SPATIOTEMPORAL ASSESSMENT OF WETLANDS AND LAND RECLAIM ACTIVITIES IN EASTERN LAGOS STATE NIGERIA
DOI:
https://doi.org/10.4314/njt.v43i3.21Keywords:
Remote Sensing, Sand-Filling, , Land reclamation, Coastal City Management, Lagos NigeriaAbstract
This paper presents a spatiotemporal assessment of sand-filling practices and their environmental implications in eastern Lagos over a four-decade period (1984-2024). Multispectral Landsat TM images at ten-year intervals namely, 1984, 1994, 2004 and 2024 were obtained from the Sentinel hub and subjected to supervised classification to assess land area that was reclaimed over time. The classification revealed a significant shift in land cover categories; areas built-up, expanded from 6035.92 hectares in 1984 to 18002.77 hectares in 2024, while vegetation and water bodies decreased from 19351.48 to 9180.79 and from 29355.12 to 27341.49 hectares respectively. The area occupied by the sand-filled category was 508.85 in 1984, 2528.79 in 1994, 943.19 in 2004, 600.50 in 2014 and 726.95 in 2024. The cumulative area of sand-filled in forty years is 5308.28 hectares. Sand-filled areas were always converted to buildings after some years of consolidation, hence the lack of a particular trend in coverage over time. Sand filling activities are primarily driven by urbanization and infrastructure development, and they are intensified along the eastern coastline of Lagos, particularly from Victoria Island to Lekki. The ecological and environmental consequences of sand filling, include habitat loss, shoreline erosion, increased land surface temperatures (LST) and vegetation loss. The regression coefficients showed that every unit increase in the LST led to a 0.08 unit reduction in the vegetation index for 2004 and 2014, and a one unit rise in the LST led to a 0.1 unit reduction in the vegetation index value for 2024. This paper concludes with emphasis on the key role of remote sensing in monitoring sand-filling dynamics, guiding policy interventions, and promoting sustainable urban growth.
References
[1] Auwalu, F. K., and Bello, M. “Exploring the Contemporary Challenges of Urbanization the Role of Sustainable Urban Development: A Study of Lagos City, Nigeria”. JCUA, vol. 7 no. 1, pp. 175-188, 2023.
[2] Gilbert, K. M., and Shi, Y. L “Use/L Cover Changes Detection in Lagos City of Nigeria Using Remote Sensing GIS”. Adv. in Remote Sens., vol. 12 no. 4, pp. 145-165, 2023.
[3] Akinde, J. O., and Olasunkanmi, O. O. “The Impact of Urban Growth on Slum Development in Mega City of Lagos (A Case Study of Ajegunle Lagos)”. East African Scholars J. Edu Humanit Lit,. vol. 2 no. 4, pp. 213-222, 2019.
[4] Adedire, F. M. “Disparity in peri-urbanisation process in Lagos, Nigeria. In: Landscape architecture-processes practices towards sustainable development”, Loures, L. and Ergen M. (Eds.). Amazon pp. 47-57, 2020.
[5] Otubu, A. K. “Quest for Housing Preservation of Wetlands in Nigeria: A Case Study of Lagos State”. IJOCLLEP, vol. 3, pp. 146, 2021.
[6] Israel, A. O. “Loss of Wetlands in Lagos (Nigeria) and the adjacent territory: Implications for flood control”. J. Met. Clim. Sci, vol. 19 no. 1, pp 10-21, 2021.
[7] Ubachukwu, O. A. Ubi, S. E. Esochaghi, K. P. Nwokoukwu, K. B. “Properties of eco-friendly concrete produced by partial replacement of sand with sawdust with emphasis on water-cement ratio”, Nigerian Journal of Technology, vol. 41, no. 1: pp. 26-31, 2022.
[8] Ubachukwua O. A., Okafor, F. O., Nwokoukwua, K. B., Esochaghi, K. P. “Performance of Sand-Crushed Oyster Shells Blended Fine Aggregates in Concrete: Waste Management Perspective in Nigeria”, Nigerian Journal of Technology, vol. 40, no. 1, pp. 13–18, 2021.
[9] Angradi, T. R., Williams, K. C., Hoffman, J. C., and Bolgrien, D. W. “Goals, beneficiaries, and indicators of waterfront revitalization in Great Lakes Areas of Concern and coastal communities”. J. Great Lakes Res., vol. 45 no. 5, pp. 851-863, 2019.
[10] Tata, H., and Afolabi, O. O. “Delineation of Land Reclamation Areas in Eti-Osa and Lagos Island Local Government Areas of Lagos State”. Afr. J. Land Policy Geospat. Sci., vol. 7, no. 1: pp. 113-125, 2024.
[11] Alabi, B. O. “Urban redevelopment as a metaphor for gentrification in the making of a mega-city: The forced displacement of Otodo Gbame/Ebute Ikate community, Lagos state. Rethinking institutions, processes and development in Africa”. In: Rowman & Littlefield- Lanham, M. D. and Falola, T. (Eds.) pp. 276, 2021.
