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Chott el Djerid

Chott el Djerid is a large endorheic pan in southwestern , covering approximately 5,360 square kilometers within a broader of 10,500 square kilometers. The feature consists of a deflationary dominated by halite-encrusted pans and mudflats, with elevations on the flats typically exceeding 10 meters below , fostering extreme where mean annual rainfall measures 80-140 mm against rates surpassing 1,500 mm. This hydrological imbalance results in a predominantly dry landscape that floods only sporadically from inflows or discharge during heavy events, preventing significant buildup and commercial harvesting despite the presence of ephemeral halite crusts. Geologically, the basin holds thin late sediments subject to aeolian deflation, with underlying and evaporites influencing local saline springs and formation. Designated a Ramsar site in 2007 spanning 586,187 hectares, it supports seasonal functions critical for migratory avifauna in an otherwise hyper-arid Saharan context.

Physical Geography

Location and Dimensions

Chott el Djerid is an endorheic situated in southern , spanning the and governorates. It occupies a position in the northern margin of the Desert, with its central coordinates at approximately 33°42′N 8°24′E. The feature lies adjacent to key oases such as , serving as a significant geographical barrier in the region. The salt pan measures about 250 kilometers in length, oriented roughly northeast-southwest, with widths varying substantially along its extent; the narrowest sections are around 20 kilometers across. This elongated form contributes to its distinctive tadpole-like or wolf-shaped outline when viewed from above. Surface area estimates range from 5,000 to 7,000 square kilometers, positioning it as the largest salt pan in the , though precise figures depend on seasonal dryness and measurement boundaries, with some delineations around 5,360 square kilometers for the core flat. Elevations across the chott's salt flats typically range from slightly below in deeper depressions to about 15-25 meters above, reflecting its status as a shallow prone to episodic flooding.

Hydrological Features

Chott el Djerid operates as an endorheic discharge , accumulating episodically without outflow to the ocean, primarily through meteoric inputs and seepage. The covers 5,360 km² with a contributing area of 10,500 km², situated at elevations generally exceeding 10 meters below . sources include sparse rainfall averaging 80-140 mm annually, surface runoff from channels during storms, and emergence of regional artesian aquifers via mounds. Mean annual exceeds 1,500 mm, peaking from May to under average temperatures of 21°C, ensuring most accumulated dissipates rapidly. The hydrological regime features periodic, short-lived flooding, predominantly in winter, forming ephemeral hypersaline lakes that contrast with the basin's predominant dry state. Exceptional events, such as the January 1990 flood, inundate large portions, delivering substantial volumes via overflows and temporarily reducing through dilution. Flooded waters exhibit hypersalinity ranging from 29% to 37%, with levels of 7.4 to 7.8, reflecting evaporated meteoric and contributions. These lakes typically evaporate to dryness within ten months, as documented post-1990, driven by intense and wind-aided that erodes salt accumulations. Evaporation processes precipitate a thin, transient crust across the pan surface, flanked by mudflats, while central zones occasionally host ephemeral . Deflation dominates outflow, recycling salts via eolian transport and precluding significant long-term sealing or preservation. Groundwater discharge sustains minor localized brining but yields insufficient concentration for advanced formation, underscoring the basin's reliance on infrequent flood-recharge cycles amid pervasive .

Geological Origins

Chott el Djerid lies within a deflationary depression at the northeastern margin of the Saharan , part of the tectonically quiescent North African , where it serves as a groundwater discharge zone for the underlying Bas Saharan Artesian Basin. This positioning facilitated the basin's development as one of several contiguous chotts, forming a chain of endorheic playas along the platform's edge, extending westward into . The basin's subsidence is linked to the broader foreland setting of the Southern Atlas Front, where tectonic phases, including Miocene extension and subsequent contraction, contributed to structural evolution and sediment accommodation. During the late , eolian eroded 15-20 meters of fill, deepening the depression and exposing a halite-dominated pan underlain by clays, sands, and aquifers, with Pleistocene eolian deposits (up to 10 meters thick) overlying a Miocene but lacking preserved beds. Salts in the current flats originate from the long-term cycling of dissolved minerals from and , mobilized by meteoric groundwaters over 100-150 million years and concentrated via evaporation in this internal drainage system. Ephemeral accumulations of , , and other minerals occur during rare flood events, mimicking sequences, though and dissolution prevent substantial long-term buildup. Paleoenvironmental evidence points to wetter intervals, including marine-like deposits aged 35,000-25,000 years in the basin, reflecting pluvial phases with expanded lacustrine conditions before the onset of hyperarid climates that entrenched the salt flat morphology. The endorheic hydrology, driven by sporadic rainfall, inflows, and discharge rather than marine connections, underscores the basin's evolution as a continental system shaped by climatic superimposed on tectonic stability.

