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Kainji Dam

The Kainji Dam is a concrete gravity dam on the Niger River in Niger State, northwestern Nigeria, designed primarily for hydroelectric power generation and secondarily for irrigation and flood control.^[1]^[2] Construction began in 1964 and was completed in 1968, making it Nigeria's first large-scale hydroelectric facility.^[3]^[4] The dam stands 65 meters high and features a primary spillway section 550 meters long, impounding the expansive Kainji Reservoir—also known as Kainji Lake—which spans 136 kilometers in length with a storage capacity of 15 billion cubic meters.^[5]^[6] Its power station originally planned for 960 megawatts but equipped with only eight of twelve turbines, yielding an installed capacity of 760 megawatts that has supplied a substantial share of Nigeria's electricity since commissioning.^[2]^[5]^[4] While advancing national energy independence and economic development through reliable baseload power, the project displaced approximately 42,000 people from over 190 riparian settlements, resettling them into new communities with mixed outcomes on livelihoods, and altered downstream hydrology, contributing to declines in migratory fish populations and shifts in aquatic biodiversity.^[7]^[8] These impacts highlight trade-offs in large-scale infrastructure, where empirical assessments of ecological disruption often reveal underappreciated causal chains from flow regulation to habitat fragmentation, despite initial projections emphasizing benefits.^[9]^[10]

History

Planning and Initiation

In the early 1960s, shortly after Nigeria's independence in 1960, the federal government prioritized infrastructure development to support industrial expansion and national electrification, as outlined in the First National Development Plan (1962-1968), which allocated resources for major projects including the Kainji Dam to harness the Niger River's hydroelectric potential and reduce reliance on imported energy.^[11] Feasibility studies and site surveys conducted prior to approval confirmed the site's suitability for a multipurpose dam, emphasizing the river's steady flow and topographic advantages for power generation, flood mitigation, and regional economic integration.^[12] The Nigerian government approached the World Bank in 1963 for financing, seeking support for the foreign exchange costs of the project, which was envisioned as a cornerstone of self-reliant development amid growing energy demands from urbanization and manufacturing sectors.^[13] Negotiations culminated in a $82 million loan agreement signed on July 7, 1964, following appraisals that validated the dam's viability for multiple objectives: initial hydroelectric capacity targeting industrial and urban needs, downstream flood control to protect agricultural lands, irrigation expansion, and improved navigation along the Niger River.^[14] ^[15] In parallel, an Italian consortium led by Impregilo was selected as the primary contractor through international bidding, with main dam contracts finalized in September 1964 after issuance of documents in April, marking the transition from planning to procurement amid post-colonial enthusiasm for large-scale engineering feats.^[16] ^[17] These steps reflected a strategic push for domestic resource mobilization, though reliant on foreign expertise and capital due to limited local technical capacity at the time.^[12]

Construction Phase

Construction of the Kainji Dam began in 1964 and concluded with the completion of the main structure in 1968.^[2] ^[3] The project mobilized significant resources for the concrete gravity dam, which stands 64 meters high and spans 550 meters in length across the Niger River.^[3] Workers poured concrete using over 250,000 tons of cement and more than 25,000 tons of steel to form the core structure, enabling it to withstand the river's hydrostatic pressures through mass and weight.^[2] To facilitate building amid ongoing river flow, engineers implemented river diversion techniques, allowing phased construction of the dam foundation and body without flooding the site.^[18] This logistical effort ensured continuous progress, culminating in the structure's readiness for water retention. By late 1968, initial turbine operations commenced for partial power generation, coinciding with the start of reservoir impoundment that would create Lake Kainji.^[3] ^[19]

Commissioning and Early Operations

The Kainji Dam became operational in late 1968, with the first four Kaplan turbine units (each rated at 80 MW) delivering an initial 320 MW of hydroelectric power to Nigeria's national grid ahead of formal commissioning.^[20] The project was officially commissioned on February 15, 1969, by Major General Yakubu Gowon, marking Nigeria's entry into large-scale hydropower generation and significantly expanding grid coverage to support industrial development in the northern regions.^[21] This initial capacity represented a foundational step in addressing the country's electricity demands, which prior to Kainji relied primarily on smaller thermal and imported sources. Early operations validated the dam's multipurpose design, with regulated water releases aiding flood mitigation along the Niger River by controlling seasonal overflows that had previously threatened downstream communities and agriculture.^[22] The integrated navigation lock, with a lift capacity of approximately 49 meters, enabled barge traffic to bypass the structure, opening extended stretches of the river for inland transport and commerce.^[23] These features complemented power generation by stabilizing river hydrology from the outset. The influx of 320 MW spurred economic activity, powering nascent industries in northern Nigeria and generating surplus electricity for export to neighboring countries such as Niger, fostering early regional energy ties.^[24] This output exceeded domestic thermal capacities at the time, positioning Kainji as a cornerstone for national electrification and load balancing in the grid's formative phase.^[20]

Design and Technical Specifications

Structural Dimensions and Materials

The Kainji Dam consists of a central concrete gravity section flanked by earthfill embankments and saddle dams. The main concrete gravity structure stands 66 meters high and spans 550 meters along its crest.^[6] ^[3] This configuration utilizes the weight of the concrete monolith for stability against water pressure, with the earthfill sections providing additional containment across the broader valley. The primary materials include mass concrete for the gravity dam, compacted with aggregates suitable for the region's geology, and zoned earthfill comprising clay cores and impervious materials for the embankments to prevent seepage.^[3] ^[21] At full pool, the reservoir holds a gross capacity of 15 billion cubic meters, enabling effective storage for the dam's hydraulic head.^[12] The spillway, integral to the concrete section, incorporates four hydraulically operated gates measuring 15.2 meters by 15.2 meters each to manage excess discharges.^[25] The overall design accounts for regional seismic and hydrological risks, with the structure rated to handle probable maximum floods derived from extreme event modeling.^[26]

Power Generation Infrastructure

The Kainji Dam's power generation infrastructure features an underground powerhouse equipped with eight turbine-generator units, comprising four Kaplan turbines rated at 80 MW each, two additional Kaplan turbines at 100 MW each, and two fixed-blade propeller turbines at 120 MW each, yielding a total installed capacity of 760 MW. Originally designed for twelve 80 MW Kaplan units to achieve 960 MW, the station began operations in 1968 with an initial capacity of 320 MW from the first two units.^[27] These low-head turbines, suited to the site's hydrology, operate under a net head of approximately 28 meters, calculated as the difference between the reservoir's minimum operating elevation of 132 meters and the tailwater level of 104 meters.^[28] The system leverages high-volume flows from the Niger River, with Kaplan turbines adjustable for variable discharge to maintain efficiency across seasonal inflows.^[6] Power output benefits from the hydroelectric process's inherent advantages, including near-zero marginal fuel costs and transmission losses limited to standard grid inefficiencies, contrasting with thermal plants reliant on distant fuel transport.^[29] The plant typically generates around 3,400 GWh annually, dependent on hydrological conditions.^[30] Integration with the downstream Jebba Hydroelectric Power Station, located 100 km along the Niger River, enables tandem operations where Kainji regulates releases to support Jebba's generation, optimizing cascade-wide output without redundant storage.^[31] Generated electricity is stepped up to 330 kV and transmitted via dedicated lines to Nigeria's national grid, facilitating distribution to northern and central regions.^[5] The Kainji Dam features a navigation lock system designed to enable passage of river traffic past the structure, supporting commercial barge transport on the Niger River. The system includes upper and lower locks providing lifts of 80 feet and 42 feet, respectively, for a total elevation change accommodating the dam's head.^[12] Each lock chamber measures approximately 550 feet in length and 40 feet in width, sufficient to handle a train of four standard barges, each 130 feet by 30 feet, thereby facilitating the movement of substantial cargo volumes and reducing overland transport dependencies.^[32] For flood management, the dam incorporates a spillway with four hydraulically operated gates, each 50 feet by 50 feet, enabling precise control of excess water releases during high-flow periods.^[9] This infrastructure is engineered to handle the Niger River's bimodal seasonal flooding—the clear "black flood" from upstream tributaries and the sediment-laden "white flood" from Sahelian rains—by storing inflows in the reservoir and modulating outflows to prevent downstream inundation.^[33] Since commissioning in 1969, operations have attenuated flood peaks, with downstream discharges dropping from around 1,200 m³/s pre-dam to approximately 500 m³/s in the 1970s and 1980s, allowing reclamation of over 790 km² of floodplain for agriculture.^[34]^[33] These controlled releases have historically mitigated severe flooding events, though annual spillway openings in September remain necessary to manage reservoir levels.^[19]

