크리스티안 프란츠케 Christian Franzke

Publications

Peer Review Publications (* denotes supervised students)

1. Daniel Gliksman, Paul Averbeck, Nico Becker, Barry Gardiner, Valeri Goldberg, Jens Grieger, Dörthe Handorf, Karsten Haustein, Alexia Karwat, Florian Knutzen, Hilke S. Lentink, Rike Lorenz, Deborah Niermann, Joaquim G. Pinto, Ronald Queck, Astrid Ziemann, and Christian L.E. Franzke, 2023: Review article: A European perspective on wind and storm damage – from the meteorological background to index-based approaches to assess impacts, Natural Hazards and Earth System Sciences, vol. 23, 6, pp. 2171 – 2201, doi: 10.5194/nhess-23-2171-2023
2. Lichao Yang, Christian L.E. Franzke, Wansuo Duan, 2023: Evaluation and projections of extreme precipitation using a spatial extremes framework, International Journal of Climatology, vol. 43, 7, pp. 3453 – 3475, doi: 10.1002/joc.8038
3. Naiming Yuan, Chao Ma, Christian L.E. Franzke, Hourui Niu, Wenjie Dong, 2023: Separating Anthropogenically- and Naturally-Caused Temperature Trends: A Systematic Approach Based On Climate Memory Analysis, Geophysical Research Letters, vol. 50, 9, e2022GL102232, doi: 10.1029/2022GL102232
4. Zhen Liu, Sun-Seon Lee, Arjun Babu Nellikkattil, June-Yi Lee, Lan Dai, Kyung-Ja Ha, Christian L.E. Franzke, 2023: The East Asian Summer Monsoon Response to Global Warming in a High Resolution Coupled Model: Mean and Extremes, Asia-Pacific Journal of Atmospheric Sciences, vol. 59, pp. 29-45, doi: 10.1007/s13143-022-00285-2
5. Christian L.E. Franzke, and Nili Harnik, 2023: Long-Term Trends of the Atmospheric Circulation and Moist Static Energy Budget in the JRA-55 Reanalysis, Journal of Climate, vol. 36, 9, pp. 2959-2984
6. Christian L.E. Franzke, 2022: Changing temporal volatility of precipitation extremes due to global warming, International Journal of Climatology, vol. 42, 16, pp. 8971-8983
7. Alexia Karwat, Christian L.E. Franzke, Richard Blender, 2022: Long-Term Trends of Northern Hemispheric Winter Cyclones in the Extended ERA5 Reanalysis, JGR Atmosphere, vol. 127, 22, e2022JD036952
8. Naiming Yuan, Christian L.E. Franzke, Feline Xiong, Zuntao Fu, Wenjie Dong, 2022: The Impact of long-term memory on the climate response to greenhouse gas emissions, npj climate and atmospheric science, vol. 5, article 70
9. Christian L.E. Franzke, Federica Gugole, Stephan Juricke, 2022: Systematic multi-scale decomposition of ocean variability using machine learning, Chaos, vol. 32, 7, article 073122
10. Kyung-Ja Ha, Ye-Won Seo, Ji-Hye Yeo, Axel Timmermann, Eui-Seok Chung, Christian L.E. Franzke, Johnny C.L. Chan, Sang-Wook Yeh, Mingling Ting, 2022: Dynamics and characteristics of dry and moist heatwaves over East Asia, npj climate and atmospheric science, vol. 5, article 49
11. Christian L.E. Franzke, Richard Blender, Terence J. O’Kane, and Valerio Lembo, 2022: Stochastic Methods and Complexity Science in Climate Research and Modeling, Frontiers in Physics, vol. 10, article 931596
12. Herminia Torelló-Sentelles, Christian L.E. Franzke, 2022: Drought impact links to meteorological drought indicators and predictability in Spain, Hydrology and Earth System Sciences, vol.26, 7, pg. 1821-1844
13. Christian L.E. Franzke, Alessio Ciullo, Elisabeth A Gilmore, Denise Margaret Matias, Midhi Nagabhatla, Anton Orlov, Shona K Paterson, Jürgen Scheffran, and Jana Sillmann, 2022: Perspectives on tipping points in integrated models of the natural and human Earth system- cascading effects and telecoupling, Environmental Research Letters, 17, 1, 015004
