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Makhtesh

A makhtesh (Hebrew for "mortar") is a distinctive erosion cirque—a large, steep-walled, flat-bottomed valley formed by the drainage of soft rock layers within an anticlinal structure—primarily found in the Negev Desert in southern Israel, with similar formations occurring in the Sinai Peninsula. Unlike impact or volcanic craters, makhteshim arise from prolonged water and wind erosion that carves through limestone, dolomite, and sandstone, exposing rock strata dating back over 220 million years and creating dramatic, colorful landscapes barren of soil and vegetation.^[1] There are five known makhteshim in the Negev, including the two small ones on Mount Arif and the three larger examples: Makhtesh Ramon, Makhtesh Gadol, and Makhtesh Katan.^[1] The largest and most prominent, Makhtesh Ramon, stretches 40 kilometers (25 miles) long, up to 19 kilometers (12 miles) wide, and 500 meters (1,600 feet) deep, making it the world's largest erosion cirque.^[2] Formed over 200 million years ago beneath the ancient Tethys Sea, its development accelerated after the sea receded, with erosion sculpting the heart-shaped basin amid the hyper-arid climate.^[2] This structure reveals a rich geological history, featuring Triassic rocks, marine fossils, igneous dikes, sills, a plutonic stock, a laccolith, and even 110-million-year-old basanite volcanoes, alongside rare formations like the six quartzite prism hills known as "The Carpentry."^[1] Makhteshim serve as natural laboratories for studying Earth's crustal history and are vital for hyperspectral remote sensing calibration due to their diverse mineral compositions and clear spectral signatures.^[3] Beyond geology, these formations support unique desert ecosystems, preserving endemic flora and fauna of the Negev Highlands while providing habitats for reintroduced endangered species such as the onager and Arabian oryx.^[2] Makhteshim Country, encompassing these sites, is proposed for UNESCO World Heritage status for its outstanding universal value in demonstrating erosion processes and ancient geological windows.^[1] They also hold cultural significance, with sites like Makhtesh Ramon featuring memorials, such as the one for Israeli astronaut Ilan Ramon atop Mount Ramon, and attracting researchers from institutions including Ben-Gurion University of the Negev.^[1]

Overview

Definition and Characteristics

A makhtesh is a distinctive erosional landform resembling a crater or cirque, formed through the differential erosion of anticlinal structures in arid environments. It features steep surrounding cliffs, typically rising 200 to 500 meters high, that encircle a broad, flat-bottomed valley drained by a single narrow outlet, often a wadi. These landforms are unique to regions like the Negev Desert in Israel and parts of the Sinai Peninsula, where resistant caprocks of limestone and dolomite overlie softer sandstones, leading to the collapse and exposure of the underlying strata.^[1]^[3]^[4] Key morphological characteristics include the exposure of vibrant, layered rock formations in a spectrum of colors due to the bare, soil-free walls and valley floor, which lack significant vegetation and reveal geological strata from various eras. Unlike impact craters or volcanic calderas, makhteshes originate purely from erosional processes acting on folded rock layers, resulting in an inverted relief where the once-protected interior soft rocks are exposed after the erosion of the harder overlying caprock. The valley floors are generally flat, filled with alluvial sediments transported through the single drainage point, emphasizing their role as closed topographic depressions.^[1]^[5]^[6] Typical dimensions vary, but makhteshes can extend up to 40 kilometers in length, 2 to 19 kilometers in width, and reach depths of 200 to 500 meters, creating dramatic, enclosed basins that distinguish them from open canyons or irregular fault-controlled valleys. This structure provides exceptional geological windows into ancient rock sequences, highlighting the interplay of tectonic uplift and prolonged fluvial erosion in shaping these features. For instance, the largest example measures approximately 40 km long, 2–19 km wide, and 500 m deep.^[3]^[4]^[5]^[2]

Distribution and Examples

Makhteshes are erosion cirques primarily concentrated in the Negev Desert of southern Israel, where the arid climate and specific geological conditions favor their formation, with additional examples extending to the Sinai Peninsula in Egypt and analogous landforms present in southern Jordan's Wadi Rum region.^[7]^[8] Only seven such formations are confirmed worldwide, all restricted to the Middle East, which emphasizes their regional endemism and limited global occurrence due to the unique combination of anticlinal structures and differential erosion required for their development.^[9] Prominent examples include Makhtesh Ramon, the largest at approximately 40 km long and 2–19 km wide, situated in the central Negev about 85 km south of Beersheba at coordinates 30°35′N 34°49′E.^[7]^[2] HaMakhtesh HaGadol, or the Big Makhtesh, measures approximately 10 km by 5 km and lies near Yeruham in the northern Negev at 30°55′N 34°58′E.^[8] HaMakhtesh HaKatan, the Small Makhtesh, spans about 5 km by 7 km and is located in the northeastern Negev near the Dead Sea at 30°57′N 35°11′E.^[10] Two smaller makhteshim are located on Mount Arif south of Makhtesh Ramon. These features were first systematically explored and named in the 1940s by Israeli scouts traversing the Negev, with the term "makhtesh" derived from their mortar-like appearance; subsequent geological surveys by the Israel Geological Survey after 1948 provided detailed scientific documentation.^[11]

