Abstract
The Negev desert features numerous unique geologic phenomena, the most prominent being crater-like valleys which have formed in a complex erosional process. These erosional craters expose a large variety of ancient rocks and geologic phenomena that reveal details of a rich geologic history. The unique conditions within the erosional craters provide shelter for endemic vegetation and animals and have influenced the development of the region’s cultures and human heritage. The well-preserved and thoroughly studied erosional craters of the Negev provide a great example of the geodiversity and geoheritage values encompassed in such rare geologic features. Worldwide acknowledgment of their importance has brought to the acceptance of the Hebrew term for a crater, makhtesh (literally a mortar), as the universal term for erosional craters. In recent years, the increasing importance of geotourism and environmental-education activities to the local communities brought upon a coalition of scientists, tour guides, residents, and stakeholders to support the establishment of a geopark in the Negev Craterland. The work presented here is a synthesis of current knowledge and new advancements in the study of erosional craters and their geoheritage value. In particular, we propose a revised definition of the term “makhtesh” to better represent different types of erosional craters while acknowledging the common features which make these structures so rich in geodiversity. We chose Makhtesh Ramon, the largest crater in the Negev, to demonstrate the great potential geoheritage value of craters worldwide. Finally, we developed a new method to systematically assess and compare the scenic value of the various craters and their morphologic features. We hope that the establishment of a grading scale for the key structural, scenic, and cultural aspects of craters may lay the foundation for future economic, ecologic, and touristic assessments of such unique landscapes and environments.
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References
Alahuhta J, Joensuu I, Matero J, Vuori KM, Saastamoinen O (2013) Freshwater ecosystem services in Finland. Suomen ympäristökeskus
Amiran DHK (1951) Geomorphology of the central Negev highlands, Israel. Israel Explor J 1:107–120
Anati E (1999) The rock art. Near East Archaeol 62:22–34
Anenburg M, Bialik OM, Vapnik Y, Chapman HJ, Antler G, Katzir Y, Bickle MJ (2014) The origin of celestine–quartz–calcite geodes associated with a basaltic dyke, Makhtesh Ramon, Israel. Geol Mag 151(5):798–815.c
Arthur LM, Baster RS (1976) Measuring scenic beauty: a selected annotated bibliography. U.S. For. Serv., Rocky Mountain For. Range Exp. Stn., Fort Collins 34 PP
Avner U (1993) Mazzebot sites in the Negev and Sinai and their significance. In: Biran A, Aviram J (eds) Biblical archaeology today 1990, Jerusalem, pp 166–181
Avner U (2001) Sacred stones in the desert. Biblic Archaeol Rev 27:30–41
Avni Y (1990) The palaeogeography and the evolution of the landscape in the western part of the central Negev and their relationship to the evolution of the Ramon crater. Horizons in Geography. 31 pp 67-83. (Hebrew)
Avni Y (1993) The structural and landscape evolution of the western Ramon structure. Israel J Earth Sci 42(3–4):177–188
Avni Y (2001) Structure and landscape evolution of the Makhteshim country—interrelations between monoclines, truncation surfaces and the evolution of the Makhteshim. Makhteshim Country: A Laboratory of Nature: Geological and Ecological Studies in the Desert Region of Israel. Pensoft Publishers, Sofia, 33–58
Avni Y, Zilberman E (2006) Landscape evolution triggered by neotectonics in the Sede Zin region, central Negev, Israel. Isr J Earth Sci 55:189–208
Avni Y, Segev A, Ginat H (2012) Oligocene regional denudation of the northern Afar dome: pre-and syn-breakup stages of the Afro-Arabian plate. Bulletin 124(11–12):1871–1897
