Surface Water

Issue : Degraded water quality and ecology in urban streams has been widely documented, but explanations of changing conditions over time are often unavailable. A 15-year collaborative urban stream monitoring effort between the Fairfax County Stormwater Planning Division and the U.S. Geological Survey (USGS) is ongoing and has begun to shed light on this complex issue. In a new USGS report by...

The Roanoke River is the primary source of the City of Salem's drinking water. Threats to water quality in rivers like the Roanoke have increased in recent years, and water authorities as well as residents are concerned about preventing source water contamination. Realtime water quality monitoring is a valuable tool in alerting water authorities such as Salem Water when there are anomalous...

Proper management of contaminants of emerging concern in the Chesapeake Bay region requires scientific efforts to understand the risk posed to aquatic resources from the “cocktail” of multiple contaminants that is often present. This research aims to assess the occurrence, sources, environmental impacts, biological effects, and the human health impacts of toxic contaminants in rivers.

Issue: The USGS has revised loads and trends through 2020 from monitoring stations in the Chesapeake Bay Program (CBP) Nontidal Network (NTN). The original release of the results was in July 2022. During a process to implement a new software package for the next update of NTN data, the USGS discovered some questionable data values. Most of the questionable values were related to a coding...

Climate change raises concern that risks of hydrological drought may be increasing. We estimate hydrological drought probabilities for rivers and streams in the United States using maximum likelihood logistic regression (MLLR). Streamflow data from winter months are used to estimate the chance of hydrological drought during summer months. Daily streamflow data collected from 9,144 stream gages...

The U.S. Geological Survey, partnering with the City of Roanoke and Virginia Tech, are working to monitor the water volume and quality in streams throughout the City of Roanoke. There are currently six monitoring stations within the city. Water-quality data are collected at five stations through real-time monitors and manual sampling to support the estimation of suspended sediment loads. The...

Many culverts and other drainage structures in rural West Virginia are located in small streams or valleys draining 100 acres or less. Design of these structures in West Virginia is generally done using discharge estimates made with widely used and well accepted methods. However, these methods require information including flow-segment length and channel geometry that are poorly characterized for...

Cost effective and safe highway bridge designs are required to ensure the long-term sustainability of Virginia’s road systems. The water flows that, over time, scour streambed sediments from bridge piers inherently affect bridge safety and design costs. To ensure safety, bridge designs must anticipate streambed scour at bridge piers over the lifespan of a bridge. Until recently Federal Highway...

In recent years, hundreds of millions of dollars have been invested into the implementation of Best Management Practices in Fairfax County, Virginia, with the goal of improving water quality. Research has demonstrated that best management practices are effective at smaller scales, but less information is available to document the effectiveness of these best management practices at the watershed...

The objectives of this study are to identify 1) the relations between water levels in the ditches and groundwater levels near the ditches and in the interior of the Blocks, 2) possible relations between groundwater levels and tree growth rates, and 3) current nutrient chemistry and possible nutrient transport pathways in these wetlands.

In 2015, the U.S. Geological Survey partnered with the Hampton Roads Sanitation District (HRSD) in cooperation with the Hampton Roads Planning District Commission to implement a water-quality monitoring program in six major cities across the Hampton Roads region. This long-term monitoring program consists of a network of 12 water-quality monitoring stations, 2 per jurisdiction, across the cities...

Planning for drought conditions in Virginia streams is essential to the sound management of water resources and associated riparian and watershed ecosystems. Reliable estimations of the likelihood that stream flows during drought-prone months will exceed specific low-flow thresholds can provide advance warning of drought conditions, allowing extended lead times for improved drought awareness and...