Abstract
The Golan Heights is a basaltic plateau of about 1000 km2, which declines from 1100 m asl on its northern end to 300–350 m asl on its southern end, above the Sea of Galilee and the Yarmouk River. It is part of the Harrat Ash Shaam volcanic field, which is the largest volcanic field in western Arabia. The volcanics of the Golan Heights cover a syncline, which is located between the anticlines of Ajlun and Mt. Hermon on its southern and northern sides, respectively. The basaltic section is thickest in the central Golan (up to > 600 m in the eastern Golan, next to the water divide), while it decreases to tens of meters to none toward the south and north. Most of the area is covered by basaltic flows, but the landscape of the eastern and northeastern Golan is dotted by more than 60 cinder cones, most of them probably belonging to the last volcanic period, which occurred between 200 and 100 ka. Phreatomagmatic features are relatively scarce, and there are only two cases, which were produced by the interaction of magma with groundwater or with water of a diverted stream. The main water divide is located at the eastern part of the Golan Heights, close to the border between Israel and Syria, dividing between water flowing to the Sea of Galilee and to the Yarmouk River, which re-joins the water from the Sea of Galilee in the Jordan River. A relatively large fraction of the Golan Heights precipitation forms runoff (15%), while another 16% recharges the regional aquifer, which is usually quite deep (several 100’s m).
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References
Behar N, Shaar R, Tauxe L, Asefaw H, Ebert Y, Heimann A et al (2019) Paleomagnetism and paleosecular variations from the Plio-Pleistocene Golan Heights volcanic plateau, Israel. Geochem Geophys Geosys 20:4319–4335
Ben Asher M, Haviv I, Roering JJ, Crouvi O (2017) The influence of climate and microclimate (aspect) on soil creep efficiency: cinder cone morphology and evolution along the eastern Mediterranean Golan Heights. Earth Surf Proc Land 42(15):1649–2662
Camp VE, Roobol MJ (1992) Upwelling asthenosphere beneath western Arabia and its regional implications. J Geophy Res, 97:(B11), 1525–15271
Dafny E, Gvirtzman H, Burg A, Fleischer L (2003) The hydrogeology of the Golan basalt aquifer, Israel. Israel J Earth Sci 52, 139–153
Dan J, Singer A (1973) Soil evolution on basalt and basic pyro-clastic materials in the Golan Heights (Northern Israel). Geo-derma 9:165–192
Dubertret L, Dunand M (1955) The ossiferous seams of Khirbet El Umbachi and of Hebariye (Safa). Ann Arch Syrie IV–V: 59–76
Eidelman A, Enmar L (2014) Geological sites in Israel. Ministry of environmental protection and Israel Nature and Parks Authority, Jerusalem (in Hebrew)
Fahlbusch H, Peleg Y, Tsuk T (1994) Survey of the Sussita-Hippos Aqueducts. Excavat Surv Israel 14:29–30
Frumkin A, Naor R (2019) Formation and modification of pit craters—example from the Golan volcanic plateau, southern Levant. Z Geomorph 62(3):163–181
Garfunkel Z (1989) Tectonic setting of Phanerozoic magmatism in Israel. Isr J Earth Sci 38:51–74
Heimann A, Mor D, Stein M, Foland KA (1993) 40Ar/39Ar dating of prehistoric basalts in southwest Syria. Isr Geol Soc Ann Meet Arad Israel (in Hebrew)
Heimann A, Steinitz G, Mor D, Shaliv G (1996) The Cover Basalt Formation, its age and its regional and tectonic setting: Implications from K-Ar and 40Ar/39Ar geochronology. Isr J Earth Sci 45:55–71
Hurwitz S, Garfunkel Z, Ben-Gai Y, Reznikov M, Rotstein Y, Gvirtzman H (2002) The tectonic framework of a complex pull-apart basin: seismic reflection observations in the Sea of Galilee Dead Sead transform. Tectonophys 359(3–4):289–330
Inbar M (1984) Lava caves and surface volcano karst features in the basaltic area of the Golan Heights (Israel). Karstologia 4(1):45–49
Ilani S, Harlvan Y, Tarawneh K, Rabba I, Weinsberger R, Ibrahim K et al (2001) New K–Ar ages of basalts from the Harrat Ash Shaam volcanic field in Jordan: Implications for the span and duration of the uppermantle upwelling beneath the western Arabian plate. Geology, 29:171–174
Maimon O, Heimann A (2010) The formation of “Jubah”s (depressions) in the volcanic field of the Golan Heights: collapse into karstic caves or volcanic explosion?. Isr Geol Soc Ann Meet Eilot Israel
Mittlefehldt DW (1984) Genesis of cpx–amphibole xenoliths from Birket Ram: trace element and petrologic constraints. Contributions to Mineralogy and Petrology 88:280–287
Mor D (1973) The volcanism of the central Golan Heights. M.Sc. thesis, The Hebrew University of Jerusalem (in Hebrew)
Mor D (1986) The volcanism of the Golan Heights. Geol Sur Isr Rep GSI/5/86, (Hebrew, English Abstr.), Jerusalem
Mor D (1993) A time-table for the Levant volcanic province, according to K-Ar dating in the Golan Heights. Israel. J Afr Earth Sci 16(3):223–234
