Wednesday, July 17, 2024

Groundwater and the Slow Death of a Watershed

This has been a dry summer so far.  The water year which runs from October 1- September 30 is running about around 30 inches in Prince William County. The average would be about 36 inches of rain by July 30th.   After a wet decade, this is our second dry summer. The U.S. Drought Monitor map by the NOAA Climate Prediction Center indicates that 86% of Virginia is experiencing drought conditions, with 35% is experiencing severe drought conditions.  

According to the ICPRB the rain deficit for the Potomac Basin was about 2 inches in June. The U.S. Drought Monitor indicates that about 52% of the Potomac River Basin is experiencing moderate drought conditions, while 38% is experiencing severe drought conditions. The Climate Prediction Center’s U.S. Seasonal Drought Outlook, as of June 30, 2024, indicates drought is likely to persist in the Potomac Basin over the coming months. 

The reason that ICPRB tracks the drought condition of the Potomac River basin and the flow of the river is because the Potomac River, its tributaries, reservoirs and the associated groundwater resources are the source of drinking water for the over 6,000,000 people in the Washington Metropolitan area. Although hidden in the subsurface, groundwater is the most important freshwater compartment in the hydrological cycle by quantity. Groundwater exists below all land with varying distance to the surface, but only in  20-30% of the land area is groundwater close to the land surface. The conditions of the surface streams and the rainfall provide some hints of what may be happening underneath the ground.

Groundwater is intricately linked to the other components of the hydrological cycle (Sophocleous, 2002). Groundwater releases water to streams sustaining the base flow of streams and rivers (Hare et al., 2021). Groundwater is the primary source of springs and many wetlands (e.g. marshes, peat bogs) (Bertrand et al., 2011; Havril et al., 2018; Gleeson et al., 2020a). Finally, the groundwater saturated subsurface, the hydroporic  constitutes the largest continental biome contributing to the health and purity of our water resource. The small changes in the springs, seeps and streams is telling us that our watershed is changing, and not in a good way.

Ground water flow and storage is often viewed as static reservoirs that serves as the savings account for surface water flow. Through the hyporheic zone groundwater feeds streams between rain storms, but groundwater is dynamic and continually changing in response to human and climatic stress [Alley et al., 2002Gleeson et al., 2010]. Changes in precipitation patterns, the amount of precipitation and the changes in land use impacts available groundwater and surface water.

from the groundwater project

Mankind’s hand in changing the land surface impacts water resources. Land use changes that increase impervious cover, add more suburban lawns, roadways, buildings, pavement and eliminates woodlands does two things. It reduces the open area for rain and snow to seep into the ground and percolate into the water table and on into groundwater and the impervious surfaces cause stormwater velocity to increase preventing water from having enough time to percolate into the earth, increasing storm flooding and preventing recharge of groundwater from occurring. Land use changes also potentially increases the use of groundwater by adding more homes and businesses (like Amazon who reports drawing millions of gallons of groundwater in the Manassas area).

Slowly, the changes in land use change the ecology of the watershed and can reduce the water supply over time. As groundwater levels fall, perennial steams that feed the rivers become intermittent during dry periods like this past month and last July and August. I believe this is what is happening in the area of the Bull Run Mountain Conservancy where for the second summer in a row, what where perennial streams have stopped flowing in the summer.

It appears that with the current level of development, the depth to groundwater is increasing enough to disconnect some streams from the groundwater during summer months. The ecology begins to die and streams become intermittent and eventually become ephemeral- flowing only during rainstorms. It is believed that this begins to happen at 5-10% impervious cover, but whatever level we are at, we are seeing the beginning of the changes. The groundwater is becoming disconnected from Little Bull Run and Catlett’s Creek in the area of the headwaters of those streams. Once the hydrology and ecological biome is destroyed by development, it cannot be easily restored, if at all. Though there have been a few attempts we have not succeeded in restoring a watershed. We need to stop this now to save our drinking water supply. A network of continuous monitoring well is necessary to monitor the situation and take necessary actions to ensure that we have sustainable drinking water for all our residents.  

Protecting the Occoquan Reservoir requires protecting all the water resources in a region because all water in the watershed is connected. Precipitation moves into the water table (the hyporheic zone) down to groundwater or into rivers and streams. Disrupting the balance of water flow can have dire consequences. The available supply of fresh water is continually renewed by the hydrologic cycle and in the case of the Occoquan Reservoir the actions of mankind when we add the flow from the Upper Occoquan Service Authority wastewater treatment plant. During low flows the fraction of treated wastewater could exceed the amount of natural water.

The quantity and quality of ground water in Prince William County varies across the county depending on the geologic and hydrogeologic group and we must look at them all. Generally speaking, the groundwater in the county is recharged in elevated areas and discharges to streams and estuaries. However, the paths and duration of groundwater flow are different between consolidated rocks and unconsolidated material, between the Culpeper Basin and the Piedmont and the area within the Potomac Aquifer.

Changing land use and climate are impacting the Occoquan Reservoir. High wastewater effluent additions to rivers under low flow conditions can introduce pharmaceutical, personal care and cleaning chemicals into the drinking water supply at higher concentrations. Due to declining water potentials in groundwater aquifers and the infiltration of surface water into the subsurface, contamination by these chemicals poses a serious risk for groundwater quality (Bradley et al., 2014; Karakurt et al., 2019; Kubicz et al., 2021). A multitude of micropollutants are already being found in groundwater in the United States and worldwide at increasing concentrations (Lapworth et al., 2012). Moreover, the rising number of persistent micropollutants passing sewage treatment plants leads to a complex mix of contaminants in surface waters. 

We need more information before we destroy our precious Occoquan Watershed. We are paving over the watershed with roads, data centers, parking lots houses and infrastructure reducing the groundwater recharge, our stream flow and increasing the water demand. The Virginia Water Withdrawal Reporting Regulation only requires the registration and annual reporting of surface water and groundwater withdrawals of any entity withdrawing more than 300,000 gallons per month (that is equivalent to the combined daily use of about 140 people). Though there is no control or management of the water withdrawals except in the Groundwater Management areas of Virginia, essentially the Tidewater and adjacent areas. Of course, the way around the reporting requirements is to have several wells, none of which exceed the limit. Much the way its done with back up generators whose combined power equals a rather large on demand power plant that would never be allowed to operate on diesel as a combined entity is just fine as dozens upon of dozens of back up generators at the ever expanding fleet of data centers. We need to begin now to ensure that our future has water for all.


This article includes ideas and comments from:

Anke Uhl, Hans Jürgen Hahn, Anne Jäger, Teresa Luftensteiner, Tobias Siemensmeyer, Petra Döll, Markus Noack, Klaus Schwenk, Sven Berkhoff, Markus Weiler, Clemens Karwautz, Christian Griebler,
Making waves: Pulling the plug—Climate change effects will turn gaining into losing streams with detrimental effects on groundwater quality,
Water Research, Volume 220, 2022, 118649, ISSN 0043-1354,
https://doi.org/10.1016/j.watres.2022.118649
and

Julia Zill, Christian Siebert, Tino Rödiger, Axel Schmidt, Benjamin S. Gilfedder, Sven Frei, Michael Schubert, Markus Weitere, Ulf Mallast,
A way to determine groundwater contributions to large river systems: The Elbe River during drought conditions, Journal of Hydrology: Regional Studies, Volume 50, 2023, 101595, ISSN 2214-5818,
https://doi.org/10.1016/j.ejrh.2023.101595.
(https://www.sciencedirect.com/science/article/pii/S2214581823002823)

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