Abstract
Two types of sinkholes are observed along the Dead Sea shore, Israel. The first is associated with vadose dissolution in Mount Sedom salt diapir. The second is associated with dissolution under the watertable along the retreating Dead Sea shore. The Dead Sea level is falling dramatically, mainly because of human activity. Simultaneously, the lake shores suffer tremendous impact since the late 1980s: The ground is collapsing and subsiding in hundreds of points along the lake, with people, roads and property being swallowed in the more catastrophic events. The collapse is believed to result from dissolution of salt by aggressive groundwater, following the retreat of Dead Sea level and the groundwater halocline. Geological evidence suggests that a previous major lake level fall occurrednaturally∼2000 BCE. This may provide a new explanation for a curious historical-geological phrase in the book of Genesis, suggested to record formation of collapse sinkholes which occurred in response to the historic falling lake level, associated with climatic desiccation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
ALBRIGHT, W.F., 1963, The Biblical period from Abraham to Ezra: Harper & Row, New York, 118 p.
ALLATIF, A., 1810, Relation de L’Égypte: Impériale, Paris.
AMIRAN, D.H.K., 1991, The climate of the ancient Near East. The early third millennium in the northern Negev of Israel:Erdkunde, v. 45, p. 153–162.
AMIRAN, R., 1986, The Fall of the Early Bronze Age II City of Arad:Israel Exploration Journal, v. 36, p. 74–76.
ANATI, D.A., GAVRIELI, I., and OREN, A., 1995, The residual effect of the 1991–93 rainy winter on the Dead Sea stratification.Israel Journal of Earth Sciences, v. 44, p. 63–70.
ANATI, D.A., STILLER, M., SHASHA, S., and GAT, J.R., 1987, The thermohaline structure of the Dead Sea: 1979–1984:Earth and Planetary Science Letters, v. 84, p. 109–121.
ANDERSON, N.L., and HINDS, R.C., 1997a, Glacial loading and unloading: A possible cause of rock dissolution in the western Canada basin:Carbonates and Evaporites, v. 12, p. 44–52.
ANDERSON, N.L. and HINDS, R.C., 1997, A seismic study of salt dissolution in the Stettler area south-central Alberta, Canada:Carbonates and Evaporites, v. 12, p. 98–109.
ARKIN, Y., 1993, ‘karst’ sinkholes in Shefech Zohar fan (in Hebrew),in Mimran, Y., Gvirtzman, H., and Burg, A., eds., geological field trips: Israel Geological Society, Arad, p. 71–80.
ARKIN, Y. and GILAT, A., 2000, Dead Sea sinkholes — an ever developing hazard:Environmental Geology, v. 39, p. 711–722.
ARKIN, Y. and MICHAELI, L., 1995, Sinkholes in the alluvial fan of Nahal Arugot: Israel Geological Survey, report TR-GSI/17/95, Jerusalem, 17 p.
BEGIN, Z.B., BROECKER, W., BUCHBINDER, B., DRUCKMAN, Y., KAUFMAN, A., MAGARITZ, M., and NEEV, D., 1985, Dead Sea and Lake Lisan levels in the last 30,000 years: Geological Survey of Israel, report 29/85, Jerusalem, 18 p.
BEN-AVRAHAM, Z. and BALLARD, R.D., 1984, Near bottom temperature anomalies in the Dead Sea:Earth and Planetary Science Letters, v. 71, p. 356–360.
BEN-AVRAHAM, Z., NIEMI, T.M., HEIM, C., NEGENDANK, J., and NUR, A., 1999, Holocene stratigraphy of the Dead Sea: Correlation of high-resolution seismic reflection profiles to sediment cores:Journal of Geophysical Research, v. 104, No. B8, p. 17,617–17,625.
BENITO, G., PéREZ DEL CAMPO, P., GUTIÉRREZ-ELORZA, M., and SANCHO, C., 1995, Natural and human-induced sinkholes in gypsum terrain and associated environmental problems in NE Spain:Environmental Geology, v. 25, p. 156–164.
DEVER, W.G., 1989, The Collapse of the Urban Early Bronze Age in Palestine: Toward a Systematic Analysis:L’urbanisation de la Palestine à l’âgedu Bronze Ancien, v. 527, p. 225–246.
DONAHUE, J., 1985, Hydrologic and topographic change during and after Early Bronze occupation at Bab edh-Dhra and Numeira,in Hadidi, A., ed., Studies in the History and Archaeology of Jordan: Department of Antiquities, Amman, p. 131–140.
ENZEL, Y., KADAN, G., and EYAL, Y., 2000, Holocene earthquakes inferred from a fan-delta sequence in the Dead Sea graben:Quaternary Research, v. 53, p. 34–48.
