Submitted:
07 July 2026
Posted:
08 July 2026
You are already at the latest version
Abstract
Keywords:
1. Introduction
- What GBRS have already been adopted in international nations?
- What are the main GBPs in action in Nigeria?
- To what extent are these policies supported by existing urban plans?
2. Materials and Methods
2.1. Research Design
2.2. Data Sources and Search Strategy
- Scopus
- Web of Science
- ScienceDirect
- SpringerLink
- Taylor & Francis Online
- Google Scholar
- National Building Code (NBC)
- National Housing Policy
- Energy Efficiency Building Code (EEBC)
- National Adaptation Strategy and Plan of Action on Climate Change for Nigeria (NASPA-CCN)
- Green Building Council of Nigeria (GBCN)
- United Nations Habitat (UN-Habitat)
- World Green Building Council (WGBC)
- International Finance Corporation (IFC)
- “green building” AND Nigeria
- “green building policy” AND urban planning
- “sustainable urban development” AND Nigeria
- “green building rating system” OR LEED OR BREEAM OR EDGE
- “urban sustainability” AND Africa
- “policy integration” AND “green building”
2.3. Study Selection Process
2.4. Inclusion and Exclusion Criteria
- Inclusion Criteria
- Published between 2000 and 2025.
- Focused on green building policies, frameworks, standards, or certification systems.
- Addressed sustainable urban planning, environmental governance, or climate-responsive development.
- Examined Nigeria or provided international comparative experiences relevant to developing countries.
- Published in peer-reviewed journals, official policy documents, or reputable institutional reports.
- Exclusion Criteria
- Technical building design studies without policy or planning relevance.
- Studies focused solely on building materials or engineering performance.
- Publications unrelated to urban planning or sustainability governance.
- Editorials, opinion pieces, and non-verifiable online sources.
- Duplicate publications.
2.5. Quality Assessment
2.6. Comparative Policy Analysis
- Regulatory enforcement mechanisms.
- Certification requirements.
- Institutional arrangements.
- Financial incentives.
- Urban planning integration.
- Climate responsiveness.
2.7. Limitations of the Study
2.8. Nigeria’s Climatic Diversity and GB Implications
- Hot and arid Sahelian zone in the north;
- Hot and humid zone in the south;
- Temperate and humid Middle Belt;
- Temperate and dry Northern Plateau; and
- Cool highland zone.
3. Green Building
3.1. Evolution of GBP in Nigeria (2000–Date)
3.1.1. Conceptual Framework
3.2. Green Building Rating System (GBRS)
3.2.1. Detailed Explanation of BREEAM and LEED GBRS
3.3. International GBPF
3.4. Nigerian GBPFs
- National Adaptation Strategy and Plan of Action on Climate Change (NASPA-CCN) [71]
3.5. Gaps and Lessons from Comparative Insights
3.6. International Best Practices in Sustainable Urban Planning
4. Sustainable Urban Planning in Nigeria
4.1. Overview of Urban Planning Policy Frameworks
4.2. Case Studies of Urban Planning in Practice
4.3. Major Barriers to Sustainable Urban Planning
4.4. Opportunities and Recommendations
- Despite the challenges, some opportunities exist for the Nigeria urban planning system to align to the sustainability objectives:
- Improve the capabilities of existing institutions: Enact the Urban & Regional Planning Act in all states. Establish well-funded Local Planning Authorities.
- Integrated Data Systems: Enhance spatial and demographic information for planning purposes through the utilization of information technology systems.
- Community inclusion: Use community engagement planning strategies in a manner akin to the Sustainable Cities Programme. This was successful in community problem-solving prioritization [108].
- Policy reform: Align land use, environmental, and infrastructure policies. Also, decentralize the planning powers to make them more responsive.
4.5. Lessons for Nigeria
- In the foregoing international examples, the following transferable lessons have been identified:
- Alignment of the legal and institutional framework: there needs to be clarity in the national plans.
- Public participation and co-design practices promote a sense of localized ownership.
- Multisectoral integration (such as energy + housing + transport) improves resilience.
- Higher urban density and compact urban growth patterns promote less sprawl.
- Monitoring and feedback systems, for example the use of green indicators or sustainability audits.
