Author
Listed:
- Shantanu V. Bhide
(Virginia Tech)
- Stanley B. Grant
(Virginia Tech
Center for Coastal Studies, Virginia Tech)
- Emily A. Parker
(Virginia Tech)
- Megan A. Rippy
(Virginia Tech
Center for Coastal Studies, Virginia Tech)
- Adil N. Godrej
(Virginia Tech)
- Sujay Kaushal
(University of Maryland)
- Greg Prelewicz
(Fairfax Water)
- Niffy Saji
(Fairfax Water)
- Shannon Curtis
(Stormwater Planning Division, Public Works and Environmental Services)
- Peter Vikesland
(Virginia Tech)
- Ayella Maile-Moskowitz
(Virginia Tech)
- Marc Edwards
(Virginia Tech)
- Kathryn G. Lopez
(Virginia Tech)
- Thomas A. Birkland
(North Carolina State University)
- Todd Schenk
(Center for Coastal Studies, Virginia Tech
Virginia Tech)
Abstract
Inland freshwater salinity is rising worldwide, a phenomenon called the freshwater salinization syndrome (FSS). We investigate a potential conflict between managing the FSS and indirect potable reuse, the practice of augmenting water supplies through the addition of highly treated wastewater (reclaimed water) to surface waters and groundwaters. From time-series data collected over 25 years, we quantify the contributions of three salinity sources—a water reclamation facility and two rapidly urbanizing watersheds—to the rising concentration of sodium (a major ion associated with the FSS) in a regionally important drinking-water reservoir in the Mid-Atlantic United States. Sodium mass loading to the reservoir is primarily from watershed runoff during wet weather and reclaimed water during dry weather. Across all timescales evaluated, sodium concentration in the reclaimed water is higher than in outflow from the two watersheds. Sodium in reclaimed water originates from chemicals added during wastewater treatment, industrial and commercial discharges, human excretion and down-drain disposal of drinking water and sodium-rich household products. Thus, numerous opportunities exist to reduce the contribution of indirect potable reuse to sodium pollution at this site, and the FSS more generally. These efforts will require deliberative engagement with a diverse community of watershed stakeholders and careful consideration of the local political, social and environmental context.
Suggested Citation
Shantanu V. Bhide & Stanley B. Grant & Emily A. Parker & Megan A. Rippy & Adil N. Godrej & Sujay Kaushal & Greg Prelewicz & Niffy Saji & Shannon Curtis & Peter Vikesland & Ayella Maile-Moskowitz & Mar, 2021.
"Addressing the contribution of indirect potable reuse to inland freshwater salinization,"
Nature Sustainability, Nature, vol. 4(8), pages 699-707, August.
Handle:
RePEc:nat:natsus:v:4:y:2021:i:8:d:10.1038_s41893-021-00713-7
DOI: 10.1038/s41893-021-00713-7
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