Lake Kainji

Reservoir Formation and Hydrology

The impoundment of the Niger River by the Kainji Dam commenced in 1968 following the structure's completion, creating Lake Kainji as a reservoir extending approximately 136 km in length with a maximum width of 24 km.^[3]^[35] The reservoir attains a surface area of about 1,270 km² at full supply level and holds a volume of roughly 15 km³, with maximum depths reaching 50.4 m near the dam wall at high water.^[36]^[37] Hydrologically, Lake Kainji receives primary inflow from the Niger River, characterized by marked seasonal variability driven by the river's bimodal flood regime: the "white flood" peaking from June to September with silt-laden waters from upstream tributaries, and the "black flood" from October to May originating from distant Sahelian sources.^[38] Historical average daily inflow stands at 905 m³/s, equivalent to an annual runoff of 28.55 km³, though wet-season peaks can substantially exceed this due to monsoon-driven discharges.^[39] Water losses occur via evaporation, which is elevated in the region's hot, arid climate, and sedimentation from riverine silt, gradually reducing storage capacity over time.^[40]^[41] The reservoir functions to mitigate the Niger's natural flow extremes, storing excess wet-season volumes to sustain releases during dry periods from March to June when inflows drop critically low, thereby providing regulated downstream discharge for hydropower, irrigation, and navigation.^[42]^[43] This buffering effect maintains more consistent hydrological conditions below the dam compared to pre-impoundment variability, though operational drawdowns of 9-10 m annually influence lake levels and sediment dynamics.^[36]

Ecological Characteristics and Management

The impoundment of the Niger River by Kainji Dam transformed the upstream riverine ecosystem into a lacustrine one, altering habitats from flowing riffles and pools to lentic zones with stratified waters, pelagic areas, and benthic substrates. This shift favored the proliferation of certain fish families, including Cichlidae in inshore areas, Characidae and Schilbeidae in pelagic zones, and Bagridae and Mochokidae near the bottom, with relative increases in populations of Cichlidae and Bagridae observed post-impoundment compared to pre-dam river conditions.^[44]^[45] Overall fish abundance rose following reservoir formation, supporting a diverse assemblage of approximately 118 species across 23 families.^[46]^[47] Commercial fish yields in Lake Kainji have stabilized at levels reflecting ecosystem productivity, with estimates of sustainable annual production around 28,000 to 32,000 metric tons, excluding clupeids, driven by the expanded habitat for multi-species stocks.^[48]^[49] Pre-impoundment vegetation clearance was implemented to mitigate organic matter decomposition and associated methane emissions from flooded biomass, a standard practice to reduce anaerobic greenhouse gas releases in tropical reservoirs.^[50] While nutrient inputs from surrounding agriculture have occasionally promoted algal growth, no widespread harmful blooms have been documented, and invasive aquatic species impacts remain limited relative to other African man-made lakes.^[51]^[52] Management efforts emphasize monitoring through institutions like the Kainji Lake Research Institute, which conducts surveys on fish distribution, genetic diversity, and stock health to sustain resilience.^[53] Data indicate net biodiversity stability, with high genetic diversity in key species like the African catfish contrasting claims of severe disruption, as adaptive proliferation in lacustrine conditions has offset initial habitat losses.^[54] Targeted fisheries research and effort regulation, rather than large-scale lake stocking, have supported this equilibrium, prioritizing empirical tracking of multi-species dynamics over unsubstantiated decline narratives.^[55]

Operations and Maintenance

Power Production Dynamics

Power production at the Kainji Dam varies significantly with seasonal reservoir inflows, which are driven by rainfall patterns in the Niger River Basin. Peak generation occurs during the late wet season, particularly September to October, when inflows reach 2,700–2,900 m³/s, enabling higher turbine utilization compared to the low-flow period from April to July, where inflows drop to 200–600 m³/s.^[56] This results in a strong positive correlation (Pearson coefficient of 0.92) between inflow rates and power output, with historical data from 1985 to 2014 showing overall declining trends in inflows due to climatic variability.^[56] Drought periods exacerbate output reductions, as diminished runoff and reservoir storage limit generation capacity; for instance, multi-year droughts in the 1970s and subsequent declines have been linked to lower inflows and associated drops in hydropower production.^[57] ^[58] Capacity factors at Kainji have historically ranged from 11% to 40.5% annually, reflecting these inflow constraints and averaging below industry benchmarks for hydropower (50–80%), though peaking higher during wet seasons.^[59] The dam's 760 MW installed capacity forms a substantial portion of Nigeria's approximately 2,000 MW total hydropower resources, contributing around 12% of the country's electricity supply under typical conditions.^[60] ^[61] Prior to the 2013 privatization of the power sector, Kainji and similar hydro facilities provided a more consistent baseload relative to gas-fired plants, which frequently underperform due to fuel supply shortages, despite hydro's inherent seasonal limitations.^[62]

Rehabilitation and Upgrades

In 2013, as part of Nigeria's power sector privatization, Mainstream Energy Solutions Limited (MESL) acquired the concession for the Kainji Hydropower Plant, enabling targeted interventions to restore operational efficiency after decades of underperformance.^[63] Under MESL's management, available capacity at Kainji increased from effectively zero to 440 MW through systematic refurbishments of turbines and auxiliary systems, addressing corrosion and mechanical degradation in the aging infrastructure.^[64] The African Development Bank approved a $100 million loan in 2017 to fund the rehabilitation of specific turbines at Kainji, focusing on restoring generating units such as 1G5, 1G6, and 1G12 to mitigate efficiency losses from prolonged wear.^[65] This project, building on earlier environmental and social impact assessments initiated in 2016, involved overhauling electro-mechanical components to recover output closer to design specifications and extend the plant's service life.^[66] By March 2025, MESL completed synchronization of rehabilitated turbines under the AfDB program, elevating Kainji's operational capacity to 600 MW and reducing forced outages through upgraded excitation and protection systems.^[30] Additional efforts in 2025, including PowerChina's refurbishment of the 80 MW Unit 1G9, further enhanced reliability by integrating modern controls to handle variable hydrological inputs, though full recovery to the original 760 MW installed capacity remains constrained by ongoing maintenance needs.^[67]^[68]

