Hubbry Logo
Third Mainland BridgeThird Mainland BridgeMain
Open search
Third Mainland Bridge
Community hub
Third Mainland Bridge
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
Third Mainland Bridge
Third Mainland Bridge
Third Mainland Bridge
View on Wikipedia
from Wikipedia

Third Mainland Bridge is the longest of three bridges connecting Lagos Island to the mainland, the others are the Eko and Carter bridges.[1] It was the longest bridge in Africa until 1996 when the 6th October Bridge located in Cairo was completed. The bridge starts from Oworonshoki which is linked to the Lagos–Ibadan Expressway and Oshodi–Apapa Expressway, and ends at the Adeniji Adele Interchange on Lagos Island.[2] There is also a link midway through the bridge that leads to Herbert Macaulay Way, Yaba. The bridge was built by Julius Berger Nigeria PLC. The phase one of the project was commissioned by President Shehu Shagari (1925–2018) in 1980 and completed by President Ibrahim Babangida in 1990; it measures about 11.8 km in length.

Key Information

By 2006, many commuters had reported that the Third Mainland Bridge was vibrating noticeably, indicating that it needed urgent attention.[3] As a result, remedial work was commenced on portions of the bridge at different times, leading to intermittent partial closure of the bridge.[4] In January 2013, this work was completed.

Recently, there have been rumours of cracks on the bridge. This, however, was denied by authorities.[5] The eight-lane bridge experienced a new look during the last repairing exercise, painting the bridge guide with the colours of Nigeria: green, white, green, and also general painting was done out for a new look. The repair works on the bridge were completed and the bridge was reopened on 30 October 2012.

The Third Mainland Bridge has very high vehicular traffic on weekdays, as many residents commute to and from the Lagos Mainland to the Island, which is the commercial hub of Lagos State. Residents in Ikeja, Agboyi-Ketu, Ikorodu, Isheri, Oworonshoki, Gbagada, Yaba, Maryland and Oshodi often use the bridge on their daily commutes. The Third Mainland Bridge is an essential part of Lagos' daily commuting, and as such requires to be constantly renovated. It has also come to be a major Lagos icon, offering different views of Lagos—the Lagos Lagoon, the University of Lagos waterfront and Makoko, a shanty town built on the Lagos Lagoon.

On 6 July 2020, it was announced that the Third Mainland Bridge will be closed for six months due to repairs.[6] The bridge was to undergo another round of repairs from Friday, 24 July 2020, to 24 January 2021, for the replacement of bearings and worn-out expansion joints.[7]

On 4 January 2024, The Lagos State Government announces date to close Third Mainland Bridge for complete repairs. Each phase lasted for six weeks.[8] On 4 April 2024, the Federal Government of Nigeria reopened the Third Mainland Bridge.[9]

Construction

[edit]

In the 1970s, following the end of Nigeria's civil war, a period of increasing oil price followed and Nigeria went through series of economic upturns. A need for improved infrastructural facilities especially in the capital city of Lagos that had gone through a period of port congestion and then an upward tick in vehicular traffic created the impetus for a third bridge linking the commercial-oriented Lagos Island with the growing urban settlements of mainland Lagos.[10]

The Third Mainland Bridge cutting through neighborhoods burning refuse near the highway. Both the highway and the burning trash cause air pollution that harms the communities near the highway.

A contract was awarded for a third mainland bridge in 1976. Construction of the bridge was done in phases. The first phase was contracted to a PGH consortium, a venture consisting, Impressit Girola and Borini Prono, while Trevi Group provided support services for piling. The first phase was designed to be 5 kilometers in length, starting from the Island and ending at Ebute Metta, towards Yaba.[10] The bridge elevates to 3 kilometers above the water and made from pre-stressed reinforced concrete. Foundation piles had varying depths of between 36 and 54 meters and pile diameter is based on potential carrying road, diameters of 1500mm are used for the main bridge crossing the Lagos lagoon and for the slipway and approach roads, pile diameter was between 800mm and 1200mm. The first phase was completed in 1980.[10]

