Urban Wetland Restoration and Its Impact on the Ecological and Socioeconomic Benefits. A Case Study of Nyandungu Eco-Tourism Park in Rwanda (2016-2024)

Odette Yankurije; Richard Mind’Je; Uwimana Angele; Henri Jacques Ngiinshuti

doi:10.37284/ajccrs.4.1.3269

Odette Yankurije University of Lay Adventists of Kigali
Richard Mind’Je University of Lay Adventists of Kigali
Uwimana Angele University of Lay Adventists of Kigali
Henri Jacques Ngiinshuti University of Lay Adventists of Kigali

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Résumé

A wetland is a vital ecosystem characterised by its water-saturated conditions, either permanently or seasonally. It includes areas such as swamps, marshes, and bogs, which support diverse plant and animal life that has adapted to these unique conditions. This study examined "Urban Wetland Restoration and Its Impact on the Ecological and Socioeconomic Benefits: A Case Study of Nyandungu Eco-Tourism Park in Rwanda (2016-2024)." The study employed a mixed-methods approach to assess the ecological and socioeconomic impacts of Nyandungu Eco-Tourism Park’s wetland restoration (2016–2024). Quantitative surveys captured visitor experiences, spending patterns, and environmental awareness, alongside local community perceptions of benefits, enabling analysis of social and economic outcomes. Semi-structured interviews with stakeholders (park managers, officials, experts, and community leaders) provided qualitative insights into management challenges, conservation strategies, and plans. Secondary data, academic literature, government reports, and environmental studies contextualised the findings, while remote sensing (2016 vs. 2024 orthophotos) quantified ecological changes. This triangulation of primary and secondary sources ensured a holistic evaluation of restoration impacts. The results demonstrated that the Nyandungu wetland restoration project successfully transformed a degraded area into a thriving ecosystem. Key statistics highlight this transformation: the reintroduction of 62 native plant species, the planting of 17,000 indigenous trees, and the establishment of habitats for over 100 bird species. Furthermore, the project created approximately 4,000 green jobs, with 50% of the local population perceiving improvements. Correlation analysis reveals strong positive relationships between restoration efforts and ecological (r=0.87-0.95), economic (r=0.76-0.82), and social dimensions (r=0.72-0.79), all with statistical significance (p≤0.05). The findings offer critical insights into the multidimensional impacts of urban wetland restoration, demonstrating the potential of such interventions to simultaneously address community development objectives. By focusing on the Nyandungu Eco-Tourism Park, this study contributes to the growing body of knowledge on sustainable urban ecosystem management and provides valuable recommendations for future wetland restoration efforts in Rwanda and similar contexts.

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Références

Adnan, M. S. G., Talchabhadel, R., Nakagawa, H., & Hall, J. W. (2020). The potential of Tidal River Management for flood alleviation in South Western Bangladesh. Science of the Total Environment, 731.https://doi.org/10.1016/j.scitotenv.2019.05.048.

Alikhani, S., Nummi, P., & Ojala, A. (2021). Urban wetlands: A review on ecological and cultural values. Water, 13(22), 3301.https://www.mdpi.com/2073-4441/13/22/3301

Barbier, E. B., Koch, E. W., Silliman, B. R., Hacker, S. D., Kennedy, C., Hughes, A. R., ... & York, P. H. (2011). The value of estuarine and coastal ecosystem services. Ecological Monographs, 81(2), 169-193.https://doi.org/10.1890/10-1510.1.

Bunch, M. J., Morrison, K. E., Parkes, M. W., & Venema, H. D. (2011). Promoting health and well-being by managing for social-ecological resilience: the potential of integrating eco-health and water resources management approaches. Ecology and Society, 16(1). https: //www.ecologyandsociety.org/vol16/iss1/art8.

