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Jagersfontein Mine

The Jagersfontein Mine is an open-pit diamond mine located near the town of Jagersfontein in South Africa's Free State province, exploiting a near-vertical kimberlite pipe that has been a significant source of gem-quality diamonds since the late 19th century.^[1]^[2] Diamonds were first identified on the site in 1870 by a local farmer, leading to formal proclamation of the mining area in 1871 and systematic extraction beginning around 1878, with the mine later leased to De Beers Consolidated Mines in 1940 due to its low-grade ore requiring large-scale operations.^[1]^[3] The mine's defining geological feature is its kimberlite pipe, which formed through volcanic activity transporting diamonds from the Earth's mantle, and it stands out for producing exceptionally large rough diamonds, including the 995.2-carat Excelsior stone discovered in 1893 by a worker sifting gravel, one of the largest ever unearthed.^[4]^[2] Early surface mining involved dry-sifting crushed rock, transitioning to deeper excavations that created one of the world's largest man-made holes, underscoring the mine's role in South Africa's diamond rush alongside sites like Kimberley.^[5]^[6] In recent years, Jagersfontein gained notoriety for a catastrophic tailings dam failure on September 11, 2022, which released over 6 million cubic meters of toxic slurry, killing at least one person, destroying homes, and contaminating approximately 1,600 hectares of farmland and waterways due to structural instability in the waste storage facility built atop unstable ground.^[5]^[7]^[8]

Geological Characteristics

Kimberlite Pipe Structure and Diamond Genesis

The Jagersfontein kimberlite pipe exhibits a near-vertical geometry, with surface dimensions of approximately 1,420 m by 1,010 m, tapering to a width of about 82 m at a depth of 760 m.^[1] This steep-walled structure formed through explosive volcanic emplacement around 86 million years ago, during the Late Cretaceous, as part of Group I kimberlite magmatism on the Kaapvaal Craton margin.^[9] Kimberlite magma generated from small-degree partial melting of carbonated peridotite at depths exceeding 150 km ascends rapidly due to its low viscosity, facilitated by high volatile contents (primarily CO₂ and H₂O up to 10-15 wt%), enabling turbulent flow and minimal shear that preserves entrained mantle material.^[10] The eruption culminates in diatreme formation, excavating a pipe-shaped conduit filled with brecciated kimberlite and country rock fragments, distinct from broader volcanic edifices. Diamonds within the pipe originate from carbon crystallization in the Earth's mantle under extreme conditions of 4.5-6 GPa pressure and 900-1,300°C temperature, typically within peridotitic or eclogitic paragenesis, where reduced carbon (likely primordial or recycled oceanic crust) precipitates as monocrystalline octahedra or fragments.^[11] Transport occurs passively via incorporation into the ascending kimberlite melt, with ascent velocities exceeding 10-100 m/s preventing resorption or graphitization. At Jagersfontein, empirical analyses reveal a high proportion of Type IIa diamonds—characterized by nitrogen concentrations below 10-20 ppm (often undetectable via FTIR spectroscopy)—comprising up to 60% of the population, reflecting formation in nitrogen-depleted sublithospheric domains (>250 km depth) rather than typical lithospheric sources.^[12] ^[13] These low-nitrogen gems exhibit exceptional clarity and size potential, with historical yields including multiple stones exceeding 200 carats, despite overall low bulk grades (<10 carats per hundred tonnes).^[14] In comparison to the Kimberley cluster pipes, which display more flared, saucer-like profiles due to greater lateral expansion during emplacement, Jagersfontein's cylindrical, steep margins suggest stronger confinement by competent host rocks (e.g., Karoo dolerites) and higher eruption energies, preserving a narrower conduit with concentrated diamond-bearing breccias.^[15] This morphology correlates with the pipe's enrichment in large, gem-quality Type IIa stones, yielding higher per-carat value despite lower volumetric grades relative to Kimberley's higher-tonnage, nitrogen-richer assemblages.^[14]