The second phase from Ebute-Metta to Oworonshoki was awarded to Julius Berger in Nigeria.[citation needed]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Third Mainland Bridge

View on Grokipedia
from Grokipedia
The Third Mainland Bridge, also known as Way, is an 11.8 km long road bridge in , , spanning the and connecting the on to Ebute Metta and Oworonshoki on the mainland, providing access to areas such as and via linked expressways. It features eight lanes (four in each direction) with a total width of 33.1 meters, including a 3.5-meter separator, and consists of multiple spans averaging 45 meters, some extending up to 60 meters, supported partly by an . As the longest bridge in and the second longest in , it serves as a vital for the city's transportation network, handling an average daily traffic of over 120,000 vehicles as of 2025 estimates and easing congestion between the island and mainland. Construction of the bridge occurred in two phases under the Federal Government of Nigeria, with phase one—from to —beginning in 1976 and partially commissioned on October 1, 1980, by President during 's 20th Independence Day celebrations. The project was primarily executed by the engineering firm Julius Berger Nigeria PLC, with phase two extending northward to Oworonshoki starting in 1988, leading to full completion and commissioning on August 17, 1990, under General Ibrahim Babangida's military administration at a total cost of less than N1 billion. At the time of its opening, it was Africa's longest bridge, a title it held until 1996 when surpassed by the in , and its development spurred economic growth, improved access to Port, and facilitated a housing boom on the mainland. The bridge's engineering incorporates girders and an innovative foundation to navigate the lagoon's challenging soft seabed, though it has faced structural issues, including vibrations that prompted a major rehabilitation from 2006 to 2012. Today, it remains one of the world's busiest bridges, prone to severe gridlocks, and is subject to ongoing maintenance by the Federal Ministry of Works, with plans announced in August 2025 allocating ₦3.8 trillion for repairs and ₦3.6 trillion for potential reconstruction to address aging infrastructure.

Overview

Description and Purpose

The Third Mainland Bridge is a box girder road bridge spanning the in , , connecting the commercial district of to the mainland areas, including , , and via key expressways such as the Apapa-Oshodi and Lagos-Ibadan routes. At 11.8 kilometers in length, it forms a vital artery in the city's , facilitating the movement of vehicles across the lagoon. Constructed primarily to alleviate severe between and the mainland amid rapid urban growth, the bridge addresses the limitations of earlier crossings by providing an eight-lane structure that enhances connectivity to the city's and commercial hubs. It serves as one of three major bridges—alongside the Eko Bridge and Carter Bridge—linking these regions, significantly improving efficiency for commuters and goods. The bridge was commissioned in 1990 by General , then , and was originally named the Bridge in his honor, though it is universally known as the Third Mainland Bridge. Upon completion, it held the distinction of being Africa's longest bridge until 1996, when it was surpassed by Egypt's ; it currently ranks as the continent's second-longest.

Physical Specifications

The Third Mainland Bridge spans a total length of 11.8 kilometers (7.3 miles), establishing it as Africa's second-longest bridge as of 2025, surpassed only by Egypt's . This structure features eight lanes—four in each direction—supported by a median separator, with an overall width of 33.1 meters. The design incorporates lighting systems, recently enhanced with solar-powered streetlights for improved visibility and safety. The bridge's superstructure consists of prestressed reinforced concrete girders, with typical spans of 45 meters and longer 60-meter spans over navigable channels. Foundations are provided by deep bored piles, each 1.5 meters in diameter and averaging 42 meters in depth (ranging from 36 to 54 meters), driven into the soft lagoon bed to ensure stability against subsidence and water currents; each pier typically rests on four such piles. Steel reinforcements are integrated throughout the concrete elements to enhance tensile strength and durability in the marine environment. Engineered for heavy vehicular loads, the bridge accommodates trucks and other commercial vehicles, supporting the intense traffic demands of while maintaining structural integrity through its robust pile-supported viaducts.

