The water flowing from our taps doesn't originate at a treatment plant; it begins in our watersheds, specifically the upstream land of the greater Occoquan Watershed. When development occurs—such as paving and building within the watershed—we do more than alter the scenery. These actions fundamentally change how water moves through the landscape, how streams withstand drought, and how much pollution ultimately reaches the reservoir.
Development and Its
Consequences
Every acre of forest and
field that is converted into roofs, roads, and driveways reduces groundwater
recharge and increases polluted runoff. This pushes our streams closer to
drying up, causing gradual, cumulative, and eventually sudden destruction of our
source water.
Currently, there is a proposal to amend the Comprehensive
Plan for more than 200 acres west of Thoroughfare Road and south of John
Marshall Highway. This proposal would change zoning from A-1 Agricultural to
Planned Mixed Residential (PMR), permitting 97 detached homes, 56 attached
homes, and the accompanying roads, parking lots, driveways, patios, and other
impervious surfaces. Such changes are not neutral for the water supply; they
directly impact the land that feeds our streams and, ultimately, the Occoquan
Reservoir. It is not just this change it is the destruction of the watershed one comprehensive plan amendment at a time.
Importance of the
Bull Run Watershed
The Bull Run watershed is a vital part of the source-water
system for the Occoquan Reservoir, which supplies drinking water to eastern
Prince William County and much of eastern Fairfax County. The lower Bull Run
area remains one of the most intact and least-disturbed sections of the
watershed. Once these headwaters are fragmented and paved, we lose the natural
infrastructure that maintains clean water, particularly during droughts. The
issues observed in Little Bull Run are not isolated; they serve as a warning
regarding the consequences of continued development in western and central
Prince William for our drinking water supply.
Groundwater: The
Invisible Essential
To understand the ongoing changes, it's important to discuss
groundwater, which is invisible yet essential. Groundwater typically provides
30% to more than 50% of the annual flow for streams and rivers. This steady,
slow-moving contribution is known as baseflow and acts like a "savings
account," sustaining streams over time and providing flow during dry
spells.
Drought and Its
Effects
Prince William County and most of Virginia are currently
experiencing severe drought. While the region usually receives about 44 inches
of rainfall annually, last year was about 9 inches below average, and the first
half of this water year saw roughly half the usual precipitation- about 13 inches below average. Despite a
period of very wet years from 2018 to 2021, followed by near-normal rainfall
with dry summers, recent summers have exposed weaknesses in the system.
Stream and
Groundwater Dynamics
Streams in the Bull Run watershed are “gaining” streams,
receiving direct groundwater supply. For groundwater to feed a stream, the
water table must be higher than the stream’s water level, allowing water to
seep through streambeds and banks. Excessive groundwater withdrawal or reduced
recharge can sever this connection, turning perennial streams into seasonal
ones.
Impervious Cover
and Stormwater Runoff
As development increases impervious cover—such as roads,
pavement, and buildings—the area available for rain and snow to infiltrate the
ground decreases. Stormwater velocity and quantity rise, preventing
infiltration and increasing flooding, which carries fertilizers, oil, grease,
and road salt into rivers and streams. In the past six years, stormwater
flooding has occurred adjacent to previously open areas of the county away from the shoreline.
Increased runoff volume and velocity lead to higher peak
storm flows, causing flooding, soil erosion, and fast-moving water that carries
contaminants. Reduced infiltration means less groundwater, which is essential
for maintaining the base flow to streams and rivers feeding the Occoquan
Reservoir during dry months.
Groundwater
Recharge Trends
Groundwater in the Culpeper Basin is generally replenished
annually through precipitation, but increasing impervious surfaces have altered
this balance. In the past, water withdrawal matched recharge rates, ensuring
adequate supply even during droughts. However, the region’s only nearby US
Geological Survey groundwater monitoring well has shown a slow decline in water
levels over the past decade and a half, despite varied rainfall conditions.
Watershed Response
to Development
In Haymarket, the Bull Run Mountain Conservancy found that
perennial streams such as Little Bull Run and Catlett’s Branch were dry during
a dry August, with Catharpin Creek reduced to puddles. This was the driest
period observed and may signal a new normal during dry times, highlighting how
the watershed responds to recent development.
Reduced groundwater levels gradually transform perennial
streams into ephemeral ones, disconnecting groundwater from surface water. Once
development destroys watershed hydrology, restoration becomes extremely
difficult. The Occoquan watershed is essential for regional drinking water, and
groundwater is critical for streams and rivers.
Protecting
Groundwater and Hydrology
Long-Term Watershed
Changes
Development triggers immediate responses in a watershed, but
significant ecological and physical changes take 20 to 50 years to fully
emerge. Replacing 35–50% of forested areas with impervious surfaces permanently
alters water movement. As impervious coverage increases, profound hydrological
and ecological shifts occur over time.
Hydrological
Alterations
- Runoff
reaches streams more rapidly and in larger volumes, causing higher peak
floods and more frequent flooding.
- Perennial
streams begin to dry out or flow intermittently, eventually becoming
ephemeral.
- Impervious
surfaces prevent water from soaking into the ground, leading to dropping
water tables and dry streams during summer.
Physical and Water
Quality Changes
- High-velocity
storm runoff causes severe bank erosion, incision, and blowouts,
destroying aquatic habitats.
- Stormwater
carries oils, heavy metals, road salts, and nutrients directly into
waterways, bypassing natural filtration.
- Rainwater
flowing over heated pavement raises stream temperatures, threatening
aquatic life.
- Pavement,
compacted lawns, and buildings prevent groundwater percolation, increasing
land temperatures.
The cumulative effects observed now stem from building
during the 1990s through 2007.
Recommendations for
Protecting Source Water
- Treat
the Bull Run watershed as source-water infrastructure—not as leftover land
for development.
- Oppose
Comprehensive Plan changes and rezonings that increase impervious cover in
headwaters feeding Bull Run and the Occoquan system.
- Enforce
stronger safeguards: limits on impervious cover, meaningful forest
protection, groundwater-recharge preservation, and stormwater designs that
mimic natural infiltration.
- Support
acquisition and conservation easements for large, connected tracts in the
watershed, because once developed, hydrology is permanently changed.
If the watershed continues to be treated as an empty canvas
for growth, we risk actively destroying the source water for our regional
drinking water supply, incrementally through rezoning, roads, and parking lots.
By protecting infiltration, baseflow, and intact stream corridors now, we can
safeguard the Occoquan for decades to come.