Operational Challenges and Reliability Issues

The Kainji Dam has experienced significant operational challenges due to siltation, which has led to a loss of approximately 40.84% of the reservoir's gross storage capacity over 47 years of operation, primarily from sediment deposition reducing effective water storage for power generation.^[69] This sedimentation exacerbates maintenance difficulties, including turbine inefficiencies and forced outages, as accumulated silt behind the dam hinders operational performance and requires frequent interventions.^[70] Equipment reliability has been compromised by recurring mechanical failures and inadequate upkeep under federal state ownership, contributing to average power outputs of 298–368 MW against an installed capacity of 760 MW, representing utilization rates often below 50%.^[71] In periods of severe underperformance, such as 2011–2015, generation dropped to 200 MW or less, equating to under 15% of capacity, largely attributable to deferred maintenance and funding constraints rather than hydrological deficits alone.^[72] Vandalism incidents, including a 2025 theft of installations valued at ₦4.8 billion, further degrade infrastructure integrity, amplifying downtime and repair costs amid chronic underfunding for preventive measures.^[73] Inflow variability poses additional reliability risks, with historical droughts reducing reservoir inflows to 725–1,168 cubic meters per second and recent upstream infrastructure development contributing to slight declines in annual volumes, complicating output forecasting and turbine scheduling.^[56]^[33] These factors, compounded by governance shortcomings such as poor maintenance culture and mismanagement, explain the dam's consistent underdelivery relative to design specifications, distinct from broader inefficiencies in Nigeria's fossil fuel plants stemming from fuel supply disruptions.^[74]^[75]

Economic Contributions

Energy Supply and Industrial Impact

The Kainji Dam's hydroelectric power station, with an installed capacity of 760 MW from eight turbines, generates baseload electricity integrated into Nigeria's national grid, supporting industrial operations across the country.^[29] Originally designed for 960 MW with 12 turbines, the facility has provided reliable hydropower since its commissioning in 1968, contributing to the grid's stability and reducing dependence on aging thermal plants.^[2] This supply has been pivotal for energy-intensive industries, including early plans for iron and steel plants or aluminum smelters, where the dam's power was anticipated to enable accelerated development if such projects materialized.^[16] In the 1970s and 1980s, Kainji's output helped power northern Nigeria's industrial expansion, coinciding with manufacturing sector growth amid national economic booms, though attribution remains tied to broader infrastructure investments like the dam, deemed a predominant factor in regional industrialization by World Bank assessments.^[76] The facility's integration has mitigated some blackout risks in underserved northern areas by diversifying supply sources, despite ongoing national grid challenges from underutilization and maintenance issues.^[77] Additionally, power from Kainji contributes to Nigeria's exports to Benin and Togo under bilateral agreements, stabilizing regional supply while securing commitments from recipients against upstream damming that could affect Niger River flow to the facility.^[78] Hydroelectric generation at Kainji offers lower operating costs than thermal alternatives reliant on imported fuels, with no fuel expenses promoting long-term self-reliance in industrial energy needs over a projected 60-year lifespan evaluated against thermal benchmarks.^[79]^[12] This cost advantage has underpinned economic viability for grid-supplied manufacturing, though actual industrial impacts are constrained by incomplete turbine installation and variable hydrological conditions affecting output.^[4]

Agricultural and Irrigation Benefits

The Kainji Dam supports downstream agriculture by regulating Niger River flows, thereby reducing flood variability and enabling controlled water availability for irrigation and recession farming in the floodplain. Hydrological analyses projected that flood control would release 790 km² of previously inundated land for irrigated cultivation, transforming areas prone to erratic seasonal flooding into viable farmlands.^[33] This regulation has allowed expansions in crop production, exemplified by the Nigerian Sugar Company's extension of its sugar-cane plantation by 121 hectares into former flood-prone zones between 1969 and 1972.^[33] Controlled releases from the dam stabilize recession agriculture, where farmers utilize receding waters for dry-season planting of crops like rice and vegetables, countering pre-dam unpredictability that often led to crop failures. World Bank appraisals estimated long-term agricultural benefits at a present worth of approximately £N 6.5 million over 60 years (discounted at 7%), with annual values projected to rise from £N 200,000 by the tenth year to £N 1.5 million by the thirtieth, though realization has been constrained by high development costs and limited downstream infrastructure.^[12] In Niger State, these dynamics have enhanced overall farming reliability without large-scale irrigation grids, focusing instead on adaptive practices in command areas.^[12] The lake's fisheries complement agricultural outputs by providing diversified protein sources, with potential annual yields increasing to 12,000 tons, valued at up to £N 1.34 million, which helps sustain nutrition in agrarian communities amid variable crop harvests.^[12] This synergy addresses pre-dam food shortages tied to flood-dependent livelihoods, though benefits accrue more from reservoir productivity than direct irrigation synergies.^[12]

Regional Development and Revenue Generation

The Kainji Dam has facilitated regional development by generating direct employment in hydroelectric operations, reservoir oversight, and ancillary activities such as fisheries on the created Kainji Lake. Artisanal fishing communities engage in capture, processing, and marketing, with annual fish processing volumes reaching approximately 5,000 tons, sustaining livelihoods for local populations in Niger State.^[53] Economic analyses of the hydropower plant's performance highlight its role in providing stable operational jobs while contributing to broader labor demand in maintenance and support services.^[79] The establishment of Kainji National Park in 1978, encompassing savanna woodlands and the lake's aquatic zones adjacent to the dam, has bolstered tourism as a revenue source and job creator. Ecotourism initiatives, including boat cruises on the reservoir and guided wildlife tours, generate internal park revenues—peaking at over 1.6 million Naira annually in the early 2000s from visitor fees and concessions—while employing rangers, guides, and service staff. These activities promote sustained economic activity in remote areas, with tourist inflows documented from 2009 to 2018 underscoring potential for expanded local GDP contributions through hospitality and transport linkages.^[80] Privatization of the Kainji facility in 2013 to Mainstream Energy Solutions Limited markedly enhanced revenue streams, rising from 3.7 billion Naira in fiscal year 2013 to 60 billion Naira in 2018, with proceeds reinvested in capacity upgrades from 520 MW to targeted 740 MW outputs.^[63] This fiscal expansion has funded regional infrastructure improvements and amplified multiplier effects on economic output, as increased power reliability supported industrial expansion.^[63] Historically, the project—backed by a 1964 World Bank loan of $82 million—drove Nigeria's 1960s-1970s growth spurt, yielding a favorable return on investment per operational and economic evaluations.^[81]^[79]

Population Displacement and Resettlement Outcomes

The construction of the Kainji Dam led to the displacement of approximately 44,000 people from 239 settlements inundated by the reservoir in 1968.^[82] These individuals, primarily from rural farming and fishing communities along the Niger River, were relocated to 141 new settlements designed to accommodate their needs.^[82] The Nigerian government, through the Niger Dam Authority, implemented a resettlement program featuring three prototypical housing forms: urban-style rectilinear sandcrete block structures with flat asbestos roofs for town dwellers; semi-urban variants with curved roofs; and rural circular dwellings with domed asbestos roofs, adapted from traditional Kamberi grain storage designs to reflect local architecture.^[82] Initial resettlement efforts included cash compensation for losses in 17 early settlements, alongside allocations of farmland to sustain agriculture-based livelihoods.^[82] However, the cash-only approach proved inadequate, prompting a shift to in-kind compensation via constructed housing and community infrastructure.^[82] The program also anticipated economic opportunities from the new Kainji Lake, including expanded fishing prospects that could supplement farming for relocated groups.^[83] A 2008 empirical assessment of housing outcomes 40 years post-relocation revealed mixed results attributable to design and site choices rather than the displacement event itself. Urban and semi-urban settlements showed effective integration, with residents adapting and maintaining structures.^[82] In contrast, many rural prototype houses were abandoned due to thermal discomfort from asbestos roofing and suboptimal site locations that hindered access to arable land or water sources.^[82] Persistent infrastructure shortfalls, including delayed provision of potable water, schools, and healthcare facilities, exacerbated livelihood challenges in these areas, though proximity to the lake enabled some communities to thrive through artisanal fishing.^[82]^[84] Overall, policy execution succeeded in immediate housing delivery but faltered in long-term site viability and service upgrades, leading to uneven socioeconomic trajectories among resettled populations.^[82]