Discovery and Early Operations

Initial Discovery in 1870 and Surface Mining Techniques

In 1870, diamonds were first discovered at Jagersfontein when a 50-carat stone was unearthed on the local farm, sparking immediate prospecting activity and claim registrations across the Orange Free State territory.^[16] ^[5] This find, amid the broader South African diamond rush following earlier discoveries near Kimberley, drew opportunistic diggers to the site's exposed kimberlite outcrops, initiating unstructured surface excavations without formal infrastructure.^[5] The deposit's location on private farmland initially limited operations to small-scale claims held by owners and lessees, with the Orange Free State Volksraad debating regulations for private-property mining as early as May 18 of that year.^[5] Early extraction relied on primitive surface mining methods suited to the arid conditions, beginning with manual digging of shallow open pits into the softened yellow ground—the oxidized upper kimberlite layer amenable to hand tools.^[5] Ore was hand-crushed using hammers or basic stamps, followed by dry-sifting on sieves or tables to separate diamonds from barren material, a labor-intensive process yielding high-clarity, often colorless or bluish Type IIa stones characteristic of the pipe's geology.^[5] By around 1880, operations transitioned to semi-mechanized crushing with steam-powered stamps, improving throughput while still dependent on surface workings and rudimentary sorting.^[5] These techniques prioritized quick recovery from shallow depths, producing initial outputs noted for exceptional gem quality but constrained by fragmented ownership among multiple claim holders.^[17] Ownership consolidated gradually from individual farmers and diggers to corporate entities, with the first dedicated company forming in 1878 to coordinate claims, followed by amalgamations that centralized control under the Jagersfontein Mining Company by the early 1890s.^[18] ^[17] Surface mining persisted as the dominant method into the late 1880s, though operations faced disruptions during the Anglo-Boer War (1899–1902), when British occupation halted digging and requisitioned equipment, temporarily stalling development until postwar resumption.^[5] This bootstrapping phase emphasized entrepreneurial claim-staking over scaled production, laying the groundwork for later expansions without underground delving.^[18]

Primary Production Period

Expansion Under Ownership Changes and Peak Diamond Yields (1880s–1930s)

Following the initial surface diggings of the 1870s, ownership of the Jagersfontein Mine consolidated in the 1880s under corporate entities, with individual claims amalgamating into structured operations managed by the Jagersfontein Mining and Exploration Company by the early 1900s.^[17] This shift enabled systematic expansion, transitioning from open-pit extraction to underground mining techniques, including shaft sinking and block caving introduced on the 1870 level for efficient ore recovery.^[1] ^[19] The mine operated both surface and subsurface methods concurrently until 1932, achieving depths sufficient for accessing richer kimberlite veins and supporting sustained output.^[19] Diamond yields peaked during this era, with the mine producing notable high-quality stones that underscored its geological value, including the 995.2-carat Excelsior diamond in 1893—a blue-white gem typical of Jagersfontein's colorless output—and the 650.80-carat Jubilee diamond in 1895.^[20] ^[21] These discoveries, alongside consistent extraction of gem-quality material from low-grade ore averaging 10–12 carats per 100 loads (each load equivalent to 16 cubic meters), highlighted efficiency gains in processing and sorting.^[1] The kimberlite's capacity for large, flawless crystals contributed to South Africa's early 20th-century dominance in global diamond exports, with Jagersfontein's operations yielding stones prized for their clarity and size without reliance on alluvial sources.^[20] In 1930, De Beers Consolidated Mines acquired the property, integrating it into broader industry controls and funding refinements in underground infrastructure, though core productivity metrics had already stabilized at levels reflecting prior engineering innovations like mechanized haulage and on-site valuation plants.^[22] This ownership change coincided with the period's zenith in verifiable output, as empirical records from company ledgers documented steady gem recoveries amid global demand surges pre-dating the Great Depression.^[17]

