Abstract
In recent times, the swift and uncoordinated urban expansion in the medium sized city of Osogbo has increasingly encroached on the environmental sensitive areas. This uncoordinated exploitation of the ecological fragile areas for urban development has triggered urban flooding, which poses serious threat to human lives and properties in the city. This study therefore utilized geospatial technologies to generate flood hazard model for medium sized cities in developing countries in general and Nigeria in particular with a view to identifying hotspots and providing measures to forestall flood occurrences. The study used Shuttle Radar Topography Mission-Digital Elevation Model (SRTM-DEM), Landsat 7- 2000 and Operational Land Imager 8 (OLI)- 2015 images. Multi-criteria evaluation method was used to derive the physical characteristics of watersheds from the data to delineate the areas vulnerable to flooding. Flood inundation characteristics were simulated using Hydrologic Engineering Centre-River Analysis System (HEC-RAS) model with GIS interface and found discharge of over 500 m3/s for the 100-year profile period to be high, given the size of the analyzed basin (207.41 km2). The flood hazard map showed that 3.92, 103.38 and 100.11 km2 were least, moderately and highly vulnerable areas respectively. Most prone areas were built-ups with high impervious surface in the basin area where floodplain traversed high and moderate vulnerability zones. The study advocates consistent use of dynamic model within GIS for floodplain delineation and management planning to reduce the flood hazards.
Highlights
Flood is defined as extremely high flows or levels of rivers, lakes, ponds, reservoir and any other water bodies whereby water inundates outside the water body area (Marfai, 2003)
We collected field data using an already calibrated handheld Garmin 72 GPS using The Regional Centre for Training in Aerospace Surveys (RECTAS) COR station to validate the information on the topographic map as well as for geo-referencing purposes
This study has clearly shown that integration of GIS techniques and application of Hydrologic Engineering Centre-River Analysis System (HEC-River Analysis System (RAS)) are very effective in flood inundation and vulnerability modelling
Summary
Flood is defined as extremely high flows or levels of rivers, lakes, ponds, reservoir and any other water bodies whereby water inundates outside the water body area (Marfai, 2003). It occurs when sea level rises extremely or above coastal lands due to tidal seas and sea surges. With the recent projections in the world’s urban population from 2.8 billion in 2000 to 5 billion and a triple urban land cover by 2030 (Komolafe et al, 2017; Hoeppe, 2016; Muis et al, 2015; UNISDR, 2013), more people and assets in the coastal and floodplain areas will be more exposed and vulnerable to the risk of flood hazards whenever extreme events occur (Dutta et al, 2013; Herath and Wang, 2009; James and Hall, 1986; Creative Commons Attribution (CC-BY) 3.0 license.
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