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Using Multiobjective Optimization to Inform Green Infrastructure Decisions as Part of Robust Integrated Water Resources Management Plans

A. N. Piscopo, Chris Weaver, Naomi E. Detenbeck

2021Journal of Water Resources Planning and Management20 citationsDOIOpen Access PDF

Abstract

Uncertainty in the impacts of climate change and development on freshwater resources pose significant challenges for water resources management. Integrated and adaptive approaches to water resources management are a promising means of addressing uncertainty that afford flexibility in balancing multiple stakeholder objectives. However, guidance on designing such plans is lacking. In this study, we use multi-objective optimization to strategically incorporate green infrastructure (GI) into water resources management plans that maximize reductions in nutrient loads, minimize stormwater runoff, and minimize costs. Robust decision-making methods are applied to the resulting plan options to evaluate how optimized GI implementation varies under different possible future climates and to determine which solutions would be robust under a range of plausible future conditions. We demonstrate these coupled methods using a case study in southern Massachusetts, to address water quality issues related to point and nonpoint source nutrients in a rapidly developing watershed.

Topics & Concepts

Water resourcesFlexibility (engineering)Environmental scienceLow-impact developmentWatershed managementNonpoint source pollutionMulti-objective optimizationComputer scienceStakeholderWatershedAdaptive managementWater qualityRobust optimizationEnvironmental resource managementStorm Water Management ModelEnvironmental economicsSurface runoffStormwaterStormwater managementEconomicsBiologyMathematicsManagementMachine learningMathematical optimizationEcologyWater resources management and optimizationUrban Stormwater Management SolutionsHydrology and Watershed Management Studies
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