[12] Fashae, O. A., Tijani, M. N., Adekoya, A. E., Tijani, S. A., Adagbasa, E. G., and Aladejana, J. A. “Comparative Assessment of the Changing Pattern of Land cover along the Southwestern Coast of Nigeria using GIS and Remote Sensing techniques”. Scientific African, 17, e01286, 2022
[13] Obiefuna, J., Adeaga, O., Omojola, A., Atagbaza, A., and Okolie, C. “Flood risks to urban development on a coastal barrier landscape of Lekki Peninsula in Lagos, Nigeria”. Scientific African, 12, e00787, 2021
[14] Ekoh S. S. and Teron L. “Vulnerable spaces, unequal responses: lessons for transformative climate resilience in Lagos”. Front. Sustain. Cities vol. 5 pp. 929121, 2023.
[15] Bako, A., and Ojolowo, S. K. “Spatial knowledge and flood preparedness in Victoria Island, Lagos, Nigeria”. Jamba: J. Disaster Risk Studies, vol. 13 no. 1, pp. 1-11, 2021.
[16] Higuera R. O., O'Connor, J., Ogunwumi, T. S., Ihinegbu, C., Reimer Lynggaard, J., Sebesvari, Z. and Koli, M. “Technical Report: Lagos floods”. Interconnected Disaster Risks 2021/2022. United Nations University - Institute for Environment and Human Security (UNU-EHS). pp. 28, 2022.
[17] Idowu, T. E., Waswa, R. M., Lasisi, K., Mubea, K., Nyadawa, M., and Kiema, J. B. K. “Towards achieving Sustainability of coastal environments: Urban Growth analysis prediction of Lagos, State Nigeria”. S. African J. of Geomatics, vol. 9, no. 2, pp. 149-162, 2020.
[18] Fakoya, K., Oloko, A., and Harper, S. “Understanding vulnerability of urban waterfront communities to rapid development: the case of Lagos Lagoon, Nigeria”. In Blue Justice: Small-Scale Fisheries in a Sustainable Ocean Economy. Cham: Springer International Publishing. pp. 451-467, 2022.
[19] Fatai, A. O. “Analysis of urban expansion and land cover changes in Lagos Metropolis, Nigeria”. FUTY J. Environ., vol. 15, no. 2, pp. 59-68, 2021.
[20] Badejo, O. T., and Akintoye, S. O. “High and low water prediction at Lagos Harbour, Nigeria”. NIJOTECH, vol., 36, no. 3, pp. 944-952, 2017.
[21] Adegboyega, S. A., Oloukoi, J., Olajuyigbe, A. E. and Ajibade. O. E. “Evaluation of unsustainable land use/land cover change on ecosystem services in coastal area of Lagos state, Nigeria”. Applied Geomatics vol., 11, pp. 97-110, 2019.
[22] Suleiman, A. A., Baderinwa, A., and Olajuyigbe, A. “Geospatial Assessment of Human-induced Land cover Changes and its Environmental Implications along the Coastal Areas of Ibeju-Lekki LGA, Lagos State, Nigeria”. J. Sust. Tech., vol. 11, no. 2, pp. 93-110, 2021.
[23] Okoyen, E., Raimi, M. O., Oluwatoyin, O. A., and Williams, E. A. “Governing the environmental impact of dredging: Consequences for marine biodiversity in the Niger Delta Region of Nigeria”. Insights Mining Sci. Tech., vol. 2, no. 3, pp. 555586., 2020.
[24] Ekeu-Wei, I. T., Azuma, K. I. and Ogunmuyiwa, F. B. B. “Assessment of environmental impact of solid waste dumpsites using remote sensing”, Nigerian Journal of Technology, vol 37, no. 1, pp. 275-285, 2018.
[25] Osaiyuwu, R. C., and Ugbebor, J. N. “Air quality assessment of some oil facilities host communities in Rivers State”. Nigerian Journal of Technology, vol., 38, no. 1, pp. 242-252, 2019.
[26] David, A. O., Odagbodo, O. O., Opafola, O. T., Amusan, G. M., Badejo, A. A. and, Olaniyan, O. S. “Assessment of solid waste management in Ota, Ogun State, Nigeria”. Nigerian Journal of Technology, vol. 42, no. 2, pp. 289-295, 2023.
[27] Makinde, E. O. and Oyelade, E. O. “Land cover mapping using Sentinel-1 SAR and Landsat 8 imageries of Lagos State for 2017”. Env. Sci. and Pollution Res., 27, no. 1, pp.66-74, 2020.
[28] Mohammed, D., Maina, M. M., Audu, I., Tudun-Wada, I. Y., and Nasir, N. K. “Remote sensing techniques in mapping spatial variability of salinity in Kano River Irrigation Project (KRIP), Nigeria”. Nigerian Journal of Technology, vol. 40, no. 4, pp. 732-739, 2021.
[29] Alves, B., Angnuureng, D. B., Mor, P., and Almar, R. “A review on coastal erosion flooding risks best management practices in West Africa: what has been done should be done”. J. Coast. Conserv., 24, 1-22, 2020.