Labor Conditions and the 1914 Riots

Labor conditions at the Jagersfontein Mine in the early 1910s centered on a migrant workforce predominantly recruited from Lesotho (Basuto or Sotho laborers), housed in closed compounds to prevent diamond theft and ensure contract compliance. Workers entered voluntary fixed-term contracts, often for underground mining tasks introduced after the exhaustion of surface deposits around 1900, which involved hazardous shaft-sinking and tunneling with minimal safety measures. Skill hierarchies placed white supervisors in oversight roles, while black laborers handled manual extraction, with wages tied to output and recruitment driven by economic incentives rather than coercion, though conditions included routine searches and restricted movement.^[23]^[24] On January 9, 1914, amid broader labor tensions including the ongoing white miners' strike, approximately 900 Basuto workers broke out of the Jagersfontein compound following the death of one of their number, allegedly from a beating by a white miner. The group raided the town, directing violence toward property in an outbreak linked to immediate grievances over the incident and broader dissatisfaction with pay and underground work refusals. Police intervened to restore order, resulting in at least four worker deaths during the clashes, with no evidence of excessive measures like high-pressure hoses; the unrest was contained without escalation to military involvement.^[25]^[26] Historians, drawing on Lesotho archives, interpret the riots not primarily as tribal factionalism among black workers—despite initial attributions to inter-group rivalries—but as an expression of nascent race and worker consciousness, where the trigger incident highlighted asymmetries in treatment under the compound system. Wage grievances appear central, with post-riot adjustments reportedly addressing differentials to avert recurrence, underscoring voluntary migrant dynamics over inherent racial antagonism as the core driver. Empirical accounts emphasize intra-labor tensions amplified by specific abuses rather than unified anti-management revolt, aligning with patterns of contract-based unrest in South African mines.^[27]^[28]

Decline, Closure, and Transition

Mid-20th Century Challenges and 1971 Shutdown

Following its reopening on 12 December 1949 under the management of De Beers Consolidated Mines Ltd., which had acquired control in 1931, the Jagersfontein Mine operated amid post-World War II economic recovery but encountered escalating operational difficulties from the progressive exhaustion of economically viable high-yield kimberlite zones.^[17]^[29] De Beers, with significant ownership by Anglo American plc (holding a 45% stake in De Beers at the time), directed re-equipment and extraction efforts focused on remaining lower-grade reserves, yet rising costs relative to yields rendered sustained profitability challenging in an industry where De Beers centrally managed global supply to stabilize prices.^[30]^[17] By the late 1960s, the mine's marginal economics—stemming from ore depletion in the open-pit structure rather than acute oversupply, given De Beers' stockpiling practices—prompted a strategic wind-down, culminating in the cessation of primary mining operations on 28 May 1971.^[31]^[17] This closure aligned with broader patterns in diamond mining, where resource exhaustion in mature pipes shifted focus to newer or alternative deposits, avoiding attributions of localized mismanagement in favor of verifiable geological and market constraints.^[32] Post-shutdown, the site was maintained as a dormant historical excavation, with substantial tailings and stockpiles left in place, unprocessed due to technological limitations of the era but preserved for potential future extraction as processing efficiencies improved.^[33] De Beers retained ownership until divestment decades later, underscoring a deliberate deferral of low-value materials amid controlled global diamond dynamics.^[29]^[33]

Reprocessing Operations

Stockpile and Tailings Reprocessing from the 2000s

Jagersfontein Developments (Pty) Ltd, a subsidiary affiliated with the Dubai-based Stargems Group, commenced diamond reprocessing operations at the site in 2011, targeting residual gems in legacy stockpiles and tailings dumps amassed from prior mining eras. These dumps totaled an estimated 57 million tons of material, graded at 11 to 14 carats per hundred tons, containing diamonds that escaped detection due to the rudimentary recovery technologies of the 19th and 20th centuries, such as manual sorting and basic washing.^[34] ^[35] The process involved excavating and re-crushing the dumps to liberate embedded diamonds, followed by advanced concentration methods including scrubbing to break down aggregates and automated sorting to isolate valuables from barren ore. This technological upgrade—contrasting historical hand-labor intensive approaches—enabled profitable extraction from low-grade feedstocks by minimizing losses of small or non-fluorescent stones. At projected full capacity, the facility anticipated monthly output of up to 28,000 carats, equating to over 300,000 carats annually, with realized production reflecting operational efficiencies and market diamond values around $146 per carat.^[36] To handle the fine-grained tailings generated during reprocessing, a dedicated storage dam was constructed, rationalized by the need to contain slurry volumes exceeding those of original operations and to facilitate phased backfilling into the historic open pit where feasible. This infrastructure supported cost-effective waste management, reducing land disturbance compared to unregulated dumping, while sustaining local employment for hundreds in processing and maintenance roles amid Free State province's economic constraints. Empirical recoveries validated the venture's viability, underscoring how modern engineering could reclaim economic value from inert historical residues without reliance on new excavations.^[37]^[5]