Baars D (2000) The Colorado Plateau: a geologic history revised and updated. UNM Press, Albuquerque, p 251
Baer G (1993) Flow direction in sills and dikes and formation of cauldrons in eastern Makhtesh Ramon. Isr J Earth Sci 42:133–148
Bar O, Gvirtzman Z, Feinstein S, Zilberman E (2013) Accelerated subsidence and sedimentation in the Levant Basin during the Late Tertiary and concurrent uplift of the Arabian Platform: tectonic versus counteracting sedimentary loading effects. Tectonics 32(3):334–350
Bastian O, Syrbe RU, Slavik J, Moravec J, Louda J, Kochan B, Kochan N, Stutzriemer S, Berens A (2017) Ecosystem services of characteristic biotope types in the Ore Mountains (Germany/Czech Republic). Int J Biodivers Sci Ecosyst Serv Manag 13:51–71. https://doi.org/10.1080/21513732.2016.1248865
Becker A, Mazor E, Becker N (1995) Flexural slip in an anticlinal plungeout as a mechanism for dyke offsets: Nahal Ardon Valley, Ramon National geological Park, Israel. Int Geol Rev 37:601–622
Becker N, Choresh Y, Bahat O, Inbar M (2009) Economic analysis of feeding stations as a means to preserve an endangered species: the case of griffon vulture (Gyps fulvus) in Israel. J Nat Conserv 17:199–211
Ben David R, Eyal Y, Zilberman E, Bowman D (2002) Fluvial systems response to rift margin tectonics: Makhtesh Ramon area. Geomorphol Drain Basin Dyn Morphol 45(1–2):147–163
Ben-David R (1993) Stages in the evolution of landscape in the Makhtesh Ramon and Nahal Neqarot areas. Isr J Earth Sci 42:189–195
Ben-David R, Mazor E (1988) Stages in the evolution of Makhtesh Ramon and its drainage system. Isr J Earth Sci 37(2–3):125–135
Benjamini C, Druckman Y, Zak I (1993) Depositional cycles in Ramon Group (Triassic), Makhtesh Ramon. Isr J Earth Sci 42:115–124
Bentor YK, Kastner M, Mazor E (1966) The hydrothermal kaolinite of Makhtesh Ramon. In: Bentor YK (ed) The clays of Israel. Israel Program for Scientific Translations, Jerusalem, pp 23–28
Bialik OM, Korngreen D, Benjamini C (2012) Lithofacies and cyclicity of Mohilla evaporite basins on the rifted margin of the Levant in the Late Triassic, Makhtesh Ramon, southern Israel. Sedimentology 59(7):2097–2124
Butchart S.H.M, Walpole M, Collen B, van Strien A, Scharlemann J.P.W, Almond R.E.A, Baillie J.E.M, Bomhard B, Brown C, Bruno J, Carpenter K. E, Carr G. M, Chanson J, Chenery A. M, Csirke J, Davidson N. C, Dentener F, Foster M, Galli A, Galloway J.N, Genovesi P, Gregory R.D, Hockings M, Kapos V, Lamarque J-F, Leverington F, Loh J, McGeoch M.A, McRae L, Minasyan A, Morcillo M.H, Oldfield T.E.E, Pauly, D, Quader, S, Revenga C, Sauer J.R, Skolnik B, Spear, D, Stanwell-Smith D, Stuart S.N, Symes A, Tierney M, Tyrrell T.D, Vié, J.C, Watson R (2010) Global biodiversity: indicators of recent declines. Science 328, 1164–1168. https://doi.org/10.1126/science.1187512 Calif., 58 pp.
Calvo R, Bartov Y (2001) Hazeva Group, southern Israel: new observations, and their implications for its stratigraphy, paleogeography, and tectono-sedimentary regime. Isr J Earth Sci 50:71–99
Craik, K. H. (1970). A system of landscape dimensions: appraisal of its objectivity and illustration of its scientific application: report to Resources for the Future, Inc. University of California Press
Danin A (1983) Desert vegetation of Israel and Sinai. Jerusalem: Cana Publishing House 148p. - illus., col. illus., maps.. En Icones,Maps. Geog=2 Floristics (SOUTH_WEST_ASIA: ISRAEL, SOUTH_WEST_ASIA: EGYPT) (198401629)
Danin A (1986) Patterns of biogenic weathering as indicators of palaeoclimates in Israel. Proc R Soc Edinb B Biol Sci 89:243–253. https://doi.org/10.1017/S0269727000009064
Danin A (2008) Desert rocks—a habitat which supports many species that were new to science in the last 40 years. Turk J Bot 32(6):459–464
Danin A (2013) Near east ecosystems, plant diversity, pp 478–487
Danin A (2015) Rocks supporting endemic plant species in East Mediterranean deserts. Fl Medit 25:33–38
Eisenberg-Degen D, Rosen SA (2013) Chronological trends in Negev rock art: the Har Michia petroglyphs as a test case. Arts 2:225–252
