Citation:Gunawardhana, L.M.A.P. and Dharmasiri, L.M. 2015. Spatial and Temporal Variation of Drought Hazard in the North Central Province of Sri Lanka, p. 309, In: Proceedings of the International Postgraduate Research Conference 2015 University of Kelaniya, Kelaniya, Sri Lanka, (Abstract), 339 pp.
Date:2015
Abstract:
Drought is the deficiency of water for various purposes or shortage of rainfall within the
expected period of time. There is no universal accepted definition for drought because it is
vary from region to region. But impacts of drought are higher than other natural hazards
because drought can be extended large geographical area. Sri Lanka is one of the countries
which is highly prone to drought hazard. Especially, North Central Province (NCP) is wholly
situated in the Dry Zone of Sri Lanka which receives less than 1750mm annual average
rainfall therefore more vulnerable for drought. More than 95% of people in the NCP are
depend on agriculture. Due to the frequent drought events they losses their agricultural
production causing many socio-economic and environmental issues.
The study was aimed at to identify spatial and temporal variation of drought in the NCP using
Standardized Precipitation Index (SPI) and Geographical Information System (GIS). Both
primary and secondary data were used for this research. Primary data were collected using
questionnaire, group discussion, interviews. Secondary data were collected from the
Department of Meteorology. Nine meteorological stations covering last 60 years and the NCP
selected for the study. GIS interpolation technique used to identify spatial distribution of
rainfall over NCP. Time series analysis and calculating SPI were used to identify temporal
distribution of drought in the NCP. Results highlighted there is a significant variation of
spatial distribution of rainfall in the area. Negative SPI values clearly indicate drought events
is frequent and increasing during the past six decades. It was evident that the farmers have
been adopting different techniques to face the challengers of drought hazards.