Etymology

Origin of the Term

The term "makhtesh" originates from Biblical Hebrew, where it denotes a mortar or pestle, a grinding tool used for crushing substances in a bowl-like depression.^[4] This linguistic root aptly describes the geological feature's characteristic bowl-shaped erosion cirque, evoking the shape of an ancient grinding vessel.^[1] The word appears in the Hebrew Bible, specifically in Zephaniah 1:11, referring to a low-lying area or hollow in Jerusalem, highlighting early recognition of such topographic forms.^[12] For centuries, "makhtesh" has been employed by local Jewish communities in the Negev region to name these distinctive landscape features, drawing on longstanding observations of the desert terrain.^[10] The term gained formal recognition in Israeli geological studies during the 20th century, with early systematic documentation appearing in works by researchers such as Leo Picard, who examined Negev formations including Makhtesh Ramon in publications from the 1940s onward.^[13] Picard's contributions, building on fieldwork in the 1930s, helped integrate the local nomenclature into scientific discourse within Israel's emerging geological framework.^[14] In Talmudic literature, "makhtesh" is interpreted to describe geological depressions, such as the area around Tiberias, underscoring its cultural significance in ancient Jewish texts as a descriptor for sunken or bowl-like terrains.^[15] By the mid-20th century, the term entered international English-language geological literature unchanged as "makhtesh," preserving its Hebrew specificity rather than translating it to broader terms like "crater," to accurately convey the unique erosional morphology observed in the Negev.^[1] This adoption reflects the feature's exclusivity to the region, distinguishing it from volcanic or impact craters elsewhere.^[10] In geological literature, makhtesh formations are primarily described using the term "erosion cirque," referring to a steep-walled, bowl-shaped basin sculpted by prolonged fluvial and mass-wasting erosion in arid environments, distinct from glacial cirques found in temperate or polar regions.^[16] This adaptation highlights how differential erosion exposes resistant rock layers as elevated rims around a central depression, often within anticlinal structures, creating a landform unique to hyper-arid settings like the Negev Desert.^[17] The nomenclature distinguishes makhtesh from true "craters," which imply explosive origins such as meteor impacts or volcanic eruptions, to avoid misconceptions; instead, "makhtesh" is favored for its specificity, differentiating it from generic features like grabens (tectonic rift valleys) or calderas (volcanic collapse basins).^[18] This precision underscores the erosional rather than cataclysmic genesis of these landforms. Early scientific studies sometimes employed synonyms like "Ramon-type structure" to denote similar erosional depressions in the Negev, particularly in reference to Makhtesh Ramon as the archetypal example.^[19] The term "makhtesh" entered international English-language geological discourse in the 1970s, coinciding with increased fieldwork in Israel's Negev region, and has since become standard in peer-reviewed publications to encapsulate this distinctive arid erosion morphology.^[19] Terminological evolution reflects a shift from popular media's "crater" label, which evokes dramatic extraterrestrial or igneous events, to the academically precise "erosion cirque" to emphasize sedimentary and tectonic processes without misleading analogies.^[20] This refinement aids in global comparisons, as analogous but smaller erosion cirques have been identified in other arid zones, though none match the scale or structural complexity of Negev makhteshim.^[5]

Geological Formation

Erosional Mechanisms

The formation of makhteshes begins with the uplift of anticlinal ridges, which exposes layered sedimentary rocks to erosional forces, followed by differential erosion that preferentially removes softer underlying strata. In the Negev, hard carbonate rocks of the Judea Group, such as limestones and dolostones, form resistant caprocks that overlie more friable sandstones of the Kurnub Group (Lower Cretaceous) and clastic/carbonate strata of the Arad Group (Jurassic); the less resistant sandstone and Jurassic layers erode more rapidly, leading to the collapse of cliffs and the creation of steep, enclosing walls around the depression.^[20]^[21] Flash floods play a central role in deepening the makhtesh depressions through the incision of ephemeral rivers, which carve a single outlet wadi that drains the basin and facilitates ongoing valley excavation. These high-magnitude, low-frequency events, occurring in the hyper-arid environment, mobilize sediment and erode friable beds, with peak discharges in watersheds like Makhtesh Ramon reaching up to 72 m³/s during extreme storms, progressively widening and lowering the floor over 10–20 million years.^[22]^[21] Wind erosion supplements fluvial processes by abrading exposed surfaces and contributing to the smoothing of slopes in the arid setting, helping reveal the colorful stratigraphic layers while transporting fine particles across the landscape.^[23] Erosion has been active since the Miocene epoch approximately 23 million years ago, with initial incision tied to uplift and stream reversal, and accelerated phases during wetter Pleistocene intervals that enhanced fluvial activity.^[20]^[21] Key evidence includes alluvial fans and conglomerate breccias at the base of the cliffs, composed of debris from repeated collapses, as seen in Neogene deposits within the craters.^[21]^[23]

