A Critical Review of the Materials Criteria in Green Building Certification Systems in South- West Nigeria: Opportunities for Improvement


Authors : Ogunnaike, Adekunle O; Dayomi, Matthew A; Ozomaro, Julius U; Onosemuode, Moses O; Adejare Oludele S; Adewole, Olutope A

Volume/Issue : Volume 10 - 2025, Issue 6 - June

Google Scholar : https://tinyurl.com/yc4zrsre

DOI : https://doi.org/10.38124/ijisrt/25jun1444

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Abstract : The building sector is a major contributor to global carbon emissions, with operational and embodied emissions posing substantial challenges. In Nigeria, particularly in the South West region, awareness of green construction is growing, but the adoption of international green building certification systems remains limited. This study critically examines the material criteria within these systems as applied in South West Nigeria, aiming to identify barriers to certification uptake and propose adaptations. Using qualitative content analysis and comparative case studies of certified and culturally significant buildings in Lagos, the research highlights the misalignment between international standards and local realities, including the lack of local LCA databases, high certification costs, and cultural preferences. Findings reveal that while projects like Heritage Place achieve international certification, they face data and supply challenges. In contrast, the John Randle Centre demonstrates the potential of integrating indigenous materials and vernacular design strategies to achieve sustainable outcomes without formal certification. The study concludes that a hybrid approach blending international standards with local knowledge is essential for advancing green building practices in the region. Recommendations include developing local LCA databases, simplifying documentation protocols, implementing tiered fee structures, integrating vernacular performance metrics, and promoting capacity building and policy incentives.

Keywords : Green building, Certification, Sustainability, Material Criteria, South West Nigeria.

References :

