Lu, YinMoernaut, JasperWaldmann, NicolasBookman, RevitalIan Alsop, G.Hubert-Ferrari, AuréliaStrasser, MichaelAgnon, AmotzMarco, Shmuel2021-07-272021-07-272021-07-28Lu, Y, Moernaut, J, Waldmann, N, Bookman, R, Ian Alsop, G, Hubert-Ferrari, A, Strasser, M, Agnon, A & Marco, S 2021, 'Orbital- and Millennial-Scale Changes in Lake-Levels Facilitate Earthquake-Triggered Mass Failures in the Dead Sea Basin', Geophysical Research Letters, vol. 48, no. 14, e2021GL093391. https://doi.org/10.1029/2021GL0933910094-8276Bibtex: https://doi.org/10.1029/2021GL093391ORCID: /0000-0003-4479-372X/work/161797400https://hdl.handle.net/2164/16871Acknowledgments The authors appreciate the editor L. Flesch for handling our manuscript, Ed Pope and Sebastian Cardona for constructive reviews. This research was supported by the Austrian Science Fund (FWF): M 2817 to Y. Lu and P30285-N34 to J. Moernaut, the University of Liege under Special Funds for Research, IPD-STEMA Program (R.DIVE.0899-J-F-G to Y. Lu), the Israel Science Foundation (#1645/19 to S. Marco and #1093/10 to R. Bookman), and the ICDP. A.A. is indebted to the Helmholtz Virtual Institute DESERVE for support. The authors thank C. Daxer for help modeling the Kernel Density and Nadav Wetzler for discussion.123109120engmass failurestriggerspreconditioning factorssea-level changesedimentation rateDead SeaQE GeologySupplementary InformationQEJournal article10.1029/2021GL0933914814