4.6. Weak Enforcement of GBPs in Nigeria
5. Result and Discussion
5.1. Key Findings of the Review
5.1.1. Finding 1: Fragmentation of Green Building Policy Frameworks
5.1.2. Finding 2: Weak Enforcement and Implementation Mechanisms
5.1.3. Finding 3: Absence of a National Green Building Certification and Rating System
5.1.4. Finding 4: International Best Practices Highlight the Importance of Integrated Governance
5.1.5. Overall Finding
5.2. Discussion
6. Conclusion and Recommendations
6.1. Conclusion
6.2. Recommendations
6.2.1. Policy Recommendations
6.3. Future Research Direction
Author Contributions
Funding
Acknowledgments
Conflicts of Interest
Abbreviations
| GB | Green Building |
| GBPF | Green Building Policy Framework |
| NBC | National Building Code |
| EEBC | Energy Efficiency Building Code |
| GBCN | Green Building Council of Nigeria |
| LEED | Leadership in Energy and Environmental Design |
| BREEAM | Building Research Establishment Environmental Assessment Methodology |
| EDGE | Excellence in Design for Greater Efficiencies |
| NHP | National Housing Policy |
| GBP | Green Building Policy |
| GBRS | Green Building Rating System |
| GHG | Greenhouse Gas |
| FMWH | Federal Ministry of Works and Housing |
| NEEBC | Nigerian Energy Efficiency & Green Building Council |
| NASPA-CCN | National Adaptation Strategy and Plan of Action on Climate Change for Nigeria |
| UN-Habitat | United Nations-Habitat |
| WGBC | World Green Building Council |
| IFC | International Finance Corporation |
| PRISMA | Preferred Reporting Items for Systematic reviews and Meta-Analyses |
| GBCA | Green Building Council of Australia |
| JSBC | Japan Sustainable Building Consortium |
| BCA | Building and Construction Authority |
| EC | Embodied Carbon |
| OC | Operational Carbon |
| NNSGB | Nigerian National Standard for Green Buildings |
| GBI | Green Building Index |
| BIM | Building Information Modelling |
| DIMSUD | Doctoral Program in Interdisciplinary and International Perspectives on Sustainable Urban Development |
| MIT | Massachusetts Institute of Technology |
| ETH | Eidgenössische Technische Hochschule |
| NESREA | National Environmental Standards and Regulations Enforcement Agency |
| SDG | Sustainable Development Goal |
| SA | South Africa |
| NITP | Nigerian Institute of Town Planners |
| NIA | Nigerian Institute of Architects |
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| Review Stage | Number of Records |
| Records identified | 347 |
| Duplicates removed | 54 |
| Records screened | 293 |
| Records excluded after title and abstract screening | 97 |
| Full-text articles assessed | 196 |
| Eligibility Assessment | 99 |
| Final studies included | 97 |
| Author(s) | Title | Purpose in Methodology | Method Type | Key Insight/Justification |
| [25] | Towards Sustainable Future: Exploring GB Initiatives… | Justifies narrative review in regional green building | Narrative Review | GB research in developing contexts benefits from flexible review formats that integrate academic + policy perspectives. |
| [26] | Urban Green Spaces and Cancer: A Protocol for a Scoping Review | Informs structured search strategies and criteria | Scoping/Systematic | Demonstrates the importance of using structured databases, inclusion/exclusion criteria, and grey literature in urban health and planning research. |
| [27] | Urban Sustainability and the Governance of Greening | Contextualizes policy integration | Literature Framework | Emphasizes the socio-spatial dynamics of policy mobility in GB transitions. |
| [28] | A systematic literature review and research frontier analysis of health research in urban green space | Supports multi-method integration | Systematic Review | Encourages integrating qualitative and spatial data to evaluate ecosystem services and policy outcomes. |
| [29] | Empirical Planning for Greening Urban Buildings | Validates policy + planning integration framework | Empirical Planning Study | Shows how urban green design frameworks and planning proposals can be quantified, adapted, and scaled based on existing evidence. |
| [29] | Evaluating Stakeholder Roles in GB Implementation | Emphasizes stakeholder integration in policy analysis | Mixed Methods (Lit + Interviews) | Highlights how stakeholder inclusion is critical in policy evaluations and supports broader qualitative analysis frameworks. |
| Rating System | Origin/Developer | Year Established | Key Assessment Categories | Scope | Certification Levels | Notable Features |
| LEED (Leadership in Energy and Environmental Design) | U.S. Green Building Council (USGBC), United States | 1998 | Location and Transportation, Sustainable Sites, Water Efficiency, Energy and Atmosphere, Materials and Resources, Indoor Environmental Quality, Innovation, Regional Priority, Integrative Process | Global (originally North America) | Certified, Silver, Gold, Platinum | Most widely adopted internationally; performance-based metrics; life-cycle assessments; multiple rating systems for different building types |