Ecology and Biodiversity

Flora Adaptations

The hypersaline and arid conditions of Chott el Djerid restrict vascular plant life to sparse halophytic communities primarily along the basin's edges, fossil dunes, and slightly less saline depressions, where soil salinity can exceed 100 g/kg and annual precipitation averages under 100 mm. Dominant species include the succulent shrub Halocnemum strobilaceum, annual Salicornia spp. (glassworts), Limoniastrum guyonianum, and various Salsola species, which form low chenopod steppes or ephemeral herbaceous patches activated by sporadic rainfall. These halophytes exhibit physiological adaptations for salt tolerance, such as vacuolar compartmentation of Na⁺ and Cl⁻ ions to prevent cytoplasmic damage, coupled with synthesis of compatible osmolytes like proline and glycine betaine for osmotic adjustment and turgor maintenance under salinities up to 800 mM NaCl. Succulent tissues in Salicornia and Halocnemum enable water storage and dilution of internal salt concentrations, while salt-excreting glands on leaf surfaces reduce foliar accumulation. Reduced leaf surface area and thick cuticles minimize transpiration in aridity exceeding 90% relative humidity deficits, with some species employing Crassulacean acid metabolism (CAM) for nocturnal CO₂ fixation to conserve water. Microbial symbioses further enhance survival; and arbuscular mycorrhizal fungi associated with roots improve phosphorus uptake, produce stress-alleviating exudates like 1-aminocyclopropane-1-carboxylate deaminase to lower levels, and facilitate formation for soil aggregation in unstable substrates. Ephemeral annuals among the , comprising over 50% of regional salt-tolerant , complete reproductive cycles within weeks of rare floods (typically <50 mm events), relying on seed banks dormant for years to exploit transient freshwater pulses before reverting to hypersalinity. Perennials like Limoniastrum guyonianum invest in deep taproots for accessing less saline groundwater, enduring prolonged desiccation through dormancy and resurrection traits.

Fauna and Wildlife

The fauna of Chott el Djerid is severely constrained by the site's hyper-arid, hypersaline conditions, rendering the central salt pan largely inhospitable to macroscopic life except during rare wet periods when temporary wetlands form. Wildlife is thus restricted to ecotonal zones along the shores, adjacent steppes, and oases, where steppe-desert species predominate; the core salt wastes support few animals beyond halotolerant insects like a single ant species observed on the barren flats. Avifauna constitutes the most significant faunal component, with the site serving as a seasonal habitat for waterbirds and a breeding ground amid its Ramsar-designated wetlands. Greater flamingos (Phoenicopterus ruber), numbering 3,000 to 15,000 individuals (approximately 3.5% of the regional population), represent the dominant species and maintain the only regular breeding colony in Tunisia, though nests remain inaccessible and unmonitored in recent years. Ruddy shelduck (Tadorna ferruginea) has also bred here historically, alongside wintering waterbirds that appear only in exceptionally wet seasons. Resident and passage desert-steppe birds include cream-coloured courser (Cursorius cursor), fulvous babbler (Turdoides fulva), desert sparrow (Passer simplex), trumpeter finch (Bucanetes githagineus), Lanner falcon (Falco biarmicus), long-legged buzzard (Buteo rufinus), and African houbara bustard (Chlamydotis ocellata), with additional sightings of species like laughing dove (Streptopelia senegalensis), various wheatears (Oenanthe spp.), desert lark (Ammomanes deserti), and greater hoopoe-lark (Alaemon alaudipes). These assemblages underscore the site's role in supporting migratory routes between Europe and Africa, though populations fluctuate with hydrological variability—the lake often dries completely, rendering it birdless outside oases. Mammalian, reptilian, and amphibian presence is sparse and poorly documented, confined to peripheral steppe and oasis fringes rather than the chott proper. Steppe fauna may include small mammals adapted to arid ecotones, but no dominant or endemic species are reliably recorded within the site's core. Amphibians such as the painted frog (Discoglossus pictus) occur in nearby oases like those at Nefta, exploiting seasonal water sources. Relict populations of West African crocodiles (Crocodylus suchus) persisted until the early 20th century but are now extirpated. Threats to surviving fauna encompass hunting, human recreational disturbance, overgrazing-induced habitat degradation, and oil exploration activities.

Environmental Pressures

Overexploitation of groundwater resources in the surrounding Tozeur and Kebili regions has induced significant hydrological stress on , primarily through drawdown of the unconfined aquifer and subsequent encroachment of hypersaline brine into adjacent freshwater systems. This process, driven by intensive irrigation for date palm oases and agriculture, has lowered piezometric levels by up to several meters in localized areas since the early 2000s, accelerating salinization and reducing the availability of potable water for local ecosystems and human use. Contamination from oil exploration and brine leakage poses an additional threat, with elevated levels of hydrocarbons and salts detected in wells tapping the aquifer near Kebili, compromising microbial communities and potential refugia for halophilic species during dry periods. Risk assessments indicate that such pollution, linked to upstream extraction activities, could propagate southward toward the chott, disrupting the hypersaline gradients essential for extremophile biodiversity. Climate-induced aridification exacerbates these pressures by diminishing episodic winter flooding, which historically replenishes the playa and supports transient populations of brine shrimp (Artemia spp.) and migratory birds such as greater flamingos (Phoeniconaias roseus). Precipitation trends in southern Tunisia show a decline of approximately 20-30% over the past four decades, correlating with reduced lake extent during wet phases and intensified evaporative concentration of salts, thereby limiting habitat suitability for adapted flora like Suaeda species on peripheral mudflats. Expansion of irrigation districts and informal settlements along the chott's margins further fragments ecotones, introducing soil erosion and invasive halophytes that outcompete native salt-tolerant grasses, while manual salt harvesting disrupts surface crust integrity without large-scale mitigation. These cumulative human pressures, compounded by regional desertification, threaten the chott's role as a seasonal biodiversity hotspot in an already low-diversity arid landscape.

