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- Title
Development of a system-based water balance model to assess interrelated physical and anthropogenic constraints in lake and reservoir watersheds, applied to Coeur d'Alene Lake, Idaho, USA.
- Authors
Hedden‐Nicely, Dylan R.; Fiedler, Fritz
- Abstract
This study presents a methodology for the development of a water balance model that uses publicly available data in a manner useful to water scientists and managers who manage complex lake and reservoir watersheds. The approach was applied to Coeur d'Alene Lake, a naturally occurring lake that is controlled by a dam located on its outlet (Spokane River) in North Idaho, USA. As in many other areas, the region surrounding Coeur d'Alene Lake has experienced high rates of population growth in recent years, and there is concern that, as consumptive water use increases, the lake will eventually not be able to be managed to simultaneously maintain the federally mandated minimum flow requirements in the Spokane River and also maintain the target summertime elevation of 2128 feet (648.6 m) for recreation and hydropower purposes. The complexity caused by the competing uses at Coeur d'Alene Lake makes it an excellent case study for similarly characterized watersheds. Both a natural flow model and regulated elevation model were developed, and sensitivity analysis was conducted on both models to evaluate which lake processes have the greatest effects on lake elevation, thereby requiring the most attention. A 'low-flow' scenario was modelled to demonstrate the usefulness of the model and to inform Coeur d'Alene Lake regional stakeholders regarding the interrelationship between current water policy and the lake's physical behaviour under stressed conditions that could result from climate change. Model result indicates that, while lake elevation may be maintained at the summertime elevation of 2128 feet (648.6 m) under a low-flow scenario, the outflows in the Spokane River start to approach the minimum flow requirements in the month of August. The developed approach is useful where publicly available data exist and allows for economic, yet rigorous, water resources systems evaluation without requiring significant field data collection.
- Subjects
COEUR d'Alene Lake (Idaho); SPOKANE River (Idaho &; Wash.); IDAHO; WATER balance (Hydrology); WATERSHEDS; LAKES
- Publication
Lakes & Reservoirs: Research & Management, 2017, Vol 22, Issue 3, p215
- ISSN
1320-5331
- Publication type
Article
- DOI
10.1111/lre.12186