Content area
The Island of Unguja in Zanzibar (Tanzania) has experienced an accelerated urban development growth since the 1990s due to a rapidly increasing population. These rapid land demands put additional stress on the country’s ability to plan urban centers, cities, and the management of natural resources. The study aimed to determine the impact of urbanization on groundwater availability in the catchment area of the Masingini–Mwanyanya forest reserves from 1992 to 2022. The study used a detection approach to determine the Land Use Land Cover (LULC) changes for three decades, starting from 1992 to 2022. Landsat remote sensed images of 1992, 2002, 2012, and 2022 were used. Additionally, a paired t-test was conducted to determine the significant changes in mean population growth, urbanization, and humidity. The aquifer recharge evolution analysis was conducted using the QGIS software (3.34.8 released version). Obtained results revealed that for these three decades, the forest areas decreased by 14.5% (i.e., from 8.3 km2 in 1992 to 7.1 km2 in 2022), while built-up area increased from 0 km2 in 1992 to 1.7 km2 in 2022. Moreover, the evolution of undesirable Land Use Land Cover (LULC) changes, particularly the persistent conversion of forested areas into built-up zones, has been detected. This trend poses a significant threat to the sustainable management of water resources and catchment forest reserves. The study also indicated a decline in the recharge of the coastal aquifer supplying Zanzibar City, which decreased from 15.5 Mm3 to 11.1 Mm3. These findings highlight that the Masingini Forest Reserve is increasingly encroached by rapid urbanization, which is a phenomenon that may jeopardize the availability and sustainability of groundwater resources in the catchment without proper urban planning. Based on these results, the study recommends further research and upscaling of the existing findings, as well as collaboration with relevant authorities to redefine the Masingini–Mwanyanya forest catchment area to ensure the sustainable use of groundwater resources.
Details
Urbanization;
Watersheds;
Landsat;
Coastal aquifers;
Aquifers;
Cities;
Population density;
Sediments;
Availability;
Land use;
Forests;
Natural resources;
Climate change;
Groundwater;
Coasts;
Urban development;
Catchment areas;
Evolution;
Sustainable use;
Precipitation;
Water resources management;
Land cover;
Water management;
Natural resource management;
Population growth;
Water resources;
Groundwater availability;
Humidity;
Urban planning;
Sustainability management;
Sustainability;
Satellite imagery;
Nature reserves;
Groundwater recharge;
Growth rate;
Stratigraphy;
Tourism;
Urban areas;
Deforestation;
Urban environments;
Permeability;
Rain
; Hamad, Kai Kombo 3 ; Giaccio Federica 4 ; Sappa Giuseppe 4
; De Filippi Francesco Maria 4
1 School of Natural and Social Science, State University of Zanzibar, Zanzibar P. O. Box 146, Tanzania
2 Island Research and Consultancy Services, Zanzibar P. O. Box 1203, Tanzania; [email protected]
3 Tanzania Meteorological Authority (TMA) Zanzibar Office, Kisauni Zanzibar P. O. Box 340, Tanzania; [email protected]
4 Department of Civil, Environmental and Construction Engineering (DICEA), Sapienza University of Rome, Via Eudossiana 18, 00184 Rome, Italy; [email protected] (F.G.); [email protected] (G.S.)