Record Details

Juvenile coho salmon movement and migration through tide gates

ScholarsArchive at Oregon State University

Field Value
Title Juvenile coho salmon movement and migration through tide gates
Names Bass, Arthur Langer (creator)
Giannico, Guillermo (advisor)
Date Issued 2010-08-06T18:09:40Z (iso8601)
Note Graduation date: 2011
Abstract Tidal marshlands in the upper estuary ecotone provide essential habitat for
juvenile salmonids. In this environment, salmonids grow rapidly and acclimate to
saltwater. Worldwide, tidal marshes have been diked and drained to provide
agricultural and residential land. Tide gates are one-way doors integrated into
dike systems that prevent saltwater flooding and allow upland drainage to the
estuary during low tide. By preventing tidal exchange, tide gates have significant
upstream effects on water temperature and chemistry, plant and animal
community structure, and geomorphology. Since they are closed most of the day
and may be difficult to pass when open, tide gates may act as fish passage
barriers for juvenile salmonids. They may also affect juvenile salmon migration
timing by altering environmental variables that influence emigration rate in
upstream habitats. We conducted our research in Coos Bay, one of the many
Oregon estuaries with extensive use of tide gates. We studied three streams, one
with a top-hinged tide gate, one with a side-hinged gate, and one without any
tide gates that acted as our reference site. Our study species was coho salmon,
Oncorhynchus kisutch, which may encounter tide gates both in the subyearling
and smolt life stages in our study streams. Our objectives were to: 1) quantify
upstream and downstream fish passage occurrence at all three sites, 2) determine
whether juvenile coho salmon passage is associated with a specific range of gate
conditions, and 3) identify any associations between coho smolt emigration rate
and environmental variables that are influenced by tide gates. We installed
stationary passive integrated transponder (PIT) antennae around both tide gates
and a tidal channel in the non-gated stream to record the movement of PIT
tagged juvenile coho salmon. Coho salmon smolts passed upstream most
frequently at the non-gated channel (48% of all smolts detected at the array),
next the side-hinged gate (28%), and lastly, the top-hinged gate (3%). Juvenile
coho salmon passed more frequently at a specific range of gate angles and
tailwater depths at both top hinged and side-hinged tide gates. Smolts passed
downstream more frequently at greater gate angles and tailwater depths than
available on average at both tide gates. Subyearlings passed upstream more
frequently during small gate angles and a narrow range of tailwater depths at the
top-hinged gate but did not pass more frequently under a particular range of
conditions at the side-hinged gate. At the top-hinged gate, conditions favorable
for subyearling upstream passage occurred towards the end of the gate open
period and therefore subyearlings were severely limited in their opportunities for
passage. At multiple sites, emigration rate was associated with environmental
variables that may be altered by tide gates. Increases in water temperature were
associated with an increasing likelihood of smolt emigration at multiple sites. At
a tide gate that allowed upstream estuarine influence, increasing salinity was
associated with a decreasing likelihood of emigration. Our results suggest that
tide gates may interfere with salmonid movement and migration by creating
physical barriers to fish passage and potentially influencing migratory timing by
altering environmental variables. When installing or retrofitting tide gates, these
factors should be taken into consideration since a tide gate's design may
determine the severity of its effects on salmonids. Our work should be considered
a case study and the findings should not be assumed to be transferable due to the
great diversity of tide gate installations in use. We recommend further research,
including a more in depth analysis of the affects of tide gates on subyearling coho
salmon and an investigation of piscivorous predator exploitation of tide gates.
Genre Thesis/Dissertation
Topic tide gate
Identifier http://hdl.handle.net/1957/17428

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