Eizenberg E, Orenstein DE, Zimroni H (2017) Back to the (Visualization) Laboratory: using focus groups to generate qualitative and quantitative results. Journal of Planning Education and Research, 0739456X17700252
Erickson-Gini T, Israel Y (2003) Recent advances in the research of the Nabatean and Roman Negev. In: Rosenthal-Heginbottom R (ed) The Nabateans in the Negev (Haifa), pp 9–11
Evenari M, Shanan L, Tadmor N (1982) The Negev: the challenge of a desert. Harvard University Press
Finzi Y, Harlev N (2016) A regional approach for modeling cliff retreat rate: the Makhteshim Country, Israel. Geomorphology 271:65–73
Finzi Y, Ryvkin I (2016) The erosional crater (Makhtesh)—a rare but diverse phenomenon. Dead Sea and Arava Studies 8(4):126–138
Freund R (1961) Distribution of Lower Turonian ammonites in Israel and the neighboring countries: Israel Research Ccuncil Bull., vol. 10G, pp. 79–100
Freund R (1965) A model of the structural development of Israel and adjacent areas since Upper Cretaceous times. Geol Mag 102(3):189–205
Freund R, Zak I (1973) Shifting of folding and faulting along geological structures. Teva Va’Aretz 15(6):264–270 (in Hebrew)
Garfunkel Z (1964) Tectonic problems along the Ramon lineament, MSc thesis, The Hebrew University of Jerusalem, 68 pp. [In Hebrew]
Garfunkel Z (1989) Tectonic setting of phaneroozoic magmatism in Israel. Israel Journal of Earth-Sciences 38(2–4):51–74
Garfunkel Z (1998) Constrains on the origin and history of the Eastern Mediterranean basin. Tectonophysics 298(1):5–35
Garfunkel Z, Derin B (1984) Permian-early Mesozoic tectonism and continental margin formation in Israel and its implications for the history of the Eastern Mediterranean. Geol Soc Lond, Spec Publ 17:187–201. https://doi.org/10.1144/GSL.SP.1984.017.01.12
Garfunkel Z, Derin B (1988) Reevaluation of latest Jurassic- early Cretaceous history of the Negev and the role of magmatic activity. Isr J Earth Sci 37:43–52
Garfunkel Z, Horowitz A (1966) The Upper Tertiary and Quaternary morphology of the Negev. Isr J Earth Sci 15:101–117
Garfunkel Z, Katz A (1967) New magmatic features in Makhtesh Ramon, southern Israel. Geological Magazine, 104(6):608–629
Gerson R (1982) Talus relicts in deserts: a key to major climatic fluctuation. Isr J Earth Sci 31:123–132
Gill D (2015) The Kuchinarai erosional cirque—a genuine “Makhtesh” in the Phu Phan range of northeast Thailand. Geological Society of Israel Meeting. Abstracts, p 53
Gordon JE (2012) Rediscovering a sense of wonder: geoheritage, geotourism and cultural landscape experiences. Geoheritage 4:65–77. https://doi.org/10.1007/s12371-011-0051-z
Gordon JE, Barron HF (2013) The role of geodiversity in delivering ecosystem services and benefits in Scotland. Scott J Geol 49:41–58. https://doi.org/10.1144/sjg2011-465
Gray M (2004) Geodiversity: valuing and conserving abiotic nature. Wiley
Gray M (2008) Geodiversity: developing the paradigm. Proc Geol Assoc 119:287–298. https://doi.org/10.1016/S0016-7878(08)80307-0
Gray M, Gordon JE, Brown EJ (2013) Geodiversity and the ecosystem approach: the contribution of geoscience in delivering integrated environmental management. Proc Geol Assoc 124:659–673. https://doi.org/10.1016/j.pgeola.2013.01.003
Gül A, Gezer A (2004) Modelling proposal for selection of urban forest location and its evaluation using Isparta city example. Paper Presented at I. Ulusal Kent Ormancılığı Kongresi (First National Urban Forestry Congress in Turkey), Ankara (in Turkish)
Guralnik B, Matmon A, Avni Y, Zilberman E, Fink D (2009) Reconstructing drainage evolution in response to tectonic deformation along an active rift margin using cosmogenic exposure age dating of desert pavements. Presented at the EGU General Assembly Conference Abstracts, p. 1812
Guralnik B, Matmon A, Avni Y, Fink D (2010) 10Be exposure ages of ancient desert pavements reveal Quaternary evolution of the Dead Sea drainage basin and rift margin tilting. Earth Planet Sci Lett 290:132–141