2022 Tailings Dam Failure

Event Sequence and Immediate Casualties on September 11, 2022

At approximately 6:00 AM on September 11, 2022, the wall of the tailings dam at Jagersfontein Mine in South Africa's Free State province suddenly failed due to structural instability, unleashing a massive flow of mining waste.^[38] The breach released over 6 million cubic meters of toxic slurry, which surged downstream, forming a mudflow that extended more than 8 kilometers from the site.^[7]^[39] The slurry inundated residential areas, completely destroying nine houses and damaging over 20 others, while contaminating nearby water sources and agricultural land spanning approximately 1,600 hectares.^[40]^[41] No advance public warnings were issued prior to the collapse, despite publicly available remote sensing data indicating prior deformation and potential failure risks in the dam structure.^[42] Immediate casualties included three confirmed deaths from being buried under the mudflow, with initial reports from authorities citing one fatality but quickly updated to three; subsequent community accounts and investigations have disputed this figure, asserting at least five deaths and additional missing persons.^[43]^[40]^[38] More than 40 people were hospitalized as a result of injuries sustained during the event, including four in critical condition and 28 with lesser injuries from the flooding and debris.^[43]^[40] The disaster displaced around 1,600 residents, who were evacuated from affected areas in the ensuing hours.^[38] Authorities responded rapidly by conducting search-and-rescue operations and initiating evacuations, though the initial response was described as disorganized; efforts to pump recovered slurry back into the mine's open pit began shortly thereafter to limit further spread.^[44]^[5]

Post-Disaster Investigations

Causation Analysis and Regulatory Shortcomings

The failure of the Jagersfontein tailings dam stemmed primarily from liquefaction triggered by excessive water saturation in the tailings, compounded by the facility's construction on a shallow aquifer that prevented drying and weakened the base structure.^[45] Poor compaction arose from the upstream raising method, which relied on unconsolidated tailings for wall building—a practice known to foster instability—without adequate beaches between the supernatant pond and perimeter walls.^[45] Over 120 years, cumulative engineering decisions, including locating the dam at the confluence of three catchments and apartheid-era planning deficiencies, amplified liquidity risks, while post-2000s reprocessing operations increased dam height, gradient, and sludge volume without corresponding stability upgrades, leading to spillage over the steepest rim.^[45] ^[5] Tailings dams inherently carry elevated failure risks due to their reliance on self-consolidating waste, a vulnerability evident in global incidents like the 2019 Brumadinho collapse, where similar upstream designs succumbed to liquefaction under saturated conditions.^[45] Remote sensing data, including Sentinel-2 optical imagery and historical aerial photos, indicated progressive instability from as early as 2018, with erosion gullies 4-5 meters wide forming on the northern and southeastern walls by February 2019, and a "wet spot" signaling seepage on the southeastern wall by February 2021.^[8] Bulging on the southeastern wall, potentially from buttressing attempts, was observed in the month prior to the September 11, 2022, breach, alongside deviations in deposition practices that favored uneven loading from the west end.^[8] These indicators pointed to runaway erosion as the likely trigger, rather than overtopping or seismicity, underscoring how empirical monitoring could have forecasted the failure had construction and seepage been addressed proactively—mirroring predictability gaps in cases like Brumadinho, where pre-failure deformation was detectable but unheeded.^[8] Under South Africa's Department of Mineral Resources and Energy (DMRE, formerly DMR), regulatory oversight faltered due to a 2007 court ruling exempting tailings dams from the Mineral and Petroleum Resources Development Act, creating a jurisdictional void that halted DMRE inspections, including recalling an inspector in 2017.^[46] Compliance directives from the Department of Water and Sanitation in 2021, mandating closure over high water levels, were reversed without documented rationale, while worker reports of leakages four hours pre-collapse went unaddressed by management.^[46] This reflects bureaucratic inertia and systemic enforcement lapses, including the absence of a dedicated disaster management center or budget, rather than deliberate negligence, paralleling global patterns where monitoring technologies exist but regulatory follow-through fails to prevent predictable tailings breaches.^[46]

