Lost River Groundwater – Surface Water Management
Geologic Framework Influence On Managing Groundwater Interference With Surface Water,
A Lost River Sub-Basin Example, Upper Klamath River Basin, Oregon
Gerald H. GrondinOregon Water Resources Department
Groundwater Hydrology SectionSalem, Oregon
Lost River Groundwater – Surface Water Management
Klamath River Basin, Oregon & CaliforniaLost River Sub-Basin
Lost River Groundwater – Surface Water Management
Lost River Sub-BasinIrrigated Acreages: Surface Water & Groundwater
Lost River Groundwater – Surface Water Management
Lost River Sub-BasinOregon Groundwater Water Right Wells
Lost River Groundwater – Surface Water Management
Upper Klamath River BasinSurface Hydrogeologic Units and Geologic Structure
Gannett & others (2007)
http://callumeatstoronto.files.wordpress.com/2012/06/satelitte-united-states.jpg
Lost River Groundwater – Surface Water Management
Upper Klamath River BasinGeology: Basin and Range Topography
Lost River Groundwater – Surface Water Management
Upper Klamath River BasinGeology: Basin-Fill Deposits
Lost River Groundwater – Surface Water Management
Upper Klamath River BasinGeology: Basalt/Volcanics Deposits
Lost River Groundwater – Surface Water Management
Lost River Sub-BasinBasalt & Basin-Fill Groundwater is Hydraulically Connected
Lost River Groundwater – Surface Water Management
Lost River Sub-BasinDeep & Shallow Groundwater is Hydraulically Connected
Lost River Groundwater – Surface Water Management
Lost River Sub-BasinGroundwater & Surface Water is Hydraulically Connected
Lost River Groundwater – Surface Water Management
Lower Lost River Sub-BasinGroundwater & Surface Water Connection: Primarily Seepage
Lost River Groundwater – Surface Water Management
Lower Lost River Sub-BasinGroundwater & Surface Water Connection: Primarily Seepage
Lost River Groundwater – Surface Water Management
Lower Lost River Sub-BasinGroundwater - Surface Water: Seepage (No Pumping)
Lost River Groundwater – Surface Water Management
Lower Lost River Sub-BasinGroundwater - Surface Water: Seepage (Basin-Fill Pumping)
Lost River Groundwater – Surface Water Management
Lower Lost River Sub-BasinGroundwater - Surface Water: Seepage (Basalt Pumping)
Lost River Groundwater – Surface Water Management
Lower Lost River Sub-BasinGroundwater - Surface Water Connection: Seepage
Barlow & Leake (2012)
Lost River Groundwater – Surface Water Management
Lower Lost River Sub-BasinGroundwater - Surface Water: Seepage (Basalt Pumping)
Gannett & Others (2012)
Lost River Groundwater – Surface Water Management
Upper Lost River Sub-BasinGroundwater & Surface Water Connection: Springs
Lost River Groundwater – Surface Water Management
Upper Lost River Sub-BasinGroundwater & Surface Water Connection: Springs
Lost River Groundwater – Surface Water Management
Upper Lost River Sub-BasinGroundwater & Surface Water Connection: Springs
Lost River Groundwater – Surface Water Management
Upper Lost River Sub-BasinGroundwater & Surface Water Connection: Springs
Lost River Groundwater – Surface Water Management
Upper Lost River Sub-BasinGroundwater & Surface Water Connection: Springs
Lost River Groundwater – Surface Water Management
Conclusions1. Groundwater Occurs in Both “Basin-Fill” and “Basalt” Units
2. Groundwater in Deep vs. Shallow Water-Bearing Zones is Connected
3. Groundwater & Surface Water are Connected: Seepage & Springs
4. Groundwater Pumping Causes Surface Water Depletion
5. Depletion Seasonal Magnitude & Duration Variesa. Depletion via Springs is More Acute than via Seepageb. Depletion is Less Acute with Distance c. Depletion is Less Acute with Greater Well Seal Depth
6. Depletion Total Volume Remains the Same Over Time
Lost River Groundwater – Surface Water Management
Water Resource Management Consideration1. Recognize & Decide
a. Recognize Total Depletion Volume Over Time Remains the Sameb. Recognize Maximum Rate & Duration of Depletion Can Varyc. Decide What to Manage
2. Managing Acuteness of Depletion Rate & Durationa. Continuous Well Casing & Seal Through “Basin-Fill” Into “Basalt” b. Greater Distance Between Wells & Surface Water c. Avoid Depletion via Springs as Much as Possible
3. Managing Depletion Maximum Rate & Volumea. Determine Maximum Monthly Depletion Acceptable b. Determine Maximum Monthly GW Pumping Rate Acceptablec. Determine Maximum Annual GW Pumping Volume Acceptable