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Middle section of the low-flow reach prior to diverting half of the flow.
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Middle section of the low-flow reach prior to diverting half of the flow.
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Lower section of the low-flow reach prior to diverting half of the flow.
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Empty lines running along the bank of the low-flow reach prior to the start of the experimental setup.
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Empty lines running along the bank of the low-flow reach prior to the start of the experimental setup.
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Section of the low-flow reach prior to the set up of the flow diversion.
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Bottom of the fishing section in the low flow reach prior to the start of the experimental setup.
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Coil system used to passively warm diverted water before it re-enters the increased temperature reach.
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Researchers set up the flow diversion that diverts approximately 50% of the streamflow and creates the reduced flow (low-flow) reach.
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Researchers set up the flow diversion that diverts approximately 50% of the streamflow and creates the reduced flow (low-flow) reach.
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Water travels through black tubing that is exposed to the sunlight to passively warm it and then re-enters the stream in the experimentally warmed (+Temp) reach.
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Graduate student Maddie Maffia and Professor Dana Warren attempt to electrofish under a deep undercut bank.
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An upstream net that closes the system during electrofishing prevents the movement of fish and salmanders into and out of the system.
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A young pacific giant salamander in the a tupperwear before being weighed.
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Undergraduate student Adrian Puga records data as fish and salmanders are processed.
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Undergraduate student Hailey Bond with an electofishing backpack.
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Diverted water being carried through a large plastic line in the low-flow reach.