Legal Proceedings and Prosecutions as of 2025

Following the 2022 tailings dam failure, a joint technical investigation by the Department of Water and Sanitation (DWS) and the Department of Forestry, Fisheries and the Environment (DFFE), initiated in late 2022, identified shortcomings in the dam's monitoring, maintenance, and regulatory compliance during reprocessing operations, attributing the breach to structural instability exacerbated by inadequate oversight.^[47] ^[48] The Bench Marks Foundation's 2023 report on the disaster further detailed human factors, including negligence in tailings management and failure to adhere to evolving safety standards despite initial compliance under historical mining permits, recommending stricter enforcement of the National Environmental Management: Waste Act.^[48] These findings prompted the suspension of the mine's operating licenses by the Department of Mineral Resources and Energy in October 2022, pending remediation, with partial reinstatement for controlled reprocessing contingent on enhanced monitoring protocols.^[49] Criminal proceedings advanced in August 2025 when the National Prosecuting Authority (NPA), based on a Hawks investigation, authorized charges against five individuals—aged 34 to 80, including mine executives and engineers—for contraventions related to culpable homicide, fraud, corruption, and negligence in the dam's design, raising, and stability assessments, which prosecutors allege foreseeably contributed to the collapse without intent to cause harm.^[50] ^[51] Three associated companies faced parallel corporate liability charges under the Occupational Health and Safety Act and environmental statutes.^[52] The accused first appeared in Jagersfontein Magistrate's Court on September 10, 2025, with the case remanded for further evidence gathering, including forensic audits of pre-collapse engineering reports that had certified the dam as stable despite visible seepage risks identified in 2021 inspections.^[53] ^[54] Parallel civil litigation emerged by mid-2023, with affected residents and the Jagersfontein Lerumo Justice Forum filing class-action suits against the mine operator, Jagersfontein Developments, seeking R2 billion in damages for property destruction, health impacts from dust and water contamination, and economic losses, citing breaches of fiduciary duties under mining right conditions.^[55] Courts ordered interim compensation payouts totaling R150 million by 2024 for verified claims, but full settlements remain stalled pending criminal trial outcomes and independent liability assessments.^[56] Advocacy groups have pushed for broader regulatory reforms, including mandatory third-party audits for legacy tailings facilities, though evidence indicates the reprocessing adhered to pre-2010 standards until deferred maintenance post-privatization accelerated decay, complicating attributions of sole negligence.^[38] As of October 2025, no convictions have been secured, with trials projected to extend into 2026 amid disputes over evidentiary thresholds for proving causal links between specific operational lapses and the failure.^[57]

Economic and Legacy Impacts

Contributions to Diamond Industry and Local Economy

The Jagersfontein Mine produced approximately 9.5 million carats of diamonds between its opening in the late 19th century and closure in 1971, with output valued at around R260 million in 1970 terms, establishing it as a significant contributor to South Africa's early diamond industry.^[58] Its gems, predominantly high-clarity Type IIa stones low in nitrogen impurities, enhanced the global perception of South African diamonds as premium quality, with notable recoveries including the Excelsior Diamond at 995.2 carats in 1893—the largest known gem-quality rough until 1905—and the Jubilee Diamond precursor at 650.8 carats in 1895.^[4]^[21] These exceptional finds, processed into facets for international markets, helped position South Africa as a leader in large, flawless gem production, influencing demand and pricing benchmarks in the pre-20th-century trade.^[21] Locally, the mine drove the founding and growth of Jagersfontein town in 1882 following a 50-carat discovery in 1870, fostering infrastructure like housing, roads, and services tied to mining activities that sustained the regional economy in the Free State province.^[16] Historical operations provided direct employment to hundreds of workers at peak, supporting ancillary jobs in supply chains and boosting household incomes in a mono-industry setting where mining dominated local GDP contributions.^[59] The site's jewel-quality yield, averaging higher values per carat than many contemporaries, amplified fiscal inflows via royalties and taxes that funded public amenities, though efficiency losses from early open-pit methods limited full potential.^[60] Reprocessing of stockpiles and tailings from the 2000s, particularly under private operators post-2010, revived economic activity by recovering residual diamonds, injecting funds into local procurement and labor until the 2022 incident, with operations projected to promote sustained development through resource extraction without new excavation.^[61] This phase extended the mine's legacy in a declining primary output era, aligning with broader Free State mining's role in provincial GDP, where diamond activities complemented agriculture and manufacturing.^[62] Overall, Jagersfontein's verifiable outputs underscored causal links between high-value gem recovery and economic multipliers like skill transfer in sorting and valuation, though mono-dependence posed risks absent diversification.^[59]

