Clean Water for Less Integrated Planning Reduces the Cost of Meeting Water Quality Goals in New Hampshire

Rising populations and increased development in New Hampshire coastal communities have led to a decline in water quality in the Great Bay Estuary. Responding effectively and affordably to new federal permit requirements for treating and discharging stormwater and wastewater will require innovative solutions from communities in the area. The Water Integration for Squamscott-Exeter (WISE) project developed an integrated planning framework through which the coastal communities of Exeter, Stratham, and Newfields could significantly reduce the cost of meeting permit requirements. In this brief, authors Alison Watts, Robert Roseen, Paul Stacey, Renee Bourdeau, and Theresa Walker report that integrated planning could save these communities over $100 million (in fifty-year lifecycle costs) by prioritizing high-impact, low-cost mitigation strategies across permit type and town boundaries. The project, which has received an Environmental Merit award from Environment Protection Agency, also found that attainment of water quality standards in the Exeter–Squamscott River will not be possible without substantial cooperation and investment from upstream communities, which are not currently subject to EPA permit requirements. Collaboration among communities in planning and implementing projects to meet clean water regulations can have significant cost and effectiveness benefits

Water Integration for Squamscott Exeter (WISE): Preliminary Integrated Plan, Final Technical Report

This document introduces the goals, background and primary elements of an Integrated Plan for the Lower Exeter and Squamscott River in the Great Bay estuary in southern New Hampshire. This Plan will support management of point (wastewater treatment plant) and nonpoint sources in the communities of Exeter, Stratham and Newfields. The Plan also identifies and quantifies the advantages of the use of green infrastructure as a critical tool for nitrogen management and describes how collaboration between those communities could form the basis for an integrated plan. The Plan will help communities meet new wastewater and proposed stormwater permit requirements. Critical next steps are need before this Plan will fulfill the 2018 Nitrogen Control Plan requirements for Exeter and proposed draft MS4 requirements for both Stratham and Exeter. These next steps include conducting a financial capability assessment, development of an implementation schedule and development of a detailed implementation plan. The collaborative process used to develop this Plan was designed to provide decision makers at the local, state and federal levels with the knowledge they need to trust the Plan’s findings and recommendations, and to enable discussions between stakeholders to continue the collaborative process. This Plan includes the following information to guide local response to new federal permit requirements for treating and discharging stormwater and wastewater: Sources of annual pollutant load quantified by type and community; Assessment and evaluation of different treatment control strategies for each type of pollutant load; Assessment and evaluation of nutrient control strategies designed to reduce specific types of pollutants; Evaluation of a range of point source controls at the wastewater treatment facility based on regulatory requirements; Costs associated with a range of potential control strategies to achieve reduction of nitrogen and other pollutants of concern; and A preliminary implementation schedule with milestones for target load reductions using specific practices for specific land uses at points in time; Recommendations on how to implement a tracking and accounting program to document implementation; Design tools such as BMP performance curves for crediting the use of structural practices to support nitrogen accounting requirements; and Next Steps for how to complete this Plan

Clean Water for Less

Rising populations and increased development in New Hampshire coastal communities have led to a decline in water quality in the Great Bay Estuary. Responding effectively and affordably to new federal permit requirements for treating and discharging stormwater and wastewater will require innovative solutions from communities in the area. In March 2015, the Water Integration for Squamscott–Exeter (WISE) project completed an integrated planning framework through which the coastal communities of Exeter, Stratham, and Newfields could more affordably manage permits for wastewater and stormwater. However, meeting maximum goals for nitrogen reduction will require collaboration and commitment from all municipalities in the watershed, whether regulated under the Clean Water Act or not

Integrated urban water management applied to adaptation to climate change

Integrated Urban Water Management (IUWM) is the holistic management of urban water supply, sanitation, stormwater, and wastewater to achieve sustainable economic, social and environmental objectives. All parts of the urban water cycle are managed together instead of separately. IUWM can be part of the solution for cities facing singular or multiple water management stresses under present and future climates. It has particular advantages for adaptation because it can be implemented over time and space as climate and others conditions change with options preserved for future actions, it contains no-regrets and co-benefits actions, and integrates local stakeholders into the planning process. Research was conducted to qualitatively examine how IUWM can be used to manage multiple urban water stresses under present and future climates and land use conditions upon the built, natural, and social systems of Exeter, New Hampshire, a small town located in a semi-rural area of the northeastern United States. With its emphasis on holistic solutions and systems thinking, it is shown that by looking at Exeter\u27s suite of challenges through the lens of IUWM there are opportunities for integrated strategies that may lower overall adaptation costs and also provide wide-scale multi-criteria benefits