History

Planning and Initiation

The planning for the Third Mainland Bridge originated in the mid-1970s amid Nigeria's military governance, driven by the urgent need to alleviate severe between —the primary commercial hub—and the expanding residential and industrial areas on the mainland. Rapid urbanization and population growth had overwhelmed the existing Eko and Carter Bridges, prompting authorities to prioritize a new crossing over the to enhance connectivity and support economic activities around the port. The project received approval under General Olusegun Obasanjo's administration, with initial feasibility studies conducted by engineering contractors underscoring the structural and capacity limitations of the prior bridges. These studies emphasized the bridge's role in facilitating smoother links, marking it as a initiative to bolster Lagos's role as Nigeria's economic center. The Federal Military Government initiated the project in 1976, targeting completion by 1980, though political transitions led to delays after Obasanjo's resignation in 1979. Funding for the endeavor was primarily drawn from the federal budget, supplemented by arrangements that enabled contractor mobilization. Key stakeholders included the Federal Ministry of Works, which oversaw project coordination, and the Government, serving as the primary client to ensure alignment with local development needs. The contract for Phase 1 was awarded to the PGH consortium (Impresit Girola, Borini Prono, and Trevi Group), while Julius Berger Nigeria PLC handled Phase 2.

Construction Phases

The construction of the Third Mainland Bridge was executed in two primary phases, spanning over a decade amid logistical, environmental, and political challenges. The first phase, from 1976 to 1980, focused on the initial approximately 5 km section linking Ahmadu Bello Way on to on the mainland. This segment employed construction to span the lagoon, laying the foundation for the bridge's connectivity between the island and mainland areas. It was partially commissioned on October 1, 1980, by President . Following a hiatus from 1983 to 1986 due to military coups and funding issues, the second phase, from 1986 to 1990, extended the structure to its full length of 11.8 km, integrating connections to areas including Oworonshoki and links to major expressways. This extension completed the bridge's role as a major transportation artery, with the entire project finalized at a total cost of less than N1 billion. The bridge was officially opened to traffic on August 17, 1990, during a commissioning ceremony led by General .

Design and Engineering

Structural Design

The Third Mainland Bridge employs a box girder design, which enhances structural efficiency by distributing loads evenly across the deck and providing high resistance to torsional forces and bending moments essential for its multi-span configuration over the . This form allows for continuous spans averaging 45 meters, with select sections extending to 60 meters, ensuring stability and minimizing the number of piers required in the water. The box girder's hollow, closed-section profile also contributes to lighter weight compared to traditional solid beams, facilitating construction while maintaining load-bearing capacity. The design was developed under the oversight of the Federal Ministry of Works, incorporating input from local engineers to address site-specific challenges, with construction executed by Julius Berger Nigeria PLC as the primary contractor. This collaboration ensured the bridge's adaptation to the environment, including an elevated deck to reduce vulnerability to tidal fluctuations and flooding, supported by piers formed from twin slender shafts for optimal foundation in the soft lagoon bed. The structure's rationale emphasizes durability in a humid, coastal setting, with the box girder's prestressing technique countering long-term creep and shrinkage in . Load-bearing principles prioritize handling substantial vehicular traffic, with the design accommodating dynamic forces from heavy loads and vibrations; it now supports over 120,000 vehicles daily, far exceeding initial projections and underscoring the girder's robust shear and moment resistance. Expansion joints are integrated throughout to manage , accommodating the concrete's of approximately 105/10^{-5}/^\circC and preventing stress accumulation from daily temperature swings in ' . These elements collectively ensure the bridge's form promotes both economic span lengths and long-term stability without excessive material use.

