margin. Basin Research, 26(1), 135–153.
Rey, P., Vanderhaeghe, O., Teyssier, C. (2001). Gravitational collapse of the continental crust: Definition, regimes and modes. Tectonophysics, 342(3), 435–449.
Ribes, C., Ghienne, J.-F., Manatschal, G., Decarlis, A., Karner, G.D., Figueredo, P.H., Johnson, C.A. (2019). Long-lived mega fault-scarps and related breccias at distal rifted margins: Insights from present-day and fossil analogues. Journal of the Geological Society, 176(5), 801–816.
Ricketts, J.W., Karlstrom, K.E., Kelley, S.A. (2015). Embryonic core complexes in narrow continental rifts: The importance of low-angle normal faults in the Rio Grande rift of central New Mexico. Geosphere, 11(2), 425–444.
Robert, C.M. (ed.) (2008). Aulacogens. In Developments in Marine Geology: An Interplay between Geodynamics and Paleoenvironment. Elsevier Science, Amsterdam.
Rooney, T.O. (2017). The Cenozoic magmatism of East Africa: Part I – Flood basalts and pulsed magmatism. Lithos, 286–287, 264–301.
Rooney, T.O. (2019). The Cenozoic magmatism of East Africa: Part II – Rifting of the mobile belt. Lithos, 360–361, 105291.
Rooney, T.O. (2020a). The Cenozoic magmatism of East Africa: Part III – Rifting of the craton. Lithos, 360–361, 105390.
Rooney, T.O. (2020b). The Cenozoic magmatism of East Africa: Part IV – The terminal stages of rifting preserved in the Northern East African Rift System. Lithos, 360–361, 105381.
Rooney, T.O. (2020c). The Cenozoic magmatism of East Africa: Part V – Magma sources and processes in the East African Rift. Lithos, 360–361, 105296.
Rooney, T.O., Furman, T., Yirgu, G., Ayalew, D. (2005). Structure of the Ethiopian lithosphere: Xenolith evidence in the Main Ethiopian Rift. Geochimica et Cosmochimica Acta, 69(15), 3889–3910.
Rotevatn, A., Jackson, C.A.-L., Tvedt, A.B.M., Bell, R.E., Blækkan, I. (2019). How do normal faults grow? Journal of Structural Geology, 125, 174–184.
Rowan, M.G. (2014). Passive-margin salt basins: Hyperextension, evaporite deposition, and salt tectonics. Basin Research, 26(1), 154–182.
Rowan, M.G. (2020). The South Atlantic and Gulf of Mexico salt basins: Crustal thinning, subsidence and accommodation for salt and presalt strata. Geological Society, London, Special Publications, 476(1), 333–363.
Royden, L. and Keen, C.E. (1980). Rifting process and thermal evolution of the continental margin of Eastern Canada determined from subsidence curves. Earth and Planetary Science Letters, 51(2), 343–361.
Ruppel, C. (1995). Extensional processes in continental lithosphere. Journal of Geophysical Research-Solid Earth, 100(B12), 24187–24215.
Saunders, A.D., Fitton, J.G., Kerr, A.C., Norry, M.J., Kent, R.W. (1997). The North Atlantic igneous provinces. In Large Igneous Provinces: Continental, Oceanic, and Planetary Flood Volcanism, Mahoney, J.J. and Coffin, M.F. (eds). American Geophysical Union and Wiley, Washington, D.C.
Saunders, A.D., Larsen, H.C., Wise Jr., S.W. (1998). East Greenland Margin, sites 914–919. Proceedings of the Ocean Drilling Program, Scientific Results, Ocean Drilling Program, College Station.
Scholz, C.H. (2019). The Mechanics of Earthquakes and Faulting, 3rd edition. Cambridge University Press, Cambridge.
Scott, R.J. and Lister, G.S. (1992). Detachment faults: Evidence for a low-angle origin. Geology, 20(9), 833–836.
Şengör, A.M.C. and Burke, K. (1978). Relative timing of rifting and volcanism on Earth and its tectonic implications. Geophysical Research Letters, 5, 419–421.
Şengör, A.M.C., Tüysüz, O., İmren, C., Sakinç, M., Eyidogan, H., Görür, N., Pichon, X.L., Rangin, C. (2005). The North Anatolian Fault: A new look. Annual Review of Earth and Planetary Sciences, 33(1), 37–112.
