8 Multi-Benefit Resources


How much water can be captured from flood flows to store in depleted aquifers for mitigating floods and droughts? A case study from Texas, US

Author: Yang & Scanlon, The University of Texas at Austin (2019)
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How much water can be captured from flood flows to store in depleted aquifers for mitigating floods and droughts? A case study from Texas, US presents a case study of the opportunity to capture high magnitude flows from 10 major rivers discharging to the Gulf of Mexico and storage potential in nearby depleted aquifers. This modeling study explores managed aquifer recharge with flood flows as an approach to reducing flooding and addressing water supply challenges during droughts.

San Francisco Bay Shoreline Adaptation Atlas

Author: San Francisco Estuary Institute, SPUR (2019)
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The San Francisco Bay Shoreline Adaptation Atlas offers practitioners and decision makers in the region a comprehensive, science-based framework for assessing, planning, and designing sea level rise adaptation strategies. The framework organizes adaptation strategies around geographically connected areas, called Operational Landscape Units (OLUs); these OLUs are explained in depth with specific strategies considered for each within the Atlas’ mapping tool.

The Economic Impact of Green City, Clean Waters: The First Five Years

Author: Sustainable Business Network (SBN), Green Stormwater Infrastructure Partners, Econsult Solutions (2016)
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The Economic Impact of Green City, Clean Waters: The First Five Years evaluates the economic impact of the Green City, Clean Waters (GCCW) plan in Philadelphia, PA. The Green City, Clean Waters was an initiative of the Philadelphia Water Department to implement more green infrastructure in the city of Philadelphia. The initiative resulted in a multitude of benefits, including boosts in the local economy, increased jobs, improved equity, revived habitats, and overall enhanced aesthetics.

Preliminary Data Summary of Urban Storm Water Best Management Practices

Author: U.S. EPA (1999)
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Preliminary Data Summary of Urban Storm Water Best Management Practices synthesizes existing information on costs and environmental benefits of stormwater Best Management Practices (BMPs). The major goals of stormwater BMPs are flow control, temperature and pH control, and pollutant removal, including solids, oxygen-demanding substances, nitrogen and phosphorus, pathogens, petroleum hydrocarbons, metals, and synthetic organics. The environmental benefits cited include hydrological and habitat benefits, human health benefits (direct contact and seafood), and aesthetic benefits (property value/public perception, dual use systems using less space). The report provides a recommendation for stormwater BMPs and their associated costs and benefits.

Green Infrastructure Opportunities and Barriers in the Greater Los Angeles Region

Author: U.S. EPA (2013)
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Green Infrastructure Opportunities and Barriers in the Greater Los Angeles Region analyzes the regulatory barriers to installing green infrastructure in Los Angeles. The types of green infrastructure projects discussed in the report include bioretention cells, bioretention strips/swales, infiltration basins/swales/trenches, planter boxes, constructed wetlands, rainwater capture, permeable pavement, and drywells. The report defines the regulatory landscape for green infrastructure in California, identifies potential for fulfilling multiple regulations and requirements through green infrastructure projects, and lastly, examines the regulatory barriers to green infrastructure implementation.

Rainwater as a Resource: A Report on Three Sites Demonstrating Sustainable Stormwater Management

Author: TreePeople (2007)
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Rainwater as a Resource: A Report on Three Sites Demonstrating Sustainable Stormwater Management (2007) presents three case studies for stormwater management: (1) single-family, parcel sized greening in South Los Angeles, CA, (2) campus greening at Hillery T. Broadous Elementary School in Pacoima, CA, and (3) campus greening at Open Charter Magnet Elementary School in Westchester, CA. The report includes costs and quantified benefits for tree benefits (tree canopy, carbon storage, carbon sequestration, energy savings), stormwater benefits (runoff reduction, avoided storage), and air pollution benefits (ozone, SO2, NO2, PM10, and CO removal). The report also includes a discussion of additional non-quantified benefits including student health and safety, green waste reuse, and green recreation space.

LA Sustainable Water Project: Los Angeles River Watershed

Author: Mika et al., UCLA Grand Challenges (2017)
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LA Sustainable Water Project: Los Angeles River Watershed provides an in-depth analysis of the potential future opportunities for water recycling, stormwater capture, groundwater recharge, and water quality improvements along the Los Angeles River. The analysis takes into account current water supply and water quality projects and management practices along the river. The report deduces that more work is needed to better understand optimal levels of stormwater capture and water recycling along the river so as to balance the impact on in-stream flows.

Water Storage Investment Program Technical Reference

Author: California Water Commission (2016)
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Water Storage Investment Program Technical Reference details the methodology for quantifying the co-benefits or adverse impacts of water storage projects under California’s Water Storage Investment Program (WSIP). The report outlines methods for quantification of various co-benefits and adverse impacts, providing guidance on defining future site conditions, calculating physical changes, monetizing project benefits and costs, comparing benefits and costs, properly allocating costs to beneficiaries, determining cost-effectiveness and public-benefit ratio, and evaluating sources of uncertainty. Projects that quantify public benefits following these methodologies are eligible for California state bond funding to pay for the public benefits.