Integrated Water Resource Management in Arid Regions: A Transformative Framework for Enhancing Water Security Under Climate Uncertainty
S. M. Abir Hossen *
Department of Civil Engineering, Faridpur Engineering College, Faridpur, Bangladesh.
S. M Rokibul Islam
Department of Civil Engineering, University of Asia Pacific, Dhaka, Bangladesh.
G. M. Sakib Al Helal
Department of Civil Engineering, Faridpur Engineering College, Faridpur, Bangladesh.
Shahin Mia
Department of Civil Engineering, Faridpur Engineering College, Faridpur, Bangladesh.
Sawkat Ali Mizan
Department of Civil Engineering, Faridpur Engineering College, Faridpur, Bangladesh.
Md. Al- Amin
Department of Civil Engineering, Faridpur Polytechnic Institute, Faridpur, Bangladesh.
Md. Bayazid Khan
Department of Civil Engineering, Faridpur Polytechnic Institute, Faridpur, Bangladesh.
*Author to whom correspondence should be addressed.
Abstract
Water insecurity threatens at least 2 billion people residing in arid and semi-arid parts of the world, with climate change and population growth exacerbating this human threat very fast. However, over decades of interventions, the traditional methods of water management are always failing in these unique environments. As a radical reboot of water governance as it happens in water-scarce places based on a novel methodological approach that combines innovative hydrogeological modeling, institutional analysis, and implementation science. Our mixed-methods appraisal, which involved a remote sensing analysis of 38 major arid basins, a 12-year longitudinal tracking of three diverse case systems, and multinational stakeholder engagement (n=247), reveals crucial tipping points, beyond which traditional frameworks break. Performance of conventional assessment models remains limited on arid landscapes, as they explain only 26% of outcomes variance (p<0.001), while our Climate-Adaptive Water Security Index reliably predicts 78% of system failures under heightening climate stress (p<0.001). The transformative framework for water governance that we propose repositions water governance in terms of adaptive resilience, instead of static sustainability, and creates a paradigm shift applicable to global water security challenges that are accelerating under climate change. This research presents a robust and flexible paradigm for climate-adaptive water governance in arid environments.
Keywords: Water governance, arid and semi-arid regions, resilience framework, integrated water resource management, climate change adaptation