Human History and Utilization

Prehistoric Settlements and Migrations

Evidence of human occupation near Chott el Djerid extends to the late Middle Stone Age, with excavations at Oued el Akarit, located in the southern Tunisian chotts region, uncovering 541 lithic artifacts including Levallois flakes and side scrapers, alongside 219 faunal remains such as bovid bones and ostrich eggshell dated to 37,300–44,100 years before present via OSL and radiocarbon methods. These assemblages, associated with butchery activities on a combusted surface near paleosprings of the Chotts megalake, reflect episodic hunter-gatherer forays by early Homo sapiens during humid intervals of Marine Isotope Stage 3, when riparian habitats supported ungulate populations. In the Early Holocene, coinciding with the African Humid Period's peak, Capsian culture sites appear south of Douz adjacent to Chott el Djerid, featuring high-density scatters of microlithic tools indicative of hunter-gatherer camps exploiting lacustrine resources in a greener Sahara fringe. This Epipaleolithic tradition, spanning roughly 10,000–6,000 years before present, persisted locally until approximately 4,700 years before present despite broader arid trends, as documented in preliminary surveys documenting lithic concentrations tied to seasonal lake margins. Later prehistoric evidence includes megalithic alignments and tumuli along Chott el Jérid's southern and eastern fringes, interpreted as potential funerary or territorial markers from Neolithic pastoralist groups around 5,000–3,000 years before present, though extensive looting has reduced many to unrecognizable remnants. A 2025 discovery within the chott basin yielded flint implements and pottery from prehistoric phases, spanning adaptation to post-humid desiccation through early historic transitions. Climatic shifts marking the African Humid Period's end circa 5,500 years before present, with chott evaporation and dune activation, correlate regionally with population dispersals from interior lake systems toward Mediterranean coasts and oases, as inferred from Saharan paleoenvironmental proxies and reduced site densities post-4,000 years before present. Such dynamics likely drove Capsian descendants into pastoral economies or northward shifts, though direct migration traces at Chott el Djerid remain elusive amid erosional biases.

Traditional Resource Extraction

Local inhabitants of southern Tunisia have extracted salt from for centuries via manual collection of surface crusts formed by natural evaporation. Seasonal winter flooding from distant runoff fills the basin with mineral-rich brine, which evaporates under intense summer heat and winds, precipitating layers of halite up to several centimeters thick across the playa. Workers traditionally employ basic implements like wooden scrapers, rakes, or shovels to harvest these deposits, gathering them into piles at the chott's edges for drying and initial purification. The harvested salt, often unrefined and containing trace minerals from the brine, was transported by camel or cart to nearby oases such as Tozeur for local use in preservation, cooking, and trade along caravan routes. This labor-intensive practice, handed down through generations among Berber and Arab communities, yielded small quantities suited to subsistence economies prior to mechanized operations. No evidence indicates significant extraction of other resources, such as phosphates—discovered only in 1949—or potash evaporites under traditional regimes, which focused solely on accessible surface salt.

Contemporary Access and Infrastructure

The P16 provincial road provides the primary vehicular access across , spanning approximately 70 kilometers between Tozeur to the northwest and Douz to the southeast, enabling drivers to traverse the salt pan's flat surface during dry conditions. This route features occasional pull-offs for viewing mirages and salt formations, but off-road exploration requires four-wheel-drive vehicles or guides due to unstable saline crusts that can subside under weight. Tozeur, located roughly 25 kilometers from the chott's northwestern margins, serves as the main hub for visitors, with rental cars, tour operators, and accommodations facilitating day trips to access points along the P16. The Tozeur–Nefta International Airport (TOE), situated 4 kilometers northwest of Tozeur and operational since 1978, offers the nearest air link, with a 3-kilometer runway supporting domestic and limited international flights and an annual capacity of 400,000 passengers. Regional connectivity is enhanced by National Road N3 linking Tozeur northward to Tunis via El Hamma, and rail lines extending from the Djerid area through Gafsa, Sfax, and Sousse for passenger and freight services. Infrastructure within the chott remains sparse to preserve its natural state, limited to basic roadside amenities like souvenir stalls selling desert roses and quartz, and informal cafes such as Cafe Hama for rest stops. No extensive developments like bridges or permanent facilities exist, as seasonal flooding and hypersaline conditions render such constructions impractical and environmentally disruptive. Tourism relies on guided convoys from for safety, given the isolation and risks of disorientation from optical illusions.

