Use of Satellite Images to map Flood Extension around the city of Saint Louis in the Senegal River Estuary

The traditional method of landsat satellite data combination and the gathering of important information made it possible to produce a Geographical Information System to monitor floods in the lower estuary of the Senegal River valley (Sandholt,I., Fog, B. & Fensholt, R., 2001). This technical approach is a powerful tool for combining important information for a better comprehension of the floods and the characterization of surface qualities on the estuary. By way of a multi-temporal approach, the study team established the qualitative and quantitative impact of floods on the various geographical objects, a detailed cartography of the land use and the surfaces flooded in 1998 and 1999. The study undertaken in Saint Louis made it possible to consider surfaces flooded in 1999, and to understand the extent of these floods compared to those of 1998. The constitution of a tool of decision-making aid makes it possible to have information relating to the extent of the flood, the scope of flooded surfaces and to detect the more exposed zones in order to establish a hierarchical map according to the percentage of exposure to the risk of the geographical objects affected by the floods (populations), road infrastructures and tracks, medical and social infrastructures and perimeters of cultures (agriculture).


Introduction
The traditional method of landsat satellite data combination and the gathering of important information made it possible to produce a Geographical Information System to monitor floods in the lower estuary of the Senegal River valley (Sandholt, I., Fog, B. & Fensholt, R., 2001).This technical approach is a powerful tool for combining important information for a better comprehension of the floods and the characterization of surface qualities on the estuary.By way of a multi-temporal approach, the study team established the qualitative and quantitative impact of floods on the various geographical objects, a detailed cartography of the land use and the surfaces flooded in 1998 and 1999.The study undertaken in Saint Louis made it possible to consider surfaces flooded in 1999, and to understand the extent of these floods compared to those of 1998.The constitution of a tool of decision-making aid makes it possible to have information relating to the extent of the flood, the scope of flooded surfaces and to detect the more exposed zones in order to establish a hierarchical map according to the percentage of exposure to the risk of the geographical objects affected by the floods (populations), road infrastructures and tracks, medical and social infrastructures and perimeters of cultures (agriculture).

Context of the 1999 Floods
In 1999, the West Africa experienced higher precipitation rates, resulting in higher river discharge into the Senegal River and its tributaries and thus larger inundations of the river valley and delta than seen during the previous 30 years.Several villages and irrigation infrastructures were destroyed.People had to abandon their houses and rice field crops were lost.Further downstream, Saint-Louis, the former capital of Senegal, experienced large damages due to the inundation of areas developed during the 1980's.
Due to exceptionally high rainfall in Fouta-Djalon in the rainy season of 1999, peak flow at Bakel was reached of 4440 m 3 /s (IRD 1 , 2001).

Spot Image Data
The SPOT 4 images (1999, 2001 and 2002) were acquired from a project developed by University of Dakar in collaboration with University of Marne la Vallée (France).(Dia, 2004).Even though the floods are obviously a fact of nature, their impacts on local resident depend on a large scale on the behaviour of the population.

Flooded conditions
SAINT LOUIS

Geometric correction
The SPOT Landsat satellite images used in this research were not directly georefenced which lead to deformations.This meant that they had to be oriented in order to ensure conformity with the geographic reality.All the images have been geometrically rectified to UTM Zone 28 North.

Image fusion
In this case of images fusion, the researchers combined the spatial information of the high resolution panchromatic image of 16 January, 2001 (10 meter of resolution), with the multispectral SPOT images of 23, October, 1999 andof 31 October, 2002 (20 meter of resolution).This permitted a richer image to be obtained simultaneously in spatial and spectral information.The fusion is most certainly an important manipulation to realize in the case of such a study, but we realise that the panchromatic image brings noise on the Spot XS image and this information is very difficult to analyse in the classification process.

The classification process
A standard supervised maximum likelihood classification was carried out using the ENVI (environment for visualizing images) image processing system.A total of five  The flood map referred to here (figure 7) is a map that graphically provides information on the extension of inundation in an easy-to-understand format.The goal is to show the high level of vulnerability of many areas around the city of Saint-Louis to practitioners active in disaster risk reduction and those in charge of rivers and hydrology at local and regional level.The flood hazard map is particularly handy for planners and administrators in formulating remedial strategies.It also makes the process of resource allocation simple, resulting in a smooth and effective implementation of the adopted flood management strategy.

Conclusion
The research involved field work and the collection information and data about the floods and the use of Geographic Information Systems (GIS).The investigations provided insights on the overall organisation of the study zone, in particular on the occupation of the easily flooded area around the town of Saint-Louis and some villages and small towns in the lower valley.The investigations allowed researchers to define the limit of the extension of the past floods and to index the level of the various historical risings.In this study the issue of flood hazard mapping has been addressed from the perspective of different mapping scales in a GIS environment.
The flood hazard map is particularly handy for planners and administrators for formulating remedial strategies.
1 2 3 It also makes the process of resource allocation simple resulting in a smooth and effective implementation of the adopted flood management strategy.The aim of this regional study was to broadly identify the high hazard area in the area around the city of Saint-Louis and in the lower estuary of the Senegal River valley.Our project eventually led to the identification of a high hazard zone.

Figure 4 :
Figure 4: Satellite Imagery of Senegal River Lower Estuary, Flood conditions in October 1999 (left) and no flood conditions in October 2001 (right)

Figure 5 :
Figure 5: A view of flooded area in Saint-Louis in 1999 spectrally different classes were identified corresponding to spectral variability in the image.Differences on water reflectance are caused by turbidity and water depth and presence of varying amounts of green vegetation.Training and test areas were defined using field observations and delimitation carried out from a visual interpretation of SPOT images.