This 2020 study, Comparing Streamflow Depletion Estimation Approaches in a Heavily Stressed, Conjunctively Managed Aquifer, offers a comparison of analytical depletion functions (ADFs) against a validated numerical model created for estimating streamflow depletion. This numerical model was developed as part of an interstate compact, and as such had substantially greater effort put into its development and calibration compared to models used for comparison studies elsewhere. Authors Samuel C. Zipper, Tom Gleeson, Qiang Li, and Ben Kerr conducted the study in the highly stressed aquifer of the Republican River (Colorado/Kansas, USA) with funding from NSERC, Kansas Geological Survey, the University of Victoria, and Foundry Spatial. Overall, the ADF produced comparable results to the validated numerical model at a fraction of the cost and time.
With funding from the Province of BC, NSERC, UVic, and Foundry Spatial, this 2020 study, Streamflow depletion from groundwater pumping in contrasting hydrogeological landscapes: Evaluation and sensitivity of a new management tool, provides the first comparison of analytical depletion functions (ADFs) against calibrated numerical models. Conducted in various hydrologic settings across British Columbia, the study looked at comparing existing numerical models with ADFs for estimating streamflow depletion. In some cases, it was found that the numerical models had been calibrated in such a way that they were not useful for estimating streamflow depletion. In other cases, where the numerical models…
In this 2019 study, Cannabis and residential groundwater pumping impacts on streamflow and ecosystems in Northern California, authors Samuel C Zipper, Jennifer K Carah, Christopher Dillis, Tom Gleeson, Ben Kerr, Melissa M Rohde, Jeanette K Howard, and Julie K H Zimmerman demonstrate the application of analytical depletion functions for evaluating impacts of groundwater pumping from different water uses.
This study was made possible with funding from the Natural Sciences and Engineering Resources Council of Canada, SD Bechtel, Jr. Foundation, University of Victoria, The Nature Conservancy — California, and Foundry Spatial. With their help, authors quantified the impact of an emerging agricultural frontier, Cannabis cultivation, on water resources, using the Navarro River (Coastal Range) in Northern California as a case study.
Conducted in 2019 at the Navarro River (Coastal Range) in Northern California, the Rapid and Accurate Estimates of Streamflow Depletion Caused by Groundwater Pumping Using Analytical Depletion Functions study tested 50 combinations of analytical depletion functions against an ‘archetypal’ numerical model.
Overall, authors Samuel C. Zipper, Tom Gleeson, Ben Kerr, Jeanette K. Howard, Melissa M. Rohde, Jennifer Carah, and Julie Zimmerman found that the performance of analytical depletion functions was comparable to archetypal numerical models. With the help of funding from the Natural Sciences and Engineering Resources Council of Canada, S.D. Bechtel, Jr. Foundation, University of Victoria, The Nature Conservancy — California, and Foundry Spatial, researchers also identified that the new approach works best in flatter terrain, with wells close to streams.
Published in May 2018, this study, Groundwater Pumping Impacts on Real Stream Networks: Testing the Performance of Simple Management Tools, defined three components of the analytical model approach: analytical model, apportionment method, and area of influence. Funded by the Government of Canada (NSERC) and the University of Victoria, this study provides the first test against numerical models using the groundwater flow system around Nanaimo on Vancouver Island, B.C. as the exemplar.
Overall, authors Samuel C. Zipper, Tom Dallemange, Tom Gleeson, Thomas C. Boerman and Andreas Hartmann identified the significance of stream geometry and drainage network for calculating estimates.
This 2018 study, Streamflow Depletion Modeling: Methods for an Adaptable and Conjunctive Water Management Decision Support Tool, was the initial investigation into the viability of bringing the impacts on streamflow from pumping groundwater into web-based decision support tools. Conducted in British Columbia’s Central Interior in the Bulkley Valley, the study acts as a proof of concept for analysis and decision-support.
With funding from the Government of Canada (NSERC), the University of Victoria, and Foundry Spatial, this study tested analytical models and methods for estimating depletion on real-world stream networks. Authors Xander Huggins, Tom Gleeson, Hailey Eckstrand, and Ben Kerr provide the first response to the question: “can we incorporate groundwater impacts on surface water in our water technology framework?”
California currently extracts about 14.2 million acre-feet of groundwater every year, and about 80% of Californians rely on groundwater for their daily needs. Long seen as a safe and reliable source of water, resilient to drought and scarcity, California now finds itself in an extreme water crisis with frightening environmental impacts. For more information about the water crisis facing California, check out our previous blog post, Race to the Bottom: An Overview of California’s Groundwater Overdraft Crisis.
Foundry Spatial has been active in California since 2017 when the Navarro River, northwest of Santa Rosa, was selected as a case study…
With the pandemic giving the Grinch a run for his money, this year’s holiday season is looking a little different for all of us. Yet, just like the Whos in Whoville, Foundry Spatial isn’t going to let anything steal our Christmas spirit.
Though a typical Foundry Christmas begins with decorating of the office and concludes with a holiday dinner at one of our favourite local restaurants, we improvised this year and devised the perfect plan to stay safe and still celebrate.
Given that we aren’t able to partake in our usual festivities, the Foundry Team decided to institute a new…
Given the sheer magnitude and volume of ridiculousness we’ve heard coming from President Trump over the past four years, you may not remember the 2016 campaign rhetoric paying special attention to the drought in California, and in particular, the conflict around agricultural use of water in the Central Valley.
To provide a refresher, Trump stated in a late summer 2016 speech that there was, in fact, no drought in California, and the only problem was that water was being left to flow out into the ocean. …
In California, wetlands are disappearing. In the 1970s, California, with a total surface area of approximately 101 million acres, had 5 million acres of wetland. Today, less than 500,000 acres of wetland remain. More than 90% of historical wetlands have already been lost, and those that remain are vulnerable to human effects and climate change.
The Coyote Valley in California connects 1.13 million acres of wildlife habitat. It is home to the Laguna Seca, a now-seasonal wetland in which water is above the surface from December to May. The Laguna Seca was once the Bay Area’s largest wetland system, originally…
Empowering decisions to shape the future of watersheds and aquifers.