The spatial extent of Walleye and Lake Sturgeon spawning migrations below a dam in the lower Black Sturgeon River, Lake Superior

In the Laurentian Great Lakes, the issue of barrier removal is complicated by the presence of non‐native species below barriers. A fish tracking study was conducted to guide efforts for barrier remediation decisions for the restoration of fish populations with a focus on Walleye (Scander vitreus) an...

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Veröffentlicht in:	Ecology of freshwater fish 2024-10, Vol.33 (4), p.n/a
Hauptverfasser:	Kosziwka, Kerri, Cooke, Steven J., Smokorowski, Karen E., Fischer, Friedrich, Dunlop, Erin S., Rennie, Michael D., Pratt, Thomas C.
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Sprache:	eng
Schlagworte:	Acipenseridae Animal population biotelemetry Carnivorous animals Dam effects Dams Fish Fish barriers fish passage Fish populations Freshwater fishes Indigenous species Introduced species Lakes Marine fishes Native organisms Percidae Population studies Remediation Rivers Spawning Spawning migrations Spawning populations Spawning seasons Sturgeon
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container_title	Ecology of freshwater fish
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creator	Kosziwka, Kerri Cooke, Steven J. Smokorowski, Karen E. Fischer, Friedrich Dunlop, Erin S. Rennie, Michael D. Pratt, Thomas C.
description	In the Laurentian Great Lakes, the issue of barrier removal is complicated by the presence of non‐native species below barriers. A fish tracking study was conducted to guide efforts for barrier remediation decisions for the restoration of fish populations with a focus on Walleye (Scander vitreus) and Lake Sturgeon (Acipenser fulvescens) in the Black Sturgeon River, a river system fragmented by a dam which blocks access of fishes to the majority of a large, otherwise barrier‐free watershed. Data from 3 years of spawning migrations (2018–2020) indicated that the Walleye population in Black Bay likely consists of both river (65%) and lake spawners (27%), with the remaining individuals spawning in the bay or river in different years. Walleye and Lake Sturgeon showed consistent differences in the extent to which individuals migrated upstream in the river during the spawning season, despite expectations that both species would spawn at the base of the dam when prevented from further migration. The dam was presumably a barrier to migration for Lake Sturgeon, as nearly all Lake Sturgeon that entered the river migrated to the base of the dam. In contrast, few Walleye entering the river during the spawning season migrated to the dam annually. These findings suggest that Walleye and Lake Sturgeon may not benefit equally, at least in the short term, from barrier remediation or dam removal.
doi_str_mv	10.1111/eff.12792
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subjects	Acipenseridae Animal population biotelemetry Carnivorous animals Dam effects Dams Fish Fish barriers fish passage Fish populations Freshwater fishes Indigenous species Introduced species Lakes Marine fishes Native organisms Percidae Population studies Remediation Rivers Spawning Spawning migrations Spawning populations Spawning seasons Sturgeon
title	The spatial extent of Walleye and Lake Sturgeon spawning migrations below a dam in the lower Black Sturgeon River, Lake Superior
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