Use of Parametric and Non-parametric approaches to identify Rainfall Patterns in Batticaloa district in Sri Lanka over last three decades
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Date
2013
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Uva Wellassa University of Sri Lanka
Abstract
Batticaloa district (latitude7.72°,longitude81.7°) is situated in the central part of the Eastern
province in Sri Lanka. District is in the flat coastal plain and boarded by the Indian Ocean in the
east. Its average elevation is around 5 meters. Mean annual temperature of the district is around
28 C ranging from 25 C to 35 C. Batticaloa has a tropical wet and dry climate.
Because of climate conditions and low elevation, district is affected by both flood and drynessin
almost every year.The consumption of water has gone up due to the development in irrigation
and agriculture with the increase in population. Therefore, a proper water management system is
essential.
Only a few comprehensive studies have been conducted in Sri Lanka on the trends of rainfall
depth over long periods (Jayewardene et al., 2005). Domroes and Schaefer (2000) have carried
out a study for annual rainfall over two time periods (1895 – 1996 and 1960 – 1996) for 13
stations.
The aim of this analysis was to gain the knowledge of variation in rainfall, both spatially and
temporally, which is essential for proper water management practices, designing water storages,
planning drainage channels for flood mitigation and controlling damages.
Methodology
Batticaloa district monthly rainfall data, from 1978 to 2010, were collected from meteorological
department. The linear trend and seasonal pattern were analyzed separately by using annual and
monthly rainfall data.
Annual rainfall was used for the analysis of trend. The Mann-Kendall rank test was used to test
the existence of a linear trend of the rainfall during this period. The result obtained from this test
was confirmed by the use of Spearman’s rank test. Pilon and Cavadias (2002) have shown that
nonparametric tests, Mann-Kendall rank test and Spearman’s rank test which indicate only the
direction have the same power of detecting linear trend. Further, obtained results were
confirmed by using a parametric approach, the least-square regression method.
Then monthly rainfall data were analyzed to identifythe seasonal patterns. The decomposition
method was used for analyzing seasonal pattern. All decisions were drawn at 5% significance
level and the software R(version 2.15.2) was used for the analysis.
Results and discussion
During this period, the minimum rainfall, 920 mm, had been recorded in 1983 and the
maximum rainfall, 3080.7 mm, was recorded in 1994. Annual average rainfall, during this
period, was 1609 mm. Average monthly rainfall during Yala and Maha seasons were 48mm and
225 mm respectively.
It was not able to reveal either an increasing or a decreasing trend in the rainfall during the
period from 1978 to 2010. This confirms the result that there was nota long range trend in
rainfall in Batticaloa district (Jayewardene et al., 2005).
Description
Keywords
Rainfall, Climate Change, Climate, Mathematics