Tectonic and Stratigraphic Context

Makhtesh structures are embedded within the Syrian Arc fold belt, a regional system of northeast-trending anticlines and folds formed primarily during Late Cretaceous compression between approximately 80 and 100 million years ago. This compressional regime, associated with the closure of the Neotethys Ocean and far-field stresses from African-Arabian plate interactions, induced shortening and inversion of earlier Mesozoic extensional basins along major faults, including the Ramon Fault—a prominent shear zone paralleling the axis of Makhtesh Ramon.^[24]^[25]^[26] The stratigraphic succession in makhtesh exposes a continuous record from Mesozoic to Cenozoic strata, with Triassic sandstones (such as those in the Saharonim and Gevanim Formations) forming the basal layers, overlain by Jurassic carbonates and clastics like the Ardon and Inmar Formations. These Jurassic units, dating to around 200 million years ago, contain fossils of marine invertebrates, terrestrial plants, and early reptiles, reflecting alternating shallow marine, lagoonal, and fluvial environments during the Early Jurassic. The sequence ascends through Cretaceous sandstones and shales (e.g., Hatira Formation) to Eocene limestones, providing a window into progressive platform sedimentation and periodic transgressions across the northern Arabian Plate margin.^[27]^[28]^[29] Key structural elements include the differential exposure of older rocks in the central depression, resulting from the protective role of a resistant caprock—typically Albian-Cenomanian limestones and dolomites of the Hazera Formation—that shielded underlying softer Mesozoic layers from fluvial and aeolian erosion while allowing peripheral incision. Volcanic intrusions, manifested as radial basaltic and trachytic dikes and sills, punctuate the sedimentary pile, emplaced during Early Cretaceous magmatism around 110-120 million years ago in response to regional extension preceding the main folding phase.^[27]^[30]^[26] On a broader scale, the tectonic evolution of makhtesh is modulated by the sinistral Dead Sea Transform fault system to the east and the Red Sea-Gulf of Suez rifting to the south, which have driven Negev uplift since the Miocene at rates of 0.1 to 0.5 mm per year, enhancing incision and exposure of the folded strata.^[24]

Specific Locations

Negev Desert

The Negev Desert in southern Israel hosts several prominent makhteshim, unique erosional landforms that showcase the region's complex geological history. Among these, Makhtesh Ramon stands as the largest, extending approximately 40 kilometers in length and featuring steep, alpine-like cliffs that rise dramatically around its elliptical basin. This makhtesh is traversed by internal roads, including segments of Highway 40, allowing access to its diverse terrains while preserving its natural structure.^[31]^[27] Distinctive volcanic plugs and vents, composed of trachybasaltic and basaltic materials, punctuate the landscape, remnants of ancient magmatic activity from the Late Cretaceous period. Additionally, the area preserves fossils, including marine reptiles and ammonites, embedded in its sedimentary layers.^[32]^[1] Adjacent to Makhtesh Ramon and forming part of the Yeruham area's geological cluster are the smaller HaMakhtesh HaGadol and HaMakhtesh HaKatan, which measure about 5 by 10 kilometers and 5 by 7 kilometers, respectively. These adjacent makhteshim share a common drainage system, channeling water through interconnected wadis that link them hydrologically. HaMakhtesh HaGadol is renowned for its vibrant exposures of Nubian Sandstone, colorful Lower Cretaceous strata that reveal layered sandstones rich in heavy minerals and fossilized plant remains, providing insights into ancient desert environments. In contrast, HaMakhtesh HaKatan remains notably isolated, with minimal human impact due to limited access and its remote position, preserving a pristine erosional basin surrounded by high cliffs.^[33]^[34] Two even smaller makhteshim are located on Mount Arif, south of Makhtesh Ramon, contributing to the total of five makhteshim in the Negev.^[10] Collectively, these sites constitute the "Makhteshim Country" cluster, a interconnected network of erosion cirques spanning roughly 500 km², bound by northeast-southwest trending anticlinal ridges and wadi systems that facilitate shared sediment transport and erosion patterns. This region exemplifies the Negev's tectonic and erosional dynamics, with the makhteshim drained primarily eastward. In modern times, the area is safeguarded within nature reserves managed by the Israel Nature and Parks Authority, including the expansive Ramon Nature Reserve, which features dedicated geological trails for educational exploration and promotes conservation of its unique landforms.^[1]^[31]