Hydrological and Ecological Effects

The Kainji Dam regulates downstream flows in the Niger River, attenuating peak discharges to mitigate flooding while providing more consistent base flows. This stabilization has reduced flood magnitudes and durations, with pre-construction predictions indicating potential reclamation of up to 790 km² of floodplain for dry-season activities through controlled releases.^[33] ^[85] However, sediment trapping within the reservoir intercepts 70-76% of upstream loads, diminishing depositional processes downstream and promoting channel scour, where clearer releases erode bed and bank materials, potentially deepening channels over time.^[85] ^[86] ^[87] The impoundment forming Lake Kainji, spanning approximately 1,300 km² with a mean depth of 12 m, has induced nutrient enrichment and stratification, fostering localized eutrophication, yet operational monitoring reveals sustained water quality parameters without dam-attributable degradation.^[37] ^[88] Aquatic habitats shifted from lotic riverine systems to lentic lacustrine ones, fragmenting migratory pathways and altering species distributions, with downstream riverine fish assemblages declining by 50-60% in the initial post-dam years due to reduced flood pulses.^[89] Conversely, lacustrine fish abundance rose following reservoir filling, reflecting successful colonization by tolerant species and overall productivity gains in the new ecosystem.^[47] Methane releases from the reservoir conform to patterns observed in tropical hydropower systems, remaining modest relative to global reservoir averages and offset by avoided emissions from displaced fossil fuels.^[90] Reservoir draw-down zones and peripheral shallows have generated expansive emergent wetland habitats, compensating for contracted downstream floodplain inundation and supporting resilient vegetation dynamics, as tracked through multi-decadal remote sensing of land cover shifts.^[35] ^[91] Biodiversity assessments indicate adaptive responses rather than collapse, with invertebrate and floral communities restructuring to the altered hydrology, underscoring ecological resilience absent claims of wholesale irreversible disruption.^[92] ^[93]

Health, Livelihood, and Downstream Consequences

The impoundment of Lake Kainji facilitated the proliferation of snail intermediate hosts, contributing to elevated transmission of urinary schistosomiasis (Schistosoma haematobium) in surrounding communities through increased contact with infested stagnant waters.^[94] ^[95] A 2020 cross-sectional survey of 410 school pupils in five communities near the dam found an overall prevalence of 5.1%, with a geometric mean egg count of 5.97 eggs per 10 ml of urine, indicating light infections but persistent endemicity linked to water contact activities like bathing and fishing.^[96] Another study reported a 16% prevalence among 200 pupils, with higher rates among females (59% of cases), underscoring gender-specific exposure risks in fishing-dependent households.^[97] Vector control measures, including larviciding of streams within a 50 km radius of the dam site, have targeted blackfly vectors for onchocerciasis and helped curb broader mosquito-borne diseases like malaria, though schistosomiasis persistence reflects challenges in sanitation and habitat management.^[98] ^[99] Resettlement from the flooded basin prompted livelihood shifts among approximately 44,000 displacees, transitioning many from rain-fed farming to lake-based fishing, which emerged as a primary occupation alongside residual agriculture.^[82] ^[100] This diversification capitalized on the reservoir's initial fish yield surge, providing protein and income alternatives, though long-term sustainability has been strained by overexploitation and resource depletion.^[101] Fishing households have since adopted mixed strategies, including trading and informal sector work, to buffer against seasonal catches, with studies noting correlations between artisanal fishing outputs and overall household prospects around the dam.^[102] ^[103] Downstream of the dam, riverine fisheries declined sharply post-1968 impoundment, with production in the Niger River dropping by about 50% due to disrupted floodplains, reduced nutrient flows, and barriers to migratory species.^[104] Altered discharge patterns caused hypoxic conditions (as low as 0.2 mg/l dissolved oxygen), prompting fish avoidance and compositional shifts, though tailrace fisheries developed immediately below spillways, attracting dense aggregations.^[87] Partial rebound has occurred via emigration of lacustrine species into the river and controlled releases, mitigating total collapse but not restoring pre-dam levels.^[105] The dam's flood regulation has conversely protected downstream alluvial farmlands from seasonal inundation, averting crop losses estimated in millions and enabling expanded cultivation in previously vulnerable areas.^[3] ^[12]

Controversies and Criticisms

Resettlement Policy Failures

The resettlement policy for Kainji Dam, affecting approximately 44,000 people across 239 settlements between 1963 and 1968, featured limited consultations during the initial cash compensation phase for 17 settlements, where farmers received payments without adequate input on relocation feasibility, leading to ineffective farm transitions and agricultural disruptions.^[82] New resettlement sites were established without thorough assessments of land suitability, resulting in unsuitable farmlands prone to seasonal flooding and duricrust formation, which hampered crop productivity and prompted dissatisfaction among relocated farmers.^[9]^[82] Implementation gaps included slow farmland clearance and inadequate water supply infrastructure, exacerbating welfare challenges and contributing to community out-migration within four years in some areas.^[9] A 2008 assessment of housing outcomes 40 years later documented widespread abandonment of rural structures due to designs lacking cultural adaptation—such as thermal inefficiency in Kamberi-style homes resembling grain storage sheds—and persistent shortfalls in promised amenities, including electricity, schools, and healthcare in semi-urban settlements.^[82] These policy execution failures, rooted in donor-influenced planning without robust local governance frameworks, underscore deficiencies in site selection, service delivery, and adaptive design rather than negating the project's viability; the displacement of 44,000 individuals enabled hydropower generation serving regional electrification needs amid Nigeria's population growth from roughly 55 million in 1968 to over 200 million today, highlighting unavoidable trade-offs in prioritizing infrastructure for broader economic access over localized perfection.^[9]^[82]