Shann, M.V., Vazquez-Reyes, K., Ali, H.M., Horbury, A.D. (2020). The Sureste Super Basin of southern Mexico. AAPG Bulletin, 104(12), 2643–2700.
Sleep, N.H. (1971). Thermal effects of the formation of Atlantic continental margins by continental break up. Geophysical Journal International, 24(4), 325–350.
Sonder, L.J. and Jones, C.H. (1999). Western United States extension: How the west was widened. Annual Review of Earth and Planetary Sciences, 27(1), 417–462.
Spencer, J.E. and Reynolds, S.J. (1990). Relationship between Mesozoic and Cenozoic tectonic features in west central Arizona and adjacent southeastern California. Journal of Geophysical Research: Solid Earth, 95(B1), 539–555.
Stern, R.J. (2002). Subduction zones. Reviews of Geophysics, 40(4), 3–1–3–38.
Suess, E. (1891). Die Brüche des östlichen Afrika. In Beiträge zur geologischen Kenntniss des östlichen Afrika, von Höhnel, L., Rosiwal, A.,; Toula, F., Eduard Suess, E. (eds). Denkschriften Kaiserlichen Akademie Wissenschaften, Vienna.
Symonds, P.A., Planke, S., Frey, O., Skogseid, J. (1998). Volcanic evolution of the Western Australian continental margin and its implications for basin development. In The Sedimentary Basins of Western Australia 2, Purcell, P.G. and Purcell, R.R. (eds). Petroleum Exploration Society of Australia, Perth.
Ten Brink, U.S. and Taylor, M.H. (2002). Crustal structure of central Lake Baikal: Insights into intracontinental rifting. Journal of Geophysical Research: Solid Earth, 107(B7), ETG 2-1–ETG 2-15.
Tucholke, B.E., Behn, M.D., Buck, W.R., Lin, J. (2008). Role of melt supply in oceanic detachment faulting and formation of megamullions. Geology, 36(6), 455–458.
Turcotte, D.L. and Emerman, S.H. (1983). Mechanisms of active and passive rifting. In Developments in Geotectonics, Morgan, P. and Baker, B.H. (eds). Elsevier Science, Amsterdam.
Turcotte, D.L. and Oxburgh, E.R. (1973). Mid-plate tectonics. Nature, 244(5415), 337–339.
Van Wijk, J., Koning, D., Axen, G., Coblentz, D., Gragg, E., Sion, B. (2018). Tectonic subsidence, geoid analysis, and the Miocene–Pliocene unconformity in the Rio Grande rift, southwestern United States: Implications for mantle upwelling as a driving force for rift opening. Geosphere, 14(2), 684–709.
Vendeville, B.C. and Jackson, M.P. (1992). The rise of diapirs during thin-skinned extension. Marine and Petroleum Geology, 9(4), 331–354.
Vening Meinesz, E. (1950). Les grabens africains, résultat de compression ou de tension dans la crofite terrestre ? Bull. Inst. R. Colonial Belge, 21, 539–552.
Walsh, J.J., Bailey, W.R., Childs, C., Nicol, A., Bonson, C.G. (2003). Formation of segmented normal faults: A 3-D perspective. Journal of Structural Geology, 25(8), 1251–1262.
Warren, J.K. (2016). Evaporites: A Geological Compendium. Springer, Berlin.
Watterson, J. (1986). Fault dimensions, displacements and growth. Pure and Applied Geophysics, 124(1), 365–373.
Watts, A.B. (2001). Isostasy and Flexure of the Lithosphere. Cambridge University Press, Cambridge.
Watts, A.B., Tozer, B., Daly, M.C., Smith, J. (2018). A comparative study of the Parnaíba, Michigan and Congo cratonic basins. Geological Society, London, Special Publications, 472(1), 45–66.
Wernicke, B. (1981). Low-angle normal faults in the Basin and Range Province: Nappe tectonics in an extending orogen. Nature, 291, 645–648.
Wernicke (1985). Uniform-sense normal simple shear of the continental lithosphere. Canadian Journal of Earth Sciences, 22, 108–125.
Wernicke, B. and Axen, G.J. (1988). On the role of isostasy in the evolution of normal fault systems. Geology, 16(9), 848–851.
White,