FLOHN, H., 1991, Towards a physical interpretation of the end of the Holocene moist period in the Near East:Erdkunde, v. 45, p. 163–167.
FORBES, R.J., 1936, Bitumen and petroleum in antiquity: Brill, Leiden, 109 p.
FORD, D.C., 1997, Principal features of evaporite karst in Canada:Caronates and Evaporites, v. 12, p. 15–23.
FRIEDMAN, G.M., 1997, Dissolution-collapse breccias and paleokarst resulting from dissolution of evaporite rocks, especially sulfates:Carbonates and Evaporities, v. 12, p. 53–63.
FRUMKIN, A., 1994a, Hydrology and denudation rates of halite karst:Journal of Hydrology, v. 162, p. 171–189.
FRUMKIN, A., 1994b, Morphology and development of salt caves:Journal of caves and Karst Studies (NSS Bulletin), v. 56, p. 82–95.
FRUMKIN, A., 1996, Determining the exposure age of a karst landscape:Quaternary Research, v. 46, p. 99–106.
FRUMKIN, A., 1997, The Holocene history of the Dead Sea levels,in Niemi, T.M., Ben-Avraham, Z., and Gat, Y., eds., The Dead Sea — the lake and its setting: Oxford University Press, Oxford, p. 237–248.
FRUMKIN, A., 1998, Salt cave cross sections and their paleoenvironmental implications:Geomorphology, v. 23, p. 183–191.
FRUMKIN, A., 2000, Dissolution of salt,in Klimchouk, A.B., Ford, D.C., Palmer, A., and Dreybrodt, W., eds., Speleogenesis: Evolution of Karst Aquifers: National Speleological Society, Huntsville, p. 169–170.
FRUMKIN, A., 2001, The Cave of the Letters sediments — Indication of an early phase of the Dead Sea depression?:Journal of Geology, v. 109, no. 1, p. 79–80.
FRUMKIN, A., MAGARITZ, M., CARMI, I., and ZAK, I., 1991, The Holocene climatic record in the salt caves of Mount Sedom, Israel:The Holocene, v. 1, no. 3, p. 191–200.
GARFUNKEL, Z., 1997, The history and formation of the Dead Sea basin,in Niemi, T.M., Ben-Avraham, Z., and Gat, Y., eds., The Dead Sea — the lake and its setting: Oxford University Press, Oxford, p. 36–55.
GAVRIELI, I., 1997, Halite deposition from the Dead Sea: 1960–1993,in Niemi, T.M., Ben-Avraham, Z., and Gat, Y., eds., The Dead Sea — the lake and its setting: Oxford University Press, Oxford, p. 161–170.
GUTIÉRREZ, F., 1996, Gypsum karstification induced subsidence: effects on alluvial systems and derived geohazards (Calatayud Graben, Iberian Gange, Spain):Geomorphology, v. 16, p. 277–293.
HEIM, C., LEROY, S., and NEGENDANK, J.F.W., 1997, Near East desertification — evidence from the Dead Sea:Naturwissenschaften, v. 84, p. 398–401.
JOHNSON, K.J., 1997, Evaporite karst in the United States:Carbonates and Evaporites, v. 12, p. 2–14.
KADAN, G., 1997, Evidence of Dead-Sea level fluctuations and neotectonic events in the Holocene fan-delta of Nahal Darga, Ben Gurion University, M.Sc., 54 p.
kLIMCHOUK, A. and ANDREJCHUK, V., 1996, Breakdown development in cover beds, and landscape features induced by intrastratal gypsum karst:International Journal of Speleology, v. 25, p. 127–144.
MARTINEZ, J.D., 1997, Sinkholes in glacial drift underlain by gypsum in Nova-Scotia, Canada:Carbonates and Evaporites, v. 12, p. 84–90.
MARTINEZ, J.D., JOHNSON, K.S., and NEAL, J.T., 1998, Sinkholes in evaporite rocks:American Scientist, v. 86, p. 38–51.
MAZOR, E., 1997, Groundwaters along the western Dead Sea shore,in Niemi, T.M., Ben-Avraham, Z., and Gat, Y., eds., The Dead Sea — the lake and its setting: Oxford University Press, Oxford, p. 265–276.
MIGOWSKI, C., KEN-TOR, R., NEGENDANK, J.F.W., sTEIN, M., and MINGRAM, J., 1998, Post-lisan record documented in sediment sequences from the western shore area and the central basin of the Dead Sea:Terra Nostra, v. 98, p. 100–102.
NEAL, J.T. and COLPITTS, R.M., 1997, Sinkholes in glacial drift underlain by gypsum in Nova-Scotia, Canada:Carbonates and Evaporites, v. 12, p. 91–98.
NEEV, D., 1964, The Dead Sea: Geological Survey of Israel, report Q/2/64, Jerusalem, 407 p.