Construction Techniques

The foundation work for the Third Mainland Bridge involved constructing bored piles with diameters of 1.5 m into the lagoon bed using appropriate piling methods to ensure stability on the soft soil conditions. These piles were sunk to depths ranging from 36 to 54 meters to reach competent bearing strata, with each typically supported by four piles to distribute loads effectively. This method was selected for its suitability in the marine environment, where Trevi Foundations Ltd handled the specialized piling contract starting in 1977. The viaduct was erected using segmental construction techniques, employing the balanced cantilever method for the main spans to allow progressive building from to without extensive temporary supports over the water. Precast segments were placed using travelers, followed by the installation of post-tensioning cables to prestress the structure, enabling longer spans and minimizing deflection under load. This approach, common for viaducts in challenging terrains, was adapted here by the contractors including Italian specialists. High-strength concrete, achieving a compressive strength of approximately 30 MPa, was poured in situ for the deck and segments to provide durability against environmental exposure and traffic loads. Steel tendons were used in the post-tensioning system to apply compressive forces, which counteract tensile stresses and reduce the risk of cracking in the reinforced concrete elements. Safety measures during construction included the use of temporary cofferdams to create dry working areas for pile installation in the lagoon shallows, preventing water ingress and ensuring worker stability. Heavy equipment such as mobile cranes and barges was deployed for transporting materials and segments across the water, with operations coordinated to mitigate risks from tidal movements and soft seabed conditions.

Significance and Impact

Economic and Social Role

The Third Mainland Bridge serves as a vital artery for ' economy, connecting the commercial and financial hub on to industrial and residential zones on the mainland, thereby facilitating the efficient movement of goods, services, and workers to key ports and business districts. This linkage has enhanced by improving access to Port, one of Africa's busiest, and reducing logistical bottlenecks that previously hindered trade flows. By bridging these areas, the structure has supported ' role as Nigeria's economic powerhouse, contributing to the city's overall productivity through streamlined transportation networks. The bridge also supports access to developing areas like the , boosting trade and investment. Socially, the bridge has transformed daily life for millions of Lagos residents by providing reliable access to employment opportunities, educational institutions, and healthcare facilities across the lagoon divide, diminishing dependence on slower and less safe ferry services that predominated before its 1990 opening. With ' metropolitan population estimated between 17 and 21 million as of November 2025, the has enabled broader mobility, allowing mainland residents to commute to island-based jobs and services more feasibly, fostering and economic participation for diverse communities. It has also acted as a catalyst for urban development, spurring housing expansion and in mainland areas such as Oworonshoki and beyond, reflecting Nigeria's infrastructural aspirations during the late oil-boom era. However, the bridge's prominence has exacerbated certain challenges, including accelerated as easier connectivity drew more residents to peripheral mainland zones, straining housing and planning resources. The intense daily traffic volume it accommodates—often leading to extensive tailbacks—has also intensified and in adjoining areas, underscoring the trade-offs of rapid infrastructure-driven growth.

Traffic and Usage Patterns

The Third Mainland Bridge accommodates between 117,000 and 133,000 vehicles daily as of July 2025, serving as a critical artery for commuters traveling between and the mainland. Traffic volumes peak during rush hours, typically from 6:00 AM to 10:00 AM and 4:00 PM to 8:30 PM on weekdays, when inbound flows from the mainland to the island intensify, often resulting in significant delays. To manage these high volumes, the Government employs traffic lights at key approach points, such as the junctions near Way and Alfred Rewane Road, to regulate entry and prevent bottlenecks. Restrictions on heavy vehicles, including articulated trucks and heavy-duty equipment, are strictly enforced, particularly during peak periods, with authorities impounding violators to maintain flow and structural integrity; in July 2025 alone, over 10 such vehicles were seized for non-compliance. The bridge also integrates with Lagos's (BRT) system, where dedicated BRT lanes on connecting corridors like Ikorodu Road facilitate access, reducing private vehicle dependency and easing overall congestion. Since its completion in 1990, the bridge's usage has evolved dramatically, with initial moderate traffic growing into chronic overload due to Lagos's population expansion and urbanization, now contributing to frequent gridlocks that can extend for kilometers during peaks. This surge from early post-opening levels to current highs underscores the infrastructure's strain, prompting ongoing adaptations in traffic regulation. For real-time oversight, the bridge has been equipped with CCTV cameras and speed sensors since installations began in late 2023, becoming fully operational by mid-2025 to enable traffic control, speed enforcement, and rapid response to disruptions. These systems, including over 20 cameras spaced along the span, support the Traffic Management Authority (LASTMA) in monitoring adherence to the 80 km/h and coordinating diversions.

