Litcius/Paper detail

Nature-based solutions for flood risk reduction: A probabilistic modeling framework

David Lallemant, Perrine Hamel, Mariano Balbi, Tian Ning Lim, Rafael Schmitt, Shelly Win

2021One Earth73 citationsDOIOpen Access PDF

Abstract

Flooding is the most frequent and damaging natural hazard globally. While nature-based solutions can reduce flood risk, they are not part of mainstream risk management. We develop a probabilistic risk analysis framework to quantify these benefits that (1) accounts for frequent small events and rarer large events, (2) can be applied to large basins and data-scarce contexts, and (3) quantifies economic benefits and reduction in people affected. Measuring benefits in terms of avoided losses enables the integration of nature-based solutions in standard cost-benefit analysis of protective infrastructure. Results for the Chindwin River basin in Myanmar highlight the potential consequences of deforestation on long-term flood risk. We find that loss reduction is driven by small but frequent storms, suggesting that current practice relying on large storms may underestimate the benefits of nature-based solutions. By providing average annual losses, the framework helps mainstream nature-based solutions in infrastructure planning or insurance practice.

Topics & Concepts

Reduction (mathematics)Probabilistic logicFlood mythRisk analysis (engineering)Computer scienceProbabilistic risk assessmentDisaster risk reductionEnvironmental scienceMathematicsBusinessGeographyEnvironmental resource managementArtificial intelligenceArchaeologyGeometryFlood Risk Assessment and ManagementHydrology and Watershed Management StudiesHydrology and Drought Analysis