Sinai Peninsula and Jordan

In the Sinai Peninsula of Egypt, makhtesh-like erosional cirques form part of the Syrian Arc fold belt, exhibiting similar anticlinal structures to those in the Negev but influenced by regional sandstone and limestone stratigraphy. Notable examples include Gebel Maghara, a large feature approximately 60 km long, 20 km wide, and 200 m deep, characterized by resistant limestone and dolomite caps overlying softer sandstone, limestone, and shale layers, with a central resistant ridge partially obscured by sand dunes.^[5] Smaller instances, such as Gebel Hallal (8 km long, 6 km wide, 200 m deep) with limestone over marl, sandstone, and limestone disrupted by faults on its southern margins, and Arif en Naqa (4 km long, 2 km wide, 60-200 m deep) featuring limestone atop marl and shale along a fault line, demonstrate partial exposures akin to anticlinal erosion on the Tih Plateau, where elevated chalky terrains up to 1,626 m experience deep wadi dissection but lack fully enclosed basins.^[5]^[35] Near the Israeli border, smaller erosional depressions like those in the Nahal Elot area exhibit compact cirque forms with exposed coral reef fossils from Eocene limestone, highlighting marine depositional histories in this hyper-arid zone receiving less than 50 mm annual precipitation.^[10] Across the border in Jordan, geological features resembling makhteshim occur within the sandstone-dominated landscapes of the Arabian-Nubian Shield, though they are not formally classified as such due to drainage patterns or lithological differences. The Tzwilch structure in northern Jordan, part of the Syrian Arc, spans 13 km long and 5 km wide with depths up to 250 m, formed by dolomite and limestone over sandstone, but is breached by two parallel streams, preventing the typical single-wadi drainage of true makhteshim.^[5] In Wadi Rum, towering sandstone cliffs and narrow gorges result from differential erosion of Nubian Sandstone formations, creating mesa-like massifs up to 800 m high with blocky rock falls along vertical joints, evoking the steep-walled enclosures of makhteshim amid red desert sands.^[36] Similarly, the Timna Valley near the Jordanian border features a horseshoe-shaped erosional basin flanked by 300-500 m cliffs of Cambrian and Cretaceous sandstones, historically described as a makhtesh-like form with a central elevated magmatic core, integrated with ancient copper mining sites dating to the Chalcolithic period.^[37]^[38] These cross-border sites share tectonic origins in the Syrian Arc's compressional folding but differ in environmental context: Sinai's examples endure extreme hyper-desert aridity with minimal vegetation and dune infill, contrasting Jordan's slightly more dynamic wadi systems supporting sparse acacia and Nabatean ruins embedded in the landforms, such as petroglyphs in Wadi Rum's cliffs.^[5] Access to Sinai features remains restricted due to ongoing geopolitical tensions and military zones, limiting fieldwork since the 1980s peace accords, while Jordan's analogous structures, including Wadi Rum, have been UNESCO-protected since 1985, facilitating conservation amid tourism pressures.^[36]

Ecology and Biodiversity

Flora

The flora of makhtesh environments, such as Makhtesh Ramon in Israel's Negev Desert, consists primarily of xerophytic shrubs and succulents adapted to hyper-arid conditions, with sparse overall coverage typically below 5% of the ground surface.^[39] Dominant species include the salt-tolerant subshrub Anabasis articulata, which forms low woody structures up to 60 cm tall and thrives on saline substrates, and the fleshy-leaved Zygophyllum dumosum, a perennial chamaephyte that exhibits preferential growth on upslope positions in erosion cirques.^[40]^[39] Scattered trees like Acacia raddiana (a subspecies of Acacia tortilis) serve as keystone species in wadi bottoms, providing shade and habitat despite the low annual rainfall of 50-100 mm, which limits biomass accumulation and favors drought-deciduous growth strategies.^[41]^[22] In total, approximately 150 vascular plant species have been recorded in Makhtesh Ramon, with about 65% being annuals that complete their life cycles rapidly during brief wet periods.^[39] Vegetation exhibits distinct zonation patterns influenced by topography, substrate, and microclimate within the cirque structure. On the upper rims and cliff faces, crustose lichens dominate exposed rock surfaces, forming biological soil crusts that stabilize slopes and contribute to nutrient cycling in areas receiving less than 100 mm of annual precipitation.^[42] Ephemeral annuals, such as various Asteraceae and Poaceae, appear transiently on rims following winter rains, exploiting short-lived moisture before senescence.^[43] In the saline bottom conglomerates, halophytic species like Anabasis articulata prevail, tolerating high soil salinity from evaporative concentration in the basin's depositional areas.^[40] Long-term dynamics of these communities have been monitored through permanent plots in Makhtesh Ramon since 1990, revealing significant population fluctuations over more than 30 years, driven by interannual rainfall variability and herbivory, with perennial shrubs showing resilience through seed banks and vegetative resprouting.^[43] Unique adaptations among makhtesh flora enable survival in this episodic environment, particularly for geophytes that endure flash floods in wadi channels. Bulbous perennials like Bellevalia desertorum, an endemic species to the central Negev and eastern Mediterranean deserts, develop shallow root systems during early growth phases to access sporadic surface water, while their underground storage organs protect against desiccation and flood scouring.^[44]^[45] These geophytes, including relatives like Asphodelus ramosus, benefit from ancient terrace structures that mitigate flood velocities, allowing persistence in flood-prone zones where surface flows can reach destructive intensities after rare storms.^[46] Fossil flora preserved in the Jurassic sedimentary layers of Makhtesh Ramon provides evidence of past wetter climates, contrasting sharply with modern aridity. The Early Bajocian Inmar Formation yields remains of thermophilic ferns such as Piazopteris and abundant bennettitalean cycadophytes like Nipponoptilophyllum and Banatozamites, indicating a paratropical coastal plain with mild seasonality and higher moisture availability during the Middle Jurassic. These assemblages, dominated by xeromorphic leaf forms suggesting periodic salinity stress in tidal flats, highlight a paleoenvironmental shift toward the current hyper-arid regime over geological time.^[47]