Gvirtzman Z (2004) Chronostratigraphic table and subsidence curves of southern Israel. Isr J Earth Sci 53(1):48–61
Gvirtzman Z, Garfunkel Z, Gvirtzman G (1998) Birth and decay of an intracontinental magmatic swell: Early Cretaceous tectonics of southern Israel. Tectonics 17(3):441–457
Haas G (1981) A fragmentary skull of Simosaurus (Reptilia: Sauropterygia) from the Middle Triassic of the Makhtesh Ramon, Israel. Isr J Zool 30(1–2):30–34
Haines-Young R, Potschin M (2013) Common International Classification of Ecosystem Services (CICES), Consultation on Version 4, August–December 2012. Report to the European Environmental Agency, EEA Framework Contract no: EEA/IEA/09/003
Hillel D, Tadmor N (1962) Water regime and vegetation in the central Negev highlands of Israel. Ecology 43, 33–41. https://doi.org/10.2307/1932037 Illustration of its Scientific Application. Report to Resources for the Future, Inc., Institute for Personality Assessment and Research, University of California, Berkeley
Itamar A, Baer G (1993) Polymetallic mineralization related to magmatic and contact metasomatic features, southern Makhtesh Ramon, Israel. Isr J Earth Sci 42:149–163
Itamar A, Segev A, Peltz S (1994) Volcanic phenomena in quartz-syenite bodies in Gavnunim and Shen Ramon. Israel Geological Society, Annual Meeting, p. 46 (abstract)
Itamar A, Peltz S, Segev A (1997) Fissure explosions in a Lower Cretaceous quartz-syenite stock, Makhtesh Ramon, Israel. International Volcanological Congress IAVCEI, Puerto Vallarta, p. 10 (abstract)
Itamar A, Segev A, Peltz S (1998) The acid magmatic bodies associated with volcanism, hydrothermal alteration and mineralization in southern Makhtesh Ramon. Isr. Geol. Soc. Annu. Meet. Field Trip 7, p. 3-E - 19-
Klein M (1990) The rate of retreat of the Makhtesh Ramon cliff. Horizons in Geography 31:179–183
Korngreen D, Benjamini C (2011) Platform to shelf edge transect, Triassic of northern Israel, North Arabian Plate. Sediment Geol 236:164–184. https://doi.org/10.1016/j.sedgeo.2011.01.004
Korngreen D, Orlov-Labkovsky O, Bialik O, Benjamini C (2013) The Permian–Triassic transition in the central coastal plain of Israel (north Arabian plate margin), David 1 borehole. PALAIOS 28:491–508. https://doi.org/10.2110/palo.2012.p12-042r
Krenkel E (1924) Die Bruchzonen Ostafrikas. Geol Rundsch 14(3):209–232
Lang B, Steinitz G (1994) New 40Ar/39Ar dating of Early Cretaceous intrusive magmatics in Makhtesh Ramon. Isra Geol Surv Curr Res 9:37–40
Lang B, Hebeda EH, Priem HNA, Verdurmen EAT, Steinitz G (1988) K-Ar and Rb-Sr ages of early Cretaceous magmatic rocks from Makhtesh Ramon, southern Israel. Israel Journal of Earth-Sciences 37, 65–72
Lewy Z (1989) Correlation of lithostratigraphic units in the upper Judea Group (Late Cenomanian-Late Coniacian) in Israel. Isr J Earth Sci 38(1):37–43
Litton BR (1968) Forest landscape description and inventories—a basis for land planning and design USDA Forest Service Research Paper PSW-49, USDA Pacific Southwest Forest and Range Experiment Station, Berkeley, Calif (1968), p. 64
Mander Ü, Helming K, Wiggering H (2007) Multifunctional land use: meeting future demands for landscape goods and services. In: Multifunctional land use. Springer, Berlin, Heidelberg, pp 1–13
Maret R.E, A. V. Robertson Coe (1960) Geology of Sinbad Valley Anticline, Geology of the Paradox Basin Fold and Fault Belt, Third Field Conference, pp 43–46
Mazor E (1961) A Lower Cretaceous volcano in Makhtesh Ramon, southern Israel. Isr J Earth Sci 10:207
Mazor E (1979) National Geological Park at Makhtesh Ramon- master plan. The geo-isotopic group, Weizmann Institute of Science, pp. 94, submitted to the Israel Nature Authority, Mitzpe Ramon Local Council, Government offices and the settlements bodies
Mazor E (1980) National Geological Park Complex at Makhtesh Ramon—master plan. Written in collaboration with a work group of the Israel Nature Authority, pp. 43
