Frederick D. Day-Lewis (Former Employee)
Science and Products
Filter Total Items: 13
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Filter Total Items: 94
Return flows from beaver ponds enhance floodplain-to-river metals exchange in alluvial mountain catchments Return flows from beaver ponds enhance floodplain-to-river metals exchange in alluvial mountain catchments
River to floodplain hydrologic connectivity is strongly enhanced by beaver- (Castor canadensis) engineered channel water diversions. The hydroecological impacts are wide ranging and generally positive, however, the hydrogeochemical characteristics of beaver-induced flowpaths have not been thoroughly examined. Using a suite of complementary ground- and drone-based heat tracing and remote...
Authors
Martin Briggs, Cheng-Hui Wang, Frederick Day-Lewis, Kenneth H. Williams, Wenming Dong, John Lane
Residence time controls on the fate of nitrogen in flow‐through lakebed sediments Residence time controls on the fate of nitrogen in flow‐through lakebed sediments
For many glacial lakes with highly permeable sediments, water exchange rates control hydrologic residence times within the sediment‐water interface (SWI) and the removal of reactive compounds such as nitrate, a common pollutant in lakes and groundwater. Here we conducted a series of focused tracer injection experiments in the upper 20 cm of the naturally downwelling SWI in a flow‐through...
Authors
Tyler B. Hampton, Jay P. Zarentske, Martin A. Briggs, Kamini Singha, Judson W. Harvey, Frederick D. Day-Lewis, Farzaneh MahmoodPoor Dehkordy, John W. Lane
Multi-scale preferential flow processes in an urban streambed under variable hydraulic conditions Multi-scale preferential flow processes in an urban streambed under variable hydraulic conditions
Spatially preferential flow processes occur at nested scales at the sediment-water interface (SWI), due in part to sediment heterogeneities, which may be enhanced in flashy urban streams with heavy road sand influence. However, several factors, including the flow-rate dependence of preferential hyporheic flow and discrete groundwater discharge zones are commonly overlooked in reach-scale...
Authors
Farzaneh MahmoodPoor Dehkordy, Martin A. Briggs, Frederick D. Day-Lewis, Kamini Singha, Ashton Krajnovich, Tyler B. Hampton, Jay P. Zarnetske, Courtney R. Scruggs, Amvrossios C. Bagtzoglou
The dual‐domain porosity apparatus: Characterizing dual porosity at the sediment/water interface The dual‐domain porosity apparatus: Characterizing dual porosity at the sediment/water interface
The characterization of pore-space connectivity in porous media at the sediment/water interface is critical to understanding contaminant transport and reactive biogeochemical processes in zones of groundwater and surface-water exchange. Previous in situ studies of dual-domain (i.e., mobile/less-mobile porosity) studies have been limited to solute tracer injections at scales of meters to...
Authors
Courtney R. Scruggs, Martin A. Briggs, Frederick D. Day-Lewis, Dale D. Werkema, John W. Lane
DTSGUI: A python program to process and visualize fiber‐optic distributed temperature sensing data DTSGUI: A python program to process and visualize fiber‐optic distributed temperature sensing data
Fiber‐optic distributed temperature sensing (FO‐DTS) has proven to be a transformative technology for the hydrologic sciences, with application to diverse problems including hyporheic exchange, groundwater/surface‐water interaction, fractured‐rock characterization, and cold regions hydrology. FO‐DTS produces large, complex, and information‐rich datasets. Despite the potential of FO‐DTS...
Authors
Marian M. Domanski, Daven Quinn, Frederick D. Day-Lewis, Martin A. Briggs, Dale D. Werkema, John W. Lane
Evaluating long-term patterns of decreasing groundwater discharge through a lake-bottom permeable reactive barrier Evaluating long-term patterns of decreasing groundwater discharge through a lake-bottom permeable reactive barrier
Identifying and quantifying groundwater exchange is critical when considering contaminant fate and transport at the groundwater/surface-water interface. In this paper, areally distributed temperature and point seepage measurements are used to efficiently assess spatial and temporal groundwater discharge patterns through a glacial-kettle lakebed area containing a zero-valent iron...
