Abstract:
The geographical location and topographic composition have made Bangladesh
vulnerable to natural disasters. Bangladesh is frequently hit by natural disasters, most of
them related to water, like flood, drought, riverbank erosion and cyclone associated storm
surge etc. Munshiganj district is situated on the mixed floodplains of rivers the Ganges
(Padma), the Brahmaputra (Jamuna), and the Meghna. Every year even during normal
rainy season floodwater drains through bordering rivers of the area to the Bay of Bengal.
Most of the severe floods affect this area and cause maximum damages to the lives and
properties in comparison to other areas. On the other hand, the number of people at risk
in the area is rising due to the rapid increase of population.
A flood vulnerability map of Munshiganj district was developed using a hydrological
model output (Mike-II), and Remote Sensing and Geographical Information System
data. In terms of flood extent and depth, it was found that about 2.61% of the total area of
the district falls under high vulnerability, 45.31% under medium vulnerability, 13.96%
under low vulnerability and the rest 38.12% is not vulnerable to floods. Landsat TM data
was used to generate a land-use map and combining this land-use with population data, a
population distribution map was produced according to land use types. Subsequently, this
population distribution map was compared with flooded area for creating a map
indicating the population at risk in a flood event. Attempt was made to identify shelters
during a flood based on information such as existing schools, growth centers, health
centers, topography and accessibility of the area. Prioritization of shelters was carried out
based on population at risk during a flood event. Finally, a flood mitigation plan for the
district based on shelter and evacuation was proposed considering selected shelters'
capacities and accessibility.