| BREEAM (Building Research Establishment Environmental Assessment Method) | Building Research Establishment (BRE), United Kingdom | 1990 | Management, Health and Well-being, Energy, Transport, Water, Materials, Waste, Land Use and Ecology, Pollution, Innovation | Global (originally UK/Europe) | Pass, Good, Very Good, Excellent, Outstanding | World’s oldest rating system; emphasis on health and well-being; climate change resilience; comprehensive lifecycle approach |
| EDGE (Excellence in Design for Greater Efficiencies) | International Finance Corporation (IFC), World Bank Group | 2013 | Energy Efficiency, Water Efficiency, Embodied Energy in Materials | Emerging markets globally | EDGE Certified (20% savings), EDGE Advanced (40% savings), Zero Carbon | Simplified and affordable; specifically designed for developing countries; focuses on cost-effective solutions; rapid certification process |
| Green Star | Green Building Council of Australia (GBCA), Australia | 2003 | Management, Indoor Environment Quality, Energy, Transport, Water, Materials, Land Use and Ecology, Emissions, Innovation | Australia and New Zealand (expanding to South Africa) | 4 Star, 5 Star, 6 Star | Tailored to Australian climate and regulations; emphasis on operational performance; strong focus on emissions reduction |
| CASBEE (Comprehensive Assessment System for Built Environment Efficiency) | Japan Sustainable Building Consortium (JSBC), Japan | 2001 | Building Environmental Quality (Q): Indoor Environment, Quality of Service, Outdoor Environment; Building Environmental Load (L): Energy, Resources and Materials, Off-site Environment | Japan and some Asian countries | C (Poor), B- (Fairly Poor), B+ (Good), A (Very Good), S (Excellent) | Unique Building Environmental Efficiency (BEE) ratio; holistic approach to environmental performance; emphasis on harmony with surroundings |
| DGNB (German Sustainable Building Council) | German Sustainable Building Council, Germany | 2009 | Ecological Quality, Economic Quality, Socio-cultural and Functional Quality, Technical Quality, Process Quality, Site Quality | Germany and other European countries | Bronze, Silver, Gold, Platinum | Holistic sustainability assessment; strong emphasis on life-cycle costs; considers entire building lifecycle; performance-based approach |
| Green Building Index (GBI) | Malaysian Institute of Architects and Association of Consulting Engineers Malaysia, Malaysia | 2009 | Energy Efficiency, Indoor Environmental Quality, Sustainable Site Planning and Management, Materials and Resources, Water Efficiency, Innovation | Malaysia | Certified, Silver, Gold, Platinum | Designed for tropical climate; considers local materials and practices; adapted to Malaysian regulations and standards |
| Green Mark | Building and Construction Authority (BCA), Singapore | 2005 | Energy Efficiency, Water Efficiency, Environmental Protection, Indoor Environmental Quality, Other Green Features and Innovation | Singapore (expanding to Southeast Asia) | Certified, Gold, GoldPLUS, Platinum | Mandatory for new buildings in Singapore; strong government support; comprehensive training programs; emphasis on tropical design strategies |
| NABERS (National Australian Built Environment Rating System) | Government of New South Wales, Australia | 1998 | Energy, Water, Waste, Indoor Environment | Australia | 1 Star to 6 Star rating | Performance-based rating using actual operational data; mandatory disclosure for commercial buildings; focuses on operational efficiency rather than design features |
| Living Building Challenge | International Living Future Institute, United States | 2006 | Place, Water, Energy, Health and Happiness, Materials, Equity, Beauty | Global | Petal Certified, Living Certified | Most rigorous sustainability standard; net-positive requirements; emphasis on beauty and inspiration; holistic regenerative approach |
| Aspect | BREEAM | LEED |
| Full Name | Building Research Establishment Environmental Assessment Method | Leadership in Energy and Environmental Design |
| Origin | United Kingdom (British Government) | United States |
| Founding Year | 1990 (BREEAM assessment method) Historical roots: 1921 (Building Research Station established) | Not specified |
| Historical Background | 1921: Building Research Station (BRS) founded to improve housing standards for WWI soldiers- Early focus: reinforced concrete, Britain’s first construction materials standard (bricks)- 1925: Moved to Bucknalls, Hertfordshire (38 acres, Victorian house)- 1927: Forest Products Research Laboratory opened in Buckinghamshire- 1935: Central Fire Testing Station opened in Elstree, Hertfordshire- 1990: BREEAM launched as environmental assessment method | Not provided |
| Global Reach | Most applied environmental assessment standard for buildings, infrastructure, and communities globally | 197,000 LEED-certified projects in 186 countries and territories |
