantic Oscillation: Climatic Significance and Environmental Impact, S. 37-50.

60. Hurrell, J. W., Kushnir, Y., Ottersen, G., Visbek, M. (2003): An Overview of the North Atlantic Oscillation, in Hurrell, J. W., Kushnir, Y., Ottersen, G., and Visbeck, M., eds., The North Atlantic Oscillation: Climatic Significance and Environmental Impact, Volume 134, American Geophysical Union, Geophysical Monograph Series, S. 1-35.

61. Trigo, R. M., Osborn, T. J., Corte-Real, J. M. (2002): The North Atlantic Oscillation influence on Europe: climate impacts and associated physical mechanisms: Climate Research 20 (1), 9-17.

62. Heape, R., Hirschi, J., Sinha, B. (2013): Asymmetric response of European pressure and temperature anomalies to NAO positive and NAO negative winters: Weather 68 (3), 73-80.

63. Omstedt, A., Chen, D. (2001): Influence of atmospheric circulation on the maximum ice extent in the Baltic Sea: Journal of Geophysical Research: Oceans 106 (C3), 4493-4500.

64. Schmidt, D. F., Grise, K. M., Pace, M. L. (2019): High-frequency climate oscillations drive ice-off variability for Northern Hemisphere lakes and rivers: Climatic Change 152 (3), 517-532.

65. Helama, S., Holopainen, J. (2012): Spring temperature variability relative to the North Atlantic Oscillation and sunspots — A correlation analysis with a Monte Carlo implementation: Palaeogeography, Palaeoclimatology, Palaeoecology 326–328 (0), 128-134.

66. Ascoli, D., Vacchiano, G., Turco, M., Conedera, M., Drobyshev, I., Maringer, J., Motta, R., Hacket-Pain, A. (2017): Inter-annual and decadal changes in teleconnections drive continental-scale synchronization of tree reproduction: Nature Communications 8 (1), 2205.

67. Svarva, H. L., Thun, T., Kirchhefer, A. J., Nesje, A. (2018): Little Ice Age summer temperatures in western Norway from a 700-year tree-ring chronology: The Holocene 28 (10), 1609-1622.

68. Almendra, R., Santana, P., Vasconcelos, J., Silva, G., Gonçalves, F., Ambrizzi, T. (2017): The influence of the winter North Atlantic Oscillation index on hospital admissions through diseases of the circulatory system in Lisbon, Portugal: International journal of biometeorology 61 (2), 325-333.

69. MacKenzie Jr., C. L., Tarnowski, M. (2018): Large Shifts in Commercial Landings of Estuarine and Bay Bivalve Mollusks in Northeastern United States after 1980 with Assessment of Causes: Marine Fisheries Review 80 (1).

70. Ferré, B., Mienert, J., Feseker, T. (2012): Ocean temperature variability for the past 60 years on the Norwegian-Svalbard margin influences gas hydrate stability on human time scales: Journal of Geophysical Research: Oceans 117 (C10).

71. Zantopp, R., Fischer, J., Visbeck, M., Karstensen, J. (2017): From interannual to decadal: 17 years of boundary current transports at the exit of the Labrador Sea: Journal of Geophysical Research: Oceans 122 (3), 1724-1748.

72. Hofer, S., Tedstone, A. J., Fettweis, X., Bamber, J. L. (2017): Decreasing cloud cover drives the recent mass loss on the Greenland Ice Sheet: Science Advances 3 (6), e1700584.

73. Delworth, T. L., Zeng, F., Vecchi, G. A., Yang, X., Zhang, L., Zhang, R. (2016): The North Atlantic Oscillation as a driver of rapid climate change in the Northern Hemisphere: Nature Geoscience 9 (7), 509-512.

74. Baker, A., C. Hellstrom, J., Kelly, B. F. J., Mariethoz, G., Trouet, V. (2015): A composite annual-resolution stalagmite record of North Atlantic climate over the last three millennia: Scientific Reports 5.

75. Olsen, J., Anderson, N. J., Knudsen, M. F. (2012): Variability of the North Atlantic Oscillation over the past 5,200 years: Nature Geoscience 5, 808-812.

76. Trouet, V., Esper, J., Graham, N. E., Baker, A., Scourse, J. D., Frank, D. C. (2009): Persistent Positive North Atlantic Oscillation Mode Dominated the Medieval Climate Anomaly: Science 324 (5923), 78-80.

77. Mazzarella, A., Scafetta, N. (2012): Evidences for a quasi 60-year North Atlantic Oscillation since 1700 and its meaning for global climate change: Theor Appl Climatol 107 (3-4), 599–609.

78. Seip, K. L., Grøn, Ø., Wang, H. (2019): The North Atlantic Oscillations: Cycle Times for the NAO, the AMO and the AMOC: Climate 7 (3), 43.

79. Peings, Y., Magnusdottir, G. (2014): Forcing of the wintertime atmospheric circulation by the multidecadal fluctuations of the North Atlantic ocean: Environmental Research Letters 9 (3), 034018.

