Agnon, Amotz, Amit, Rivka, Hough, Susan, and Michetti, Alessandro Maria Michetti (2011) Introduction: The Dead Sea Rift as a natural laboratory for neotectonics and paleoseismology,
Israel Journal of Earth Sciences Vol. 58
Agnon, Amotz (2014). Pre-Instrumental Earthquakes Along the Dead Sea Rift: 207-261 in
Dead Sea Transform Fault System: Reviews, Springer Netherlands, Dordrecht.
Matmon, A., et al. (2005). "Landscape development in an hyperarid sandstone environment
along the margins of the Dead Sea fault: Implications from dated rock falls." Earth and Planetary Science Letters 240(3–4): 803-817.A
Matmon, A. et al. (2006) Corrigendum to “Landscape development in an hyperarid sandstone environment along the margins of the Dead Sea fault: Implications from dated rock falls”
[Earth Planet. Sci. Lett. 240 (2005) 803–817]
Matmon et al (2009) Landscape development in an hyper arid sandstone environment along the margins of the Dead Sea fault: implications from dated rock falls
in The Dead Sea Rift as a natural laboratory for Earthquake Behavior Prehistorical Historical and Recent Seismicity INQUA field guide DSW 2009 part 1, Arava Valley,
pp. 178-191
Rinat, Y., et al. (2014). "Holocene rockfalls in the southern Negev Desert, Israel and their relation to Dead Sea fault earthquakes."
Quaternary Research 81.
Rinat, Y., et al. (2014). "Holocene rockfalls in the southern Negev Desert, Israel and their relation to Dead Sea fault earthquakes."
Quaternary Research 81. SUPPLEMENTARY MATERIAL
Sometimes this articles is listed, cited, or titled as :
Matmon, A., et al. (2005). "Seismic ground motion and boulder detachment along the margins of the Dead Sea fault, southern Israel."
Earth and Planetary Science Letters 240: 803-817.
or
Matmon, A., et al. (2005). Lessons to exposure age dating from constraining the time of earthquake
induced rockfalls along the margins of the Dead Sea fault system, southern Israel. Earth Planet Sci Lett 240: 803-817.