Abstract
In the last decade, Eswatini has been affected by moderate to severe droughts, leading to huge impacts on the economic, environmental and societal sectors. The frequency and magnitude of drought have also increased, emphasising on the importance of drought monitoring. In view of the impacts of drought, it is of critical importance to monitor drought in near real-time and provide early warning information to stakeholders. The challenge however is the fragmentation of climatic data collection, the lack of agreed indicators and the poor coordination amongst institutions resulting in drought management being reactive, or ‘crisis management’ approach. A paradigm shift to a more risk reduction approach is therefore required to enable cost-effective and timely response to drought disasters. The capacity to monitor and predict the drought attributes (onset, frequency, duration and severity) is fundamental for spatiotemporal (drought) monitoring. Based on a review of country and regional networks, this research developed an integrated drought monitoring and early warning framework for Eswatini. The framework incorporated an early warning response trigger threshold derived from an integration of the standardised precipitation index and normalised difference vegetation index. The adoption of the framework allows for early warning and early action to mitigate the consequences of drought disasters. Drought preparedness and risk mitigation will help lower the eventual drought relief costs, protect food security and reduce the humanitarian impact on the population.
Highlights
Drought is one of the most detrimental natural hazards causing adverse effects to social and ecological systems (Hao & AghaKouchak 2014)
The R-value was calculated for the months of December and January for the selected drought years
The results, values of R for standard precipitation index (SPI)-3 and normalised difference vegetation index (NDVI) correlation coefficient, are presented in Figure 3, and the relationship is shown in the Figure 4 scatter plot
Summary
Drought is one of the most detrimental natural hazards causing adverse effects to social and ecological systems (Hao & AghaKouchak 2014). The insidious natural hazard is affecting the livelihoods of millions of people worldwide in many different ways, 200 million people living in southern Africa, causing billions of dollars in loss annually, especially for the farming communities (FAO 2004). Droughts are becoming more frequent and severe in many countries of sub-Saharan Africa, causing huge damages to humanity, the environment and the economy (Masih et al 2014). Eswatini has been affected by moderate to severe droughts, leading to huge impacts on the economic, environmental and societal sectors (Sheffield & Wood 2012; Smith & Katz 2013). The dependence of Eswatini’s economy on rain-fed agriculture emphasises the importance of drought monitoring and early warning for decision-making
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
