Contributions

    1. Peter Ashwin (Univ Exeter, UK), Sebastian Wieczorek, Renato Vitolo and Peter Cox (Exeter) Tipping points in open systems: bifurcation, noise-induced and rate-dependent examples in the climate system.
    2. Claudie Beaulieu (Princeton, US) Jie Chen and J. L. Sarmiento Change point analysis as a tool to describe past climate variations
    3. Michel Crucifix (Univ. Louvain, Belgium) Oscillators and relaxation phenomena in Pleistocene climate theory
    4. Chris Ferro (Univ. Exeter, UK), Peter Cox, Tim Jupp, Hugo Lambert, Chris Huntingford, Model Resolution versus Ensemble Size: Optimizing the Trade-off for Finite Computing Resources.
    5. C. L. E. Franzke (British Arctic Survey), T. Graves, N. W. Watkins, R. B. Gramacy and C. Hughes Robustness of estimators of long-range dependence and self-similarity under non-Gaussianity.
    6. T. Iziumi, M.A. Semenov, M. Nishimori, Y. Ishigooka, T. Kuwagata ELPIS-JP: A Dataset of Local-scale Daily Climate Change Scenarios for Japan.
    7. Tim E. Jupp (Univ. Exeter, UK), Rachel Lowe, Caio A. S. Coelho, David B. Stephenson: On the interpretation, verification and calibration of ternary probabilistic forecasts.
    8. Axel Kleidon (MPI Biogeochemistry, Jena, Germany), How does the Earth system generate and maintain thermodynamic disequilibrium and what does it imply for the future of the planet?
    9. Frank Kwasniok (Univ. Exeter, UK) Data-based stochastic subgrid-scale parametrisation: an approach using cluster-weighted modelling.
    10. T. M. Lenton (Univ. East Anglia, UK), V. N. Livina, V. Dakos, E.N. van Nes, M. Scheffer Early warning of climate tipping points: comparing methods to improve robustness
    11. R.S. Plant (Univ. Reading, UK) A new modelling framework for statistical cumulus dynamics.
    12. Jan Sieber (Univ. Portsmouth) JMT Thompson, Nonlinear softening as a condition for
    13. early climate tipping.