Otolith chemistry as a fisheries management tool after flooding: the case of Missouri River gizzard shad

February 11, 2018 - Author: William J. Radigan, Andrew K. Carlson, Mark J. Fincel, Brian D.S. Graeb

Journal or Book Title: River Research and Applications

Year Published: 2018

Reduced river-floodplain connectivity can decrease fisheries production and cause ecological and socioeconomic consequences. In 2011, the largest flood on record in the Missouri River since 1898 nearly eliminated connectivity between an embayment (Hipple Lake) and Lake Sharpe, impeding movement of walleye (Sander vitreus) and a forage fish, gizzard shad (Dorosoma cepedianum). Thus, we used otolith chemistry to quantify Hipple Lake’s natal contribution to Lake Sharpe’s gizzard shad population and forecast effects of connectivity loss on the reservoir’s socioeconomically important walleye fishery. Fish were classified to natal habitats with 79-89% accuracy, with most gizzard shad (64%) hatching in floodplain habitats (i.e., embayments, tributaries, canals, stilling basins). Hipple Lake contributed 12% of gizzard shad to Lake Sharpe, more than a tributary (4%) and embayment (0%) but less than a canal (27%) and stilling basin (21%). Hipple Lake (178 acres) covers 0.31% of Lake Sharpe (56,884 acres), so its natal contribution is 38 times what would be expected if contribution was linearly related to area. Sediment and water management to maintain connectivity between Lake Sharpe and Hipple Lake and other floodplain habitats is important for continued gizzard shad production and prey supply for the walleye fishery. Otolith chemistry facilitates assessment of gizzard shad natal contributions in different habitats, serving as a fisheries management tool to inform floodplain habitat protection and rehabilitation after floods.

DOI: 10.1002/rra.3247


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