14. Alexia Karwat, Christian L.E. Franzke, 2021: Future projections of Heat mortality Risk for Major European Cities, Weather, Climate and Society, 13, 4, 913-931
15. Yu Huang, Zuntao Fu, Christian L.E. Franzke, 2021: A Secular Shift of the Madden-Julian Oscillation and Its Relation to Western Pacific Ocean Warming, Geophysical Research Letters, 48, 20, e2021GL095400
16. Christian L.E. Franzke, Marcin Czupryna, 2021: Global risks of infectious disease outbreaks and its relation to climate, Environmental Research Letters, 16, 8, 084063
17. Christian L.E. Franzke, 2021: Towards the development of economic damage functions for weather and climate extremes, Ecological Economics, 189, 107172
18. Ma, Q., V. Lembo and C. Franzke, 2021: The Lorenz Energy Cycle: Trends and the Impact of Modes of Climate Variability. Tellus A, 73, 1-15.
19. Ma, Q. and C. Franzke, 2021: The role of transient eddies and diabatic heating in the maintenance of European heat waves: a nonlinear stationary wave perspective. Climate Dyn., 56, 2983-3002.
20. Yang, L., C. Franzke and Z. Fu, 2020: Evaluation of the ability of regional climate models and a statistical model to represent the spatial characteristics of extreme precipitation. Int. J. Climatol., 40, 6612-6628.
21. Nian, D., N. Yuan, K. Ying, G. Liu, Z. Fu, Y. Qi and C. Franzke, 2020: Identifying the sources of seasonal predictability based on climate memory analysis and variance decomposition. Clim. Dyn., 55, 3239–3252.
22. Önskog, T., C. Franzke and A. Hannachi, 2020: Nonlinear time series models for the North Atlantic Oscillation. Adv. Stat. Clim. Meteorol. Oceanogr., 6, 141–157, 2020.
23. Franzke, C. and H. Torello i Sentelles, 2020: Risk of Extreme High Fatalities due to Weather and Climate Hazards and Its Connection to Large-Scale Climate Variability, Clim. Change, 162, 507–525.
24. Huang, Y., C. Franzke, N. Yuan and Z. Fu, 2020: Systematic identification of causal relations in high-dimensional chaotic systems: Application to Stratopshere-Troposphere coupling. Clim. Dyn., 55, 2469–2481.
25. Hu, G. and C. Franzke, 2020: Evaluation of daily precipitation extremes in reanalysis and gridded observation-based datasets over Germany. Geophys. Res. Lett., 47, e2020GL089624.
26. Gugole, F. and C. Franzke, 2020: Spatial Covariance Modeling for Stochastic Subgrid-Scale Parameterizations Using Dynamic Mode Decomposition. J. Adv. Mod. Earth Sys.,12, e2020MS002115.
27. Czupryna, M., C. Franzke, S. Hohkamp and J. Scheffran, 2020: Agent-based Modelling for Integrated Assessment of Climate Change. J. Artifical Soc. Social Sim., 23, 7.
28. Huang, Y., Z. Fu and C. Franzke, 2020: Detecting causality from time series in a machine learning framework. Chaos, 30, 063116.
29. Franzke, C., S. Barbosa, R. Blender, H.-B. Fredriksen, T. Laepple, F. Lambert, T. Nilsen, K. Rypdal, M. Rypdal, M. Scotto, S. Vannitsem, N. Watkins, L. Yang*, and N. Yuan, 2020: The Structure of Climate Variability Across Scales. Rev. Geophys., 58, e2019RG000657.
30. Haug, O., T. L. Thorarinsdottir, S. H. Sørbye and C. Franzke, 2020: Spatial trend analysis of gridded temperature data at varying spatial scales. Adv. Stat. Clim. Meteorol. Oceanogr., 6, 1-12.