  1. Abera, Y. A. (2024). Sustainable building materials: A comprehensive study on eco-friendly alternatives for construction. Composites and Advanced Materials, 33, 26349833241255957.
  2. Abraham, O. O., & Ololade, F. M. (2024). Comparative Analysis of Finishing Materials Utilized in the Construction of Cultural Centres. Covenant Journal of Research in the Built Environment.
  3. Actis (n.d.). Sustainability. Heritage Place Ikoyi. https://heritageplaceikoyi.com/sustainability.php
  4. Addy, M., Adinyira, E., Danku, J. C., & Dadzoe, F. (2021). Impediments to the development of the green building market in sub-Saharan Africa: the case of Ghana. Smart and Sustainable Built Environment, 10(2), 193-207.
  5. Adegbile, M. (2012). Development of a green building rating system for Nigeria. Sustainable Futures: Architecture and Urbanism in the Global South, 3(2), 45-53.
  6. Adewolu, A. O. (2024). A comprehensive analysis of green building practices in South-West Nigeria. International Journal of Innovation Scientific Research and Review, 6(2), 5939-5945.
  7. Adewolu, A. O., Ademilua, A. O., & Imomoh, I. E. (2024). Greening the tropics: An in-depth analysis of sustainable building ratings in South-West Nigeria. Global Journal of Engineering and Technology, 2583-3359.
  8. Afrigather (2024, April 30). Noisy, performative and unapologetically non-European: Nigeria welcomes a museum like no other. Afrigather. https://afrigather.com/noisy-performative-and-unapologetically-non-european-nigeria-welcomes-a-museum-like-no-other/
  9. Agustiningtyas, R. S. (2024). Optimizing Life Cycle Energy and Carbon Footprint of Low-Rise Public Rental Apartments (Rusunawa) in Indonesia (Doctoral dissertation, Waseda University).
  10. Agyekum, K., Akli-Nartey, E. E. K., Kukah, A. S., & Agyekum, A. K. (2023). Importance-performance analysis (IPA) of the indoor environmental quality (IEQ) of an EDGE-certified building in Ghana. International Journal of Building Pathology and Adaptation, 41(1), 73-95.
  11. Alausa, S., Adekoya, B., Aderibigbe, J., & Nwaokocha, C. (2013). Thermal characteristics of laterite-mud and concrete-block for walls in building construction in Nigeria. Int. J. Eng. Appl. Sci, 4, 8269.
  12. Almusaed, A., Yitmen, I., Myhren, J. A., & Almssad, A. (2024). Assessing the impact of recycled building materials on environmental sustainability and energy efficiency: a comprehensive framework for reducing greenhouse gas emissions. Buildings, 14(6), 1566.
  13. Atanda, J. O., & Olukoya, O. A. (2019). Green building standards: Opportunities for Nigeria. Journal of Cleaner Production, 227, 366-377.
  14. Auwalu, F. K., & Dickson, P. D. (2019). Bamboo as a sustainable material for building construction in Nigeria. Civil and Environmental Research, 11(8), 30-36.
  15. Ball, S., Booth, C. A., Mahamadu, A. M., & Glass, J. (2023, November). Implementing responsible sourcing in the architecture, engineering and construction sector. In Proceedings of the Institution of Civil Engineers-Engineering Sustainability (Vol. 177, No. 5, pp. 274-283). Emerald Publishing Limited.
  16. Ball, S., Booth, C. A., Mahamadu, A. M., & Glass, J. (2023, November). Implementing responsible sourcing in the architecture, engineering and construction sector. In Proceedings of the Institution of Civil Engineers-Engineering Sustainability (Vol. 177, No. 5, pp. 274-283). Emerald Publishing Limited.
  17. BuildingGreen. (2023). Understanding the cost of LEED-NC project certification. LEEDuser. https://leeduser.buildinggreen.com/tipsheet/understanding-cost-leed-nc-project-certification
  18. Chamber of Progress. (2025, April 3). New report highlights ‘revolutionary’ building material to ease U.S. housing crisis. Chamber of Progress. https://progresschamber.org/new-report-highlights-revolutionary-building-material-to-ease-u-s-housing-crisis/
  19. Chukwu, I. (2018). Sustainability in the Nigerian construction industry: The feasibility of adopting green building rating system (Doctoral dissertation, Indiana State University).
  20. Clarke, V., & Braun, V. (2017). Thematic analysis. The journal of positive psychology, 12(3), 297-298.
  21. Council, S. G. B. (2023). BREEAM-SE New Construction v6. 0-Technical Manual. Stockholm, Sweden: Sweden Green Building Council.
  22. Crafford, P. L., Wessels, C. B., & Blumentritt, M. (2021). Sustainability and wood constructions: a review of green building rating systems and life-cycle assessment methods from a South African and developing world perspective. Advances in Building Energy Research, 15(1), 67-86.