NEEV, D. and EMERY, K.O., 1995, The destruction of Sedom, Gomorrah, and Jericho: Oxford University Press, Oxford, 175 p.
NIESE, 1896, Asphalt,in G., P.-W., ed., Paulys Realencyclopädie der Classischen Altertumswissenschaft, Stuttgart p. 1727.
NISSENBAUM, A., 1999, Ancient and modern medicinal applications of Dead Sea asphalt (bitumen):Israel Journal of Earth Sciences, v. 48, p. 301–308.
NISSENBAUM, A., and GOLDBERG, M., 1980, Asphalts, heavy oils, ozocerite and gases in the Dead Sea Basin:Organic Geochemistry, v. 2, p. 167–180.
PARKER, G.G. and HIGGINS, C.G., 1990, Piping and pseudokarst in drylands,in Higgins, C.G. and Coates, D.R., eds., Groundwater geomorphology; the role of subsurface water in earth-surface processes and landforms: GSA Special Paper 252, Boulder p. 77–110.
QIMRON, E., 1986, The Hebrew of the Dead Sea Scrolls.: Scholars Press, Atlanta, 136 p.
RAAB, M., FRIEDMAN, G.M., SPIRO, B., STARINSKY, A., and ZAK, I., 1997, The geological history of Messinian (upper Miocene) evaporites in the central Jordan Valley (Israel) and how strontium and sulfur isotopes relate to their origin:Carbonates and Evaporites, v. 12, p. 296–324.
RAST, W.E. and SCHAUB, R.T., 1980, Preliminary Report of the 1979 Expedition to the Dead Sea Plain, Jordan:Bulletin of the American Schools of Oriental Research, v. 240, p. 21–61.
RAZ, E., 1989, Review and analysis of geochemical measurements at Ein-Gedi spa, during the period 1962–1983: Kibbutz Ein-Gedi Gedi internal report.
RAZ, E., 2000, Study of sinkhole formation along the Dead Sea shore — subaerial survey, second report (in Hebrew): GSI/31/2000, Geological Survey of Israel, Jerusalem.
RICHARD, S., 1980, Toward a Concensus of Opinion on the End of the Early Bronze Age in Palestine-Transjordan:Bulletin of the American Schools of Oriental Research, v. 237, p. 5–34.
SPEISER, E.A., 1964, The Anchor Bible-Genesis: Doubleday, New York.
STILLER, M., GAT, J.R., and KAUSHANSKY, P., 1997, Halite precipitation and sediment deposition as measured in sediment traps deployed in the Dead Sea: 1981–1983,in Niemi, T.M., Ben-Avraham, Z., and Gat, Y., eds., The Dead Sea — the lake and its setting: Oxford University Press, Oxford, p. 171–183.
WACHS, D., RAZ, E., and SHTIVELMAN, V., 1999, Study of sinkhole Formation along the Dead Sea shore. Interim Report (in Hebrew): Geological Survey of Israel.
WACHS, D., YECHIELI, Y., SHTIVELMAN, V., ITAMAR, A., BAER, G., GOLDMAN, M., RAZ, E., RYBEVOV, M., and SHATNER, U., 2000, Formation of sinkholes along the Dead Sea shore, summary of findings from the first stage of research (in Hebrew): report GSI/41/2000, Geological Survey of Israel, Jerusalem.
WHITE, W.B., 1988, Geomorphology and hydrology of karst terrains. Oxford University Press, New York, 464 p.
YECHIELI, Y., 1993, The effects of water level changes in closed lakes (Dead Sea) on the surrounding groundwater and country rocks. PhD thesis (in Hebrew, English abstract): Weizmann Institute of Science, Rehovot.
YECHIELI, Y., 1995, Are sedimentary salt layers always impermeable?Geophysical Research Letters, v. 22, p. 2761–2764.
YECHIELI, Y. and GAT, J.R., 1997, Geochemical and hydrological processes in the Dead Sea coastal environment of the Dead Sea,in Niemi, T.M., Ben-Avraham, Z., and Gat, Y., eds., The Dead Sea — the lake and its setting: Oxford University Press, Oxford, p. 252–264.
YECHIELI, Y., MAGARITZ, M., LEVY, Y., WEBER, U., KAFRI, U., WOELFLI, W., and BONANI, G., 1993, Late Quaternary geological history of the Dead Sea area, Israel:Quaternary Research, v. 39, p. 59–67.
ZAK, I., 1967, The geology of Mount Sedom, The Hebrew University, PhD thesis (in Hebrew, English abstract), 208 p.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Frumkin, A., Raz, E. Collapse and subsidence associated with salt karstification along the Dead Sea. Carbonates Evaporites 16, 117–130 (2001). https://doi.org/10.1007/BF03175830
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/BF03175830