Development Proposals

Historical Flooding Initiatives

In the late 19th century, French military geographer François Élie Roudaire proposed flooding the Chott el Djerid and adjacent chotts as part of a broader "Sahara Sea" initiative to create an inland body of water connected to the Mediterranean Sea. The plan, outlined in a 1874 article in Revue des Deux Mondes, envisioned excavating a canal approximately 190 kilometers long from the Gulf of Gabès to the Chott el Djerid, which would flood an estimated 8,000 square kilometers of depressions, transforming arid salt pans into a navigable sea. Proponents, including Ferdinand de Lesseps—the engineer behind the Suez Canal—argued that the resulting sea would moderate the regional climate through evaporation-induced rainfall, enable irrigation for agriculture, facilitate navigation, and aid French colonial control over nomadic tribes in Algeria and Tunisia. The estimated cost was around 1.3 billion francs, with anticipated benefits including salt production and fishery development. To assess feasibility, Roudaire led expeditions, including one to Chott el-Gharsa in Algeria in 1876 and another to Chott el Djerid in Tunisia in 1878, aiming to confirm the basins' topography and below-sea-level elevations. These surveys revealed that much of the chott system, including parts of Chott el Djerid, lay above sea level—contrary to initial assumptions of deep depressions—necessitating extensive pumping or deeper excavation, which escalated technical challenges. Geological data indicated risks of hypersaline stagnation rather than fertile waters, undermining claims of climatic transformation. By 1882, a French high commission rejected the project, citing prohibitive costs, uncertain hydrological outcomes, and insufficient evidence for sustained environmental benefits. Roudaire's death in 1885 marked the effective end of momentum, though the concept echoed in later colonial discussions without implementation. No flooding occurred, preserving the chott's natural endorheic state amid critiques that the initiative overlooked local ecological dynamics and overestimated evaporation-driven rainfall.

Modern Flooding Project Debates

The Cooperation Road project, publicly proposed in 2018, envisions flooding Chott el Djerid with seawater to form an artificial inland sea dedicated to salt extraction, fish farming, irrigated agriculture, tourism infrastructure, and residential development, with claims of generating 60,000 jobs and mitigating desertification through increased local humidity. Proponents highlight potential revenue from hypersaline salt flats and aquaculture in a basin spanning approximately 5,000 km², drawing on the chott's natural evaporative properties to concentrate minerals. Critics, informed by engineering assessments like the 2002 SWECO study for the Tunisia-Algeria SETAMI initiative, argue that rapid evaporation—exceeding 2 meters annually in the region—would rapidly hypersalinify the water body beyond usable levels for most biological or agricultural purposes, requiring energy-intensive desalination or flushing that erodes economic viability. The chott's elevation of 10–20 meters above sea level necessitates either deep canal excavation or pumping infrastructure, inflating costs potentially into tens of billions of USD, as estimated in prior feasibility analyses. The Chotts Algeria-Tunisia Scheme (CATS), a macro-engineering concept outlined in academic engineering literature, extends these ideas by proposing a 175 km, 100-meter-wide canal excavated to 5 meters depth, linking the Mediterranean Gulf of Gabès to the chotts chain—including Chott el Djerid—to create a shared gulf for hydropower generation (via inflow tides), deepwater ports comparable to Rotterdam, and expanded aquaculture and tourism. Estimated at USD 1 billion using automated bucket-wheel excavators or nuclear dredgers over 5–6 years, it promises industrialization benefits but faces opposition over projected 200% salinity spikes, risks of algal blooms from nutrient influx, marine debris accumulation, and localized climate disruptions from altered evaporation patterns. Broader debates emphasize geopolitical hurdles requiring bilateral Algeria-Tunisia treaties, alongside ecological concerns that flooding would obliterate the chott's unique endorheic salt-pan habitat—home to specialized extremophile microbes and migratory birds—without proven long-term desert reversal, as evaporation-dominated systems historically revert to aridity. Historical precedents, including abandoned 1980s SETAMI efforts, underscore systemic overestimation of benefits versus underappreciation of maintenance costs and seismic vulnerabilities in the excavation zone, rendering modern iterations stalled amid funding shortages and environmental advocacy.

Technical and Economic Assessments

Technical assessments of flooding Chott el Djerid focus on hydrological and geotechnical feasibility, given the basin's endorheic nature and partial submersion below sea level (reaching -18 meters in central depressions). Historical engineering proposals, such as a 1968 U.S. Atomic Energy Commission study, outlined a 173-kilometer canal from the Gulf of Gabès to the chott, utilizing natural depressions along wadis like El Telmam and Akarit for routing. The design specified a channel 305 meters wide and 18 meters deep to enable seawater inflow, with emplacement of 390 thermonuclear devices (each 2 megatons) spaced 442 meters apart and buried 457 meters deep to excavate the trench, yielding a total explosive force of 780 megatons. Modern non-nuclear alternatives would require conventional dredging or tunneling, amplifying construction complexity due to unconsolidated evaporitic soils prone to subsidence and seismic risks from the nearby North African plate boundary. Hydrological modeling indicates that immersion could increase local humidity and precipitation by 10-20% within 100 kilometers, with surface cooling of 1-2°C from evaporative effects, but broader climate moderation remains limited by the Sahara's aridity and high evaporation rates exceeding 2,000 mm annually. Salinity buildup poses a persistent challenge, as inflowing Mediterranean water (average 38 g/L) would concentrate to hypersaline levels (>200 g/L) similar to the Dead Sea, risking salt crust reformation and reduced utility for irrigation or fisheries without infrastructure. Geotechnical surveys highlight karstic features and dissolution, necessitating liners or barriers to prevent salinization in adjacent aquifers, which already exhibit gradients from 2.5-3 g/L in recharge zones. Economic evaluations from the 1968 proposal estimated total costs at $687.4 million (equivalent to approximately $5.8 billion in 2023 dollars, adjusted for ), including $234 million for explosives, $105.8 million for emplacement, and $108.5 million for port facilities, with annualized operations at $64.4 million. Projected benefits encompassed agricultural expansion via moderated (potentially irrigating 500,000 hectares), phosphate transport to ports, and tourism/recreation revenues, but required multinational funding (25% U.S./international grants, 25% , 25% /Algeria equity, 25% bonds). Subsequent analyses underscore unviability, citing escalated conventional construction costs (potentially exceeding $10 billion without nuclear methods), maintenance burdens from and evaporation-induced infilling, and low amid 's (per capita availability <500 m³/year). No comprehensive modern cost-benefit studies support implementation, as environmental risks—including ecosystem disruption and disposal—outweigh speculative gains in a region prioritizing over mega-inundation.

