This storm drain a Coliseum Drive is part of the Hampton Roads Regional Water Quality Monitoring Program.
Aaron J. Porter
Aaron Porter is a hydrologist and Project Chief at the U.S. Geological Survey's Virginia and West Virginia Water Science Center (VA-WV-WSC) in Richmond, VA.
Aaron has been involved in a wide variety of USGS water-resources investigations since 2014. His primary focus has been on utilizing streamflow and continuous water-quality monitoring to improve our understanding of nutrient and sediment dynamics in, and loadings from, small urban watersheds. Aaron is currently the project chief for the Hampton Roads Regional Stormwater Monitoring Program, Salem Source-Water Monitoring, the VA-WV-WSC demonstation gage at Mechumps Creek, and the project chief for the Fairfax County Water Resources Monitoring Program and the Hampton Roads Regional Water Quality Monitoring Program.
Education and Certifications
M.S. in Environmenal Science (2011) from Virginia Commonwealth University (VCU) with a focus on microbial ecology in wetland environments
B.A. in English with a minor in Public and Urban Planning from Virginia Tech (2005)
Science and Products
USGS Publications Summarize Water-Quality Trends and Drivers in Urban Streams After 10 Years of Monitoring in Fairfax County, Virginia
Source Water Monitoring on the Roanoke River in Salem, Virginia
Fairfax County Water Resources Monitoring Network
Hampton Roads Regional Water Quality Monitoring Program
Climate, Landscape, and Water-Quality Metrics for Selected Watersheds in Fairfax County, Virginia, 2007-2018
Inputs and Selected Outputs Used to Assess Stormwater Quality and Quantity in Twelve Urban Watersheds in Hampton Roads, Virginia, 2016 - 2020
Inputs and Selected Outputs Used to Assess Spatial and Temporal Patterns in Streamflow, Water-Chemistry, and Aquatic Macroinvertebrates of Selected Streams in Fairfax County, Virginia, 2007-2018
This storm drain a Coliseum Drive is part of the Hampton Roads Regional Water Quality Monitoring Program.
Water quality sondes collect continuous data from stormwater monitoring sites, but can often become fouled with algae, which interferes with the sonde's ability to collect accurate data. To keep these sondes clean between field visits, remote-activated bilge pumps are used to blast the algae from the sondes.
Water quality sondes collect continuous data from stormwater monitoring sites, but can often become fouled with algae, which interferes with the sonde's ability to collect accurate data. To keep these sondes clean between field visits, remote-activated bilge pumps are used to blast the algae from the sondes.
USGS researcher Aaron Porter at the Storm Drain at Rivers Ridge Circle near Newport News, VA monitoring site. Part of the Hampton Roads Regional Water Quality Monitoring Program
USGS researcher Aaron Porter at the Storm Drain at Rivers Ridge Circle near Newport News, VA monitoring site. Part of the Hampton Roads Regional Water Quality Monitoring Program
The interior of the Storm Drain at Coliseum Drive at Hampton, VA. Part of the Hampton Roads Regional Water Quality Monitoring Program.
The interior of the Storm Drain at Coliseum Drive at Hampton, VA. Part of the Hampton Roads Regional Water Quality Monitoring Program.
USGS researchers Aaron Porter and Chelsea Vande Pol use a handheld acoustic doppler velocimeter to measure streamflow in a stormwater drain as a part of the Hampton Roads Regional Water Quality Monitoring Program.
USGS researchers Aaron Porter and Chelsea Vande Pol use a handheld acoustic doppler velocimeter to measure streamflow in a stormwater drain as a part of the Hampton Roads Regional Water Quality Monitoring Program.
View of the Lick Run concrete lined channel
View of the Lick Run concrete lined channel
Small forested watershed weathers effects of climate change better than a nearby urban watershed in Northern Virginia, USA
Using local monitoring results to inform the Chesapeake Bay Program’s Watershed Model
Evaluating drivers of hydrology, water quality, and benthic macroinvertebrates in streams of Fairfax County, Virginia, 2007–18
Stormwater quantity and quality in selected urban watersheds in Hampton Roads, Virginia, 2016–2020
Identifying key stressors driving biological impairment in freshwater streams in the Chesapeake Bay watershed, USA
Spatial and temporal patterns in streamflow, water chemistry, and aquatic macroinvertebrates of selected streams in Fairfax County, Virginia, 2007–18
Hampton roads regional Water-Quality Monitoring Program
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Geonarrative Collection: Hampton Roads Stormwater Monitoring
Learn more about the U.S. Geological Survey's important water quality monitoring work in the Hampton Roads Region through our interactive webpage.