| Current Version | BREEAM 2017 (referenced in text) | LEED v5 (current)LEED v4.1 (previous) |
| Assessment Framework | UK Government’s Standard Assessment Procedure (SAP) for energy efficiency | Framework for healthy, highly efficient spaces with cost savings and ESG benefits |
| Key Indicators | Fabric Energy Efficiency (FEE)- Energy use per unit floor area- SAP energy cost rating- Environmental Impact rating (CO₂ emissions)- Dwelling CO₂ Emission Rate (DER) | LEED v5 Credit Allocation:- 35% Climate change- 20% Human health- 15% Water resources- 10% Biodiversity- 10% Green economy- 5% Community and natural resources |
| Rating Coverage | Energy costs for heating, hot water, ventilation, lighting (minus savings from energy-generating tech) | LEED v4.1 Focus:- Operational carbon- Embodied carbon |
| Rating Scale | 1-100 scale (can exceed 100 with renewables). Higher scores = lower running costs | Points-based system (40-80+ points) |
| Certification Levels | Outstanding: ≥85%; Excellent: ≥70%; Very Good: ≥55%; Good: ≥45%; Pass: ≥30%; Unclassified: <30% | Platinum: ≥80 points; Gold: 60-79.99 points; Silver: 50-59.99 points; Certified: 40-49.99 points |
| Calculation Method | Worksheet format with tables- Aligns with Energy Performance of Buildings Directive (2010/31/EU)- Approved computer programs implement worksheets- Floor-area-adjusted ratings | Quantified criteria including façade thermal transmittance reduction |
| Software Approval | BRE approves SAP software for government-endorsed schemes (Department for Energy and Climate Change, Communities and Local Government, Scottish/Welsh Governments, Northern Ireland Finance) | Not specified |
| Environmental Impact | Environmental Impact rating based on annual CO₂ emissions (heating, hot water, ventilation, lighting) minus emissions saved by energy generation tech | LEED Platinum Breakdown:- 25.1% Embodied Carbon (EC)- 74.9% Operational Carbon (OC)- Combined reduction: up to 61.1% emissions |
| Special Features | Independent of building size (for given form)- Can exceed 100 rating with renewables- Operates timber library at BRE Science Park | - Addresses equity, health, ecosystems, resilience- Moves toward low-carbon future- Strong network driving market transformation |
| Legacy Facilities | BRE Science Park (former Bucknalls estate)- Timber library- Fire testing capabilities | Not specified |
| Regulatory Alignment | Recast Energy Performance of Buildings Directive (2010/31/EU) | Not specified |
| Policy Framework | Legal Status | Enforcement Mechanism | Urban Planning Integration | Climate Change Objectives | Major Weakness |
| National Building Code (NBC, 2018) | National guideline; not fully legally binding across all states | Weak; implementation varies by state | Limited integration with master plans and development control processes | Indirectly addresses sustainability through building standards | Poor enforcement and lack of explicit green building requirements |
| Energy Efficiency Building Code (EEBC) | Sector-specific technical code | Limited implementation and monitoring | Weak connection to urban planning processes | Strong focus on reducing building energy consumption and emissions | Low awareness, voluntary adoption, inadequate technical capacity |
| National Housing Policy (2016) | Federal policy framework | Dependent on state implementation | Moderate integration through housing and urban development strategies | Mentions sustainable housing and resource efficiency | Lacks measurable green building indicators and enforcement mechanisms |
| NASPA-CCN (National Adaptation Strategy and Plan of Action on Climate Change) | National climate adaptation policy | Implemented through sectoral ministries | Indirect integration with urban planning | Strong emphasis on climate adaptation and resilience | Limited translation into building regulations and planning controls |
| Green Building Council of Nigeria (GBCN) | Voluntary professional institution | No regulatory authority | Promotes awareness but not formally embedded in planning approval systems | Promotes sustainable construction and green certification | Limited influence due to absence of legal backing and incentives |
| Policy/Framework | Country/Origin | Purpose | Implementation Status | Relevance to Urban Planning | Source |
| LEED (Leadership in Energy and Environmental Design) | USA | Voluntary GB certification focusing on energy, water, materials, and indoor quality | Widely implemented in many countries; globally recognized | Influences city planning codes and sustainability benchmarks | [64] |
| Green Building Index (GBI) | Malaysia | National green rating system offering credits for energy efficiency, water usage, and materials | Actively applied in public and private sectors | Integrated into national urban planning policies | [80] |