80. Gastineau, G., Frankignoul, C. (2015): Influence of the North Atlantic SST Variability on the Atmospheric Circulation during the Twentieth Century: Journal of Climate 28 (4), 1396-1416.

81. Thompson, D. W. J., Wallace, J. M. (2000): Annular modes in the extratropical circulation. Part I: month-to-month variability: J Clim 13.

82. Gong, H., Wang, L., Chen, W., Wu, R. (2019): Attribution of the East Asian Winter Temperature Trends During 1979–2018: Role of External Forcing and Internal Variability: Geophysical Research Letters 46 (19), 10874-10881.

83. Gillett, N. P., Kell, T. D., Jones, P. D. (2006): Regional climate impacts of the Southern Annular Mode: Geophysical Research Letters 33 (23).

84. Booth, B. B. B., Dunstone, N. J., Halloran, P. R., Andrews, T., Bellouin, N. (2012): Aerosols implicated as a prime driver of twentieth-century North Atlantic climate variability: Nature 484 (7393), 228-232.

85. Robson, J., Ortega, P., Sutton, R. (2016): A reversal of climatic trends in the North Atlantic since 2005: Nature Geoscience 9 (7), 513-517.

86. Scafetta, N. (2016): High resolution coherence analysis between planetary and climate oscillations: Advances in Space Research 57 (10), 2121-2135.

87. Murphy, L. N., Bellomo, K., Cane, M., Clement, A. (2017): The role of historical forcings in simulating the observed Atlantic multidecadal oscillation: Geophysical Research Letters 44 (5), 2472-2480.

88. Johnstone, J. A., Mantua, N. J. (2014): Atmospheric controls on northeast Pacific temperature variability and change, 1900–2012: Proceedings of the National Academy of Sciences, 201318371.

89. Peings, Y., Simpkins, G., Magnusdottir, G. (2016): Multidecadal fluctuations of the North Atlantic Ocean and feedback on the winter climate in CMIP5 control simulations: Journal of Geophysical Research: Atmospheres 121 (6), 2571-2592.

90. Barcikowska, M. J., Knutson, T. R., Zhang, R. (2017): Observed and Simulated Fingerprints of Multidecadal Climate Variability and Their Contributions to Periods of Global SST Stagnation: Journal of Climate 30 (2), 721-737.

91. D’Arrigo, R., Wilson, R. (2006): On the Asian expression of the PDO: International Journal of Climatology 26 (12), 1607-1617.

92. Shen, C., Wang, W.-C., Gong, W., Hao, Z. (2006): A Pacific Decadal Oscillation record since 1470 AD reconstructed from proxy data of summer rainfall over eastern China: Geophysical Research Letters 33 (3).

93. Kuhnert, H., Mulitza, S. (2011): Multidecadal variability and late medieval cooling of near-coastal sea surface temperatures in the eastern tropical North Atlantic: Paleoceanography 26 (4), PA4224.

94. Mann, M. E., Zhang, Z., Rutherford, S., Bradley, R. S., Hughes, M. K., Shindell, D., Ammann, C., Faluvegi, G., Ni, F. (2009): Global Signatures and Dynamical Origins of the Little Ice Age and Medieval Climate Anomaly: Science 326 (5957), 1256-1260.

95. Otterå, O. H., Bentsen, M., Drange, H., Suo, L. (2010): External forcing as a metronome for Atlantic multidecadal variability: nature geoscience 3, 688-694.

96. Wassenburg, J. A., Immenhauser, A., Richter, D. K., Niedermayr, A., Riechelmann, S., Fietzke, J., Scholz, D., Jochum, K. P., Fohlmeister, J., Schröder-Ritzrau, A., Sabaoui, A., Riechelmann, D. F. C., Schneider, L., Esper, J. (2013): Moroccan speleothem and tree ring records suggest a variable positive state of the North Atlantic Oscillation during the Medieval Warm Period: Earth and Planetary Science Letters 375, 291-302.

97. Conroy, J. L., Overpeck, J. T., Cole, J. E., Shanahan, T. M., Steinitz-Kannan, M. (2008): Holocene changes in eastern tropical Pacific climate inferred from a Galápagos lake sediment record: Quaternary Science Reviews 27 (11), 1166-1180.

98. Cook, E. R., Kushnir, Y., Smerdon, J. E., Williams, A. P., Anchukaitis, K. J., Wahl, E. R. (2019): A Euro-Mediterranean tree-ring reconstruction of the winter NAO index since 910 C.E.: Climate Dynamics 53 (4).

99. Carl Friedrich von Weizsäcker, Der Garten des Menschlichen, Beiträge zur geschichtlichen Anthropologie. Frankfurt a.M. 1992.

100. Chang, C.-P., Ghil, M., Kuo, H.-C., Latif, M., Sui, C.-H., Wallace, J. M. (2014): Understanding Multidecadal Climate Changes: Bulletin of the American Meteorological Society 95 (2), 293-296.