Watershed Management at the Basin Scale at Duke UniversityEPA Grant Number: SU834714
Title: Watershed Management at the Basin Scale at Duke University
Investigators: Schaad, David , Deshusses, Marc , Medina, Miguel A. , Richardson, Curtis J. , Kabala, Zbigniew J. , Bernhardt, Emily , Halley, Jim , Palumbo, Steve
Current Investigators: Schaad, David , Deshusses, Marc , Medina, Miguel A. , Li, Ming Jiu , Chung, Hyun Koo , Strickland, Matthew Robert , Kim, Hye Yeon , Pollak, Adam , Skabardonis, Alexander , Nicoletti, Alexandra , Casanova, Andrea , Jones, Andrew , Norwood, Andrew , Wood, Andrew , Luong, Angie , Mesler, Annelise , Thomson, Ashley , Patel, Avni , Au, Brian , McCall, Chuck , Gunsch, Claudia , Moss, Daniel , Liao, Edward , Huang, Ellen , Durham, Emily , Mlyn, Eric , Convery, Erin , Cambareri, Grace , Mackebee, Greer , Osserman, Harris , Hsu-Kim, Helen , Cavanaugh, Hilary , Walker, Hillary , Peterson, Inga , Caldwell, James , Dolan, James , Royston, Jay , Chang, Jeff , Lehigh, Jessica , Halley, Jim , Kassof, Jordan , Walton, Judson , Kailimai, Keoni , Kuroglu, Kerem , Yates, Kevin , Frederickson, Kristin , Schlimme, Kurt , Shwisberg, Lauren , Hou, Liang , Cobb, Liz , Morgan, Lyndsey , Kelleher, Magdalena , Leonhardt, Marianne , Wander, Matt , Arias, Megan , Bernert, Michael , Sullivan, Mike , Sohn, Nari , Mbewe, Phyllis , Veerman, Richard , Taggart, Ross , Moyer, Stephen , Palumbo, Steve , Schooley, Tammy , Lee, Tiffany , Rapp, Travis , Lowe, Trisha , Rohr, Tyler , Beckman, Will , Hollander, Zach
Institution: Duke University , EcoEngineering
Current Institution: Duke University , East Carteret High School , EcoEngineering
EPA Project Officer: Page, Angela
Project Period: August 15, 2010 through August 14, 2011
Project Amount: $10,000
RFA: P3 Awards: A National Student Design Competition for Sustainability Focusing on People, Prosperity and the Planet (2010) RFA Text | Recipients Lists
Research Category: Pollution Prevention/Sustainable Development , P3 Challenge Area - Water , P3 Awards , Sustainability
America's development pedagogies, urban land use, and storm water management have significantly altered the hydrological and ecological health of its watersheds and streams. While there exists a variety of stream restoration and storm water best management practices, they are often employed independently at individual sites and have yet to demonstrate scientific efficacy in restoring function of the entire watershed. With increasing frequency of variable moisture conditions (like droughts) and stricter regulation of nutrient loads in surface waters (the recent promulgation of Total Maximum Daily Loads [TMDLs] in regional watersheds), the need for cohesive basin-wide management and restoration is significant to ensure regular supply of clean water for human consumption and recreation, and the continued health of aquatic ecosystems.
In a collaborative effort between researchers, the facilities management staff, and an outside engineering firm, Duke is working to develop a basin wide management strategy which could be duplicated at other universities across the nation. Instead of examining individual stream reaches, or a section of the campus, the approach being proposed for the P3 contest is to treat the entire watershed as an integrated system, with solutions being conceptualized on the basin scale to address the identified problems.
The proposal for the P3 contest is to initiate an ongoing learning laboratory initiative with a pilot demonstration project that will restore a section of stream and improve local storm water management. The pilot project will lay a foundation for the basin-wide learning laboratory, where students from various disciplines can work with practicing professionals to develop stream restoration, wetland mitigation and storm water management measures that are a step beyond best management practices currently employed. The students are not only able to develop their design, but as part of several service-learning courses are able to work to realize the design and actually participate in the construction of the designed solution around a portion of the identified basin approach. The ongoing initiative will enable students to grow a replicable basin-wide strategy that collectively addresses an issue of sustainability by restoring the hydrological and ecological function of an urban watershed and stream system.