  23. Daoud, A. O., Othman, A. A. E., Ebohon, O. J., & Bayyati, A. (2022). Overcoming the limitations of the green pyramid rating system in the Egyptian construction industry: a critical analysis. Architectural Engineering and Design Management, 18(2), 114-127.
  24. Di Gaetano, F., Cascone, S., & Caponetto, R. (2023). Integrating BIM processes with LEED certification: A comprehensive framework for sustainable building design. Buildings, 13(10), 2642.
  25. Ebekozien, A., Ikuabe, M., Awo-Osagie, A. I., Aigbavboa, C., & Ayo-Odifiri, S. O. (2022). Model for promoting green certification of buildings in developing nations: a case study of Nigeria. Property Management, 40(1), 118-136.
  26. Ebekozien, A., Ikuabe, M., Awo-Osagie, A. I., Aigbavboa, C., & Ayo-Odifiri, S. O. (2022). Model for promoting green certification of buildings in developing nations: a case study of Nigeria. Property Management, 40(1), 118-136.
  27. Eissa, R., & El-Adaway, I. H. (2024). Circular Economy Integration in LEED: A Decade of Materials and Resources Credit Achievement Patterns. Journal of Management in Engineering, 40(6), 04024047.
  28. ELDib, H. (2024). Development of International Green Building Rating Systems And Local Implementation. International Design Journal, 14(6), 557-566.
  29. Elkington, J. (1994). Enter the triple bottom line. In A. Henriques & J. Richardson (Eds.), The Triple Bottom Line: Does It All Add Up? (pp. 1–16). Earthscan.
  30. Emmanuel, C. (2024). A roadmap for net-zero energy buildings in emerging economies: a study of residential new-buildings in Nigeria.
  31. Enel (2023). Sustainability Report 2023. https://www.enel.com/content/dam/enel-com/documenti/investitori/sostenibilita/2023/sustainability-report_2023.pdf
  32. Eze, E. C., Ugulu, R. A., Onyeagam, O. P., & Adegboyega, A. A. (2021). Determinants of sustainable building materials (SBM) selection on construction projects. International Journal of Construction Supply Chain Management, 11(2), 166-194.
  33. Fadayiro, A. A. (2022, September). Evaluation of building materials using energy efficiency criteria in selected museums in south-west Nigeria. In IOP Conference Series: Earth and Environmental Science (Vol. 1054, No. 1, p. 012019). IOP Publishing.
  34. Faremi, J. O., Ajayi, O. O., Zakariyyah, K. I., & Sotunbo, A. S. (2021). Sustainable facilities management for smart buildings: A case study of the heritage place, lagos. LAUTECH Journal of Civil and Environmental Studies, 7(1), 1-12.
  35. Fazzare, E. (2023, April 21). A bold new complex celebrates Yoruba culture. Architectural Digest. https://www.architecturaldigest.com/story/a-bold-new-complex-celebrates-yoruba-culture
  36. Fnais, A., Rezgui, Y., Petri, I., Beach, T., Yeung, J., Ghoroghi, A., & Kubicki, S. (2022). The application of life cycle assessment in buildings: challenges, and directions for future research. The International Journal of Life Cycle Assessment, 27(5), 627-654.
  37. Garg, R., & Singh, K. (2024). Modern Vernacular Buildings: Rethinking the Green Building Rating Systems. In Potency of the Vernacular Settlements (pp. 97-119). Routledge.
  38. Global Alliance for Buildings and Construction (2022). Global status report for buildings and construction. https://www.unep.org/resources/publication/2022-global-status-report-buildings-and-construction
  39. Government of Abu Dhabi (2010) Pearl Building Rating System: Design & Construction, Version 1.0. https://jawdah.qcc.abudhabi.ae/en/Registration/QCCServices/Services/STD/ISGL/ISGL-LIST/DP-306.pdf
  40. Green Building Council Nigeria. (n.d.). About GBCN. https://gbcn.org.ng/
  41. Green Building Council Nigeria. (n.d.). Standards. https://gbcn.org.ng/
  42. Green Business Certification Inc. (2025). EDGE. https://edge.gbci.org/
  43. Greenroofs (2025). John Randle Centre for Yoruba Culture and History. Greenroofs.com. https://www.greenroofs.com/projects/john-randle-centre-for-yoruba-culture-and-history/
  44. Guerin, B., Janta, B., & van Gorp, A. (2018). Desk-based research and literature review. Evaluating interventions that prevent or counter violent extremism, 63, RR-2094.
  45. Hart, J., D'Amico, B., & Pomponi, F. (2021). Whole‐life embodied carbon in multistory buildings: Steel, concrete and timber structures. Journal of Industrial Ecology, 25(2), 403-418.
  46. Heritage Place Ikoyi (n.d.). Heritage Place brochure. https://www.heritageplaceikoyi.com/downloads/Heritage_Place_Brochure.pdf
  47. Heritage Place Sustainability Brochure. (n.d.). Heritage Place Ikoyi. https://heritageplaceikoyi.com/downloads/Heritage_Place_Brochure.pdf
  48. https://www.unepfi.org/wordpress/wp-content/uploads/2024/07/PRB_CE-nexus_buildings-supplement.pdf