Cai, Y. B., Zhang, H., Pan, W. B., Chen, Y. H., & Wang, X. R. (2013). Land use pattern, socio-economic development, and assessment of their impacts on ecosystem service value: study on natural wetlands distribution area (NWDA) in Fuzhou city, south-eastern China. Environmental monitoring and assessment, 185, 5111- 5123.https://doi.org/10.1007/s10661-012-2929-x.

De Dieu Uwisengeyimana, J., Teke, A., & Ibrikci, T. (2016). Current Overview of Renewable Energy Resources in Rwanda. Journal of Energy and Natural Resources, 5(6), 92– 97. https://doi.org/10.11648/j.jenr.20160506.13

Finlayson Maxwell; Nick Davidson. (2018). Extent, regional distribution, and changes in the area of different classes of wetland. Institute for Land, Water, and Society, Charles Sturt University, Elizabeth Mitchell Drive. Corresponding author: Email: arenaria.interpres@gmail.com. This Supplementary. Marine and Freshwater Research, 69, 1525–1533.https://doi.org/10.1071/MF17377.

Gonzalez, F. R., Raval, S., Taplin, R., Timms, W., & Hitch, M. (2019). Evaluation of the Impact of Potential Extreme Rainfall Events on Mining in Peru. Natural Resources Research, 28(2), 393–408. https://doi.org/10.1007/s11053-018-9396-1

Hobbs, R. J., & Harris, J. A. (2001). Restoration ecology: Repairing the earth’s ecosystems in the new millennium. Restoration Ecology, 9(2), 239–246.https://onlinelibrary.wiley.com/doi/abs/10.1046/j.1526-100x.2001.009002239.x.

Jia, L., Deng, Y., Hou, M., Li, Y., Ding, Z., & Yao, S. (2022). Pathways from the payment for ecosystem services program to ecological and socio-economic outcomes. Ecological Indicators, 144, 109534.https://www.google.com/search?q=https://www.sciencedirect.com/science/article/pii/S1470160X2200742X.

Knox, A. K., Dahlgren, R. A., Tate, K. W., & Atwill, E. R. (2008). Efficacy of natural wetlands to retain nutrients, sediment, and microbial pollutants. Journal of Environmental Quality, 37(5), 1837-1846.https://pubmed.ncbi.nlm.nih.gov/18689745.

Liu, L., Wang, H. J., & Yue, Q. (2020). China’s coastal wetlands: Ecological challenges, restoration, and management suggestions. Regional Studies in Marine Science, 37, 101- 337.https://chatgpt.com/c/68495c00- 16d0- 8006- 8609- d94ae52f029c#:~:text=https%3A//doi.org/10.1016/j.rsma.2020.101337%3AcontentReference%5Boaicite%3A5%5D%7Bindex%3D5%7D

Mamajonova, N., Oydin, M., Usmonali, T., Olimjon, A., Madina, A., & Margʻuba, M. (2024). The role of green spaces in urban planning is to enhance sustainability and quality of life. Holders of Reason, 2(1), 346-358.https://jshe.researchculturesociety.org/wp-content/uploads/JSHE202406001-min.pdf

Nancy McCarthy, CÈline Dutilly-DianÈ, and B. D. (2002). Cooperation, collective action, and natural resources management in Burkina Faso: CGIAR Systemwide Program on Collective Action and Property Rights Secretariat, International Food Policy Research Institute. International Livestock Research Institute, 27. (https:/www.cgiar.org).

Ndayisaba, F., Nahayo, L., Guo, H., Bao, A., Kayiranga, A., Karamage, F., & Nyesheja, E. M. (2017). Mapping and monitoring the Akagera Wetland in Rwanda. Sustainability, 9(2), 174.https://www.mdpi.com/2071-1050/9/2/174

Pattison-Williams, J. K., Pomeroy, J. W., Badiou, P., & Gabor, S. (2018). Wetlands, flood control, and ecosystem services in the Smith Creek Drainage Basin: A case study in Saskatchewan, Canada. Ecological economics, 147,36- 47. https://doi.org/10.1016/j.ecolecon.2017.12.026