Mazor E (1992) Introduction into the Ramon National Geological Park. In: Geological Guide Book, Makhtesh Ramon. Isr J Earth Sci 42:103–114
Mazor E (1993) Introduction to the Ramon National Geological Park. Isr J Earth Sci 42:103–114
Mazor E, Cohen A (1987) Formation of the quartzite “carpentries” in the Makhtesh Ramon. Isr. Geol. Soc. Annu. Mtg., pp. 79–80 (abstract)
Mazor E, Krasnov BR (2001) Makhteshim Country, Ramon Science Center and Nature Laboratory. Makhteshim Country: a laboratory of nature: geological and ecological studies in the desert region of Israel. Pensoft Publishers, Sofia, 1–32
Mazor E, Beker A, Rosen SA, Pachat Y, Krasnov B, Shinberg G, Zaslavsky N (1994) The treasures of the Ramon and Craterland—the Ramon geo-sites survey. Published by Ramon science center and Weizmann institute. Submitted to the President and Ministers of Israel prior to the Government's declaration to preserve the craters land
Millennium Ecosystem Assessment (2005) Ecosystems and human well-being: biodiversity synthesis, World Resources Institute
Orenstein DE, Groner E (2014) In the eye of the stakeholder: changes in perceptions of ecosystem services across an international border. Ecosystem Services 8:185–196
Peak District [Internet]. Wikipedia. 2016 [cited 11 May 2016]. Available from: https://en.wikipedia.org/wiki/Peak_District
Picard L (1951) ‘Geomorphology of Israel’ part 1: the Negev: Bull. Res. Council, Israel, 8G. pp. 1–30
Plieninger T, Bieling C, Fagerholm N, Byg A, Hartel T, Hurley P, López-Santiago C.A., Nagabhatla, N, Oteros-Rozas, E, Raymond CM, Van der Horst D, Huntsinger L (2015a) The role of cultural ecosystem services in landscape management and planning. Curr Opin Environ Sustain, Open Issue 14, 28–33. https://doi.org/10.1016/j.cosust.2015.02.006
Plieninger T, Kizos T, Bieling C, Le Dû-Blayo L, Budniok MA, Bürgi M, Crumley C, Girod G, Howard P, Kolen J, Kuemmerle T, Milcinski G, Palang H, Trommler K, Verburg P (2015b) Exploring ecosystem-change and society through a landscape lens: recent progress in European landscape research. Ecol Soc 20. https://doi.org/10.5751/ES-07443-200205
Prosser CD, Bridgland DR, Brown EJ, Larwood JG (2011) Geoconservation for science and society: challenges and opportunities. Proc Geol Assoc 122:337–342. https://doi.org/10.1016/j.pgeola.2011.01.007
Rieppel O, Hagdorn H (1997) Paleobiogeography of Middle Triassic Sauropterygia in central and western Europe. In Ancient marine reptiles (pp. 121–144)
Rieppel O, Mazin J. M, Tchernov E (1997) Speciation along rifting continental margins: a new nothosaur from the Negev (Israel). C RAcad Sci Ser IIA Earth Planet Sci, 325(12), 991–997
Rophe B, Eyal Y, Eyal M (1993) The Ramon Laccolith. Isr J Earth Sci 42:125–131
Rosen SA (1996) The decline and fall of Flint. In: Stone tools, interdisciplinary contributions to archaeology. Springer, Boston, pp 129–158
Rosen SA (1997) Beyond milk and meat: lithic evidence for economic specialization in the Early Bronze Age pastoral periphery in the Levant. Lithic Technol 22:99–109
Rosen SA (2003) Early multi-resource nomadism: excavations at the Camel Site in the central Negev. Antiquity 77(298):749–760. https://doi.org/10.1017/S0003598X0006169X
Rosen SA, Rosen YJ (2003) The shrine of the setting sun: survey of the sacred precinct at Ramat Saharonim. Isr Explor J 53(1):1–19
Rosen SA, Tykot RH, Gottesman M (2005) Long distance trinket trade: Early Bronze Age obsidian from the Negev. J Archaeol Sci 32:775–784
Sagy Y, Gvirtzman Z, Reshef M (2017) 80 my of folding migration: new perspective on the Syrian arc from Levant Basin analysis. Geology 46(2):175–178
Saltz D, Rubenstein DI (1995) Population dynamics of a reintroduced Asiatic wild ass (Equus Hemionus) herd. Ecol Appl 5:327–335
Segev A, Aryeh I, Sergio P, Barbu, L (1994) The age of Arod Conglomerate by K-Ar dating of igneous pebbles, Makhtesh Ramon, southern Israel 9
Segev A, Ilani S, Shirav M (2000) Map of mineral resources in Israel—raw materials for the building industry