Geonarrative: How and why are conditions changing in Fairfax streams?
This interactive narrative summarizes a new U.S. Geological Survey report wherein monitoring data collected between 2007 and 2018 are used to provide insights into the changing water quality of urban streams in Fairfax County and the potential role of water-quality management practices.
Science and Products
USGS Publications Summarize Water-Quality Trends and Drivers in Urban Streams After 10 Years of Monitoring in Fairfax County, Virginia
Source Water Monitoring on the Roanoke River in Salem, Virginia
Fairfax County Water Resources Monitoring Network
Hampton Roads Regional Water Quality Monitoring Program
Climate, Landscape, and Water-Quality Metrics for Selected Watersheds in Fairfax County, Virginia, 2007-2018
Inputs and Selected Outputs Used to Assess Stormwater Quality and Quantity in Twelve Urban Watersheds in Hampton Roads, Virginia, 2016 - 2020
Inputs and Selected Outputs Used to Assess Spatial and Temporal Patterns in Streamflow, Water-Chemistry, and Aquatic Macroinvertebrates of Selected Streams in Fairfax County, Virginia, 2007-2018
This storm drain a Coliseum Drive is part of the Hampton Roads Regional Water Quality Monitoring Program.
This storm drain a Coliseum Drive is part of the Hampton Roads Regional Water Quality Monitoring Program.
Water quality sondes collect continuous data from stormwater monitoring sites, but can often become fouled with algae, which interferes with the sonde's ability to collect accurate data. To keep these sondes clean between field visits, remote-activated bilge pumps are used to blast the algae from the sondes.
Water quality sondes collect continuous data from stormwater monitoring sites, but can often become fouled with algae, which interferes with the sonde's ability to collect accurate data. To keep these sondes clean between field visits, remote-activated bilge pumps are used to blast the algae from the sondes.
USGS researcher Aaron Porter at the Storm Drain at Rivers Ridge Circle near Newport News, VA monitoring site. Part of the Hampton Roads Regional Water Quality Monitoring Program
USGS researcher Aaron Porter at the Storm Drain at Rivers Ridge Circle near Newport News, VA monitoring site. Part of the Hampton Roads Regional Water Quality Monitoring Program
The interior of the Storm Drain at Coliseum Drive at Hampton, VA. Part of the Hampton Roads Regional Water Quality Monitoring Program.
The interior of the Storm Drain at Coliseum Drive at Hampton, VA. Part of the Hampton Roads Regional Water Quality Monitoring Program.
USGS researchers Aaron Porter and Chelsea Vande Pol use a handheld acoustic doppler velocimeter to measure streamflow in a stormwater drain as a part of the Hampton Roads Regional Water Quality Monitoring Program.
USGS researchers Aaron Porter and Chelsea Vande Pol use a handheld acoustic doppler velocimeter to measure streamflow in a stormwater drain as a part of the Hampton Roads Regional Water Quality Monitoring Program.
View of the Lick Run concrete lined channel
View of the Lick Run concrete lined channel
Small forested watershed weathers effects of climate change better than a nearby urban watershed in Northern Virginia, USA
Using local monitoring results to inform the Chesapeake Bay Program’s Watershed Model
Evaluating drivers of hydrology, water quality, and benthic macroinvertebrates in streams of Fairfax County, Virginia, 2007–18
Stormwater quantity and quality in selected urban watersheds in Hampton Roads, Virginia, 2016–2020
Identifying key stressors driving biological impairment in freshwater streams in the Chesapeake Bay watershed, USA
Spatial and temporal patterns in streamflow, water chemistry, and aquatic macroinvertebrates of selected streams in Fairfax County, Virginia, 2007–18
Hampton roads regional Water-Quality Monitoring Program
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Geonarrative Collection: Hampton Roads Stormwater Monitoring
Learn more about the U.S. Geological Survey's important water quality monitoring work in the Hampton Roads Region through our interactive webpage.
Geonarrative: How and why are conditions changing in Fairfax streams?
This interactive narrative summarizes a new U.S. Geological Survey report wherein monitoring data collected between 2007 and 2018 are used to provide insights into the changing water quality of urban streams in Fairfax County and the potential role of water-quality management practices.