Abstract:
Flooding is a natural hazard that becomes a disaster when the natural valley of
a river overflows into the floodplain area, causing damage to the lives and
properties of its residents. Flooding has recently become an annual occurrence
in Sri Lanka and has become a hazard that causes economic and social
damage. Therefore, this study was conducted to identify the impacts of
topography and rainfall on the temporal and spatial changes in flood hazard in
the Mulatiyana Divisional Secretariat Division (DSD) of Matara District. The
spatial and temporal changes of flooding in the area have been identified with
the integrated use of remote sensing data pertaining to flooding years 2003,
2017, 2019, 2020, 2021, and 2023 and Secondary data was related to the
number of victims affected by flooding, collected from Disaster Management
Centre of Mulatiyana DSD. Data analysis was accomplished by using Arc GIS
10.7 and Microsoft Excel Software. As per the study results, the area's altitude
extends from 50m to 450m from sea level. The study highlights that
topography and rainfall are decisive factors in flooding in Mulatiyana DSD.
The analysis of this research shows that 53-62% of the areas highly affected
by floods are located at 0-100 m elevation. The reason for that is because the
water flow is slow as those areas are plain terrain. Also, 8% of the least
affected areas are located at an elevation of 100-150 meters. Rainfall
distribution data indicate that high flood-risk areas receive 1302.48-1531.3
mm of rain, while medium-risk areas receive 1220.84-1457.8 mm, and least
affected areas receive 1139.2-1410.06 mm rainfall. These results underscore
the combined impact of flat terrain and heavy rainfall on flood risk in the
region. Based on these findings, it is recommended to enhance flood
mitigation strategies in Mulatiyana DSD by improving drainage infrastructure
in low-lying areas (0-100m elevation) and implementing better water
management practices to handle heavy rainfall, thus reducing flood risk.
