Role of ICTs in Early Warning of Climate-Related Disasters: A Sri Lankan Case Study

By Kanchana Wickramasinghe
IPS Researcher 

Need for an effective disaster early warning system for Sri Lanka was re-emphasised during the devastative storm which caused a number a deaths, a couple of months ago. The frequency and intensity of natural disasters in Sri Lanka including cyclones, floods and landslides are on an increasing trend, due to the impacts of global climate change (Ministry of Environment, 2010).  While a number of strategies are necessary to address growth in climate-related natural disasters, an effective early warning system can play a crucial role in lessening the probable negative impacts.

The traditional ways of disseminating disaster early warnings in Sri Lanka have been through radio and television, military forces and early warning towers.  However, during a disaster situation, there may be constraints in delivering the message, as mass media channels are not always switched on and the other approaches have limited reach.  Recent developments have shown that the information and communication technologies (ICTs) can be used effectively to disseminate disaster information.  However, developing countries in most of the cases are faced with resource constraints for the establishment and implementation of disaster early warning systems. 

Use of Traditional Paddy Cultivation as a Means of Climate Change Adaptation in Sri Lanka

By Chatura Rodrigo
IPS Researcher

Paddy occupies approximately 37 per cent (0.77 million ha) of the cultivated land area of Sri Lanka.     It is cultivated during two major seasons; Yala and Maha, where a majority is cultivated during the latter. Close to 1.8 million farm families are dependent on paddy farming throughout the country. The demand for paddy in Sri Lanka will increase at a rate of 1.1 per cent per year, which requires production also to increase at a rate of 2.9 per cent per year. Therefore not only is paddy the staple food of the country, but its cultivation is the livelihood of a significant portion of people (DSC, 2013). 

The ‘green revolution’ of the early 1960s, supported by agricultural policies such as fertilizer subsidies, placed Sri Lanka on the fast track to becoming a production economy. With subsidized fertilizer and the establishment of irrigation schemes, farmers were given the motivation to be more production oriented. These heavy production agricultural methods in the paddy sector were supported by the new and improved high yielding varieties. Even though these new improved paddy varieties were short termed and high yielding, they were chemical fertilizer and labour intensive and posed a negative externality to the environment (Wiggins and Brooks, 2010). Most importantly, these new improved production incentive paddy varieties and agricultural practices were not resilient towards climate change impacts.

Climate Change Models Shift Boundaries of Agro-Ecological Zones in Sri Lanka

By Muththuwatta, L.P. and Liyanage, P.K.N.C.

Climate change models for Sri Lanka suggest that profound and complex changes in rainfall patterns are becoming a reality.. It’s never too early to consider what this means and how it could impact agriculture and therefore all of us. 

The news that climate change will affect Sri Lanka’s weather will surprise very few these days. However, a recent study1 projecting rainfall distribution patterns in Sri Lanka for 2050 warns that climatic zones could shift. It also suggests that the intensity of rainfall will vary more greatly than observed over recent times. The findings reported by Muththuwatta and Liyanage, have important implications for agriculture – from farmers to policymakers.

With global temperatures warming over the past century, Sri Lanka has already displayed its share of signs of climate change. The resulting extreme weather events have even now affected agricultural production. Concerns for water and food security for a projected global population of 9.6 billion in 2050 are high. In its 2007 assessment report, the Intergovernmental Panel on Climate Change (IPCC) stated that the nature of changes will vary across different geographical regions and development statuses. It added that the way regions respond and adapt will also affect climate change.