Fauna

The fauna of makhteshes, particularly in the Negev Desert's Makhtesh Ramon, is adapted to extreme aridity and rocky terrain, with approximately 40 mammal species recorded across Negev reserves, many exhibiting nocturnal behaviors to avoid daytime heat.^[48] Prominent among these are the Nubian ibex (Capra nubiana), which inhabit steep cliffs for foraging and predator avoidance, with significant populations observed around Mitzpe Ramon.^[49] Other mammals include red foxes (Vulpes vulpes), known for their opportunistic scavenging in desert wadis; Blanford's foxes (Vulpes cana), small nocturnal predators sighted in rocky areas near Makhtesh Ramon; Arabian wolves (Canis lupus arabs), which range widely in the Negev for hunting smaller prey; and occasional leopards (Panthera pardus nimr), with rare sightings reported in the Mitzpe Ramon vicinity as late as 2007.^[50]^[51]^[52] Reintroduced endangered species contribute to the biodiversity, including the Asiatic wild ass (Equus hemionus, or onager), released in Makhtesh Ramon starting in 1983 with a growing population estimated at over 100 individuals as of the early 2000s, and the Arabian oryx (Oryx leucoryx), reintroduced to Negev reserves including areas around makhteshim to restore historical desert ungulate communities.^[53]^[54] Birds and reptiles contribute to the vertebrate diversity, with rock doves (Columba livia) commonly nesting on cliffs and Tristram's serins (Crithagra xanthopygia) foraging in sparse vegetation during breeding seasons in the Ramon Crater.^[55]^[56] Reptiles such as agamid lizards (e.g., Trapelus species) thrive on rocky bottoms, utilizing basking sites for thermoregulation in the Negev's hyper-arid conditions, while vipers like the Saharan horned viper (Cerastes cerastes) ambush prey in sandy depressions within makhteshes.^[57] Invertebrates include scarab beetles (Scarabaeidae), which emerge in ephemeral pools formed after rare rains, feeding on organic matter in these temporary habitats.^[58] Biodiversity hotspots occur in internal wadis, where flash floods following precipitation events temporarily boost faunal densities by creating pools and flushing nutrients into the system.^[59] Makhtesh cliffs also serve as landmarks for bird migration routes, with raptors and passerines funneling along the Ramon Crater's edges during seasonal passages.^[55] Population monitoring in reserves like Makhtesh Ramon has documented recovery in Nubian ibex herds, attributed to protections against overhunting that caused pre-1990s declines, transforming the species from locally endangered to a conservation success in Israel.^[60]

Significance

Scientific and Geological Importance

Makhteshim function as exceptional natural laboratories for geological research, enabling detailed investigations into erosion processes, stratigraphic sequences, and tectonic activities that have shaped arid landscapes over millions of years. Their unique morphology—deep, erosional cirques exposing continuous rock layers from Triassic to Cenozoic—facilitates the study of differential erosion rates and structural folding within the Syrian Arc system. Hundreds of peer-reviewed papers have documented these features, highlighting their role in understanding breccia formation through volcanic and sedimentary interactions, as seen in the eruptive breccias of Makhtesh Ramon associated with Early Cretaceous volcanism.^[1]^[29]^[20] Paleontological discoveries in the makhteshim have significantly advanced knowledge of Mesozoic life, particularly in Makhtesh Ramon, where well-preserved fossils reveal diverse marine and terrestrial ecosystems. Key finds include Middle Triassic archosauromorph reptiles such as Tanystropheus species, indicating early diversification of long-necked aquatic predators along ancient coastlines. Late Cretaceous marine reptiles, including elasmosaurid plesiosaurs from the Menuha Formation, provide evidence of the Tethys Sea's faunal assemblages, while chondrichthyan remains underscore the region's role as a hotspot for studying Mesozoic vertebrate evolution. These exposures, free from overlying sediments, allow for precise stratigraphic correlation and have yielded insights into biodiversity during periods of global climatic shifts.^[61]^[62]^[63] Research on Jurassic flora from the Inmar and Ardon Formations in Makhtesh Ramon offers critical paleoecological data, reconstructing humid subtropical environments that contrasted with the modern hyperarid Negev. Fossil assemblages dominated by ferns, cycadophytes, and conifers suggest warm, wet conditions conducive to lush vegetation along paralic settings, informing models of Jurassic paleoclimate and paleogeography in the northern Gondwana margin. These findings contribute to broader understandings of ancient atmospheric CO₂ levels and floral responses to tectonic uplift. Additionally, the makhteshim's erosional dynamics serve as analogs for arid landscape evolution worldwide, with comparative studies identifying similar cirque formations in other tectonic settings and influencing global geomorphological models.^[64]^[47]^[5] Ongoing studies, initiated by the Geological Survey of Israel (GSI) in the late 1940s and closely tied to Hebrew University collaborations since the 1950s, have produced seminal publications on fault dynamics and structural evolution. GSI-led projects have mapped rift-margin tectonics and dike emplacement in Makhtesh Ramon, revealing radial basaltic systems that illuminate Cretaceous stress fields and fluid migration along faults. These efforts, spanning decades, emphasize the makhteshim's value in seismic hazard assessment and hydrocarbon exploration analogs. The Makhteshim Country's proposed UNESCO World Heritage status, placed on the Tentative List in 2001, underscores its international scientific significance.^[26]^[65]^[1]

