Publications

Multiple Drivers of the North Atlantic Warming Hole

Keil P., Mauritsen T., Jungclaus J., Hedemann C., Olonscheck D. and Ghosh R. 2020. Multiple Drivers of the North Atlantic Warming Hole. Nature Climate Change. 10(7), pp.667-671. DOI: 10.1038/s41558-020-0819-8.

Modifying Emissions Scenario Projections to Account for the Effects of COVID-19: Protocol for CovidMIP

Lamboll R.D., Jones C.D., Skeie R.B., Fiedler S., Samset B.H., Gillett N.P., Rogelj J. and Forster P.M. 2021. Modifying Emissions Scenario Projections to Account for the Effects of COVID-19: Protocol for CovidMIP. Geoscientific Model Development. 14(6), pp.3683-3695. DOI: 10.5194/gmd-14-3683-2021.

Negligible Unforced Historical Pattern Effect on Climate Feedback Strength Found in HadISST-Based AMIP Simulations

Lewis N. and Mauritsen T. 2021. Negligible Unforced Historical Pattern Effect on Climate Feedback Strength Found in HadISST-Based AMIP Simulations. Journal of Climate. 34(1), pp.39-55. DOI: 10.1175/JCLI-D-19-0941.1.

Present‐Day and Historical Aerosol and Ozone Characteristics in CNRM CMIP6 Simulations

Michou M., Nabat P., Saint-Martin D., Bock J., Decharme B., Mallet M., Roehrig R., Séférian R., Sénési S. and Voldoire A. 2020. Present-Day and Historical Aerosol and Ozone Characteristics in CNRM CMIP6 Simulations. Journal of Advances in Modeling Earth Systems. 12(1), pe2019MS001816. DOI: 10.1029/2019MS001816.

Inconsistencies When Applying Novel Metrics for Emissions Accounting to the Paris Agreement

Schleussner C.-F., Nauels A., Schaeffer M., Hare W. and Rogelj J. 2019. Inconsistencies When Applying Novel Metrics for Emissions Accounting to the Paris Agreement. Environmental Research Letters. 14(12), p124055. DOI: 10.1088/1748-9326/ab56e7.

Large Variations in Volcanic Aerosol Forcing Efficiency Due to Eruption Source Parameters and Rapid Adjustments

Marshall L.R., Smith C.J., Forster P.M., Aubry T.J., Andrews T. and Schmidt A.J. 2020. Large Variations in Volcanic Aerosol Forcing Efficiency Due to Eruption Source Parameters and Rapid Adjustments. Geophysical Research Letters. 47(19), pe2020GL090241. DOI: 10.1029/2020GL090241.

Historical Total Ozone Radiative Forcing Derived from CMIP6 Simulations

Skeie R.B., Myhre G., Hodnebrog Ø., Cameron-Smith P.J., Deushi M., Hegglin M.I., Horowitz L.W., Kramer R.J., Michou M., Mills M.J., Olivié D.J.L., O'Connor F.M., Paynter D., Samset B.H., Sellar A., Shindell D., Takemura T., Tilmes S. and Wu T. 2020. Historical Total Ozone Radiative Forcing Derived from CMIP6 Simulations. npj Climate and Atmospheric Science. 3(1), p32. DOI: 10.1038/s41612-020-00131-0.

Large-Scale Emergence of Regional Changes in Year-to-Year Temperature Variability by the End of the 21st Century

Olonscheck D., Schurer A.P., Lücke L. and Hegerl G.C. 2021. Large-Scale Emergence of Regional Changes in Year-to-Year Temperature Variability by the End of the 21st Century. Nature Communications. 12(1), p7237. DOI: 10.1038/s41467-021-27515-x.

How Large Does a Large Ensemble Need to Be?

Milinski S., Maher N. and Olonscheck D. 2020. How Large Does a Large Ensemble Need to Be? Earth System Dynamics. 11(4), pp.885-901. DOI: 10.5194/esd-11-885-2020.

Biased Estimates of Equilibrium Climate Sensitivity and Transient Climate Response Derived From Historical CMIP6 Simulations

Dong Y., Armour K.C., Proistosescu C., Andrews T., Battisti D.S., Forster P.M., Paynter D., Smith C.J. and Shiogama H. 2021. Biased Estimates of Equilibrium Climate Sensitivity and Transient Climate Response Derived From Historical CMIP6 Simulations. Geophysical Research Letters. 48(24), pe2021GL095778. DOI: 10.1029/2021GL095778.