Grantee Research Project Results
2019 Progress Report: Vermicompost from Phytoremediation of Stormwater
EPA Grant Number: SU839453Title: Vermicompost from Phytoremediation of Stormwater
Investigators: Malcolm, Elizabeth , Wang, Xixi , McConnell, William , Howard, Maury , Reese, Margaret , Rock, Philip , Henry, Katrina , Ewell, Paul , Craft, Noah , Marosi, Arika , Canady, Warren , Steel, Gavin , Class, Michael , Venanzi, Philip , Hipple, Elizabeth , Hendricks, Christy , Purdin, Emily , Murrell, Phoebe , Fernandez, Alison , Xie, Jinyuan
Current Investigators: Malcolm, Elizabeth , Wang, Xixi , McConnell, William , Howard, Maury , Reese, Margaret , Rock, Philip , Henry, Katrina , Ewell, Paul , McCorty, Mayanni , Bateman, Kelly , Wang, Leyi , Brett, Arika , Craft, Noah , Marosi, Arika , Canady, Warren , Steel, Gavin , Class, Michael , Venanzi, Philip , Hipple, Elizabeth , Hendricks, Christy , Purdin, Emily , Murrell, Phoebe , Fernandez, Allison , Xie, Jinyuan
Institution: Virginia Wesleyan College
EPA Project Officer: Page, Angela
Phase: I
Project Period: December 1, 2018 through November 30, 2019 (Extended to May 30, 2020)
Project Period Covered by this Report: December 1, 2018 through November 30,2019
Project Amount: $15,000
RFA: P3 Awards: A National Student Design Competition Focusing on People, Prosperity and the Planet (2018) RFA Text | Recipients Lists
Research Category: P3 Awards , P3 Challenge Area - Safe and Sustainable Water Resources
Objective:
Constructed wetlands (CWs) and stormwater management ponds (SWMPs) are a popular best management practice for reducing flood risk and removing pollution from stormwater runoff in rural, urban, and suburban areas. SWMPs and CWs are often a sink for heavy metal pollution from sources including automotive wear and atmospheric deposition. However, some CWs have been found to be 'hotspots' of methylmercury production, thus increasing downstream methylmercury. Another challenge is that excess nutrients in SWMPs cause algal blooms, often considered a nuisance by adjacent landowners and thus detrimental to property values. These algal blooms are sometimes controlled by application of algaecides.
The research and design goals of this project are to 1) evaluate the potential for reducing total nitrogen, phosphorus, mercury and metals within stormwater ponds and CWs by algae removal, and 2) design and demonstrate a novel, value-added vermicomposting method for freshwater algae.
Progress Summary:
A mesocosm experiment was conducted first, which evaluated the uptake of metals by natural consortium of filamentous algae. It was demonstrated that the algae in the mesocosms that had been spiked with heavy metals (Cu, Cd, Hg, Pb and Zn) retained higher concentrations of said metals than the algae in mesocosms without spikes. The concentrations decreased in the water of the mesocosms without algae, though there was a 150-185% improved reduction of heavy metals in the mesocosms with the algae addition. A vermicompost experiment was then initiated using these algae samples and vermicompost bins. There were three treatments: bins with high-metal algae, low-metal algae or no algae. The worms successfully decomposed filamentous algae, which was mixed with food waste, demonstrating that filamentous freshwater algae can be used as a vermicompost feedstock. The metal concentrations in the finished compost, including that with the high-metal algae treatment, were well within limits laid out by European compost rules, except for mercury. The vermicompost was nutrient-rich compared to typical expectations for compost, and was consistent across all three treatments.
A conceptual framework for modeling hydrologic processes in bioretention ponds was created and evaluated, which included refined nomographs, and was determined to be a cost-effective tool for assessing treatment efficiency of bioretention ponds in removing nitrogen and phosphorus. Further, the applicability of the Monold model for predicting algal blooms in shallow lakes or ponds, which share the hydrodynamic and physiological characteristics with the constructed wetland on the VWU campus was evaluated. The fluctuations of nitrogen and phosphorus concentrations in an urban stormwater pond
located in Virginia Beach, Virginia were measured and visualized. These measured concentrations may be extrapolated or scaled up to formulate a broad picture of water quality in the stormwater ponds in coastal Virginia and beyond.
An inquiry based lesson on phycoremediation and stormwater pollution was created and shared with over four hundred elementary students and around 50 elementary students' parents, through field trips onto our campus, summer camps, and from presenting the lesson at area schools and organizations. The lesson has also been presented to around twenty practicing teachers through state and national teaching conferences. At least 40 teaching candidates in teacher education classes have participated in learning about this lesson. Additionally, over sixty undergraduate students conducted course research projects based on this research.
Future Activities:
To our knowledge this is the first study to evaluate phycoremediation for nutrients and metals in stormwater ponds and the first study to use algae as a vermicompost amendment. This research suggests that the removal of filamentous algae from surface water is an effective, easily-implemented and eco-friendly means to reduce toxic metals in water bodies and that freshwater filamentous algae can be used to create nutrient rich vermicompost.
Journal Articles:
No journal articles submitted with this report: View all 7 publications for this projectSupplemental Keywords:
low impact development, bioretention ponds, eutrophicationProgress and Final Reports:
Original AbstractThe perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.