When it comes to flood resilience, small communities are often on the front lines, facing steep terrain, aging infrastructure, and increasingly severe storms. In Tazewell County, Virginia, local leaders are turning those challenges into opportunities for smarter, safer, and more sustainable growth.
Supported by Virginia’s Community Flood Preparedness Fund (CFPF), the City of Tazewell partnered with RES to launch a portfolio of flood resilience projects that reduce risk, restore natural systems, and strengthen infrastructure. These efforts stem from the 2023 Tazewell County Resiliency Plan, developed by RES and Stantec through extensive modeling, GIS analysis, and public engagement across the county’s most flood-prone areas, including Richlands, Bluefield, North Tazewell, and the City of Tazewell.
Awarded in 2024, this project targets chronic flooding near three schools—Richlands Elementary, Middle, and High—as well as surrounding businesses and residential areas. The design enhances stormwater conveyance through improved drainage, on-site retention basins, and reshaped channels that intercept runoff, thereby improving water quality. Using peak flow reduction modeling, the system provides greater capacity and on-site retention, ensuring safer access to critical community assets that also serve as emergency shelters.
Also awarded in 2024, this project builds on a comprehensive flood study of the Beaver Pond Creek system, where frequent flash floods disrupt local businesses and threaten key public services, such as the Bluefield Fire Station.
Using a 2D calibrated model, RES and the Town of Bluefield identified upstream flood storage opportunities, including stream and floodplain restoration within City Park. The proposed design integrates an overflow channel and a floodplain retention pond equipped with a continuous monitoring and automated control (CMAC) system to regulate storage and release after storms. Additional restoration along 3,000 linear feet of Beaver Pond Creek will reconnect the stream and floodplain, enhance habitat diversity, and create new recreational amenities, including trails around the restored area.
Heavy storm events have repeatedly overwhelmed stream corridors in North Tazewell, depositing debris and sediment that restricts flow. RES is combining debris removal, bank stabilization, and native vegetation replanting to restore channel stability, improve conveyance, and reduce future maintenance costs.
Along the Clinch River corridor, Tazewell County completed a flood study that proposes a mitigation solution expected to reduce 100-year base flood elevations (BFEs) by 2–3 feet for properties along Bottom and Raven Roads. Flooding in this area routinely isolates residents, overtops bridges, and damages mobile home communities. A 2D flood model and alternatives analysis identified an effective solution: an overflow channel at Kirby Road that directs floodwaters into a restored bypass area containing capture ponds designed to store, slow, and filter runoff. The project will restore open water, emergent, and forested wetland habitats, providing co-benefits for biodiversity and water quality while protecting critical infrastructure and ensuring emergency access during major storms.
These projects represent more than physical improvements; they mark a shift toward data-driven flood management and scalable local action. The CFPF framework enables communities to move efficiently from planning to construction, often without requiring local matching funds. By combining modeling, ecological restoration, and stakeholder collaboration, Tazewell County is creating a model that other municipalities can follow.
For municipalities seeking to strengthen flood resilience, Tazewell’s experience highlights three key strategies:
By aligning planning, design, and restoration under a single vision, Tazewell County is demonstrating that even small communities can lead the way in building a more resilient future.