  49. Indian Green Building Council (IGBC). (n.d.). IGBC Green Homes Version 2.0 Detailed Reference Guide. https://igbc.in/frontend-assets/html_pdfs/abridged/IGBC%20Green%20Homes%20Version%202.0%20Detailed%20Reference%20Guide%20Final.pdf
  50. International Finance Corporation. (2024). EDGE Building Certification Guidance. EDGE Buildings. https://edge.gbci.org/
  51. Karamoozian, M., & Zhang, H. (2025). Obstacles to green building accreditation during operating phases: identifying Challenges and solutions for sustainable development. Journal of Asian Architecture and Building Engineering, 24(1), 350-366.
  52. Karkour, S., Rachid, S., Maaoui, M., Lin, C. C., & Itsubo, N. (2021). Status of life cycle assessment (LCA) in Africa. Environments, 8(2), 10.
  53. Korra, C. (2021). The essential role of low-carbon building materials in achieving sustainable development. International Journal of Enhanced Research In Science Technology & Engineering, 10, 44-51.
  54. Lau, Y. Y., Talukdar, G., Widyasamratri, H., Wang, J., & El-shaammari, M. (2023). Utilization of green materials and technology for sustainable construction in Malaysia. Tropical Environment, Biology, and Technology, 1(1), 47-66.
  55. Lei, H. (2024). Life Cycle Assessment in Circular Economy for Built Environment (Doctoral dissertation, RMIT University Australia).
  56. Liland, J. J. (2024). Biobased Building Materials' Contribution to a Circular Economy (Master's thesis, Norwegian University of Life Sciences).
  57. Mawlood, M. D., Nessim, A. A., Dardir, M., & Abdellateef, R. S. (2024). Comparative Review of Green Building Rating Systems: A Special Focus on the Iraqi Green Architecture Code (Green Rivers). Multi-Knowledge Electronic Comprehensive Journal For Education & Science Publications (MECSJ), (76).
  58. Mills, C., Agha, A., Tupenaite, L., & Krasauskiene, S. (2021). Sustainable Building Rating Systems. In Sustainable Public Buildings Designed and Constructed in Wood (pp. 52-68). RTU Press.
  59. Mogaji, I. J., Mewomo, M. C., & Bondinuba, F. K. (2024). Assessment of barriers to the adoption of innovative building materials (IBM) for sustainable construction in the Nigerian construction industry. Engineering, Construction and Architectural Management, 32(13), 1-26.
  60. Mushi, F. V., Nguluma, H., & Kihila, J. (2022). A critical review of African green building research. Building Research & Information, 50(6), 610-627.
  61. Myint, N. N., & Shafique, M. (2024). Embodied carbon emissions of buildings: Taking a step towards net zero buildings. Case Studies in Construction Materials, 20, e03024.
  62. Nukah, P. D., Abbey, S. J., Booth, C. A., & Oti, J. (2024). Development of low carbon concrete and prospective of geopolymer concrete using lightweight coarse aggregate and cement replacement materials. Construction and Building Materials, 428, 136295.
  63. Obinna, E. (2023, January 29). John Randle Centre for Yoruba Culture & History: A global spotlight on Lagos. BusinessDay. https://businessday.ng/arts-and-life/article/john-randle-centre-for-yoruba-culture-history-a-global-spotlight-on-lagos/
  64. Ohueri, C. C. (2022). The integrated BIM-MyCREST process model for reengineering the green building design practices (Doctoral dissertation, Swinburne).
  65. Oke, O. S., Aliu, J. O., Duduyegbe, O. M., & Oke, A. E. (2025). Assessing Awareness and Adoption of Green Policies and Programs for Sustainable Development: Perspectives from Construction Practitioners in Nigeria. Sustainability (2071-1050), 17(5).
  66. Oladazimi, A., Mansour, S., Hosseinijou, S. A., & Majdfaghihi, M. H. (2021). Sustainability identification of steel and concrete construction frames with respect to triple bottom line. Buildings, 11(11), 565.
  67. Oladoja, O., & Ogunmakinde, O. E. (2021, October). Challenges of green building in Nigeria: Stakeholders’ perspectives. In Construction Education-Live the Future: 44th Australasian Universities Building Education Association (AUBEA) Annual Conference (pp. 481-491).
  68. Olanrewaju, O. I., Enegbuma, W. I., Donn, M., & Chileshe, N. (2022). Building information modelling and green building certification systems: A systematic literature review and gap spotting. Sustainable Cities and Society, 81, 103865.
  69. Omidire, D. (2015). Development: Heritage Place, Alfred Rewane (Kingsway) Road, Ikoyi - Lagos. Estate Intel. https://estateintel.com/insights/heritage-place-ikoyi
  70. Roth, H. R., Lewis, M., & Hancock, L. (2021). The green building materials manual: a reference to environmentally sustainable initiatives and evaluation methods. Springer Nature.