Cultural and Scientific Relevance

Representations in Media

Chott el Djerid served as a key for the Star Wars film series, representing the arid surface of the planet . In Star Wars: Episode IV - A New Hope (1977), the salt flats depicted the exterior of the family homestead, where grew up, with occurring in 1976. The site's vast, cracked expanse and effects contributed to the desolate landscape portrayal. The location was revisited for Star Wars: Episode II - Attack of the Clones (2002) and Star Wars: Episode III - Revenge of the Sith (2005), reusing the same coordinates for continuity in scenes, including homestead exteriors. These sequences highlighted the flats' enduring visual suitability for evoking remote, inhospitable worlds, with minimal set alterations beyond original dome remnants. Beyond narrative cinema, Chott el Djerid featured in Bill Viola's experimental video Chott el-Djerid (A Portrait in Light and Heat) (1979), a 28-minute work capturing the site's optical distortions from heat-induced mirages and comparing them to Midwestern prairies. The piece, acquired by institutions like the , emphasizes perceptual phenomena over plot, using the chott's reflective surface to explore and environmental .

Analogues in Research and Exploration

Chott el Djerid serves as a key terrestrial analogue for Martian surface conditions in and planetary due to its hyperarid climate, extensive salt crusts dominated by , red-hued sediments, and layered deposits that mimic putative ancient lacustrine features on Mars. In preparation for Mars missions, a Europlanet-funded field campaign in May 2010 examined the site's , , and potential for microbial life preservation to develop protocols for rover-based astrobiological investigations. The expedition highlighted similarities between Chott el Djerid's dynamics and Martian craters like Crater, including episodic flooding and formation. A dedicated Mars analog expedition, conducted from September 13 to 26, 2013, by the , focused on collecting cryptobiotic soil crusts with for radiation and desiccation survival experiments simulating Martian subsurface conditions; it also involved mapping fluvial networks via analogs and validating portable spectrometers for detection. These activities underscored the site's utility for testing human-robotic workflows in extreme aridity. The site's Pleistocene-Holocene evaporite sequences have informed models of Mars' paleoclimate transitions, with studies comparing brine chemistry and salt mineralogy to hypersaline deposits in Gale Crater, aiding interpretations of rover data from hydrated sulfates and chlorides. Such research emphasizes empirical validation of endorheic basin evolution under tectonic and climatic forcing, distinct from wetter Earth analogues.

