Characterizing spatial-temporal drought risk heterogeneities: A hazard, vulnerability and resilience-based modeling

Droughts are among the most socio-economically costly natural phenomenon. While most of the related research has focused on drought as a hazard, it is essential to go beyond such practice and utilize hazard information in integration with vulnerability and resilience. We put forth a multi-dimensional high-resolution assessment of drought risk in Pakistan on a national scale. To this end, we utilize a Drought Risk Index (DRI) based on inte-grated Drought Hazard (DHI), Drought Vulnerability (DVI), and Drought Resilience (DReI) indices. We further employ geospatial techniques to identify and pinpoint statistically significant clustering in the form of hot and cold spots (higher and lower values concentration, respectively). To the best of our knowledge, this is a pre-liminary effort to engage the state-of-the-art space-time pattern mining technique for the simultaneous spa-tial-temporal dynamics investigation of droughts. We observed varying north-south geographical distributions in DHI across the country with higher drought intensities in southern regions. While a sizeable spatial drought risk disparity is evident across Pakistan, the worst DRI results are seen in Balochistan, followed by Sindh. Notably, around one-third of the country is identified as the hot spot with the highest drought risk, which as-certains a grave situation under global warming. Our comprehensive results provide more insights to prepare for drought mitigation, adaptation measures, and systematic impact evaluation in the face of environmental changes.