31. Yang*, L., C. Franzke, Z. Fu, 2020: Power-Law Behavior of Hourly Precipitation Intensity and Dry Spell Duration over the US. Int. J. Climatol., 40, 2429-2444.
32. Franzke, C. and M. Czupryna, 2020: Probabilistic Assessment and Projections of US Weather and Climate Risks and Economic Damages. Climatic Change, 158, 503-515.
33. Dwivedi, S., C. Franzke and F. Lunkeit, 2019: Energetically Consistent Stochastic and Deterministic Kinetic Energy Backscatter Schemes for Atmospheric Models. Q. J. Roy. Meteorol. Soc., 145, 3376-3386.
34. De Luca P., C. Harpham, R. L. Wilby, C. Franzke, G. C. Leckebusch, J. K. Hillier, 2019: Implications of future weather pattern persistence and frequency for multi- hazards in the British Isles. Atmosphere, 10, 577.
35. Gugole*, F. and C. Franzke, 2019: Numerical Development and Evaluation of an Energy Conserving Conceptual Stochastic Climate Model. Math. Clim. Weather Forecast., 5, 45-64.
36. Franzke, C., D. Jelic, S. Lee and S. Feldstein, 2019: Systematic Decomposition of the MJO and its Northern Hemispheric Extra-Tropical Response into Rossby and Inertio-Gravity Components. Q. J. Roy. Meteorol. Soc., 145, 1147-1164.
37. Franzke, C., M. Oliver, J. Rademacher and G. Badin, 2019: Systematic multi-scale methods for geophysical flows. In Energy transfers in Atmosphere and Ocean. Eds. C. Eden and A. Iske. Springer book, 1-51.
38. Risbey, J., T. O’Kane, D. Monselesan, C. Franzke and I. Horenko, 2018: On the dynamics of Austral heat waves. J. Geophys. Res., 122. DOI: 10.1002/2017JD027222.
39. Önskog, T., C. Franzke, and A. Hannachi, 2018, Predictability and non-Gaussian Characteristics of the North Atlantic Oscillation. J. Climate, 31, 537-554, doi: 10.1175/JCLI-D-17-0101.1.
40. Hu*, G. and C. Franzke, 2017: Data assimilation in a multi-scale model. Math. Clim. Weather Forecast., 3, 118–139.
41. Gao, M. and C. Franzke, 2017: Quantile regression-based spatio-temporal analysis of extreme temperature change in China. J. Climate, 30, 9897–9914.
42. Bodai, T. and C. Franzke, 2017: Predictability of fat-tailed extremes. Phys. Rev. E, 96, 032120. DOI: https://doi.org/10.1103/PhysRevE.96.032120
43. Graves*, T., R. B. Gramacy, N. W. Watkins and C. Franzke, 2017: A brief history of long memory. Entropy, 19, 437; doi:10.3390/e19090437.
44. Franzke, C., 2017: Impacts of a Changing Climate on Economic Damages and Insurance. Economics of Disasters and Climate Change, 1, 95-110. doi:10.1007/s41885-017-0004-3.
45. Hannachi, A., D. Straus, C. Franzke, S. Corti and T. Woollings, 2017: Low Frequency Nonlinearity and Regime Behavior in the Northern Hemisphere Extra- Tropical Atmosphere. Rev. Geophys., 55, 199-234.
46. Berner, J., U. Achatz, L. Batte, A. De Li Camara, H. Christensen, M. Colangeli, D. Coleman, D. Crommelin, S. Dolaptchiev, C. Franzke, P. Friederichs, P. Imkeller, H. Järvinen, S. Juricke, V. Kitsios, F. Lott, V. Lucarini, S. Mahajan, T. Palmer, C. Penland, M. Sakradzija, J.-S. von Storch, A. Weisheimer, M. Weniger, P. Williams and J.-I. Yano, 2017: Stochastic Parameterization: Towards a new view of Weather and Climate Models. Bull. Amer. Meteorol. Soc., 98, 565-587.