References

  1. [1]
    Chott-el-Djerid-Tunisia - Saltwork Consultants Pty Ltd
    Chott Djerid, with an elevation typically more than 10 metres below sea level on the salt flats, has an area of approximately 5,360 km2 in a drainage basin with ...Missing: geography size<|separator|>
  2. [2]
    Chott El Jerid - Ramsar Sites Information Service
    Nov 7, 2007 · Chott El Jerid ; Country: Tunisia ; Site number: 1699 ; Area: 586,187.0 ha ; Designation date: 07-11-2007 ; Coordinates: 33°42'N 08°24'E.Missing: geography size
  3. [3]
    GPS coordinates of Chott el Djerid, Tunisia. Latitude
    A large endorheic salt lake in southern Tunisia. Latitude: 33° 42' 0.00" N Longitude: 8° 25' 48.00" E Nearest city to this article: TozeurMissing: dimensions size
  4. [4]
    Chott el Djerid, Tunisia - Mindat
    Aug 4, 2025 · It is the largest salt pan of the Sahara Desert, with a surface area of over 7,000 km² (some sources state 5,000 km²). The site has a typical ...Missing: geography size
  5. [5]
    Chott el Djerid - Salt lake in southern Tunisia - Around Us
    Jul 8, 2025 · Location:Tozeur Governorate ; Location:Kebili Governorate ; Elevation above the sea: 15 m ; Address: Chott el Djerid, Tunisia ; GPS coordinates: ...Missing: level | Show results with:level<|separator|>
  6. [6]
    Chott el Djerid (Body of water) - Mapy.com
    area: 5,360 km² ; heritage designation: tentative UNESCO World Heritage Site ; elevation above sea level: 15 m ...
  7. [7]
    Depositional environments present on the Chott el Djerid.
    An exceptional flood in January 1990 led to the formation of a large ephemeral lake on the Chott el Djerid, a salt playa in southern Tunisia.
  8. [8]
    The Chemical Evolution of the Brines of Chott El Djerid, Southern ...
    Jan 1, 1994 · Under an arid climate, the ephemeral lake on Chott el Djerid evaporated to dryness in ten months. During March, May and September 1990 we ...Missing: rate | Show results with:rate
  9. [9]
    [PDF] The Southern Atlas Front in Tunisia and its foreland basin - HAL
    Apr 24, 2020 · section correspond to the Chott El Jerid basin and the northern part of the Saharan platform (Fig. 21). 574. The Chott El Jerid basin, the ...
  10. [10]
    The Chotts Fold Belt of Southern Tunisia, North African Margin
    Aug 9, 2011 · In this work we try to study the geometry and structural evolution of the various morphostructural units during extensional and contractional periods.
  11. [11]
    case study from Chott el Djerid, southern Tunisia - ResearchGate
    Aug 7, 2025 · An exceptional flood in January 1990 led to the formation of a large ephemeral lake on the Chott el Djerid, a salt playa in southern Tunisia.
  12. [12]
    Marine deposits 35,000–25,000 years old in the Chott el Djerid ...
    Jan 7, 1982 · The Chott el Djerid is a large, salt-covered depression in southern Tunisia (Fig. 1). The late nineteenth century idea that the basin had ...
  13. [13]
    [PDF] Floristic diversity and plant composition of the arid and Saharan ...
    Mar 10, 2022 · The flora in southern Tunisia contained about 279 species belonging to 58 families, with 54% annuals and 46% perennials.
  14. [14]
    Potential for Plant Growth Promotion of Rhizobacteria Associated ...
    Halophytes have been proposed as key players for saline soils reclamation [8] ... Chott El Gharsa, and Chott El Jerid and were located in southern Tunisia.
  15. [15]
    Adaptation of Halophytes to Different Habitats - IntechOpen
    It is highly tolerant to salinity (germination ≤700 mM NaCl) and drought resistant. The high content of several metabolites in these plants indicates metabolic ...
  16. [16]
    Halophytes.tn: an innovative database for Tunisian halophyte plant ...
    Mar 19, 2022 · A web-based database of Tunisian halophyte species. Halophytes are salt-tolerant plants able to grow above 85 mM of salt, even up to 2 M as for Tecticornia spp.
  17. [17]
    an innovative database for Tunisian halophyte plant identification ...
    These adaptations encompass the capacity to effectively retain and acquire water, shield cells against detrimental effects arising from the buildup of reactive ...
  18. [18]
    Chott Djerid - keybiodiversityareas.org
    Chott Djerid (6952) Tunisia, Africa · Site overview · Site details · Threats · Biodiversity elements triggering KBA criteria · Other species not triggering KBA ...Missing: ecology | Show results with:ecology
  19. [19]
    Foraging, abundance and biomass of ants in the pre-Saharan ...
    Only one species of ant was found on the Chott El Djerid, Tunisia, a large, dry salt lake, devoid of vegetation.Missing: animals | Show results with:animals
  20. [20]
    Chott el Djerid - BirdForum Opus
    Dec 11, 2024 · The salt lake where Greater Flamingo and Ruddy Shelduck have bred is sometimes completely dry and birdless, however, there is an oasis at Tozeur ...
  21. [21]
    [PDF] Chapter 27 Conservation status of amphibians in Tunisia
    Discoglossus pictus has been found in the Oued el Ferd, Nefta (BOULENGER, 1891) and in the oases of the Chott El Djerid (MAYET, 1903).
  22. [22]
    An appraisal of Chott El Jerid brine encroachment in the Tozeur ...
    The hydrogeological investigation shows that the over-pumping of the unconfined aquifer groundwater has resulted in a localized water level decline, which ...
  23. [23]
    Causes and risk evaluation of oil and brine contamination in the ...