[30] Enoh, M. A., Okeke, U. C., and Nkechi, B. C. “Mapping and simulating the spatial-temporal changes in the Lagos wetland ecosystem: A step-by-step approach to creating a carbon-neutral, sustainable urban city”. Ecol. Model., 482, 110399, 2023
[31] Macrotrends. “Lagos, Nigeria Metro Area Population 1950-2024”, 2024, https://www.ma crotrends.net/global-metrics/cities/22007/lagos /population
[32] Epuh, E. E., Orji, M. J., Iyoyojie, H. A. and Daramola, O. E. “Groundwater potential mapping in Ikorodu, Lagos State, Nigeria, using multi-criteria analysis and hydrogeophysics”. Nigerian Journal of Technology, vol., 39, no. 1, pp. 278-292, 2020.
[33] Rouse, J. W., Haas, R. H., Schell, J. A., and Deering, D. W. “Monitoring vegetation systems in the Great Plains with ERTS”. In Third ERTS Symposium. NASA SP-351, vol. 1, pp. 309-317, 1974.
[34] Laonamsai, J., Julphunthong, P., Saprathet, T., Kimmany, B., Ganchanasuragit, T., Chomcheawchan, P., and Tomun, N. “Utilizing NDWI, MNDWI, SAVI, WRI, and AWEI for estimating erosion and deposition in Ping River in Thailand”. Hydrology, vol. 10, no 3: pp. 70 -95, 2023
[35] Pramanik, S., Areendran, G., Punia, M., and Sahoo, S. “Spatio-temporal pattern of urban eco-environmental quality of Indian megacities using geo-spatial techniques”. Geocarto Int., vol. 37, no. 17, pp. 5067-5090, 2022
[36] Li, W., Wang, W., Yang, Y., Hou, X., and Ha, H. “Energy and vapour transfer in evaporation processes over saturated bare soil and water surface‐lysimeter studies. Hydrological Processes”, vol. 37, no. 6, pp. e14894, 2023.
[37] Agbola, T. and Jinadu, A. M. “Forced Eviction and Forced Relocation in Nigeria: the Experience of those evicted from Maroko in 1990”. Environment and Urbanization, vol. 9, pp. 271, 1997.
[38] Marfo, S. A., Appah, D., Joel, O. F., and Ofori-Sarpong, G. “Sand consolidation operations, challenges and remedy”. In SPE Nigeria Annual International Conference and Exhibition pp. SPE-178306). SPE., 2015.
[39] Pei, T., Xu, J., Liu, Y., Huang, X., Zhang, L., Dong, W. and Zhou, C. “GIScience remote sensing in natural resource environmental research: Status quo future perspecti-ves”, Geogr Sustain., vol. 2, no. 3, pp. 207-215, 2021.
[40] Sumit, V. K., Kumar, M., and Rani, S. “Estimation of Compound Growth Rate using Nonlinear Growth Models for Area and Production of Cabbage and Cauliflower in Haryana”. Ann. Hortic., vol. 15, no. 1, pp. 13-20, 2022
[41] Tyonum, E. T. “Evaluation of the effect of climate change on building collapse in Lagos State”. Int. J. Adv. Academic Res., vol. 9, no. 11, pp. 112-123, 2023
[42] Babalola, O. S., and Akinsanola, A. A. “Change detection in land surface temperature and land use land cover over Lagos Metropolis, Nigeria”. J. Rem. Sens.GIS, vol., 5, no. 3, pp. 1-7, 2016.
[43] Bako, A., and Ojolowo, S. K. “Spatial knowledge and flood preparedness in Victoria Island, Lagos, Nigeria”, Jamba: J. Disaster Risk Studies, vol. 13 no. 1, pp. 1-11, 2021.
[44] Oyedepo, J. A., Oluyege, D. E., and Babajide, E. I. “Remote Sensing of City Extension and Vegetal Cover Changes along Lagos-Ibadan Access Strip in Nigeria”. JASEM, vol. 25, no. 8, pp. 1371-1377, 2021
[45] Fashae, O. A., Tijani, M. N., Adekoya, A. E., Tijani, S. A., Adagbasa, E. G., and Aladejana, J. A. “Comparative Assessment of the Changing Pattern of Land cover along the Southwestern Coast of Nigeria using GIS and Remote Sensing techniques”, Scientific African, e01286, 2022.
Downloads
Published
Issue
Section
License
Copyright (c) 2024 Nigerian Journal of Technology
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The contents of the articles are the sole opinion of the author(s) and not of NIJOTECH.
NIJOTECH allows open access for distribution of the published articles in any media so long as whole (not part) of articles are distributed.
A copyright and statement of originality documents will need to be filled out clearly and signed prior to publication of an accepted article. The Copyright form can be downloaded from http://nijotech.com/downloads/COPYRIGHT%20FORM.pdf while the Statement of Originality is in http://nijotech.com/downloads/Statement%20of%20Originality.pdf
For articles that were developed from funded research, a clear acknowledgement of such support should be mentioned in the article with relevant references. Authors are expected to provide complete information on the sponsorship and intellectual property rights of the article together with all exceptions.
It is forbidden to publish the same research report in more than one journal.