Maintenance and Incidents

Major Repair Efforts

The Third Mainland Bridge has undergone several major repair efforts to address structural deterioration, including from exposure to the saline air of and heavy traffic loads. One of the early significant interventions occurred in 2002, when the Federal Government closed portions of the bridge for maintenance work. A more comprehensive rehabilitation took place in 2012, involving a partial closure from July 8 to November 6 to allow for the replacement of deteriorated expansion joints and other structural reinforcements, such as beam strengthening, to combat effects from the lagoon environment. The project, awarded to Borini Prono & Co. Nigeria Limited, was part of a broader valued at N18.8 billion aimed at extending the bridge's lifespan amid reports of vibrations under traffic. In 2020, the bridge experienced a six-month partial closure from July 24, 2020, to January 24, 2021, focused on emergency fixes to expansion joints, replacement of bearings, and application of measures to prevent further water ingress and . This effort, part of broader routine that has cost over N15.6 billion between 2018 and 2023, addressed vulnerabilities in the bridge's exposed by environmental factors. As of 2024, the Federal Government approved additional funding for comprehensive repairs, including substructure to enhance rigidity and prevent collapse risks, building on prior efforts to tackle ongoing issues like and saline ; this follows phased closures starting January 2024 for urgent works on both directions of the bridge. Recent assessments have highlighted the need for even larger-scale interventions, with approvals in August 2025 estimating N3.8 trillion for full rehabilitation to ensure long-term stability.

Notable Events and Closures

The Third Mainland Bridge has been the site of multiple vehicle accidents since its completion in , with high speeds and heavy traffic contributing to incidents. Excessive speeding has been a factor despite the posted of 80 km/h for cars as of 2024. Suicide attempts have been a persistent issue on the bridge since the early , with numerous reports of individuals jumping into the lagoon below, often rescued by police or . These incidents highlight the bridge's reputation as a hotspot for crises in . The partial closure of the bridge from July 24, 2020, to January 24, 2021, for extensive rehabilitation works overlapped with the lockdowns, severely disrupting daily commutes and amplifying economic hardships for residents reliant on the route for commerce and transport. Alternative roads became overwhelmed, leading to prolonged delays and increased costs for businesses. In recent years, minor closures have occurred for structural inspections and repairs, including a 24-hour full shutdown in February 2024 and restrictions on heavy trucks starting August 2024 to address ongoing maintenance needs. No major structural collapses have been reported, though engineers issued warnings in 2024 about potential in the bridge's components following detailed assessments. By 2025, evaluations revealed issues with underwater piles, prompting plans for comprehensive rehabilitation estimated at over ₦3 trillion without necessitating prolonged closures.