    The sustainability of CI resources is threatened by oil and brine contamination detected at a number of water wells in the Kebili region.Missing: threats | Show results with:threats
  24. [24]
    (PDF) Biodiversity in Tunisia (Fauna, Flora): threats and solutions
    Nov 10, 2023 · PDF | I dedicate this book to everyone who is interested in Tunisian biodiversity. I hope it facilitates their fauna and flora research and ...
  25. [25]
    Monitoring Seasonal Fluctuations in Saline Lakes of Tunisia Using ...
    Oct 31, 2023 · This study documents the changes in the Land Use/Land Cover (LULC) in the region of saline lakes in north Tunisia, Sahara Desert.
  26. [26]
    Delineation and functional status monitoring in small saline ...
    ... threatened by the settlement of new irrigation districts and other kinds of human pressure. ... Case study: Chott El Djerid, Southern Tunisia. Earth Surface ...Delineation And Functional... · Introduction · Cited By (11)
  27. [27]
    (PDF) A literature review of Algerian salt lakes: values, threats and ...
    Aug 7, 2025 · The local focus highlights the threats and changes of Algerian and Northern African chotts and proposes some perspectives for the future.
  28. [28]
    New insights into the late Middle Stone Age occupation of Oued el ...
    Sep 10, 2021 · This article reports on a new project to investigate the activities of early Homo sapiens in the area of the Chotts 'megalake' in southern Tunisia.Missing: neolithic | Show results with:neolithic
  29. [29]
    first archaeological investigations in the chott el jerid area, southern ...
    Dec 4, 2017 · Hunter-gatherer communities, bearing the Capsian culture, persisted even after (up until 4.7 Kya; see di Lernia et al. 2017; Mulazzani 2013; ...
  30. [30]
    None
    Nothing is retrieved...<|separator|>
  31. [31]
    Discovery of a Prehistoric Archaeological Site in Chott el-Jerid
    Jan 6, 2025 · The findings, including flint tools and pottery from prehistoric, early historic, and Roman periods, highlight human adaptation to desert ...
  32. [32]
    Ancient watercourses and biogeography of the Sahara explain the ...
    Dec 27, 2010 · Here we provide evidence that the Sahara was not an effective barrier and indicate how both animals and humans populated it during past humid phases.
  33. [33]
    Chott el Djerid - Adventure Collective
    During winter rains, the salt flat's surface becomes covered with shallow water, which reflects intense colors such as pink, red, and blue due to algae and ...Missing: mining | Show results with:mining<|control11|><|separator|>
  34. [34]
    Tunisia Djerid Salt
    In the vast, sun-drenched plains of Chott el Djerid, we hand-harvest premium salt using traditional methods passed down for generations. Our salt is more ...Missing: practices | Show results with:practices<|control11|><|separator|>
  35. [35]
    Chott El-Jarid | Salt Lake, Saharan Oasis, Arid Climate - Britannica
    Sep 22, 2025 · Chott El-Jarid, large saline lake in southwestern Tunisia, occupying a salt-flat basin of about 1,900 square miles (4,900 square km).Missing: size | Show results with:size
  36. [36]
    Chott El Jerid (2025) - All You Need to Know BEFORE You Go ...
    Rating 4.5 (471) The singular road which crosses it is about 70km long, between Tozeur & Douz. It is pancake flat and on either side of the road are wonderful pools of shallow ...
  37. [37]
    Chott el Djerid: Abandoned Desert Salt Lake in Tunisia
    Sep 13, 2024 · In the middle of the desert in Tunisia is a vast salt lake, with a surface area of more than 2,700 square miles. There are a ...Missing: coordinates dimensions size
  38. [38]
    Chott el Djerid - Atlas Obscura
    Sep 13, 2019 · With a surface area of more than 2,700 square miles, Chott el Djerid is over 1.5 times larger than the Great Salt Lake of Utah. The name of this ...Missing: geography size
  39. [39]
    Ultimate Guide to visiting The Salt Lake Chott Djerid in Tunisia
    The salty waters, ranging from pale green to vivid orange, create a surreal landscape that contrasts with the surrounding arid terrain. chott djerid landscape.
  40. [40]
    Modern Infrastructure - Pôle Djerid
    Transport infrastructure. The region is endowed with a railroad track that links the Djérid to the capital Tunis via main towns Gafsa, Sfax and Sousse.Missing: Chott | Show results with:Chott
  41. [41]
    https://www.superstock.com/asset/road-through-salt-lake-chott-el-djerid-covered-saharan-sand/4449-70749176
  42. [42]
    Chott el Djerid, - Reviews, Ratings, Tips and Why You Should Go
    Along P16, visitors can find shops offering souvenirs such as Desert Roses and quartz. Why you should go. 1. Experience walking on the second largest salt lake ...
  43. [43]
    France's Failed Attempt to Turn the Sahara Desert into a Fertile Sea
    Aug 1, 2013 · Roudaire undertook two expeditions, to the Chott el-Gharsa in 1876 and to the Chott el-Djerid in 1878. The results were mixed, at best ...
  44. [44]
    The Forgotten Plan to Flood the Sahara and Create an Inland Sea
    Mar 17, 2025 · In 2018, the Cooperation Road project was made public, continuing the idea of flooding Chott el Djerid to create a sea that would generate salt ...
  45. [45]
    Dreams of a Sahara Sea : The ambitious canal project that could ...
    Mar 18, 2025 · The plan was to flood Chott el Djerid in Tunisia to create an artificial sea suitable for aquaculture, tourism, and agriculture. But like ...
  46. [46]