Environmental Trade-offs and Sustainability Debates

The Kainji Dam's hydroelectric generation displaces fossil fuel-based power in Nigeria's grid, yielding lifecycle greenhouse gas emissions of approximately 24 gCO2eq per kWh, far below the 490 gCO2eq per kWh for natural gas plants that dominate the country's thermal capacity. This substitution supports an estimated annual avoidance of thousands of tons of CO2eq emissions from the dam's 760 MW output, contributing to Nigeria's broader hydro portfolio that offsets roughly 5-10% of national power sector emissions amid heavy reliance on gas-fired plants.^[106] However, reservoir creation has induced localized habitat fragmentation and aquatic biodiversity declines, including reduced fish species diversity due to altered flow regimes and barrier effects on migratory species in the Niger River basin.^[8]^[107] Sedimentation poses a quantifiable sustainability challenge, with bathymetric surveys indicating a 13.4-meter average depth loss in the reservoir over 52 years from construction, driven by upstream erosion and silt trapping that could truncate the structure's effective storage lifespan to under 100 years absent dredging or watershed controls.^[108]^[109] Empirical global data on tropical reservoirs, however, counters exaggerated narratives of outright "ecocide" by demonstrating net carbon sequestration benefits over decades post-flooding, as initial methane releases from organic decay diminish while hydropower avoids persistent fossil emissions equivalent to millions of tons annually per large facility.^[110]^[111] Reservoirs like Kainji's can also foster novel biodiversity hotspots for sedentary species and fisheries in drawdown zones, though initial losses in riverine endemics persist without mitigation.^[9] Debates on long-term viability highlight climate-induced vulnerabilities, such as projected 10-20% runoff reductions in the Kainji basin by mid-century from altered rainfall patterns, potentially curtailing inflows and generation reliability.^[112]^[113] These risks are addressable through adaptive inflow forecasting and complementary renewables, with hydro's dispatchable nature outperforming intermittent solar or wind in baseload stability and emissions profiles.^[114] Academic critiques, often from environmentally focused institutions, emphasize downstream ecological disruptions but underweight comparative analyses showing hydro's superior lifecycle efficiency versus coal equivalents in developing contexts, where dam expansions have enabled emission trajectories below business-as-usual fossil scaling.^[107]^[115] Sustained monitoring of silt loads and basin hydrology remains essential to extend operational viability beyond sediment-limited horizons.^[116]

Governance and Efficiency Critiques

Prior to the 2013 privatization of Nigeria's power sector, the Kainji Dam operated under the state-owned Power Holding Company of Nigeria (PHCN), a successor to the Niger Dams Authority, which maintained a government monopoly on generation, transmission, and distribution, often resulting in chronic underinvestment and deferred maintenance due to bureaucratic inefficiencies and fiscal constraints.^[117]^[118] This institutional structure contributed to operational underperformance, with only eight of the dam's twelve planned turbines installed by the early 2010s, limiting effective capacity to 760 MW despite design potential for 960 MW.^[79] Following the 2013 transfer to private operator Mainstream Energy Solutions Limited, efforts to enhance dam safety and operational protocols have been noted, yet persistent vulnerabilities persist, including outages linked to vandalism and theft rather than inherent design limitations.^[63]^[1] In September 2025, police investigations uncovered theft and vandalism of navigation lock installations valued at ₦4.8 billion, involving arrested security personnel, which disrupted operations and highlighted ongoing security lapses in infrastructure protection.^[119] Critiques of governance often center on over-reliance on hydropower amid Nigeria's variable hydrology, yet empirical performance data counters claims of systemic inefficiency; Kainji's capacity factor has ranged from 11% in low-output years like 2014 to over 40% historically, with a 91% load factor in September 2025—outpacing the national average below 40% and many thermal plants constrained by gas shortages and maintenance neglect.^[59]^[120] Proponents of large-scale infrastructure argue it generates multiplier effects through expanded grid access, contributing to poverty alleviation via electrification in underserved regions, while skeptics attribute persistent shortfalls to elite capture and corruption in sector procurement, as documented in broader analyses of Nigeria's energy governance.^[121] Nonetheless, verifiable increases in power connectivity post-Kainji operations underscore causal links to improved household welfare, independent of institutional flaws.^[62]

