IRIS researchers often work directly with communities on a variety of projects, from flood resilience to new infrastructure projects. This work is nationwide and collaborative by nature, allowing us to work side-by-side with not only other researchers, but community representatives, governments and more.
Ongoing Research
Recent Publications
Water supply, waste assimilation, and low-flow issues facing the Southeast Piedmont Interstate-85 urban archipelago (Journal of the American Water Resources Association, May 2023)
Authors: R. Jackson, S. Wenger, B. Bledsoe, J.M. Shepherd, K. Capps, A. Rosemond, M. Paul, M. Welch-Devine, K. Li, T. Stephens and T. Rasmussen.
Abstract: Rapidly growing cities along the Interstate-85 corridor from Atlanta, GA, to Raleigh, NC, rely on small rivers for water supply and waste assimilation. These rivers share commonalities including water supply stress during droughts, seasonally low flows for wastewater dilution, increasing drought and precipitation extremes, downstream eutrophication issues, and high regional aquatic diversity. Further challenges include rapid growth; sprawl that exacerbates water quality and infrastructure issues; water infrastructure that spans numerous counties and municipalities; and large numbers of septic systems. Holistic multi-jurisdiction cooperative water resource planning along with policy and infrastructure modifications is necessary to adapt to population growth and climate. We propose six actions to improve water infrastructure resilience: increase water-use efficiency by municipal, industrial, agricultural, and thermoelectric power sectors; adopt indirect potable reuse or closed loop systems; allow for water sharing during droughts but regulate inter-basin transfers to protect aquatic ecosystems; increase nutrient recovery and reduce discharges of carbon and nutrients in effluents; employ green infrastructure and better stormwater management to reduce nonpoint pollutant loadings and mitigate urban heat island effects; and apply the CRIDA framework to incorporate climate and hydrologic uncertainty into water planning.
Quantifying the impacts of future shoreline modification on biodiversity in a case of coastal Georgia, United States (Conservation Biology, May 2024)
Authors: D. Coleman, R. Pittman, C. Landry, J. Byers, C. Alexander, G.P. Coughlin and C.B. Woodson.
Abstract: People often modify the shoreline to mitigate erosion and protect property from storm impacts. The 2 main approaches to modification are gray infrastructure (e.g., bulkheads and seawalls) and natural or green infrastructure (NI) (e.g., living shorelines). Gray infrastructure is still more often used for coastal protection than NI, despite having more detrimental effects on ecosystem parameters, such as biodiversity. We assessed the impact of gray infrastructure on biodiversity and whether the adoption of NI can mitigate its loss. We examined the literature to quantify the relationship of gray infrastructure and NI to biodiversity and developed a model with temporal geospatial data on ecosystem distribution and shoreline modification to project future shoreline modification for our study location, coastal Georgia (United States). We applied the literature-derived empirical relationships of infrastructure effects on biodiversity to the shoreline modification projections to predict change in biodiversity under different NI versus gray infrastructure scenarios. For our study area, which is dominated by marshes and use of gray infrastructure, when just under half of all new coastal infrastructure was to be NI, previous losses of biodiversity from gray infrastructure could be mitigated by 2100 (net change of biodiversity of +0.14%, 95% confidence interval −0.10% to +0.39%). As biodiversity continues to decline from human impacts, it is increasingly imperative to minimize negative impacts when possible. We therefore suggest policy and the permitting process be changed to promote the adoption of NI.
News
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Student project tackles coastal flooding on Sapelo Island
Originally published here by the UGA College of Engineering. Written by Hayley Clement. UGA Emergency Preparedness, Marine Institute partner with College of Engineering for hands-on learning Students in the College of Engineering collaborated with the UGA Office of Emergency Preparedness and Insurance & Claims Management (OEP/ICM) and the UGA Marine Institute (UGAMI) on Sapelo Island on…
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What does resilience look like halfway around the world? Urban infrastructure researchers Alysha Helmrich and Lynn Abdouni explore resilience planning in Doha, Qatar
The concept of resilience can be slippery. Is it about longevity, flexibility, adaptivity? All of the above? Resilience has different definitions across disciplines, space, and time, and researchers at IRIS are figuring out the shape that resilience takes in a new project based over 7000 miles away. This summer, urban infrastructure researchers Alysha Helmrich and…
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New publication: A coupled model for understanding market dynamics in coastal property values
Congratulations to Craig Landry and colleagues for their recent publication in Nature Communications. They developed a coupled human-natural systems, agent-based model to understand the influence of tax incentives, market dynamics, and coastal management subsidies on U.S. coastal property values, finding a damped response to coastal hazards that could be ameliorated through policy changes. Such changes could hasten gentrification…