    The 3 craziest projects to create a sea in the Sahara Desert - Sacyr
    Aug 6, 2024 · Among the most striking proposals is the creation of a gigantic salt lake and the use of atomic bombs to achieve it.
  47. [47]
    [PDF] Macro-engineering Seawater in Unique Environments - Nicola Pugno
    ... Chott el Fejej and. Chott el Jerid and redistributed. ... routine shipping operations which often pose threats to natural habitats and eco- nomic losses to ...
  48. [48]
    The Chott El Djerid, Tunisia: Observation and Discussion of a SAR ...
    Aug 7, 2025 · The presence of water in arid regions is correlated to large evaporitic deposits, with high concentration of salts.
  49. [49]
    [PDF] XA04N0930 - INIS-IAEA
    The proposed canal route covers about 107.5 miles in Tunisia from north of Gabes to the Chott Djerid and consists of five straight-line segments. A canal ...
  50. [50]
    Investigation of flood inundation on playas within the Zone of Chotts ...
    A time-series of advanced very high-resolution radiometer (AVHRR) data to contrast the inundation regimes of a range of large, climatically sensitive playas.
  51. [51]
    Simulated effects of land immersion on regional arid climate
    Jan 6, 2020 · The climate of the pre-Saharan playa of Chott Jerid is arid (mean annual rainfall is about 100 mm/year), with high amplitudes of the diurnal and ...
  52. [52]
    Geochemical characteristics of arid shallow aquifers in Chott Djerid ...
    Aug 6, 2025 · The Water compositions reveal that the mineralization is mainly regulated by water/rock interaction through mineral dissolution and probably by ...
  53. [53]
    [PDF] Tunisia Water Sector M&E Rapid Assessment Report - CEDARE
    The depth of the aquifer is generally greater than 1000 m, reaching over 2000m in the. Djerid and Nefzaoua areas. Salinity is variable from 2.5 to 3 g/l at the ...
  54. [54]
    [PDF] PROPOSAL FOR TUNISIA - Adaptation Fund
    Sep 11, 2024 · Traditional oases represent unique forms of adaptation to extreme environmental conditions, in particular the case of olive trees in Degache ...
  55. [55]
    Star Wars Episode IV: A New Hope | Film Locations
    Star Wars film location: Chott el Jerid, Tunisia. Star Wars film location: surface of 'Tatooine': Chott el Jerid, Tunisia. The exterior of the homestead ...Missing: Djerid | Show results with:Djerid
  56. [56]
    Chott el-Djerid | Star Wars Film Site - Galaxy Tours
    OVERVIEW ; Site: Chott el-Djerid (northwest sector) ; GPS: 33.842831, 7.779026 ; Location: Salt flats between the Kebili and Tozeur governorates, southwest Tunisia.
  57. [57]
    Chott el Jerid Salt Flats | Luke's Childhood Home | StarWars.tours
    Jun 5, 2020 · The interior scenes were actually filmed in Hotel Sidi Driss, located in Matmata about 300km away. After the filming of the original Star Wars ...
  58. [58]
    Chott el-Djerid / Lars Family Homestead Exteriors - Star Wars Location
    Visit the Dune Sea, the Krayt Dragon Ridge and the location of the igloo of Lars Family Homestead exterior on the Chott El Jerid.
  59. [59]
    Bill Viola. Chott el-Djerid (A Portrait in Light and Heat). 1979 | MoMA
    Chott el-Djerid (A Portrait in Light and Heat) almost magically captures the optical and acoustic distortions of nature. Focused on landscape, the video ...Missing: representations | Show results with:representations
  60. [60]
    Chott el-Djerid (A Portrait in Light and Heat) - Electronic Arts Intermix
    Chott el-Djerid is a study of perception and transcendence, exploring mirages in the desert and the limits of the image, comparing it to winter prairies.Missing: representations | Show results with:representations
  61. [61]
    Chott el Jerid, Tunisia – the closest thing to Mars on Earth?
    Chott el Jerid is a seasonal lake that is completely dry for most of the year. Its sun-baked surface, composed of a hard crust of sodium chloride, conceals ...
  62. [62]
    Playa environments on Earth: possible analogs for Mars (Chapter 13)
    13 - Playa environments on Earth: possible analogs for Mars. Published ... Chott el Djerid, Tunisia. In Sedimentology and Geochemistry of Modern and ...<|separator|>
  63. [63]
    Chott el Jerid, Tunisia: Closest thing to Mars on Earth? | ScienceDaily
    May 25, 2010 · Chott el Jerid is a seasonal lake that is completely dry for most of the year. Its sun-baked surface, composed of a hard crust of sodium ...Missing: Djerid | Show results with:Djerid
  64. [64]
    The Cosmic Pink Lakes of the Tunisian Desert - AnOther Magazine
    Mar 14, 2017 · Home to Luke Skywalker and bathed in dreamy pinks, blues and greens, Chott el Djerid is nothing short of otherworldly.<|separator|>
  65. [65]
    (PDF) The Chott el Jerid Mars Analog Expedition - ResearchGate
    Aug 22, 2015 · Analog expedition in Tunisia to collect cryptobiotic crust samples with cyanobacteria for survival tests, to analyze fluvial networks and test ...Missing: Djerid | Show results with:Djerid
  66. [66]
    Terrestrial Analogs to Mars - Astrophysics Data System
    Chott ci Jerid and Chott el Gharsa are environments undergoing dramatic changes at different scales and show a combination of aeolian, fluvial and lacustrine ...<|separator|>
  67. [67]
    Terrestrial Analogs to Mars: Planetary Decadal Study Community ...
    Dec 7, 2001 · Tunisia: The Playa deposits of Chott el Jerid and el Gharsa in Tunisia have been studied as a Mars lacustrine analog. The area is located on the ...Missing: Djerid | Show results with:Djerid