| South Korea Climate Agreements Compliance | South Korea | Fulfillment of Kyoto Protocol & Doha Amendments through national greening policies | Strong regulatory compliance and technological integration | Urban greening linked to carbon targets and smart city planning | [81] |
| National Building Code (NBC) | Nigeria | Framework for safe and sustainable construction in Nigeria | Existing but poorly enforced | Has potential to integrate green criteria into development control | [14,69] |
| Energy Efficiency Building Code (EEBC) | Nigeria | Promotes energy conservation in buildings | Developed but lacks widespread adoption | Partially relevant; not yet embedded in most urban plans | [43] |
| GBCN | Nigeria | Advocacy and capacity building for GB practices | Active but lacks regulatory authority | Offers potential as a coordinating body for urban sustainability | [72] |
| Proposed Nigerian National Standard for Green Buildings (NNSGB) | Nigeria | Aimed to unify GB codes and offer clear standards for the built environment | Still at proposal stage | High potential to harmonize GB and planning if adopted | [76] |
| Abuja GB Implementation Framework | Nigeria | Localized roadmap for GB adoption in the capital city | Conceptualized; driven by researchers | Useful pilot model for urban green planning | [82] |
| Green-BIM Framework | Nigeria | Digital model to assess GB sustainability performance | Conceptually tested; limited real-world deployment | Can support urban development approval and sustainability metrics | [83] |
| Topic | Summary of Nigerian Experience | Implications / Global Relevance | Key Sources |
| Capacity and Skills Gaps | Limited integration of GB skills and sustainability principles in technical and professional education constrains effective GB implementation. | Highlights the need for education-driven capacity building common across developing countries. | [91] |
| Policy and Institutional Weaknesses | Fragmented governance and weak state support reduce the effectiveness of GB policies. | International cases show coordinated institutions, incentives, and monitoring frameworks improve adoption. | [79,92] |
| Benefits of GB Adoption | Studies report reduced energy costs, improved health outcomes, and increased asset value from GB adoption. | Aligns with global sustainability goals addressing climate change, resource efficiency, and public health. | [93] |
| Certification and Benchmarks | Adoption of GB certifications (LEED, BREEAM, EDGE) remains low despite proven efficiency gains. | Indicates the need for policy-led incentives to increase certification uptake, as seen in developed countries. | [51] |
| Local Innovation and Global Contribution | Climate-responsive façade designs and localized solutions demonstrate emerging Nigerian innovation in GB practices. | Offers potential for contributing context-specific innovations to global best practices. | [50,94] |
| Dimension | International Best Practice | Current Practice in Nigeria | Identified Gaps |
| Legal & Institutional Framework | Clear, enforceable urban planning laws (e.g., Netherlands, Italy, South Korea) | Urban and Regional Planning Act exists but is poorly implemented in most states | Fragmentation, weak enforcement, limited state adoption [97] |
| Energy-Efficient Infrastructure | Building codes + transport planning integrate energy efficiency (e.g., Singapore, Vienna) | EEBC exists, but limited enforcement; green codes not mandatory | Weak integration of energy policy into planning [109] |
| Urban Density & Design | Compact, mixed-use cities to reduce sprawl and car use (e.g., Burgos, Barcelona) | Urban sprawl prevalent; zoning often ignored in Lagos, Abuja | Poor land use control; sprawl-driven development [88] |
| Public Participation | Participatory planning via community engagement platforms (e.g., South Africa, Brazil) | Top-down planning; community rarely engaged in plan formulation | Low public awareness, weak civic input structures [89] |
| Policy Integration | Transport, energy, housing, and environmental policies interlinked | Siloed ministries; urban plans often disconnected from sustainability or GBCS | Lack of cross-sector planning alignment [84] |
| Monitoring & Evaluation | Use of urban indicators and sustainability audits (e.g., ISO 14001, Green Ratings, Local Agenda 21) | No nationwide performance metrics or monitoring frameworks | Absence of accountability tools or feedback mechanisms [85] |
| Adaptability & Innovation | Localized adaptation of global models (e.g., hybrid eco-cities in China; flexible toolkits in Sweden, Italy) | Attempts to borrow global models without local adaptation (e.g., GBPFs not tailored to local context) | Weak localization of imported frameworks [90] |
| Stakeholder Collaboration | Collaborative platforms between government, academia, private sector (e.g., Netherlands, DIMSUD, MIT/ETH networks) | Weak academia-policy-practice linkage; private sector underleveraged in planning | Poor multi-stakeholder coordination [89] |
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