Assessing Stream-Aquifer Connectivity in a Coastal California Watershed

We report the results of field and laboratory investigations of stream-aquifer interactions in a watershed along the California coast to assess the impact of groundwater pumping for irrigation on stream flows. The methods used include subsurface sediment sampling using direct-push drilling, laborato...

Full description

Saved in:
Bibliographic Details
Published in:Water (Basel) 2021-02, Vol.13 (4), p.416
Main Authors: Malama, Bwalya, Pritchard-Peterson, Devin, Jasbinsek, John J., Surfleet, Christopher
Format: Article
Language:English
Subjects:
Aquatic resources
Aquifer testing
Aquifers
Coastal aquifers
Coastal waters
Confined aquifers
Connectivity
Creeks & streams
Depletion
Drilling
Drought
Droughts
Electric properties
Electrical resistivity
Environmental monitoring
Groundwater
Groundwater data
Groundwater irrigation
Groundwater levels
Groundwater management
Hydraulics
Hydrologic data
Instrumentation
Irrigation
Leakage
Management
Measurement techniques
Monitoring
Permeability
Polls & surveys
Precipitation
Pumping
Pumping tests
Sediment samplers
Sediments (Geology)
Spectral analysis
Stream discharge
Surface-groundwater relations
Time series
Tracers (Chemistry)
Trout
Water
Water levels
Water management
Water resources
Water resources management
Water, Underground
Watersheds
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We report the results of field and laboratory investigations of stream-aquifer interactions in a watershed along the California coast to assess the impact of groundwater pumping for irrigation on stream flows. The methods used include subsurface sediment sampling using direct-push drilling, laboratory permeability and particle size analyses of sediment, piezometer installation and instrumentation, stream discharge and stage monitoring, pumping tests for aquifer characterization, resistivity surveys, and long-term passive monitoring of stream stage and groundwater levels. Spectral analysis of long-term water level data was used to assess correlation between stream and groundwater level time series data. The investigations revealed the presence of a thin low permeability silt-clay aquitard unit between the main aquifer and the stream. This suggested a three layer conceptual model of the subsurface comprising unconfined and confined aquifers separated by an aquitard layer. This was broadly confirmed by resistivity surveys and pumping tests, the latter of which indicated the occurrence of leakage across the aquitard. The aquitard was determined to be 2–3 orders of magnitude less permeable than the aquifer, which is indicative of weak stream-aquifer connectivity and was confirmed by spectral analysis of stream-aquifer water level time series. The results illustrate the importance of site-specific investigations and suggest that even in systems where the stream is not in direct hydraulic contact with the producing aquifer, long-term stream depletion can occur due to leakage across low permeability units. This has implications for management of stream flows, groundwater abstraction, and water resources management during prolonged periods of drought.
ISSN:2073-4441
2073-4441
DOI:10.3390/w13040416