References

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Built between 1964 and 1968, it displaced 42,000 people. Before the construction, over 192 small settlements were situated in the area that is now Kainji Lake; ...Missing: controversies | Show results with:controversies
[8]
Investigation into the Environmental impacts of Hydropwer In Nigeria ...
The dam has disrupted aquatic ecosystems, decreasing fish populations and biodiversity due to altered habitats. What are the primary energy generation sources ...
[9]
[PDF] Spatial Analysis of the Impacts of Kainji Hydropower Dam on the ...
Jun 30, 2013 · Socio-economic life of the people has worsen than when the dam was newly constructed since they still lack basic infrastructural facilities ...Missing: controversies | Show results with:controversies
[10]
[PDF] Assessment of Changing Vulnerability from Kainji Dam in Yauri ...
From an environmental and social perspective, these massive structure result in numerous negative impacts. The World. Commission on Dams (WCD) set out in 1998 ...Missing: controversies | Show results with:controversies
[11]
[PDF] An Overview of Past National Development Plans in Nigeria (1962 ...
The first National. Development Plan was introduced in 1962. 3.1The First National Development Plan (1962-1968) ... of important projects such as the Kainji dam, ...
[12]
[PDF] World Bank Document
Financial projections of the Kainji Project during 1963/64 and the rermainder of the construction period 1964/65-1968/69 are showvn in Arnexes 5 and 6, Sources ...Missing: specifications | Show results with:specifications
[13]
[PDF] Niger Dam Project - Kainji - Nigeria - Loan 0383 - The World Bank
Nov 15, 2018 · The Bank has been asked to provide $70 million towards the financing of the foreign exchange cost of the Kainji project, consisting of a dam ...
[14]
[PDF] Niger Dam Project - Kainji - Nigeria - Loan 0383 - The World Bank
Oct 16, 2018 · Negotiations for the Bank loan began in April 1964 in. Washington and the Bank loan agreement was signed on July 7, 1964, becoming effective.
[15]
Kainji Project : Loan 0383 - Guarantee Agreement - Conformed
DETAILS ; Document Date. 1964/07/07 ; Document Type. Guarantee Agreement ; Country. Nigeria, ; Region. Western and Central Africa, ; Disclosure Date. 2013/08/31.Missing: Dam Impregilo<|separator|>
[16]
[PDF] Niger Dam Project - Kainji - Nigeria - Loan 0383 - The World Bank
Oct 16, 2018 · The Main Dam contract KD h was signed with Impregilo in September. ... Agreement signed March 12, 1964. (4) 342,125 deferred payment credit.
[17]
Dams on the Niger and Sokoto Rivers, Nigeria - Ej Atlas
Apr 25, 2022 · In 1964, construction of the Kainji dam, 800 km (497 miles) north of Lagos, was undertaken by a consortium of three Italian companies, ...
[18]
[PDF] dams, hydroelectric plants and hydraulic works
Oct 3, 2018 · Its construction also included works connected to intake systems, tunnels (deviation, adduction, etc.), to the spillway and return systems. To ...
[19]
[PDF] Optimized Operation of Kainji Reservoir - ThaiScience
Jebba Dam is located 100 km downstream of Kainji Dam and was commissioned in 1984 to utilize the run- off water from Kainji Reservoir for generating electricity ...Missing: date | Show results with:date
[20]
OVERVIEW OF KAINJI DAM POWER STATION AND ITS ...
Dec 23, 2015 · Kainji Dam is a hydro-electric power station constructed to utilize the vast water body of the River Niger whose construction started in 1964 and was completed ...
[21]
[PDF] E1587 v 3 - World Bank Documents & Reports
The Kainji hydropower dam became officially operational on February 15, 1969. ... The Kainji Lake was formed by the construction of the dam on the Kainji island.<|separator|>
[22]
Nigeria - Kainji Multipurpose Project - World Bank Documents
The Kainji Multipurpose Project for Nigeria will help finance the first stage of a the development scheme on the Niger River at Kainji Island.
[23]
Kainji Dam: Nigeria's First Great Hydropower Project
Sep 6, 2025 · Construction began in 1964 and the dam was commissioned in 1968 by a consortium led by Italy's Impregilo. The river-crossing section is about ...
[24]
The Kainji Dam: an exercise in regional development planning
Feb 4, 2007 · KAiNjt DAM which was commissioned on the. 15 February, 1969 is already a major factor in the overall progress of development in Nigeria and can ...
[25]
Kainji and Jebba Dams, Niger River, Nigeria - Sarafinchin
These are all hydroelectric dams and generate a potential combined power output of 1,900 megawatts. ... Kainji Dam is 85.5 m (215 ft) in height and about 8 km (5 ...
[26]
Evaluation of Best-Fit Probability Distribution Models for ... - BioOne
Jan 1, 2020 · Kainji hydropower dam is situated along the Niger River; a dam ... According to Olukanni and Salami, estimated 1000-year floods at 300 ...
[27]
Kainji hydroelectric plant - Global Energy Monitor - GEM.wiki
Apr 24, 2025 · Table 1: Project details for Kainji hydroelectric plant ; Operating · 1968 · 760 MW ...
[28]
View of PREDICTING WATER LEVELS AT KAINJI DAM ... - nijotech
Mar 1, 2013 · The maximum Tail wa-ter elevation is 104m (341ft).The minimum head wa-ter elevation at which the plant can operate is 132m(433ft). The total ...
[29]
Kainji, Nigeria - Power Technology
Nov 30, 2021 · The hydro reservoir capacity is 15,000 million cubic meter. The total number of penstocks, pipes or long channels that carry water down from ...
[30]
Nigeria: Kainji hydro turbine rehabilitation complete - African Energy
Mar 19, 2025 · Commissioned in 1968 as Nigeria's first HEP plant, Kainji was envisaged to have 12 units with a nameplate 960MW capacity, but only eight were ...
[31]
Affordable energy for generations - Jebba, Nigeria - ANDRITZ GROUP
Kainji was commissioned as Nigeria's first hydropower plant in 1968, whereas Jebba was commissioned in 1985. When the power plants were taken over, Jebba was ...Jebba, Nigeria · ``jebba Is Equipped With Six... · Visit To Austria In 2022
[32]
https://www.ingentaconnect.com/content/routledg/cres/1976/00000010/00000002/art00008
[33]
WATERS OF LAKE KAINJI—HYDROLOGICAL PREDICTIONS AND ...
A number of the anticipated benefits, especially hydro-electric power, flood control and fisheries are being achieved; others, such as navigation improvement, ...Missing: early | Show results with:early
[34]
Time Series Analysis of Floods across the Niger River Basin - MDPI
The curve changed from higher (approx. 1200 m³·s−1) discharge in 1969 to lower (approx. 500 m³·s−1) discharges in the 1970s and 1980s, and then half-way back ...
[35]
Nigeria - Kainji lake draw-down areas. Soil and land evaluation. A ...
The length of the lake is about 130 km and its maximum width is 24 km. The draw-down area is exposed between maximum lake level at about 465 feet and the ...
[36]
4. physical characteristics of kainji lake
A heat budget analysis was made for Kainji for the period August 1969 through December 1970 in order to seek information on the sources of variability of ...Missing: commissioning | Show results with:commissioning
[37]
Earth from Space: Kainji Lake - ESA
Kainji Lake was created in 1968 by the construction of the Kainji Dam and covers an area of around 1300 sq km with a mean depth of 12 m. Water from the ...
[38]
[PDF] Stochastic Characteristics of Rainfall and River Flow of Kainji ...
Nov 27, 2017 · The White flood is heavily laden with silts and other suspended particles (flow lag June to September) and arrives Kainji in August in the pre- ...Missing: siltation | Show results with:siltation
[39]
(PDF) Seasonal and interannual validation of satellite-measured ...
Aug 7, 2025 · Kainji reservoir recorded a historical average daily flow of 905.3m3/sec or average annual runoff of 28.55km3/year during the period 1970 to ...Missing: regulation | Show results with:regulation
[40]
(PDF) Reservoir inflow pattern and its effects on hydroelectric power ...
examples of such infrastructure include the Kainji Dam on the Niger River ... river and they subsequently increase the siltation of the Galma dam. View ...
[41]
Sustainable management of erosion prone areas of upper ...
As a result of low velocities of water which characterize the inflow into dams, their ability to trap sediment reduces and eventually leads to silting up of the ...
[42]
[PDF] Recalibration of Kainji Reservoir Operating Rule for Optimal Operation
Jan 8, 2018 · A flood pool can then be designed to safely pass a certain size flood through the reservoir without downstream flooding, providing a target ...
[43]
[PDF] Analysis and Characterization of Kainji Reservoir Inflow System
Jan 4, 2018 · The black flood derives its flow from the tributaries of the Niger outside Nigeria. (flow lag October to May) and arrives at Kainji reservoir ( ...
[44]
An analysis of fish distribution in Kainji lake Nigeria | Hydrobiologia
The distribution of fish in the three major habitats (inshore, surface and bottom) in Kainji Lake was studied using gill-nets in graded fleets.Missing: biodiversity | Show results with:biodiversity
[45]
