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Testing the Effects of Elevated Flows on the Spawning

Testing the Effects of Elevated Flows on the Spawning Behavior of Chum Salmon in the Columbia River. Kenneth F. Tiffan U.S. Geological Survey Western Fisheries Research Center Cook, Washington. Background. From November 1 through December 15, 2003, tailwater elevations exceeded

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Testing the Effects of Elevated Flows on the Spawning

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  1. Testing the Effects of Elevated Flows on the Spawning Behavior of Chum Salmon in the Columbia River Kenneth F. Tiffan U.S. Geological Survey Western Fisheries Research Center Cook, Washington

  2. Background From November 1 through December 15, 2003, tailwater elevations exceeded 13 feet on 17 occasions and they exceeded 14 feet on 14 occasions, with most of these events occurring at night in December due to reverse load following.

  3. Background These tailwater elevations corresponded to flows >150 kcfs. Our previous habitat work showed a significant reduction in the amount of suitable chum spawning habitat at flows >150 kcfs in the area below the mouth of Hamilton Creek (Garland et al. 2003) likely due to increased water velocities. 125 kcfs 150 kcfs

  4. Background Night spawning of chum salmon was documented in 2003. Courtship behavior Spawning event

  5. Proposed 2004 Work Do elevated flows affect chum salmon spawning behavior? Expected responses: 1. None 2. Temporary displacement, but return to spawn 3. Displacement with spawning elsewhere 4. Displacement without spawning elsewhere

  6. Objectives 1. Determine the flow and tailwater elevation at which chum salmon spawning behavior is altered. 2. Determine where fish go in response to high flows and when they return to their redds. 3. Determine if normal spawning behavior resumes after a flow-induced change in behavior. 4. Determine if fish will spawn at higher riverbed elevations as higher flows inundate these areas.

  7. ADCP (velocity) measurements 2-D Positions Spawning behavior Digs/min DIDSON x x x x Bed temperature measurements Fish leaves Velocity Fish moves gradually x x x x x x Hyporheic temperature measurement Distance moved x x x x x x Fish remains New redds x x x x x x x x Velocity x x x x x x x Base Flow Elevated Flow x x x Approach

  8. 175 kcfs 165 kcfs 165 kcfs Hour 5 155 kcfs 155 kcfs Hour 4 Hour 6 145 kcfs 145 kcfs Hour3 Hour 7 135 kcfs 135 kcfs Hour 2 Hour 8 125 kcfs 125 kcfs Hour 1 Hour 9 • ADCP (velocity) • Measurements • Have velocities become • unsuitable? DIDSON • Bed temperature • Measurements • Is warmer hyporheic • water present? • Spawning • behavior • Did fish return • to spawn? x x x • 2-D Positions • How far did fish move • and where did they go? 1. No change in behavior 2. Displaced but return to spawn 3. Displaced and spawn elsewhere 1 2 3 4. Displaced without further spawning 4

  9. Proposed Experimental Flow Needs 1 daytime and 1 nighttime test each week for 5 weeks from November 10 to December 8 (10 tests total) Ramp from 125 kcfs to 175 kcfs in hourly 10-kcfs increments over 5 hours then ramp back down to 125 kcfs in the same manner Daytime tests should be on Wednesdays since no other field activities occur on that day 6 fish will be tagged and released each week

  10. Expected Products Determination of whether fish will start constructing a redd at higher elevations during the day or night Determination of whether hyporheic conditions become established at higher elevations during periods of elevated flows Determination of affect of high flows on spawning success Identification of the flow, tailwater, and velocity that change chum spawning behavior

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