Tourism and Conservation

Makhtesh Ramon serves as the primary tourism hub among Israel's makhteshes, attracting visitors to its expansive erosion cirque through dedicated infrastructure like the Makhtesh Ramon Visitors Center, which offers exhibits on the site's geology and history.^[31] Hiking trails traverse the crater's diverse terrains, including ridges and dry riverbeds, while its Mars-like landscapes—rocky, red-tinged hills used for planetary simulations—enhance its appeal for adventure seekers.^[66] The site drew approximately 300,000 visitors annually as of 2017, supporting activities such as stargazing under its International Dark Sky Park status and guided off-road tours that explore remote sections.^[67] These unique landscapes, resembling extraterrestrial environments, significantly contribute to visitor interest across makhteshes.^[66] Tourism in Makhtesh Ramon bolsters Negev ecotourism, providing economic benefits to the region by generating employment in hospitality, guiding, and related services within Mitzpe Ramon, a town of over 5,000 residents overlooking the crater.^[68] Guided geological tours, emphasizing the site's formation and biodiversity, have been a fixture since the late 1980s, following government initiatives to position Mitzpe Ramon as a Negev tourism center.^[69] Conservation of makhteshes falls under the management of the Israel Nature and Parks Authority, which oversees Makhtesh Ramon as part of Israel's largest nature reserve to protect its geological and ecological integrity.^[31] Key challenges include damage from off-road vehicles, which erode sensitive soils and disrupt habitats, prompting stricter access regulations to balance recreation with preservation.^[70] Invasive species, such as certain non-native plants in the Negev, pose additional threats to native flora and fauna, while conservation efforts address biodiversity pressures like habitat fragmentation. Post-2000 restoration projects, following quarry closures, have rehabilitated landscapes in Makhtesh Ramon, enhancing habitats for species like the Nubian ibex through revegetation and barrier installations to support population recovery.^[71]^[60] Looking ahead, sustainable development plans for Makhtesh Ramon emphasize ecotourism models that limit environmental impact, including expanded monitoring of visitor flows and community involvement in Mitzpe Ramon to ensure long-term viability.^[72] Initiatives like digital mapping and virtual tours, promoted through national platforms, aim to provide accessible experiences that reduce physical foot traffic while educating global audiences on the site's significance.^[73]