Fish distribution in Kainji Lake, Nigeria - ADS
Kainji, and comparison with previous data, showed that there has been a relative increase in the populations of the fish families Cichlidae, Bagridae, ...
[46]
Kainji Lake National Park of Nigeria: Assets and Implications for ...
The survey showed 118 species of fish belonging to 23 families. Plant diversity records indicate about 164 species of dicots and 110 species of monocot plants.<|separator|>
[47]
Country Information - Nigeria - SeaLifeBase
... fish, and may affect the spawning of some shore-line species. In Lake Kainji following dam creation there was an increase in the abundance of fish and ...
[48]
Nigerian-German Kainji Lake Fisheries Promotion Project Technical ...
The potential yield for the lake has been estimated to be 32,166 tonnes (excluding clupeids) and the required optimum fishing effort to be 1,814 fishing canoes.
[49]
[PDF] Performance Assessment of Artisanal Fisheries in the Kainji Dam ...
However, GTZ (1999) reported that the total yield for Kainji Lake has been estimated at about 28,851 metric tons in 1998. This figure was approximately the same ...
[50]
[PDF] Living with dams: managing the environmental impacts - CGSpace
Catchment management. Pre-impoundment clearing of reservoir. Reservoir re-aeration. Treatment of reservoir inflows. Flushing to reduce residence times.
[51]
[PDF] phycology and fisheries development – a review
Algal bloom is caused by rapid primary production resulting from pollution from sewage and other organic wastes and excessive use of chemical fertilizers on ...
[52]
[PDF] GISP Prevention and Management of Invasive Alien Species
Dec 13, 1995 · It becomes involved when lakes and large ponds connected with this activity are attacked by invasive species. ... • Kainji Lake Fisheries Research ...
[53]
Nigeria - Fish handling and processing in the Kainji lake basin and ...
The purpose of the Kainji Lake Research Project was to assist in the comprehensive development of man made lake resources through research and surveys.Missing: management stocking programs
[54]
Genetic identification and diversity of stocks of the African ...
The high genetic diversity in Kainji Lake contrasts with the low genetic diversity ... Over fishing as a factor responsible for declined in fish species diversity ...
[55]
Over fishing as a factor responsible for declined in fish species ...
This study examines past records of overfishing as a factor responsible for the decline in fish species diversity in Kainji Lake.Missing: ecology biodiversity
[56]
[PDF] Reservoir inflow pattern and its effects on hydroelectric power ...
This section is 65 metres high. Kainji dam is one of the longest dams in the world. The Nigerian government has invested a lot in the dam. It was designed ...Missing: head | Show results with:head
[57]
(PDF) Waters of lake kainji—hydrological predictions and performance
The water scarcity at Kainji is directly linked with the drought that has ravaged West Africa for the past three years. This investigation also shows that the ...
[58]
Potential impacts of climate, land use and land cover changes on ...
Mar 8, 2022 · 305 decline in hydropower generation at the Kainji Dam was associated with decreases in runoff (Salami et al. 306. 2015) and a drop in reservoir ...
[59]
[PDF] Performance and economic analysis of kainji hydropower plant in ...
In this study, performance and economic analysis of Kainji Hydropower Station has been investigated with specific emphasis on some key parameter indices which ...
[60]
Quantifying Uncertainties in Modeling Climate Change Impacts on ...
Kainji dam has a total installed capacity of 760 MW [12] and supplies 12 per cent of the total electricity of Nigeria [1]. The reservoir storage at Kainji ...
[61]
Hydroelectric production and energy consumption in Nigeria
Nigeria's hydropower has an installed capacity of 2,062 MW, with approximately 85 % of that capacity yet to be built, providing solutions to current power ...Missing: initial | Show results with:initial
[62]
Electricity. Power Systems and Renewable Energy
Jun 6, 2023 · As a result, in 2017 the proportion of hydropower on the grid went up to 26% from 15% in 2015. Under this program, the 760 MW Kainji and 578 MW ...
[63]
Powering Nigeria Through Kainji And Jebba Dams - Forbes Africa
Dec 6, 2019 · During the 2013 Power Sector Privatisation, Mainstream Energy Solutions Limited (MESL) acquired Kainji and Jebba Hydro Power Plants. 6 years ...Missing: upgrades | Show results with:upgrades
[64]
[PDF] Presentation on Mainstream Energy Solutions Limited at ... - ESMAP
Jul 9, 2023 · Mainstream Energy Solutions Limited, incorporated in 2011, acquired Kainji & Jebba Hydro Power Plants in 2013, and increased their capacity to ...
[65]
AfDB allots US$100 million for Kainji, Jebba hydropower plant rehab
Jan 4, 2017 · The African Development Bank has approved a package worth US$100 million for the rehabilitation and upgrade of Nigeria's 750-MW Kainji and 578-MW Jebba ...
[66]
Nigeria - Kainji and Jebba Hydro Power Plant Rehabilitation Project
Oct 14, 2016 · ... turbine-alternator groups that include four Kaplan type 80MW, two turbines also Kaplan type rated 100MW and two propeller turbines rated at ...Missing: specifications | Show results with:specifications
[67]
PowerChina revives Nigeria's grounded 80MW Kainji Dam unit
Jun 11, 2025 · The 1G9 unit in focus was completed in mid-April, expected to add at least 2 percent to the country's total power generation capacity.
[68]
Why GenCos are expanding capacity despite mounting debts
May 7, 2025 · Mainstream Energy Solutions, the concessionaire of the Kainji Hydropower Plant, last week added another 80MW to the national grid following ...Missing: privatization | Show results with:privatization
[69]
[PDF] geospatial assessment of kainji hydropower plant's reservoir floor ...
The reservoirs are lost to gradual sedimentation deposits for over a period of 47 years and amount to 3.371 Mm3 representing 40.84 % gross of its capacity loss.
[70]
[PDF] PROSPECTS OF IMPROVED POWER EFFICIENCY AND ...
The study in a nutshell gives suggestions that could help improve power efficiency in Kainji and other hydropower plant stations in Nigeria. Keywords: Power ...
[71]
performance evaluation of hydropower stations in nigeria
Jun 26, 2022 · Hydrological data like gross head (H) in metres (m) and Volumetric flow (Q) in cubic metres per second (m 3 /s) were obtained from the various ...
[72]
[PDF] Performance evaluation of Kainji hydro-electric power plant using ...
From the results, the maximum power output of 476 MW and. 391 MW were predicted for 2021 and 2025, respectively, against a design capacity of 760 MW. Therefore, ...
[73]
Kanji Dam: Police Arrest 12 for Theft, Vandalism of N4.8bn ...
Sep 25, 2025 · The Nigerian Police have announced the arrest of 12 suspects in connection with the theft and vandalism of N4.8bilion installations at the ...Missing: funding ownership
[74]
Save Nigeria's dams from total collapse
Aug 29, 2024 · Besides the Kainji Dam which is the flagship of hydro-electric dams ... Chief among them are our poor maintenance culture, lack of ...
[75]
Nigeria floods: government's mismanagement of dams is a major ...
Oct 23, 2022 · Managing reservoirs for flood control requires keeping the maximum possible empty space before the flood season. Water storage is required for ...
[76]
[PDF] restricted - World Bank Documents & Reports
The Government's decision to build a dam on the Niger River at. Kainji with an ultimate power generating capacity of 960 mW is the pre- dominant factor in ...
[77]
Vawell Power's Post - LinkedIn
Oct 17, 2025 · Kainji Dam ... Hydropower accounts for about 20–30% of Nigeria's electricity, but underutilization has exacerbated chronic blackouts affecting ...
[78]
[ICYMI] Why we export electricity to Niger, Benin, Togo ― Presidency
Jul 28, 2020 · THE Presidency on Tuesday explained that Nigeria entered into bilateral agreements to exports electricity to Niger, Benin and Togo.
[79]
[PDF] PERFORMANCE AND ECONOMIC ANALYSIS OF KAINJI ...
In this study, performance and economic evaluation of Kainji. Hydropower Station in Nigeria from 2008 to 2017 was carried out. Data including total energy ...Missing: GWh | Show results with:GWh
[80]
[PDF] Analysis of tourists' flow (2009-2018) in Kainji Lake National Park ...
Dec 29, 2023 · This study was carried out to assess tourists' flow and revenue generation from 2009 to 2018 in Kainji Lake National Park (KLNP).
[81]
Kainji Dam Loan 1964: In June 1964, Nigeria borrowed $82 million ...
Dec 8, 2024 · The Bank loan will be for a term of 31 years, including a two-year grace period, with interest at 6-1/21. It will be guaranteed by the Federal ...
[82]
Full article: Kainji resettlement housing: 40 years later
Nov 26, 2008 · Nigeria's Kainji Dam, completed in 1968, displaced 44,000 people from 239 settlements. Three housing forms were designed to provide for ...
[83]
KAINJI AND THE NIGER DAMS PROJECT - jstor
The current Kainji development required an investment of £86 million, and was financed by the Federal Government with the aid of loans : from the. World Bank ...
