Center for Green Infrastructure and Stormwater ManagementEPA Grant Number: R835142
Center: Center for Green Infrastructure and Stormwater Management
Center Director: Echols, Stuart Patton
Title: Center for Green Infrastructure and Stormwater Management
Investigators: Echols, Stuart Patton , Clark, Shirley E , Gray, Barbara L , Orland, Brian A , Ready, Richard C , Royer, Matthew B , Saacke-Blunk, Kristen , Shortle, James S. , Wagener, Thorsten
Current Investigators: Echols, Stuart Patton , Clark, Shirley E , Duffy, Christopher , Gray, Barbara L , Orland, Brian A , Ready, Richard C , Royer, Matthew B , Shortle, James S.
Institution: Pennsylvania State University
Current Institution: Pennsylvania State University , Montana State University - Bozeman
EPA Project Officer: Hiscock, Michael
Project Period: March 1, 2012 through February 28, 2018
Project Amount: $2,173,026
RFA: Sustainable Chesapeake: A Collaborative Approach to Urban Stormwater Management (2011) RFA Text | Recipients Lists
Research Category: Congressionally Mandated Center , Sustainability , Water
The Center will conduct well integrated, interdisciplinary research to understand and influence how decisions are made at multiple levels to improve planning, design, adoption, and the successful and sustainable implementation of innovative stormwater management systems to protect and restore the Chesapeake Bay. The Center will use a variety of inquiry methods, data types, analysis systems and community engagement to build the body of information that will reframe and reduce institutional barriers for innovations in stormwater management through the adoption and implementation of green infrastructure.
Integration across diverse disciplines has enabled the development of five distinct but highly linked research projects focusing on: 1) decision making and the cognitive and institutional barriers that prevent adoption of green infrastructure measures for stormwater management; 2) green infrastructure design and visualization for human perception in decision making; 3) hydrologic and water quality modeling for source control, infiltration, harvesting, and pollution retention; 4) nonhydrological benefits and citizen preferences for costs, ordinances, and values in comparison of green- and gray infrastructures; and 5) the critical nexus of public engagement and outreach in targeted regions. The fifth research component employs transformative regional engagement to ensure the research is informative and relevant to the green infrastructure and stormwater management decisions made at all levels. The five research projects are closely coordinated to sequentially and simultaneously achieve the stated research goals, utilizing and integrating a suite of tools that each discipline brings to bear including surveys, modeling, computerized visualization, and engagement techniques.
Improved adoption by multiple levels of decision makers of green infrastructures that will significantly improve stormwater management in urban and suburban settings, reduce pollutant loads of nutrients, sediments, organics, and metals and diminish stormwater volume and energy produced from a range of storm event magnitudes.
Journal Articles: 3 Displayed | Download in RIS Format
|Other center views:||All 16 publications||3 publications in selected types||All 3 journal articles|
||Leonard L, Duffy CJ. Essential Terrestrial Variable data workflows for distributed water resources modeling. Environmental Modelling & Software 2013;50:85-96.||
||Yu X, Bhatt G, Duffy C, Shi Y. Parameterization for distributed watershed modeling using national data and evolutionary algorithm. Computers & Geosciences 2013:58;80-90.||
||Yu X, Duffy C, Zhang Y, Bhatt G, Shi Y. Virtual experiments guide calibration strategies for a real-world watershed application of coupled surface-subsurface modeling. Journal of Hydrologic Engineering 2016;21(11):04016043.||
Supplemental Keywords:watersheds, groundwater, land, global climate, precipitation, effects, effluent, discharge, public policy, community-based, cost-benefit, non-market valuation, preferences, public good, socio-economic, environmental assets, hydrology, engineering, social science, monitoring, measurement methods, Mid-Atlantic
Progress and Final Reports:
Subprojects under this Center: (EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
R835142C001 Decision Making – Cognitive and Institutional Barriers
R835142C002 Green Infrastructure Design and Visualization
R835142C003 Hydrologic and Water Quality Modeling for Green Infrastructure
R835142C004 Non-Hydrological Benefits and Citizen Preference
R835142C005 Public Engagement and Outreach