47. Blender, R., C. Raible and C. Franzke, 2017: Vorticity and geopotential height extremes in ERA interim data in boreal winters. Q. J. Roy. Meteorol. Soc., 143, 634- 640.
48. O’Kane, T. J., D. P. Monselesan, J S. Risbey, I. Horenko and C. Franzke, 2017: On memory, dimension, and atmospheric teleconnection patterns. Math. Clim. Weather Forecast, 3, 1-27.
49. Franzke, C., 2017: Extremes in dynamic-stochastic systems. Chaos, 012101. DOI: 10.1063/1.4973541 (Invited review).
50. Graves*, T., C. Franzke, N. Watkins, R. Gramacy and E. Tindale, 2017: Systematic Bayesian inference of the Long-Range Dependence and Heavy-Tail distribution parameters. Physica A, 473, 60-71. DOI: http://dx.doi.org/10.1016/j.physa.2017.01.028.
51. Franzke, C., S. Lee and S. B. Feldstein, 2017: Evaluating Arctic warming mechanism in CMIP5 models. Clim. Dyn., 48, 3247-3260. doi: 10.1007/s00382-016- 3262-9.
52. Gottwald, G., D. Crommelin and C. Franzke, 2017: Stochastic Climate Theory. p. 209-240. Nonlinear and Stochastic Climate Dynamics, Edited by C. Franzke and T. O’Kane. Cambridge University Press.
53. Feldstein, S. and C. Franzke, 2017: Atmospheric Teleconnection Patterns. p. 54- 104. Nonlinear and Stochastic Climate Dynamics, Edited by C. Franzke and T. O’Kane. Cambridge University Press.
54. O’Kane T., J. Risbey, D. Monselesan, I. Horenko and C. Franzke, 2015: On the dynamics of persistent states and their secular trends in the waveguides of the Southern Hemisphere troposphere. Clim. Dyn., 46, 3567-3597.
55. Luo, D., Y. Xiao, Y. Yao, A. Dai, I. Simmonds and C. Franzke, 2016: Impact of Ural Blocking on Winter Warm Arctic-Cold Eurasian Anomalies. Part I: Roles of Blocking and Warming Trend. J. Climate, 29, 3925-3947.
56. Luo, D., Y. Xiao, Y. Diao, A. Dai, C. Franzke and I. Simmonds, 2016: Impact of Ural Blocking on Winter Warm Arctic-Cold Eurasian Anomalies. Part II: The link to the North Atlantic Oscillation, J. Climate, 29, 3948-3971.
57. Ludescher, J., A. Bunde, C. Franzke and H. J. Schellnhuber, 2015: Long-term persistence enhances uncertainty about anthropogenic warming of West Antarctica. Clim. Dyn.,46, 263-271.
58. Graves*, T., R. B. Gramacy, C. Franzke and N. W. Watkins, 2015: Efficient Bayesian inference for long memory processes, Nonlin. Proc. Geophys., 22, 679- 700, 2015.
59. Zagar, N. and C. Franzke, 2015: Systematic Decomposition of the Madden-Julian Oscillation into Balanced and Inertio-Gravity Components. Geophys. Res. Lett., 42, 6829-6835.
60. Luo, D., L. Zhong and C. Franzke, 2015: Inverse energy cascades in an eddy- induced NAO-Type flow: Scale interaction mechanism. J. Atmos. Sci., 72, 3417- 3448.
61. Franzke, C., T. O’Kane, D. Monselesan, J. Risbey and I. Horenko, 2015: Systematic Attribution of Secular Southern Hemispheric Circulation Trends with Observational Forcing Data, Nonlin. Proc. Geophys., 22, 513-525. doi:10.5194/npg- 22-513-2015.
62. Franzke, C., 2015: Local Trend Disparities Of European Minimum And Maximum Temperature Extremes. Geophys. Res. Lett., 42, 6479-6484.
