EP43B-0979
Is hyporheic flow an indicator for salmonid spawning site selection?

Thursday, 17 December 2015
Poster Hall (Moscone South)
Rohan M Benjankar1, Daniele Tonina2, Alessandra Marzadri3, Jim A McKean4 and Dan Isaak4, (1)University of Idaho, Department of Civil Engineering, Moscow, ID, United States, (2)University of Idaho, Department of Civil Engineering, Boise, ID, United States, (3)University of Trento, Trento, Italy, (4)US Forest Service Boise, Boise, ID, United States
Abstract:
Several studies have investigated the role of hydraulic variables in the selection of spawning sites by salmonids. Some recent studies suggest that the intensity of the ambient hyporheic flow, that present without a salmon egg pocket, is a cue for spawning site selection, but others have argued against it. We tested this hypothesis by using a unique dataset of field surveyed spawning site locations and an unprecedented meter-scale resolution bathymetry of a 13.5 km long reach of Bear Valley Creek (Idaho, USA), an important Chinook salmon spawning stream. We used a two-dimensional surface water model to quantify stream hydraulics and a three-dimensional hyporheic model to quantify the hyporheic flows. Our results show that the intensity of ambient hyporheic flows is not a statistically significant variable for spawning site selection. Conversely, the intensity of the water surface curvature and the habitat quality, quantified as a function of stream hydraulics and morphology, are the most important variables for salmonid spawning site selection.

<span" roman"="Roman"" new="New">KEY WORDS: Salmonid spawning habitat, pool-riffle system, habitat quality, surface water curvature, hyporheic flow