Environmental Realities and Rehabilitation Efforts

The 2022 tailings dam failure at Jagersfontein released between 6 and 50 million cubic meters of mining slurry, inundating approximately 1,600 hectares of farmland and nearby water systems with mud and mining residues, including potential heavy metals such as lead and cadmium typical of processed ore waste.^[41]^[63]^[64] Department of Water and Sanitation (DWS) monitoring post-incident has detected impacts on surface and groundwater quality in downstream areas, with elevated contaminant levels confined largely to the localized flow path rather than widespread dispersion.^[47] These effects stem directly from the physical breach and slurry mobilization, though kimberlite-derived tailings from diamond operations exhibit lower acidity and metal leaching potential compared to sulfide-rich ores, limiting long-term chemical persistence.^[5] Rehabilitation initiatives, coordinated by the Department of Forestry, Fisheries and the Environment (DFFE) with mine operator funding, encompass slurry relocation from affected zones, decanting of residual compartments—initiated in August 2023—and progressive dam decommissioning to prevent further instability.^[47]^[53] By mid-2025, these efforts have advanced site stabilization, with ongoing water quality assessments confirming containment of contaminants and early signs of ecosystem recovery in monitored sites.^[52] Phytoremediation techniques, utilizing vegetation like silicon-enhanced Brassica species to immobilize or extract residual metals, offer a viable, low-cost reversal strategy, as demonstrated in South African mining remediation trials.^[65] Tailings accumulation at Jagersfontein reflects standard practices in kimberlite diamond extraction, where high-volume ore processing—yielding less than 0.1% diamonds—necessitates efficient waste storage to maintain operational viability, with failure risks comparable to those in global diamond mining facilities rather than uniquely severe.^[5] While activist reports have highlighted delays in full restoration, empirical progress in containment and monitoring underscores causal feasibility of remediation without indefinite ecological impairment.^[45]