63. Lin, Y. and C. Franzke, 2015: Scale-dependency of the global mean temperature trend and its implication for the hiatus of recent global warming. Scientific Reports, 5, 12971.
64. Woollings, T., C. Franzke, D. Hodson, B. Dong, E. Barnes, C. Raible and J. Pinto, 2015: Contrasting interannual and multidecadal NAO variability. Climate Dynamics, 45 539-556.
65. Franzke, C., S. Osprey, P. Davini and N. Watkins, 2015: A Dynamical Systems Explanation of the Hurst Phenomenom and Atmospheric Low-Frequency Variability, Scientific Reports, 5, 9068: doi: 10.1038/srep09068.
66. Risbey, J., T. O’Kane, D. Monselesan, C. Franzke and I. Horenko, 2015: Metastability of Northern Hemisphere teleconnection modes, J. Atmos. Sci., 72, 35- 54.
67. Peavoy*, D., C. Franzke and G. O. Roberts, 2015: Physics constrained parameter estimation of stochastic differential equations. Comp. Stat. Data Ana., 83, 182-199.
68. Franzke, C., T. O’Kane, J. Berner, P. Williams and V. Lucarini, 2015: Stochastic Climate Theory and Modelling. WIREs Climate Change (Invited review), 6, 63-78.
69. Cnossen, I. and C. Franzke, 2014: The role of the Sun in long-term change in the F2 peak ionosphere: new insights from Ensemble Empirical Mode Decomposition (EEMD) and numerical modelling. J. Geophys. Res., 119, 8610-8623.
70. Kim, S.-W., K. Song, S.-Y. Kim, S.-W. Son, C. Franzke, 2014: Linear and nonlinear trends of extreme temperatures in Korea. Atmosphere (in Korean), 24, 379-390.
71. Franzke, C., 2014: Nonlinear Climate Change. Nature Climate Change, 4, 423– 424.
72. Bunde, A., J. Ludescher, C. Franzke, and U. Büntgen, 2014: How significant is West Antarctic warming? Nature Geoscience, 7, 246-247.
73. Varotsos, C., C. Franzke, M. Efstathiou and A. Degermendzhi, 2014: Evidence for two abrupt warming events of SST in the last century. Theor. Appl. Climatol., 116, 51-60, DOI: 10.1007/s00704-013-0935-8
74. Woollings, T., C. Czuchniki and C. Franzke, 2014: Twentieth century jet stream variability. Quart. J. R. Meterol. Soc., 140, 783-791. DOI: 10.1002/qj.2197
75. Franzke, C., 2013: Predictions of Critical Transitions with Non-Stationary Reduced Order Models, Physica D, 262, 35-47. DOI: 10.1016/j.physd.2013.07.013
76. Capparelli*, V., C. Franzke, A. Vecchio, M. P. Freeman, N. W. Watkins and V. Carbone, 2013: A spatio-temporal analysis of US station temperature trends over the last century. J. Geophys. Res., 118, 7427-7434. DOI: 10.1002/jgrd.50551
77. Lu, H., C. Franzke, O. Martius, M. J. Jarvis and T. Philips, 2013: Solar Wind Dynamic Pressure Effect on Planetary Wave Propagation and Rossby Wave Breaking. J. Geophys. Res., 118, 4476-4493. DOI: 10.1002/jgrd.50374
78. T. J. O’Kane, J. S. Risbey, C. Franzke, I. Horenko and D. P. Monselesan, 2013: The metastability of the mid-latitude Southern Hemisphere circulation. ANZIAM J., 54, C233-C249.
79. C. Franzke, 2013: A novel method to test for significant trends in extreme values in serially dependent time series. Geophys. Res. Lett., 40, 1391-1395. DOI: 10.1002/grl.50301 (This paper was chosen as an AGU Research Spotlight).
80. Franzke, C., 2013: Significant reduction of cold temperature extremes in the Antarctic Peninsula at Faraday/Vernadsky Station, Int. J. Clim., 33, 1070-1078. DOI: 10.1002/joc.3490.