PRITCHARD, D. (2023). Convention on Wetlands. Berkshire Encyclopedia of Sustainability 3/10, 98–100. https://doi.org/10.2307/jj.9561408.32

Qi, Y., Lian, X., Wang, H., Zhang, J., & Yang, R. (2020). Dynamic mechanism between human activities and ecosystem services: A case study of Qinghai Lake watershed, China. Ecological Indicators, 117, 106528.https://dx.doi.org/10.1016/j.ecolind.2020.106528

Rugege, D. (2004). Environmental Impact Assessment of the proposed establishment of free zones in the Nyandungu Valley and adjacent areas in the City of Kigali. Kigali, Rwanda.https://www.rema.gov.rw

Shahid, M. J., Arslan, M., Ali, S., Siddique, M., & Afzal, M. (2018). Floating wetlands: a sustainable tool for wastewater treatment. Clean–Soil, Air, Water, 46(10), 1800120.https://doi.org/10.1002/clen.201800120.

Swim, J. K., Stern, P. C., Doherty, T. J., Clayton, S., Reser, J. P., Weber, E. U., & Howard, G. S. (2011). Psychology's contributions to understanding and addressing global climate change. American psychologist, 66(4), 241.https://doi.org/10.1037/a0023220.

Tsinda, A., & Ilunga, L. (2006). Facteurs physiques du ruissellement à Kigali (Rwanda) . Geo-Eco-Trop, 2004, 28, 1 2: Pp.53-60. https://www.geoecotrop.be/uploads/publications/pub_302_02.pdf

Turyahabwe, N., Tumusiime, D. M., Kakuru, W., & Barasa, B. (2013). Wetland Use/Cover Changes and Local Perceptions in Uganda. Sustainable Agriculture Research, 2(4), 95. https://doi.org/10.5539/sar.v2n4p95

Talbot, C. J., Bennett, E. M., Cassell, K., Hanes, D. M., Minor, E. C., Paerl, H., & Xenopoulos, M. A. (2018). The impact of flooding on aquatic ecosystem services. Biogeochemistry, 141, 439-461.https://doi.org/10.1007/s10533-018-0449-7.

Urakawa, H., & Bernhard, A. E. (2017). Wetland management using microbial indicators. Ecological Engineering, 108, 456-476.https://www.sciencedirect.com/science/article/abs/pii/S092585741730438X.

Villa, J. A., & Bernal, B. (2018). Carbon sequestration in wetlands, from science to practice: An overview of the biogeochemical process, measurement methods, and policy framework. Ecological Engineering, 114, 115- 128.https://www.sciencedirect.com/science/article/pii/S0925857417303658.

Vörösmarty, C. J., Osuna, V. R., Cak, A. D., Bhaduri, A., Bunn, S. E., Corsi, F., ... & Uhlenbrook, S. (2018). Ecosystem-based water security and the Sustainable Development Goals (SDGs). Ecohydrology & Hydrobiology, 18(4), 317- 333.https://www.sciencedirect.com/science/article/abs/pii/S1642359318300636.

UNEP. (2021). Ecosystem restoration for people, nature, and climate. In Ecosystem restoration for people, nature, and climate. https://doi.org/10.4060/cb4927en

Zhao, Q., Bai, J., Huang, L., Gu, B., Lu, Q., & Gao, Z. (2016). A review of methodologies and success indicators for coastal wetland restoration. Ecological indicators, 60, 442-452.https://doi.org/10.1016/j.ecolind.2015.07.003.

Žigrai, F. (2010). Landscape ecology in theory and practice (selected theoretical and meta- scientific aspects). Ekologia Bratislava, 29(3), 229– 246. https://doi.org/10.4149/ekol_2010_03_229.

Zedler, J. B., & Kercher, S. (2005). Wetland resources: Status, trends, ecosystem services, and restorability. Annual Review of Environment and Resources, 30, 39– 74. https://doi.org/10.1146/annurev.energy.30.050504.144248