Kristen E. Cognac scite author profile

Streambed fluxes are highly variable through time and space, having a range implications for stream‐aquifer processes. This study investigated streambed fluxes over a 3‐year study period to characterize short‐ and long‐term variations and related implications for seepage recharge and hyporheic exchange. Time series of streambed fluxes were estimated through Darcy‐based methods using water level and temperature inputs from shallow (<1.5 m) nested streambed piezometers installed in two mountain‐front streams in Colorado, USA. Three predominant temporal scales of variability were characterized: sub‐daily (<1 day), daily (>1 day; <1 year), and interannual (>1 year). Temporal variability was quantified using the median absolute deviation (MAD), a statistical measure that is resistant to extreme values associated with short‐duration events. Sub‐daily variability (MADS‐D) was related to ET, temperature‐induced changes in hydraulic conductivity, and variable stream stage, and was quantified using the MAD of detrended fluxes (daily mean subtracted). Daily variability (MADD), calculated as the MAD of daily median fluxes for a given year, exceeded sub‐daily variability, and was influenced by strong seasonality at some sites. For individual sites and water years, the ratio of MADS‐D to MADD ranged from 0.03 to 0.70, with an average of 0.25. Annual median fluxes at each site varied across years, but typically remained consistent in order of magnitude and direction. Results reveal a strong linear correlation between the daily variability and the median annual flux at individual sites. Within a year, summer months characterized by stronger losing conditions showed greater overall variability. 1D numerical heat and flow modelling was performed to calibrate hydraulic parameters and to investigate temperature‐related controls for sub‐daily variations. We discuss implications of documented temporal variability for analyses of hyporheic exchange and groundwater recharge. Results provide a basis for quantifying temporal variations in streambed fluxes and highlight the extent to which fluxes vary over multiple timescales.

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Forecasting Groundwater Contaminant Plume Development Using Statistical and Machine Learning Methods

McConnell

Askarani

Cognac

et al. 2022

Groundwater Monitoring Rem

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This column reviews the general features of PHT3D Version 2, a reactive multicomponent transport model that couples the geochemical modeling software PHREEQC-2 (Parkhurst and Appelo 1999) with three-dimensional groundwater flow and transport simulators MODFLOW-2000 and MT3DMS (Zheng and Wang 1999). The original version of PHT3D was developed by Henning Prommer and Version 2 by Henning Prommer and Vincent Post (Prommer and Post 2010). More detailed information about PHT3D is available at the website http://www.pht3d.org.The review was conducted separately by two reviewers. This column is presented in two parts.

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Influence of Natural Beaver Dams on Groundwater Recharge Dynamics in a Stream-Alluvial-Bedrock Aquifer System

Arauz¹,

Cognac²,

Ronayne³

2022

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Induced Recharge and Changes in Groundwater-Surface Water Interaction in Response to Long Term Pumping of a Multi-Aquifer System

Cognac¹,

Ronayne²

2018

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Kristen E. Cognac

Changes to inter-aquifer exchange resulting from long-term pumping: implications for bedrock groundwater recharge

Multiple timescales of streambed flux variability in two perennial mountain‐front streams

Forecasting Groundwater Contaminant Plume Development Using Statistical and Machine Learning Methods

Influence of Natural Beaver Dams on Groundwater Recharge Dynamics in a Stream-Alluvial-Bedrock Aquifer System

Induced Recharge and Changes in Groundwater-Surface Water Interaction in Response to Long Term Pumping of a Multi-Aquifer System

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