81. Franzke, C., 2013: Circulation Regimes and Extreme Events in the North Atlantic. Phil. Trans. R. Soc. A, 371, 20110471. (This study has attracted wide public interest. See Press Release and here).
82. T. J. O’Kane, J. S. Risbey, C. Franzke, I. Horenko and D. P. Monselesan, 2013: Changes in the meta-stability of the mid-latitude Southern Hemisphere circulation and the utility of non-stationary cluster analysis and split flow indices as diagnostic tools. J. Atmos. Sci., 70, 824-842. doi: 10.1175/JAS-D-12-028.1.
83. Franzke, C., 2012: On the statistical significance of surface air temperature trends in the Eurasian Arctic region. Geophys. Res. Lett., L23705, doi: 10.1029/2012GL054244.
84. Franzke, C., 2012: Predictability of Extreme Events in a Nonlinear Stochastic- Dynamical Model. Phys. Rev. E, 85, DOI: 10.1103/PhysRevE.85.031134.
85. Franzke, C., 2012: Nonlinear Trends, Long-Range Dependence and Climate Noise Properties of Surface Air Temperature. J. Climate, 25, 4172-4183. DOI: 10.1175/JCLI-D-11-00293.1
86. Franzke, C., T. Graves*, N. W. Watkins, R. B. Gramacy and C. Hughes*, 2012: Robustness of Estimators of Long-Range Dependence and Self-Similarity under non-Gaussianity. Phil. Trans. R. Soc. A, 370, 1250-1267, doi:10.1098/rsta.2011.0349(Invited paper).
87. Franzke, C., T. Woollings and O. Martius, 2011: Persistent Circulation Regimes and Preferred Regime Transitions in the North Atlantic. J. Atmos. Sci., 68, 2809- 2825. doi: 10.1175/JAS-D-11-046.1
88. Franzke, C., S. B. Feldstein and S. Lee, 2011: Synoptic Analysis of the Pacific- North American Teleconnection Pattern. Quart. J. R. Meterol. Soc., 137, 329-346.
89. Franzke, C. and T. Woollings, 2011: On the Persistence and Predictability Properties of North Atlantic Climate Variability. J. Climate, 24, 466-472. doi: 10.1175/2010JCLI3739.1
90. Peavoy*, D. J. and C. Franzke, 2010: Bayesian analysis of rapid climate change during the last glacial using Greenland d18O data. Climate of the Past, doi:10.5194/cpd-6-1209-2010.
91. Franzke, C., 2010: Long-range Dependence and Climate Noise Characteristics of Antarctic Temperature Data. J. Climate, 23, 6074-6081. doi: 10.1175/2010JCLI3654.1
92. Thomas, E. R., P. Dennis, T. Bracegirdle and C. Franzke, 2009: Ice core evidence for significant 100-year regional warming on the Antarctic Peninsula. Geophys. Res. Lett., doi:10.1029/2009GL04104. (This paper was chosen as Editors highlight and was the 3rd most downloaded GRL paper in the first week after publication.)
93. Majda, A. J., C. Franzke and D. Crommelin, 2009: Normal forms for reduced stochastic climate models. Proc. Natl. Acad. Sci. USA, doi:10.1073/pnas.0900173106.
94. Franzke, C., 2009: Multi-Scale Analysis of Teleconnection Indices: Climate Noise and Nonlinear Trend Analysis. Nonlin. Proc. Geophys., 16, 65-76.
95. Franzke, C., I. Horenko, A. J. Majda and R. Klein, 2009: Systematic Metastable Atmospheric Regime Identification in a AGCM. J. Atmos. Sci., 66, 1997-2012. Doi:10.1175/2009JAS2939.1
96. Franzke, C., R. Blender, K. Fraedrich and F. Lunkeit, 2008: Dynamische Antriebsmechanismen der NAO. Promet, 34, 107-111.
97. Majda, A. J., C. Franzke and B. Khouider, 2008: An Applied Mathematics Perspective on Stochastic Modelling for Climate. Phil. Trans. R. Soc. A, 366, 2429- 2455.