  71. Saleh, N. M., Saleh, A. M., Hasan, R. A., Keighobadi, J., Ahmed, O. K., & Hamad, Z. K. (2024). Analyzing and comparing global sustainability standards: LEED, BREEAM, and PBRS in green building arch article topic. Babylonian Journal of Internet of Things, 2024, 70-78.
  72. Savage, M. (2025, January 18). Sweden is building the world’s largest city made entirely from timber. Time. https://time.com/7207873/sweden-stockholm-wood-city-sustainability/
  73. Seng, N. H., Teng, N. C., Bature, A. M., Husain, M. K. A., Zaki, N. I. M., Shah, M. S. A., ... & Mukhlas, N. A. (2024). Exploring The Use of Palm Kernel Shell and Palm Fibre as Sustainable Aggregates in Concrete. Malaysian Journal of Civil Engineering, 36(3), 33-42.
  74. Shooshtarian, S., Maqsood, T., Wong, P. S., Zaman, A., Caldera, S., & Ryley, T. (2024). Utilisation of certification schemes for recycled products in the Australian building and construction sector. Business Strategy and the Environment, 33(3), 1759-1777.
  75. Stonehaven (2025) 'Stonehaven deciphers Estidama Pearl Rating'. https://www.stonehaven.ae/insight s/stonehaven-deciphers-estidama-pearl-rating
  76. The Guardian (2024, April 30). Noisy, performative and unapologetically non-European: Nigeria welcomes a museum like no other. The Guardian. https://www.theguardian.com/global-development/2024/apr/30/john-randle-centre-yoruba-culture-lagos-nigeria
  77. Think Wood (2023). Proposed 55 story building highlights mass timber’s towering potential. https://www.thinkwood.com/construction-projects/proposed-55-story-building-highlights-mass-timbers-towering-potential
  78. U.S. Green Building Council (2023). LEED v4.1 Building Design and Construction. https://www.usgbc.org/leed/v41
  79. U.S. Green Building Council (2024). LEED certification fees. USGBC. https://www.usgbc.org/tools/leed-certification/fees
  80. U.S. Green Building Council (n.d.). LEED Earth. https://www.usgbc.org/leed/earth
  81. Unegbua, H. C. O., Yawasa, D. S., Dan-asabe, B., & Alabi, A. A. (2024). Assessing the impact of green building certifications on construction practices in Nigeria: A systematic review. Indonesian Journal of Engineering and Technology, 7(1). https://journal.unesa.ac.id/index.php/inajet
  82. United Nations Environment Programme (UNEP) (2024, July). Circular economy as an enabler for responsible banking: Leveraging the nexus between circularity and sustainability impact.
  83. Usuemerai, C. O., & Oyewole, A. O. (2024). An Assessment of the Sustainability of Locally Sourced Timber Specimens for use as Building Material. Journal of Energy Technology and Environment, 6(4), 29-40.
  84. World Green Building Council (2021). Bringing embodied carbon upfront. WorldGBC. https://worldgbc.org/article/bringing-embodied-carbon-upfront/
  85. Yahia, A. K. M., & Shahjalal, M. (2024). Sustainable materials selection in building design and construction. International journal of science and engineering, 1(4), 10-62304.

The building sector is a major contributor to global carbon emissions, with operational and embodied emissions posing substantial challenges. In Nigeria, particularly in the South West region, awareness of green construction is growing, but the adoption of international green building certification systems remains limited. This study critically examines the material criteria within these systems as applied in South West Nigeria, aiming to identify barriers to certification uptake and propose adaptations. Using qualitative content analysis and comparative case studies of certified and culturally significant buildings in Lagos, the research highlights the misalignment between international standards and local realities, including the lack of local LCA databases, high certification costs, and cultural preferences. Findings reveal that while projects like Heritage Place achieve international certification, they face data and supply challenges. In contrast, the John Randle Centre demonstrates the potential of integrating indigenous materials and vernacular design strategies to achieve sustainable outcomes without formal certification. The study concludes that a hybrid approach blending international standards with local knowledge is essential for advancing green building practices in the region. Recommendations include developing local LCA databases, simplifying documentation protocols, implementing tiered fee structures, integrating vernacular performance metrics, and promoting capacity building and policy incentives.

Keywords : Green building, Certification, Sustainability, Material Criteria, South West Nigeria.

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