References

  1. https://www.ice.org.uk/what-is-civil-engineering/infrastructure-projects/third-mainland-bridge-lagos
  2. https://techcabal.com/2025/07/31/how-one-telco-keeps-users-connected-along-third-mainland/
  3. https://tribuneonlineng.com/built-lagos-3rd-mainland-bridge-less-n1bn-ibb/
  4. https://guardian.ng/news/fg-to-repair-third-mainland-bridge-with-over-n3trillion-umahi/
  5. https://www.worldatlas.com/places/11-longest-bridges-in-africa.html
  6. https://www.vanguardngr.com/2025/10/top-5-longest-bridges-in-africa/
  7. https://taxaide.com.ng/2019/03/21/the-third-mainland-bridge-an-enduring-legacy/
  8. https://fmw.gov.ng/themes/front_end_themes_01/images/download/25030975757.pdf
  9. http://www.icecgroup.it/icecgroup/vpage.do?codice=6786&dispatch=view
  10. https://jrbsolar.com/project-information/jrb-solars-electrification-project-of-the-third-mainland-bridge
  11. https://link.springer.com/chapter/10.1007/978-3-030-96474-0_7
  12. https://guardian.ng/sunday-magazine/third-mainland-bridge-structurally-stable-maintenance-to-avert-rigidity/
  13. https://www.nairaland.com/8521874/construction-commission-3rd-lagos-mainland
  14. https://www.premiumtimesng.com/news/top-news/814199-fg-considers-n3-8trn-rehabilitation-or-n3-6trn-rebuilding-of-third-mainland-2.html
  15. https://www.vanguardngr.com/2013/02/third-mainland-bridge-how-real-is-the-threat/
  16. https://nairametrics.com/2025/04/06/fg-julius-berger-to-address-third-mainland-bridge-deflection-issues-through-design-review-in-germany/
  17. https://allafrica.com/stories/201302271086.html
  18. https://primeprogressng.com/prime-realty/holding-lagos-together-the-battle-to-save-third-mainland-bridge/
  19. https://www.vandrpartners.com/engineers-attest-to-third-mainland-bridge-stability-safety/
  20. https://www.trevigroup.com/en/mission/
  21. https://www.academia.edu/58332840/Installation_techniques_of_pile_foundation_on_some_low_bearing_capacity_soils_in_Nigeria
  22. https://vtechworks.lib.vt.edu/bitstream/handle/10919/35904/11lucko_chapter4.pdf
  23. https://www.express.co.uk/news/world/1979350/africas-second-longest-bridge-connecting
  24. https://documents1.worldbank.org/curated/en/099062123034024444/pdf/P17503106a495a0c90af5f0c3f872c99b4f.pdf
  25. https://www.infinitypress.info/index.php/jsds/article/download/1805/705
  26. https://journal-buildingscities.org/articles/10.5334/bc.243
  27. https://businessday.ng/transport/article/third-mainland-bridge-abuja-keffi-highway-rank-as-roads-with-highest-daily-traffic/
  28. https://www.pulse.ng/articles/pulse-picks/general/ways-to-avoid-traffic-in-lagos-2025061309520697188
  29. https://techfinancemarkets.com/2020/07/29/fashola-assesses-third-mainland-bridge-traffic-architecture/
  30. https://punchng.com/lagos-seizes-trucks-for-violating-third-mainland-bridge-restrictions/
  31. https://www.ssatp.org/sites/default/files/publication/DP09-Lagos-BRT.pdf
  32. https://www.arise.tv/umahi-third-mainland-bridge-cctv-system-now-operational/
  33. https://guardian.ng/news/third-mainland-bridge-to-get-cctv-cameras-installation-begins/
  34. https://www.itsnigeria.org/speed-cameras-now-operational-on-third-mainland-bridge-says-umahi/
  35. https://www.bbc.com/pidgin/tori-53526914
  36. https://www.vanguardngr.com/2012/07/fg-flags-off-repair-of-3rd-mainland-bridge/
  37. https://dailytrust.com/after-guzzling-over-n7bn-third-mainland-bridge-still-in-the-works/
  38. https://www.channelstv.com/2020/07/07/third-mainland-bridge-repairs-to-begin-in-july-end-in-january-2020-govt/
  39. https://guardian.ng/news/third-mainland-bridge-repairs-cost-fg-over-n15-6-billion-in-six-years/
  40. https://punchng.com/lastma-sets-80km-h-speed-limit-for-third-mainland-bridge/
  41. https://punchng.com/third-mainland-bridge-nigerias-longest-flyover-where-suicide-is-cheap/
  42. https://allafrica.com/view/group/main/main/id/00051490.html
  43. https://www.vanguardngr.com/2020/07/why-we-must-bear-pain-and-shut-the-third-mainland-bridge/
  44. https://www.marketsreporters.com/2021/02/27/third-mainland-bridge-reopens-after-seven-month-closure/
  45. https://www.thecable.ng/reinforcement-ongoing-for-damaged-third-mainland-bridge-piles-says-obioha/
  46. https://nairametrics.com/2024/08/09/fg-closes-third-mainland-bridge-to-large-trucks-amid-critical-structural-repairs/
Add your contribution
Related Hubs
User Avatar
No comments yet.