- THM’s-factors controlling PSD exceedances; especially in older systems along the Ohio river; what compliance reports are reflecting
- Bromide sources-sources, mass balance in streams, factors controlling stream concentrations, impacts
- Policy options proven to protect water resources that could help WV
- Data to support policy options
Climate Change Impacts on Water Resources
Watershed management to reduce flooding
- Project changes in storm hydrographs
- Baseflow indices at the watershed level
- Pooling water resources for use during drought
- Capacity and effects of water withdrawals
- Warmer water temperatures lead to longer retention times in lakes and
reservoirs (and decreases in mine drainage) which increases productivity
of algae blooms, nitrogen, and phosphorus even in winter in regions of
the Potomac Basin and Highlands of WV
- Effects of climate change on water bodies during seasonal withdraws
- Models for predicting future changes based on potential uses and
withdrawals; of special interest – Opekiska and Stonewall Jackson/Tygart
Industrial Processes and Urban Sprawl
- Treating and managing high TDS waters from mining sources
State Water Budget
- Access large, existing datasets such as those used to make annual
reports to the State Legislature from sources such as WVDEP, USACE,
USGS, WVDHHR, DNR and others.
- Identify small user data needs. Data Needs—Inventory and quantify small to medium water withdrawal users.
- Collaborate with agencies such as USGS, USACE, DNR, WVDEP, WVDHHR and
others to develop new and build on existing models that reflect water
inputs versus outputs, how much to release and when, what water quality
looks like in the future based on climate change, seasonal impacts, and
cumulative impacts on watersheds and aquatic life.
- Identify timing (seasonality) of water withdrawals; how much water is taken, when it is taken.
- Identify spatially water-sensitive watersheds (water quantity limited and biologically; e. g. federally or state listed ETC species) in the state.
- Use data such as TNC e-flows data to develop thresholds for adverse
effects on biological life and drinking water quality and cumulative
effects assessment at varying withdrawals, i.e., 30% and 50%.
- Propose pilot study in small watershed with current water withdrawals
such as from shale gas development to identify biological end points,
impacts to recreational value from flow variations on trout, bass, etc.
in specific systems to show cumulative effects.
- Refine use data (withdrawal and user) by watershed to provide a
general inventory by watershed of cumulative withdrawals regularly
updated as to what is being withdrawn and translating hydrologic
withdrawals into biological consequences, drinking water consequences
(quality/condition/capacity of drinking water plants), and ecological
Proposals under this announcement must be submitted to the WVWRI in pdf format to: Tamara.Vandivort@mail.wvu.edu by 5:00 pm November 30, 2018. Please include USGS104b in the subject line.