[84]
https://www.openknowledge.fao.org/bitstreams/24fdcf0b-a5f0-47ea-b611-155532c733a5/download
[85]
Impact of dams on the hydrology of the Niger Delta - ResearchGate
Aug 10, 2025 · The presence of major reservoirs, such as the Kainji, Jebba, and Lagdo dams, enables the management of water flow and flood control by storing ...
[86]
Analysis of Hydrological Characteristics: A Case Review of the Niger ...
From these estimates it was clear that the Kainji dam trapped 75% of the total annual inflow of 8 million tonnes of suspended sediments. In spite of retention ...
[87]
6. review of downstream effects of dam design and operation
Increasing the hydroelectric capacity of a dam's power-station (a fairly common practice) results in more turbinated and less floodgate and spillway flow, thus ...
[88]
Water quality parameters in the major rivers of Kainji Lake National ...
In conclusion, Kainji dam hydropower reservoir operation does not have any negative significant effect on the water quality at the station. ...
[89]
THE FISHERIES ECOLOGY OF AFRICAN FLOODPLAINS
Dams which are designed to retain water in the floodplain for a longer period will theoretically improve yields by prolonging the flood phase (University of ...
[90]
[PDF] Review of environmental metrics used across multiple sectors and ...
Mitigation and recovery of methane · emissions from tropical hydroelectric dams. ... Flow effect of Kainji Dam on the Distribution · of Water Hyacinth in Kolo ...
[91]
Monitoring the land-use and vegetation cover changes in the Kainji ...
Aug 6, 2025 · Olokoh. (1995) reported that construction of the Kainji dam ... Wholesale fish marketing was profitable with a 4.45% return on investment (ROI) ...
[92]
[PDF] A review of the effects of dams on the hydrology, water ... - AJOL
In terms of biodiversity of invertebrates, dams positively enhanced the community structure of zooplankton but adversely affected that of the benthic macro- ...
[93]
(PDF) A review of the effects of dams on the hydrology, water quality ...
Oct 6, 2016 · In this paper, the effects of dams on the hydrology, water quality and invertebrate fauna of some Nigerian inland waters were reviewed.
[94]
Epidemiological Survey for Water-Related Diseases around Kainji ...
Mar 31, 2018 · Malaria, Schistosomiasis and diarrheaol diseases were reported in most communities as a result of intensive water contact activities and poor ...
[95]
Parasitic diseases and man-made lakes in Nigeria - ScienceDirect
Most of these man-made lakes are located in a Guinea-savannah vegetation zone where malaria, schistosomiasis, trypanosomiasis and onchocerciasis have been known ...
[96]
Status of <i>Schistosoma haematobium</i> Infection among Pupils ...
Oct 2, 2020 · A cross-sectional study was carried out in 5 communities around Kainji dam. Urine samples were collected and processed using the standard ...
[97]
Status of Schistosoma haematobium Infection among Pupils around ...
Schistosomiasis is the second most prevalent tropical disease after malaria, and a major public health problem among schoolagedchildren.
[98]
[PDF] Vector-borne disease implications and their control - IRC Wash
The larviciding of Simulium infested streams in a 50km radius around the dam site constituted the only planned intervention for vector control. Despite the fact ...
[99]
[PDF] Nigerian Onchocerciasis: from Control to Elimination - Africa Health
Valley and Kainji Dam site5. A National Onchocerciasis Control Programme. (NOCP) was established in 1982 to coordinate the control programme. The discovery ...<|separator|>
[100]
Kainji resettlement housing: 40 years later - ResearchGate
Sep 10, 2025 · Nigeria's Kainji Dam, completed in 1968, displaced 44,000 people from 239 settlements. Three housing forms were designed to provide for ...Missing: outcomes | Show results with:outcomes
[101]
[PDF] The Case of Fishing Communities in Kainji Lake Basin Nigeria
Key words: Livelihood strategies, income, fishermen, resources, rural development, Kainji lake. INTRODUCTION. Fishing communities in Nigerian are still far from.
[102]
[PDF] Exploring how the Livelihood Prospects of the Fishing Communities ...
May 13, 2024 · About 135 kilometers long and 30 kilometers broad at its widest point, Kainji Lake is used for irrigation and a small-scale fishing business.Missing: synergies | Show results with:synergies
[103]
Survey of the Parameters Driving the Diversification of Livelihoods of ...
Jul 6, 2024 · This study assessed the season of highest fish landings among fishing communities in Shiroro and Kainji dams, Nigeria. A Questionnaire was used ...Missing: resettlement | Show results with:resettlement
[104]
[PDF] NAGA 26-3 FINAL.indd - CABI Digital Library
River below the Kainji dam fell by about. 50 per cent in three years (1967-69) in the Jebba - Lokoja reach (Otobo 1968) and by 60 per cent in the lower ...
[105]
[PDF] Ecological monitoring of fish assemblages downstream of a ...
It has been established that fisheries production was considerably depressed downstream from a dam when large ... 'The effect of Kainji dam, Nigeria, upon ...
[106]
World Bank Document
Jan 16, 2011 · The result of the rehabilitation project will be enhanced harmonization of power production units, rehabilitated auxiliary services and priority ...
[107]
The environmental effects of dam construction in tropical Africa
Dam construction can have significant effects on downstream floodplain environments in tropical Africa. The impacts of river control on floodplain forests ...Missing: sustainability | Show results with:sustainability
[108]
Estimating future bathymetric surface of Kainji Reservoir using ...
Jul 3, 2024 · This implies that the reservoir has lost an estimated 13.4 m within the period of 52 years due to sedimentation and siltation. This ...Missing: lifespan | Show results with:lifespan
[109]
[PDF] geospatial assessment of kainji hydropower plant's reservoir floor ...
The reservoirs are lost to gradual sedimentation deposits for over a period of 47 years and amount to 3.371 Mm3 representing 40.84 % gross of its capacity loss.
[110]
Controlling biodiversity impacts of future global hydropower ... - Nature
Dec 11, 2020 · We show that careful selection of hydropower reservoirs has a large potential to limit biodiversity impacts, as for example, 0.3% of the global ...Missing: empirical | Show results with:empirical
[111]
The impacts of hydropower on freshwater macroinvertebrate richness
Aug 18, 2022 · Hydropower, dams and reservoirs did significantly impact (P = 0.04) macroinvertebrate richness in a clear, directional and statistically significant way.
[112]
(PDF) Assessment of impact of climate change on runoff in the Kainji ...
Aug 7, 2025 · The study concludes that enhanced flood management strategies, incorporating both rainfall forecasting and dam operation schedules, are ...
[113]
Assessment of Climate Change Impact on Hydropower Generation
Aug 20, 2017 · A case study from Nigeria shows that climate change is having a negative impact on rainfall in the catchment supplying the Kainji Hydropower ...
[114]
A review of renewable energy resources in Nigeria for climate ...
... grid accounting for about 29 percent of grid power supply [38]. The three main hydro power stations in the country (Kainji, Jebba and Shiroro) delivers a ...
[115]
Future large hydropower dams impact global freshwater megafauna
Dec 6, 2019 · Several studies confirm that dam building threatens biodiversity. Nevertheless, a high share of threatened freshwater megafauna species in a sub ...Missing: empirical | Show results with:empirical
[116]
Sediment Deposition in Nigeria Reservoirs: Impacts and Control ...
Apr 3, 2023 · This work examines the issue of sediment deposition in reservoirs. As death is an inevitable end for humans, so is siltation an inevitable end for reservoirs.Missing: derating | Show results with:derating
[117]
(PDF) Review of Nigeria Power Sector - ResearchGate
... monopoly control of the nations' power industry. This paper therefore looks at the overall power sector and it's reforms as well as evaluates its ...
[118]
[PDF] Overview of the Nigerian Power Sector - ajer.org
May 12, 2018 · NDA was responsible for the construction and maintenance of dams and other works on the River Niger and elsewhere generating electricity by ...
[119]
Police uncover ₦4.8bn theft at Kainji power plant, arrest 12
Sep 24, 2025 · The Niger State Police Command has arrested 14 suspects in two separate high-profile cases, a massive theft and vandalism at the Kainji ...
[120]
Nigeria's power plants operated below 40% capacity in September
Oct 14, 2025 · Kainji and Jebba hydropower plants also performed strongly, with load factors of 91 percent and 73 percent, respectively. By contrast ...
[121]
[PDF] How Corruption and Political Risk Undermine Nigeria's Energy ...
Jul 14, 2025 · Governance and Anti-Corruption Reform. Nigeria's energy future depends on dismantling the entrenched systems of corruption and elite capture ...