Segev A, Schattner U, Lyakhovsky V (2011) Middle–Late Eocene structure of the southern Levant continental margin—tectonic motion versus global sea-level change. Tectonophysics 499(1–4):165–177
Shahar J (1994) The Syrian arc system: an overview. Palaeogeogr Palaeoclimatol Palaeoecol 112(1–2):125–142
Shimshilashvili E, Zinovy Y (2005) Mechanism of phenocryst formation in alkaline ultrabasic and basic volcanic rocks: evidence from Makhtesh Ramon, southern Israel. Isr J Earth Sci 54:113–112
Shlosberg A, Wu Q, Rumbeiha WK, Lehner A, Cuneah O, King R, Hatzofe O, Kannan K, Johnson MB (2012) Examination of Eurasian griffon vultures (Gyps fulvus fulvus) in Israel for exposure to environmental toxicants using dried blood spots. Arch Environ Contam Toxicol 62(3):502–511
USDA Forest Service (1972) USDA Forest Service National Forest Landscape Management USDA Handbook Number 434, Volume I, Government Printing Office, Washington, D.C (1972), p. 76
Van der Meulen ES, Braat LC, Brils JM (2016) Abiotic flows should be inherent part of ecosystem services classification. Ecosyst Serv 19(1–5):1–5. https://doi.org/10.1016/j.ecoser.2016.03.007
Vapnik Y (2005) Melt and fluid inclusions and mineral thermobarometry of mantle xenoliths in Makhtesh Ramon, Israel. Isr J Earth Sci 54:15–28
Vimuktanadana S (1999) Geological map of Thailand Scale 1:2,500,000. Geological Survey Division Department of Mineral Resources, Ministry of Natural Resources and the Environment, Bangkok Thailand
Wannakomol A (2005) Soil and groundwater salinization problems in the Khorat Plateau, NE Thailand [Doctorate thesis]. Department of Earth Sciences, Freie University, Berlin
Weissbrod T, Gvirtzman G, Conway BH (1994) The Early Cretaceous sequence of the sinaf-1 borehole (southern Negev) and its stratigraphic implications. Geol Surv Israel Curr Res 9:67–72
Wieler N, Avni Y, Rosensaft M (2016) The significance of the geological strata on desert runoff agriculture: indications for stable desert environment over the last 1600 years in southern Israel. J Arid Environ 135:147–163
Wilson MA, Zatoń M, Avni Y (2012) Origin, palaeoecology and stratigraphic significance of bored and encrusted concretions from the Upper Cretaceous (Santonian) of southern Israel. Palaeobiodiversity and Palaeoenvironments 92(3):343–352
Yair A, Raz-Yassif N (2004) Hydrological processes in a small arid catchment: scale effects of rainfall and slope length. Geomorphology 61:155–169
Yom-Tov Y, Hatzofe O, Geffen E (2012) Israel’s breeding avifauna: a century of dramatic change. Biol Conserv 147:13–21
Zilberman E (1992) Remnants of Miocene landscape in the Central and Northern Negev and their paleo-geographical implications. Geol Surv Israel Bull 83:54
Zilberman E (2000) Formation of makhteshim unique erosion cirques in the Negev, southern Israel. Isr J Earth Sci 49(3):127–141
Zilberman E, Avni Y (2004) Geological map of Israel, Mitzpe Ramon sheet 1:50,000, the Geological Survey of Israel
Zilberman E, Eidelman A, Avni Y, Ginat H (2011) The Geology and the Landscape Evolution of the Negev Mountains – Southern Israel. Middle-East Nature Conservation Promotion Association, Israel Nature and Parks Authority, pp 206
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The authors thank Efrat Kedem-Silvert of Bateva Tours, Mitzpe Ramon, and Yoash Limon of the Negev Heights Tourism Council for fruitful discussions and contributions to both the manuscript and the coalition supporting the establishment of a Geopark in the Negev Craterland. The authors thank the Israeli Ministry of Science for the ongoing support.
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Finzi, Y., Avni, S., Maroz, A. et al. Extraordinary Geodiversity and Geoheritage Value of Erosional Craters of the Negev Craterland. Geoheritage 11, 875–896 (2019). https://doi.org/10.1007/s12371-018-0335-7
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DOI: https://doi.org/10.1007/s12371-018-0335-7