Nasa website. Retrieved from: https://earthobservatory.nasa.gov/images/45840/es-safa-volcanic-field-syria
Nuriel P, Weinberger R, Kylander-Clark ARC, Hacker BR, Craddock JP (2017) The onset of the Dead Sea transform based on calcite age-strain analyses. Geology 45(7):587–590
Regenauer‐Lieb K, Rosenbaum G, Lyakhovsky V, Liu J, Weinberg R, Segev A, Weinstein Y (2015) Melt instabilities in a cold lithosphere and implications for intraplate volcanism in the Harrat Ash‐Shaam volcanic field (NW Arabia). Journal of Geophysical Research, Solid Earth, 120(3):1543–1558
Reznik IJ, Bartov Y (2021) Present heat flow and paleo-geothermal anomalies in the southern Golan Heights, Israel. Earth Space Sci 8:e2020EA001299
Schmincke H-U (2004) Volcanism. Springer, Berlin, 324 pp
Shaanan U (2009) Birket Ram maar. Geol Surv Isr Rep GSI/13/2009 (in Hebrew)
Shaanan U, Porat N, Navon O, Weinberger R, Calvert A, Weinstein Y (2011) OSL dating of a Pleistocene maar: Birket Ram, the Golan Heights. J Volcanol Geotherm Res 201(1–4):397–403
Shaliv G (1991) Stages in the tectonic and volcanic history of the Neogene basin in the Lower Galilee and the Valleys. Geol Surv Isr Rep GSI/11/91 (in Hebrew)
Shtober-Zisu N, Inbar M, Mor S, Jicha BR, Singer BS (2018) Drainage development and incision rates in an Upper Pleistocene Basalt-Limestone Boundary Channel: The Sa’ar Stream, Golan Heights, Israel. Geomorphology 303:417–433
Singer AM, Zarei FM Lange K, Stahr (2004) Halloysite characteristics and formation in the Golan Heights. Geoderma 123:279–295
Sneh A, Weinberger R (2003) Geology of the Metulla quadrangle, northern Israel: implications for the offset along the Dead Sea Rift. Israel J Earth Sci 52:123–138.
Stein M, Garfunkel Z, Jagoutz E (1993) Chronothermometry of peridotitic and pyroxenitic xenoliths: implications for the thermal evolution of the Arabian lithosphere. Geochimica et Cosmochimica Acta 57:1325–1337
Tsuk T (2018) The water supply system. In: Eisenberg M (ed) Hippos-Sussita of the Decapolis, The First Twelve Seasons of Excavations, 2000—2011,Volume II. The Zinman Institute of Archaeology, University of Haifa, Haifa, Israel
Weinberger R, Sneh A, Harlavan Y (2003) The occurrence of Middle-Miocene volcanism at Mt. Hermon, northern Israel. Israel J Earth Sci 52:179–184
Weinstein Y (2000) Spatial and temporal geochemical variability in basin-related volcanism, northern Israel. J Afr Earth Sci 30:865–885
Weinstein Y (2002) Hydro-volcanism and stratigraphy in northern Golan. In” Ken-Tor R (ed) Israel Geological Society annual meeting, geological field trips, pp. 21–38 (in Hebrew)
Weinstein Y (2007) A transition from strombolian to phreatomagmatic activity induced by a lava flow damming water in a valley. J Volcanol Geotherm Res 159:267–284
Weinstein Y, Weinberger R (2006) The geology and volcanological history of Mount Avital. Isr J Earth Sci 55:237–255
Weinstein Y, Navon O, Altherr R, Stein M (2006) The role of fluids and of lithospheric heterogeneity in the generation of alkali basaltic suites from northwestern Arabia. J Petrol 47:1017–1050
Weinstein Y, Weinberger R, Calvert A (2013) High resolution 40Ar/39Ar study of Mount Avital, northern Golan: reconstructing the interaction between volcanism and a drainage system and their impact on eruptive styles. Bull Volcanol 75(5):1–12
Weinstein Y, Heimann A (2016) Spatial and temporal patterns in the Levant late Cenozoic volcanism. In Y. Enzel & O. Bar‐Yoseph(Eds.), Quaternary of the Levant (pp. 45–51). Cambridge, UK: Cambridge University Press
Weinstein Y, Nuriel P, Inbar M, Weinberger R (2020) Impact of the Dead Sea transform dynamics on adjacent volcanic activity. Tectonics 39:e2019TC005645
White RS, McKenzie D (1989) Magmatism at rift zones: the generation of volcanic continental margins and flood basalts. J Geophy Res, 94:7685–7730
Yaalon DH, Mor D, Netzer M (1984) Basaltic weathering rates and associated soils on the western Golan. Comunicaciones, Universidad de la Laguna, Tenerife, Canary Islands, Congreso Internacional de Suelos Volcanicos
Za’arur S (2021) Age constraints for the Golan Heights volcanic soils, determined from integrating geochemical and geochronological tools. Goldschmidt 2021 Meeting, Lyon
Ziaei M, Schwarcz HP, Hall CM, Grun R (1990) Radiometric dating of the Mousterian site at Quneitra. In: Goren-Inber N (ed) QEDEM, Monographs of the institute of archaeology. The Hebrew University of Jerusalem, vol 31, Chap 14
Zilberman E, Begin ZB (2017) Main stages and rate of the relief development in Israel. Geol Surv Isr Rep GSI/24/97 (in Hebrew)
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Mor, D., Weinstein, Y., Calvo, R., Weinberger, R. (2024). Volcanic Landscapes in the Golan Heights. In: Frumkin, A., Shtober-Zisu, N. (eds) Landscapes and Landforms of Israel. World Geomorphological Landscapes. Springer, Cham. https://doi.org/10.1007/978-3-031-44764-8_8
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