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Apr 17, 2024 · A makhtesh is a type of circular depression only found in the Negev Desert of Israel. Although often called craters, makhteshim are not created ...
[20]
[PDF] geological survey - research· ·1970 - USGS Publications Warehouse
This collection of 46 short papers is the first published chapter of "Geological ... Makhtesh Ramon in southern Is- rael. The localities are shown in figure 1 of ...
[21]
(PDF) Formation of "makhteshim" - Unique erosion cirques in the ...
Aug 10, 2025 · The present study examines the initial conditions which seem to be required for the development of the makhteshim in the Negev. ... This valley is ...
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None
### Summary of Erosional Mechanisms of Negev Makhteshim (GSI Report GSI/12/2025)
[23]
The Impact of Extreme Rainstorms on Escarpment Morphology in ...
Sep 22, 2023 · Ramon erosional crater (locally known as Makhtesh Ramon, in Hebrew) is situated along the crest of a NE-SW asymmetric anticline (Figure 1) ...
[24]
[PDF] Controls on aggradation and incision in the NE Negev, Israel, since ...
Sep 15, 2015 · The structure and morphology of the north-eastern Negev is dominated by asymmetric anticlinal ridges ... during erosional crater evolution in the ...
[25]
Tectonic and Physiographic Settings of the Levant (Chapter 2)
The formation of the 'Makhteshim' – unique erosion cirques in the Negev, southern Israel. Israel Journal of Earth Science 49: 127–42.10.1560/8C09-4MJ4-RY2P ...
[26]
Late Cretaceous (ca. 84 Ma) compressive deformation of the stable ...
Jun 2, 2017 · Late Cretaceous (ca. 84 Ma) compressive deformation of the stable platform of northeast Africa (Egypt): Far-field stress effects of the ...
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(PDF) Mechanics of emplacement and tectonic implications of the ...
Aug 10, 2025 · A radial system comprising more than 200 basaltic and trachytic dikes and two minor systems of parallel dikes intruded the Ramon area, ...
[28]
[PDF] INTRODUCTION TO THE RAMON NATIONAL GEOLOGICAL PARK*
A makhtesh is an elliptical valley suuounded by steep walls composed of hard rocks at the top and friable rocks at the bottom, and drained by one major ...Missing: characteristics | Show results with:characteristics
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Fig. 4. Stratigraphic column of Jurassic deposits at the Brown Questa...
Jurassic fossil plants of Makhtesh Ramon, the northern Negev, are collected from the Early Bajocian paralic Inmar Formation conformably overlain with the ...Missing: Cenozoic Eocene
[30]
[PDF] at Qarnei Ramon, Makhtesh Ramon - Gov.il
Igneous rocks of Mesozoic age are known from outcrops and the subsurface in several areas of Israel and surroundings. Quantitatively, within the Mesozoic ...<|control11|><|separator|>
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Makhtesh Ramon Visitors Center - Israel Nature and Parks Authority
Reserving your visit through the reservation system ensures a spot on the date and time you've requested; you'll also receive relevant updates for your planned ...Missing: establishment | Show results with:establishment
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New magmatic features in Makhtesh Ramon, southern Israel ...
Six volcanic vents, trachybasaltic bosses, and new dykes replaced by kaolinite were discovered. The vents are built of trachybasaltic-trachytic and basaltic ...
[33]
The (Very) Brief History of Dinosaurs in the Holy Land - Israel News
Aug 18, 2021 · “We have lots of sites with interesting findings – Makhtesh Ramon, Mount Sodom, Mount Menuha in the Arava [Desert] and sites beyond the ...
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Chapter 26 Distribution Pattern and Provenance Implications of the ...
The present contribution reviews the heavy mineral distribution and current understanding of the provenance of the 'Nubian Sandstone'. ... Type section of the ...Missing: credible | Show results with:credible
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Israel Geology in Creation-Flood Framework: Rocks
Dec 15, 2010 · In the nearby eastern Sinai, the Arod Conglomerate is commonly 5 m (16 ft) thick, but ranges from 0–15 m (0–49 ft), as it also does in Makhtesh ...
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Gravity observations at Sinai Peninsula and its geophysical and ...
In central Sinai lie Gebel El Tih and Egma plateau with 914 m above the sea level, are affected mainly by faulting. This region has been described in detail ...
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Wadi Rum Protected Area - UNESCO World Heritage Centre
It features a varied desert landscape consisting of a range of narrow gorges, natural arches, towering cliffs, ramps, massive landslides and caverns.
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[PDF] the geology of the timna valley - Gov.il
The geological history of the Timna Valley is schematically summarized in Fig.8. ... described it as a "Makhtesh" with an elevated, hard, magmatic core, Bar Timna ...
[39]
Timna Valley - PorterGeo Database - Ore Deposit Description
The Timna Valley is ~10 km long and has a horse-shoe shape, flanked by ~300 to 500 m high cliffs of shallowly to flat dipping Cambrian and Cretaceous ...
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Vegetation-Environment Relationships in a Negev Desert Erosion ...
The relationship of desert vegetation to topographic and edaphic factors in Makhtesh Ramon, an erosional cirque in the Negev Desert of Israel, was analyzed ...
[41]
Anabasis articulata (Forssk.) Moq. | Flora of Israel and adjuscent areas
Description & Remarks. A common desert subshrub. The plant is woody, 30-60 cm tall. On its woody branches develop fleshy stems, that are divided by visible ...
[42]
(PDF) Acacia trees a keystone species in Negev desert ecosystems
Aug 10, 2025 · The only trees in most of the Negev desert are 3 native Acacia species. We tested the hypothesis that they act as keystone species as a result of the improved ...
[43]
Cyanobacteria, Lichens and Mosses | צמחיית ישראל וסביבתה
Feb 19, 2012 · This study was conducted in western Makhtesh Ramon (Fig. 7.1.18) on the slopes of the basalt hills of Karney Ramon. There is less than 100 mm ...
[44]
Long-term studies of vegetation in Makhtesh Ramon erosion cirque ...
We consider three case studies of long-term plant population dynamics in Makhtesh Ramon erosion cirque in the central Negev desert of Israel.Missing: life flora
[45]
Life histories of two desert species of the bulbous genus Bellevalia
In Bellevalia desertorum, a shallow rooted species of the most arid habitats in the Central Negev, leaf and root development during outgrowth at the beginning ...Missing: endemic | Show results with:endemic
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[PDF] Flora and vegetation of Israel and adjacent areas
