Abstract:
Rainfall serves as a cornerstone for numerous sectors, including rain-fed agriculture,
hydropower generation, fisheries, tourism, and the stability of coastal ecosystems. Given its
pivotal role, understanding rainfall patterns is crucial for informed decision-making and the
effective management of these sectors. This study aims to scrutinize the spatiotemporal
variation in Sri Lankan rainfall over the past three decades. Utilizing daily rainfall data from
52 stations across the country spanning from 1990 to 2020, this analysis computed monthly,
annual, and monsoonal rainfall metrics, meticulously addressing missing data using
established methodologies. Employing statistical tools such as Mannslope,
temporal variations in rainfall were discerned. Inter-decadal comparisons were
conducted, revealing shifts in mean annual rainfall across distinct periods (1991 2000,
2001 2010, and 2011 2020). Spatial distributions of mean decadal rainfall were visualized
using ArcGIS, complemented by the Inverse Distance Weighting (IDW) method to
interpolate annual values, enhancing spatial comprehension. Significantly increasing trends
in rainfall were identified during specific monsoon seasons and inter-monsoon periods at
various stations, while notable decreases were observed in others. Interestingly, a substantial
increase in rainfall was noted in the dry zone during 2011 2020 compared to 1991 2000,
indicative of dynamic shifts in precipitation patterns. These findings underscore the
variability of rainfall across Sri Lanka's climatic zones over the past three decades,
suggesting potential revisions to current demarcations. Such insights are invaluable for
informing policies, strategies, and future research endeavors in climate science and related
disciplines.