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Three Years Later, Survivors of Jagersfontein Disaster Still Seeking ...
Sep 9, 2025 · This week marks the three-year anniversary of the deadly collapse of the tailings dam at a diamond re-processing operation in Jagersfontein, ...Missing: 2000s Stargems
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Public remotely sensed data raise concerns about history of failed ...
Apr 5, 2023 · Mining activities in Jagersfontein date back to the 1870s. The mine was initially operated as an open pit and changed to underground mining ...
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South Africa mine dam wall collapses, killing 1 and injuring 40
Sep 11, 2022 · South Africa mine dam wall collapses, killing 1 and injuring 40. By Nqobile Dludla. September 11, 20228:43 AM PDTUpdated September 11, 2022.Missing: volume displacement
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Cleaning up tailings dams, and the Jagersfontein collapse - Mine
Dec 1, 2023 · The Jagersfontein tailings dam collapse destroyed homes, killed two, and left two missing. Cleanup is incomplete, and victims have received ...Missing: injuries | Show results with:injuries
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[PDF] Report on the Jagersfontein Tailings Disaster
Sep 22, 2023 · In the early hours of 11 September 2022, the tailing dam at the Jagersfontein mine burst its wall, sending a torrent of toxic mine waste down ...
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[PDF] Report of the Portfolio Committee on Mineral Resources and Energy ...
Sep 23, 2022 · ... Jagersfontein Development Mine tailing dam wall infrastructure failed, resulting in a sludge flooding in the areas of Jagersfontein, a small ...
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DWS outlines response progress on Jagersfontein tailings dam ...
Sep 13, 2023 · “This is a very complex technical matter, and the investigation is expected to be concluded by the end of March 2024,” the DWS said. Meanwhile, ...Missing: commission negligence
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[PDF] Report on the Jagersfontein Tailings Disaster
Most health and safety officials would agree that most mine disasters are caused by human negligence, error, greed, or a combination of the three. 1 http://www.Missing: inquiry | Show results with:inquiry
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https://www.miningwatch.ca/news/2025/8/27/3rd-anniversary-jagersfontein-tailings-dam-disaster-call-truth-justice-and
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Five charged with murder, including an 80-year-old, over ... - IOL
Aug 27, 2025 · Five charged with murder, including an 80-year-old, over Jagersfontein dam disaster ... It is a criminal offence to fail to report a death from ...
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Criminal proceedings to start following Jagersfontein tailings dam ...
Sep 4, 2025 · ... Jagersfontein Developments. The DWS Dam Safety Regulation Directorate conducted an extensive technical study into the cause of the failure ...Missing: diamond | Show results with:diamond
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Criminal Proceedings Set to Begin After Devastating Jagersfontein ...
Sep 4, 2025 · In a joint statement on Wednesday, 4 September 2025, the departments announced the first court appearance scheduled for 10 September 2025 at the ...Missing: legal | Show results with:legal
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Prosecution To Commence Following The Jagersfontein Tailings ...
Sep 4, 2025 · The first court appearance is scheduled for 10 September 2025 in the Magistrate's Court in Jagersfontein. It is anticipated that the case will ...Missing: 2023 2024
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Legal action follows Jagersfontein dam tragedy as victims seek ...
Sep 25, 2025 · JAGERSFONTEIN: Criminal proceedings against five company employees facing charges related to the Jagersfontein tailings dam tragedy of 11 ...Missing: 2023 2024
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FOR IMMEDIATE RELEASE: Jagersfontein Lerumo Justice Forum ...
Aug 27, 2025 · The SAPS news alert that five men, aged 34 to 80, have been charged in connection with the 2022 Jagersfontein dam collapse is noted.Missing: proceedings | Show results with:proceedings
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Jagersfontein Catastrophe: One Year Later, No Findings ... - Polity.org
Sep 19, 2023 · Jagersfontein Catastrophe: One Year Later, No Findings from SAHRC and Inaction by Government. 19th September 2023.Missing: negligence | Show results with:negligence
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Jagersfontein Dam Collapse | Environmental Law in South Africa
Sep 8, 2025 · On 11 September 2022, the Jagersfontein tailings dam in the Free State collapsed, releasing a toxic flood of mine residue that devastated the ...
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About Jagersfontein - SA-Venues.com
Officially closed in February 1969, the Jagersfontein mine produced an estimated 9 526 million carats, worth R260 million in terms of 1970 values. Head to ...<|separator|>
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Towards a post-mining economy in a small town - ResearchGate
The critical point is highlighted by several observers that mining towns are often " mono-industries " as the local economic bases of the majority of towns are ...
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Jagersfontein Diamond Mine - Jagersfontein, Free State
Established in 1870, it gained international ... Workers at the Jagersfontein Diamond Mine discovered two of the ten largest natural diamonds ever found.
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[PDF] Report on the Jagersfontein Tailings Disaster
Oct 1, 2022 · The methodology is followed by the historical context of Jagersfontein, the mine ownership history, and the disaster event that unfolded through ...
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[PDF] Key sectors driving the Free State's economy - destea
The Free State's key sectors for economic growth are mining, agriculture, manufacturing, transport, and tourism, as identified in the FSGDS.
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When Tailings Dams Collapse (And What Can Be Done to Prevent It)
Jul 29, 2025 · Between 2000 and 2022, we've witnessed over 35 major tailings dam failures globally, claiming hundreds of lives and causing billions in damages.
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https://link.springer.com/chapter/10.1007/978-981-96-7799-3_32
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Phytoremediation Potential of Silicon-Treated Brassica juncea L. in ...
Aug 14, 2025 · Combining silicon amendments with mustard spinach cultivation is a promising, eco-friendly approach to the remediation of mining-impacted soils ...