Kerim Dickson scite author profile

Interbasin transfers (IBTs) are man‐made transfers of water that cross basin boundaries. These transfers are used to distribute water resources according to supply and demand. The objectives of this work were to quantify the number of IBTs that exist in the United States (U.S.) and to examine the distribution of IBTs and potential causes associated with any observed clustering of IBTs. Defining “basin” was important to enable determination of which transfers qualify as “interbasin.” A variety of definitions are employed by states, with no federal definition. The most recent national studies of IBTs were conducted by the U.S. Geological Survey (USGS) in 1985 and 1986 using USGS Hydrologic Unit Code (HUC) definitions of basins. To build a 2016 inventory of IBTs in the U.S., and to identify where they most commonly occur, the USGS National Hydrography Database (NHD) was utilized in conjunction with the Watershed Boundary Dataset (WBD). Transfers across HUC6 basin boundaries were considered interbasin. Geographical information analysis with the NHD and WBD databases revealed that there are a total of 2,161 man‐made waterways crossing HUC6 basin boundaries in the U.S. IBTs are somewhat concentrated: Florida, Texas, and North Carolina account for over 50% of the total identified IBTs. For some states, identified IBTs are locally clustered. Analysis of these clusters suggests a variety of reasons that IBTs have been built, including population, drainage, and agricultural factors.

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Comparison of potential drinking water source contamination across one hundred U.S. cities

Turner

Rice

Nelson

et al. 2021

Nat Commun

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Drinking water supplies of cities are exposed to potential contamination arising from land use and other anthropogenic activities in local and distal source watersheds. Because water quality sampling surveys are often piecemeal, regionally inconsistent, and incomplete with respect to unregulated contaminants, the United States lacks a detailed comparison of potential source water contamination across all of its large cities. Here we combine national-scale geospatial datasets with hydrologic simulations to compute two metrics representing potential contamination of water supplies from point and nonpoint sources for over a hundred U.S. cities. We reveal enormous diversity in anthropogenic activities across watersheds with corresponding disparities in the potential contamination of drinking water supplies to cities. Approximately 5% of large cities rely on water that is composed primarily of runoff from non-pristine lands (e.g., agriculture, residential, industrial), while four-fifths of all large cities that withdraw surface water are exposed to treated wastewater in their supplies.

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Water‐Use Data in the United States: Challenges and Future Directions

Marston

Abdallah²,

Bagstad

et al. 2022

J American Water Resour Assoc

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Water Supply Risk in the United States 2015–2050 Considering Projected Changes in Population and Thermoelectric Power Demand

Dickson

Dzombak

2019

Environ. Sci. Technol.

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Examination of water supply risk is important to identify areas of potential insecurity and prioritize allocation of resources. This work builds on and advances a previous U.S. water supply risk analysis developed at county-scale resolution, which did not account for water flow between counties and identified some counties on major rivers as being at high risk. This limitation is addressed in the present study. The analysis utilized data from U.S. Geological Survey water use reports to assess current water supply risk and also projected water supply risk in 2050. Flow volumes were calculated using the Water Supply Sustainability Index (WaSSI) tool developed by the USDA Forest Service, enabling the analysis to account for changes in climate and hydrology and changes in water demand. A modified Water Risk Index (WRI) was formulated, including five factors to which scaled values were assigned. Results indicate that accounting for natural transfers of water in counties in addition to local precipitation reduced the risk profile of many counties, with a maximum of 36 classified as high or very high risk, compared to over 400 identified in the highest risk category in the previous analysis.

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Interbasin water transfers in the United States and Canada

et al. 2023

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Interbasin water transfers (IBTs) can have a significant impact on the environment, water availability, and economies within the basins importing and exporting water, as well as basins downstream of these water transfers. The lack of comprehensive data identifying and describing IBTs inhibits understanding of the role IBTs play in supplying water for society, as well as their collective hydrologic impact. We develop three connected datasets inventorying IBTs in the United States and Canada, including their features, geospatial details, and water transfer volumes. We surveyed the academic and gray literature, as well as local, state, and federal water agencies, to collect, process, and verify IBTs in Canada and the United States. Our comprehensive IBT datasets represent all known transfers of untreated water that cross subregion (US) or subdrainage area (CA) boundaries, characterizing a total of 641 IBT projects. The infrastructure-level data made available by these data products can be used to close water budgets, connect water supplies to water use, and better represent human impacts within hydrologic and ecosystem models.

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Kerim Dickson

Inventory of Interbasin Transfers in the United States

Comparison of potential drinking water source contamination across one hundred U.S. cities

Water‐Use Data in the United States: Challenges and Future Directions

Water Supply Risk in the United States 2015–2050 Considering Projected Changes in Population and Thermoelectric Power Demand

Interbasin water transfers in the United States and Canada

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