Ground Water Effects of Toppenish Creek Restoration Tom Elliott Yakama Nation Wildlife.

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Presentation transcript:

Ground Water Effects of Toppenish Creek Restoration Tom Elliott Yakama Nation Wildlife

Project Area-Toppenish Creek on Yakama Reservation Toppenish Creek 1909

Historical Context Drastic land use changes over last 200 years- Beaver trapping Cattle and sheep grazing Railroad and road development Irrigated Agriculture

Floodplain Disconnection

LiDAR Elevation Model 2005 channel

Floodplain Restoration Using Grade Control Goals: Reconnect previously active channels and floodplain Spread flood waters Raise water table for riparian habitat improvement

Monitoring Network Stream gage

Study Approach Did the project raise the floodplain water table relative to creek flows? Collect and reduce data Characterize groundwater interactions Select wells that show creek influence Compare water levels before and after project completion for selected wells Project was completed in fall of 2006

Water table March Kriged using ArcMap Geostatistical Analyst

Toppenish Creek vs. Marion Drain

Well Data need to reduce!

Creek Influence on Wells

Stream Stage Data project completed

Graphical analysis

Water levels before and after average difference = 0.26 ft average difference = 1.81 ft average difference = 0.82 ft average difference = ft 1.81 ft – 0.26 ft = 1.5 ft Toppenish Creek at Unit 2 Average water levels in selected wells

Data Summary

Channel effects?

September 2005

July 2008

Conclusions Grade control structures appear to have raised water table relative to upstream flow by at least 1 foot at low flow Project effects vary by well location The biological significance is likely to be positive Better data collection is necessary for future monitoring efforts

Questions?

Works cited Reichmuth, D.R., Potter, A.S., and Reichmuth, M.G., 2007, Toppenish Basin Geomorphology, Geomax, P.C. Zar, J.H., 1999, Biostatistical Analysis, Fourth Edition: Upper Saddle River, New Jersey, Prentice-Hall, Inc., 798 p.