There are 46 endemic species in Israel as listed by Zohary (1966, 1972) ... Noaea mucronata, Bellevalia desertorum, Scorzonera judaica, and F agonia mollis.
[47]
Ancient agricultural terrace walls control floods and regulate the ...
Ancient agricultural terrace walls control floods and regulate the distribution of Asphodelus ramosus geophytes in the Israeli arid Negev. Author links open ...
[48]
http://www.palyam.org/About_us/displaySOHarticle.php?name=Nature%20Reseves%20In%20The%20Negev&id=t00134&bl=b00134
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Exposure of Nubian ibex (Capra nubiana) to humans reduces ...
Feb 28, 2024 · Mitzpe Ramon is a small town with over 5000 residents located on a main road crossing the Negev Desert and is, therefore, a popular stopping ...Missing: Makhtesh | Show results with:Makhtesh
[50]
[PDF] Notes on Blanford's fox in Jabal Masuda, Jordan - Field Report
Har- rison and Bates (1991) described several locations in Machtesh Ramon, southern Sinai, and a dead specimen was found by J. Gasperet ti on the road, 40km ...Missing: Makhtesh | Show results with:Makhtesh
[51]
Conflicting management policies for the Arabian wolf Canis lupus ...
Apr 16, 2013 · In this study we present a problematic case of conflicting conservation policies involving the Arabian wolf Canis lupus arabs and two species of ...Missing: Makhtesh | Show results with:Makhtesh
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Israeli catches leopard in house - UPI.com
May 28, 2007 · A man in Mizpe Ramon, in the south of Israel, caught a leopard with his bare hands Monday when it entered his bedroom.
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The Birds of the Ramon Crater | Articles - Israel Birding Portal
May 22, 2022 · The average depth of Ramon Crater is 350m. The huge drop is easily noticed when you begin decending into the crater, just outside Mitzpe Ramon.
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[PDF] Israel: Birds, Nature & Culture - Naturalist Journeys
Aug 4, 2020 · ... Serin before arriving at the small town of Mizpe. Ramon nestled at the edge of the mighty Ramon Crater where we'll spend the night at the ...
[55]
Thermal biology of four Israeli agamid lizards in early summer
Aug 7, 2025 · This lizard occurs in rocky areas of the highland in the south-west of Arabia. Emergence time, basking, thermoregulation and activity period ...
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species-area curves in ephemeral Negev Desert pools - jstor
Abstract. We examined the relationship between species coefficient of determination for this relationship steadily in- richness of the arthropod fauna in ...Missing: scarab | Show results with:scarab
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The effects of loess erosion on soil nutrients, plant diversity and ...
Aug 6, 2025 · Makhtesh Ramon is characterized by low rainfall (40– 90 mm/year) and a variety of soil substrates (e.g., sandstone, gypsum, limestone ...
[58]
Conservation Saved Israel's Ibex, but Created New Dangers - Haaretz
Dec 20, 2019 · A newly published book describes the protection of the Nubian ibex, an endangered animal usually found at Ein Gedi nature reserve, as a great success story for ...Missing: Makhtesh overhunting decline
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Protorosauria) from the Middle Triassic of Makhtesh Ramon, Israel
Aug 5, 2025 · Niche partitioning has previously been reported for Mesozoic marine reptiles [43,44] and was tentatively suggested for Tanystropheus ...
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A late Cretaceous elasmosaurid of the Tethys Sea margins ...
Oct 2, 2014 · Because there is a plethora of marine reptiles, including plesiosaurids, in deposits of the Mesozoic, they have become an enduring subject of ...
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Chondrichthyans from the Menuha Formation (Late Cretaceous
Aug 10, 2025 · However, fossil shark teeth from the Late Cretaceous are abundant in the marine sediments of the Mount Scopus group in Israel and in the Menuha ...
[62]
Jurassic flora of the Negev Desert: Plant taphonomy, paleoecology ...
Jurassic fossil plants of Makhtesh Ramon, the northern Negev, are collected from the Early Bajocian paralic Inmar Formation conformably overlain with the ...Jurassic Flora Of The Negev... · Geomorphology And... · Acknowledgments<|control11|><|separator|>
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(PDF) Jurassic flora of the Negev Desert: Plant taphonomy ...
Aug 6, 2025 · Jurassic fossil plants of Makhtesh Ramon, the northern Negev, are collected from the Early Bajocian paralic Inmar Formation conformably ...
[64]
Fluvial systems response to rift margin tectonics: Makhtesh Ramon ...
Aug 6, 2025 · Late Miocene to Early Pleistocene tectonics along the Dead Sea fault generated a prominent morphotectonic depression with uplifted margins, ...
[65]
In a rocky Israeli crater, scientists simulate life on Mars | Reuters
Oct 11, 2021 · The landscape is rocky, hilly, tinged with red. Purposefully it resembles Mars. Here, in the Ramon Crater in the desert of southern Israel, a ...
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Ramon Crater Nature Reserve | DarkSky International
Sep 14, 2017 · Ramon Crater (Hebrew: מכתש רמון, Makhtesh Ramon; hereafter the “Crater”) is an 1,100-square- kilometer nature reserve in the Negev Desert of ...Missing: size | Show results with:size
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The case of Mitzpe Ramon, a peripheral town in the Israeli Negev ...
This study examines the processes of tourism development in the Israeli desert town of Mitzpe Ramon from the perspective of community-based tourism (CBT), ...
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The Jewish Traveler: Mitzpe Ramon - Hadassah Magazine
Jan 11, 2006 · Just off the Incense and Spice Route, near Mount Ramon and on the rim of the huge crater known as Makhtesh Ramon, stands the modern town Mitzpe ...
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[PDF] RAMON CRATER INTERNATIONAL STARLIGHT RESERVE
The Makhteshim country: a laboratory of nature : geological and ecological studies in the desert region of. Israel. Pensoft, Sofia. Kutiel, H., and H. Furman ...
[70]
Makhtesh Ramon - Jewish Virtual Library
Makhtesh Ramon is 25 miles (40 km.) long and 5 miles (9 km.) across at its widest point. Mount Ramon, at the southwest corner of the makhtesh, is the highest ...Missing: size | Show results with:size
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The Campaign for Sustainable Tourism in Ramon Crater
Our demand turned into a government directive to the Israel Nature and Parks Authority—to amend the City plan of the Gypsum Quarry in a way that would prohibit ...
[72]
Tourism Ministry unveils 'virtual tours' of Israel | The Jerusalem Post
Apr 4, 2009 · The virtual tour content includes 100 videos, 130 panoramic views and numerous photographs. Popular sites one can "virtually visit" include the ...