Authors
Timothy D. McCobb, Martin A. Briggs, Denis R. LeBlanc, Frederick D. Day-Lewis, Carole D. Johnson
Science and Products
Filter Total Items: 13
No Result Found
Filter Total Items: 94
Return flows from beaver ponds enhance floodplain-to-river metals exchange in alluvial mountain catchments Return flows from beaver ponds enhance floodplain-to-river metals exchange in alluvial mountain catchments
River to floodplain hydrologic connectivity is strongly enhanced by beaver- (Castor canadensis) engineered channel water diversions. The hydroecological impacts are wide ranging and generally positive, however, the hydrogeochemical characteristics of beaver-induced flowpaths have not been thoroughly examined. Using a suite of complementary ground- and drone-based heat tracing and remote...
Authors
Martin Briggs, Cheng-Hui Wang, Frederick Day-Lewis, Kenneth H. Williams, Wenming Dong, John Lane
Residence time controls on the fate of nitrogen in flow‐through lakebed sediments Residence time controls on the fate of nitrogen in flow‐through lakebed sediments
For many glacial lakes with highly permeable sediments, water exchange rates control hydrologic residence times within the sediment‐water interface (SWI) and the removal of reactive compounds such as nitrate, a common pollutant in lakes and groundwater. Here we conducted a series of focused tracer injection experiments in the upper 20 cm of the naturally downwelling SWI in a flow‐through...
Authors
Tyler B. Hampton, Jay P. Zarentske, Martin A. Briggs, Kamini Singha, Judson W. Harvey, Frederick D. Day-Lewis, Farzaneh MahmoodPoor Dehkordy, John W. Lane
Multi-scale preferential flow processes in an urban streambed under variable hydraulic conditions Multi-scale preferential flow processes in an urban streambed under variable hydraulic conditions
Spatially preferential flow processes occur at nested scales at the sediment-water interface (SWI), due in part to sediment heterogeneities, which may be enhanced in flashy urban streams with heavy road sand influence. However, several factors, including the flow-rate dependence of preferential hyporheic flow and discrete groundwater discharge zones are commonly overlooked in reach-scale...
Authors
Farzaneh MahmoodPoor Dehkordy, Martin A. Briggs, Frederick D. Day-Lewis, Kamini Singha, Ashton Krajnovich, Tyler B. Hampton, Jay P. Zarnetske, Courtney R. Scruggs, Amvrossios C. Bagtzoglou
The dual‐domain porosity apparatus: Characterizing dual porosity at the sediment/water interface The dual‐domain porosity apparatus: Characterizing dual porosity at the sediment/water interface
The characterization of pore-space connectivity in porous media at the sediment/water interface is critical to understanding contaminant transport and reactive biogeochemical processes in zones of groundwater and surface-water exchange. Previous in situ studies of dual-domain (i.e., mobile/less-mobile porosity) studies have been limited to solute tracer injections at scales of meters to...
Authors
Courtney R. Scruggs, Martin A. Briggs, Frederick D. Day-Lewis, Dale D. Werkema, John W. Lane
DTSGUI: A python program to process and visualize fiber‐optic distributed temperature sensing data DTSGUI: A python program to process and visualize fiber‐optic distributed temperature sensing data
Fiber‐optic distributed temperature sensing (FO‐DTS) has proven to be a transformative technology for the hydrologic sciences, with application to diverse problems including hyporheic exchange, groundwater/surface‐water interaction, fractured‐rock characterization, and cold regions hydrology. FO‐DTS produces large, complex, and information‐rich datasets. Despite the potential of FO‐DTS...
Authors
Marian M. Domanski, Daven Quinn, Frederick D. Day-Lewis, Martin A. Briggs, Dale D. Werkema, John W. Lane
Evaluating long-term patterns of decreasing groundwater discharge through a lake-bottom permeable reactive barrier Evaluating long-term patterns of decreasing groundwater discharge through a lake-bottom permeable reactive barrier
Identifying and quantifying groundwater exchange is critical when considering contaminant fate and transport at the groundwater/surface-water interface. In this paper, areally distributed temperature and point seepage measurements are used to efficiently assess spatial and temporal groundwater discharge patterns through a glacial-kettle lakebed area containing a zero-valent iron...
Authors
Timothy D. McCobb, Martin A. Briggs, Denis R. LeBlanc, Frederick D. Day-Lewis, Carole D. Johnson