98. Franzke, C., D. T. Crommelin, A. Fischer and A. J. Majda, 2008: A Hidden Markov Model Perspective on Regimes and Metastability in Atmospheric Flows. J. Climate, 21, 1740-1757.
99. Franzke, C., A. J. Majda, and G. Branstator, 2007: The Origin of Nonlinear Signatures of Planetary Wave Dynamics: Mean Phase Space Tendencies and Contributions from Non-Gaussianity. J. Atmos. Sci., 64, 3987-4003.
100. Feldstein, S. B., and C. Franzke, 2006: Are the North Atlantic Oscillation and the Northern Annular Mode Distinguishable? J. Atmos. Sci., 63, 2915-2930.
101. Majda, A. J., C. Franzke, A. Fischer, and D. T. Crommelin, 2006: Distinct Atmospheric Regimes despite nearly Gaussian Statistics – A Paradigm Model. Proc. Natl. Acad. Sci. USA, 103, 8309-8314.
102. Franzke, C., and A. J. Majda 2006: Low-Order Stochastic Mode Reduction for a Prototype Atmospheric GCM. J. Atmos. Sci. 63, 457-479.
103. Franzke, C., and S. B. Feldstein, 2005: The Continuum and Dynamics of Northern Hemisphere Teleconnection Patterns. J. Atmos. Sci., 62, 3250-3267.
104. Franzke, C., A. J. Majda and E. Vanden-Eijnden, 2005: Low-order stochastic mode reduction for a realistic barotropic model climate. J. Atmos. Sci., 62, 1722-1745.
105. Franzke, C., S. Lee, and S. B. Feldstein, 2004: Is the North Atlantic Oscillation a breaking wave? J. Atmos. Sci., 61, 145-160. (The corresponding press release has been widely picked up by various news media; see press release at http://www.psu.edu/ur/ 2002/northatlanticoscillation.html)
106. Franzke, C., 2002: Dynamics of low-frequency variability: Barotropic mode. J. Atmos. Sci., 59, 2909-2897.
107. Franzke, C., K. Fraedrich and F. Lunkeit, 2001: Teleconnection and low-frequency variability in idealized experiments with two storm tracks. Q. J. R. Meteorol. Soc., 127, 1321-1340.
108. Franzke, C., K. Fraedrich and F. Lunkeit, 2000: Low-frequency variability in a simplified atmospheric global circulation model: Storm-track induced ‘spatial resonance’. Q. J. R. Meteorol. Soc., 126, 2691-2708.

Other Publications:

1. Franzke, C. and N. Yuan, 2017: Why is scaling important? Past Global Changes Magazine, 25, 134-135.
2. Franzke, C., 2017:Report of 1st CVAS-PAGES workshop: What do we know about multicentennial, multimillenial variability? PAGES magazine.
3. Franzke, C., 2016: Dynamics of Atmospheric Variability on Time Scales from Days to Decades. Habilitation treatise. University of Hamburg.
4. Franzke, C., 2012: Climate of Change? Planet Earth, Autumn issue.
5. Franzke, C. and D. J. Peavoy*, 2010: Identification of Climate Switching during the Last Glacial using Bayesian Statistical Methods. In Mathematical Theory and Modelling in Atmosphere-Ocean-Science. Eds. A. J. Majda, B. Stevens and R. Klein. Mathematisches Forschungsinstitut Oberwolfach, Report No. 34/2010. doi:10.4171/OWR/2010/34
6. Majda, A. J., Franzke and B. Khouider, 2009: An Applied Mathematics Perspective on Stochastic Modelling for Climate. In Stochastic Physics and Climate Modelling. Eds. T. Palmer and P. Williams. pp. 73-104 Cambridge University Press.
7. Franzke, C., 2001: Stormtracks und Telekonnektionen in idealisierten Experimenten. University of Hamburg, Dissertation, 104pp. (in German). Available at: http://www.sub.uni-hamburg.de/disse/407/DISS