Passage efficiency and migration behavior for adult Atlantic salmon at a Half-Ice Harbor fish ladder

Due to exploitation of the world’s rivers, the upstream migration of anadromous species is frequently delayed or even prevented. To mitigate these problems and allow fish to migrate past obstacles, structures such as fish ladders have been developed. However, recent studies show that many of the pre...

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Bibliographic Details
Main Author: Karlsson, Robert
Format: Other/Unknown Material
Language:English
Swedish
Published: SLU/Dept. of Wildlife, Fish and Environmental Studies 2013
Subjects:
passage efficiency
salmon
fish ladder
telemetry
power station
Luleälven
Umeälven
Atlantic salmon
Salmo salar
Online Access:https://stud.epsilon.slu.se/5638/
id ftsluppsalast:oai:stud.epsilon.slu.se:5638
record_format openpolar
spelling ftsluppsalast:oai:stud.epsilon.slu.se:5638 2023-05-15T15:32:11+02:00 Passage efficiency and migration behavior for adult Atlantic salmon at a Half-Ice Harbor fish ladder Passage effektivitet och vandringsbeteende hos lekvandrande Atlantlax i en ”Ice-Harbor” fisktrappa Karlsson, Robert 2013 https://stud.epsilon.slu.se/5638/ eng swe eng swe SLU/Dept. of Wildlife, Fish and Environmental Studies https://stud.epsilon.slu.se/5638/ passage efficiency salmon fish ladder telemetry power station H2 2013 ftsluppsalast 2022-09-10T18:09:37Z Due to exploitation of the world’s rivers, the upstream migration of anadromous species is frequently delayed or even prevented. To mitigate these problems and allow fish to migrate past obstacles, structures such as fish ladders have been developed. However, recent studies show that many of the present fish passage facilities are deficient. Monitoring and evaluation of passage facilities is therefore crucial to enable necessary adjustments. In this study I have examined the passage efficiency and the migration behavior for upstream migrating Atlantic salmon (Salmo salar L.) passing a recently built fish ladder in the river Umeälven. 104 salmon were caught, tagged and released in the spillway close to the fish way entrance during the 2012 spawning run. Tagged fish were monitored with several radio telemetry loggers and PIT-antennas (Passive Integrated Transponder). The result revealed a passage efficiency of 78% and a mean delay of 30 days, post-tagging, before passage. Salmon tagged earlier in the season delayed longer before passing the fish way. The majority of salmon visited the entrance pool several times (mean 11.3 visits) before ascending and the time spent in the entrance pool were in general high (mean 2.4 days). The activity in and out from the entrance pool followed a diel rhythmicity but was independent of discharge in the bypass channel. The ladder was visited in average 1.5 times before the final ascent, which took on average 17.7 hours. A delay was observed in the upper part of the ladder in front of the VAKI-system, used to count passing fish. Once past the VAKI-system, there seems to be no problem for the fish to reach river Vindelälven. I also report that the migration pattern passed the fish way did not differ between native salmons from the Ume/Vindelälven stock and strayers with a genetic origin from the Luleälven stock. Till följd av exploatering av världens vattendrag, blir uppströms migrerande fiskar ofta uppehållna eller till och med hindrade. För att minska problemen och möjligöra för ... Other/Unknown Material Atlantic salmon Luleälven Salmo salar Swedish University of Agricultural Sciences: Epsilon Archive for Student Projects Luleälven ENVELOPE(22.041,22.041,65.587,65.587) Umeälven ENVELOPE(15.133,15.133,65.767,65.767)
institution Open Polar
collection Swedish University of Agricultural Sciences: Epsilon Archive for Student Projects
op_collection_id ftsluppsalast
language English
Swedish
topic passage efficiency
salmon
fish ladder
telemetry
power station
spellingShingle passage efficiency
salmon
fish ladder
telemetry
power station
Karlsson, Robert
Passage efficiency and migration behavior for adult Atlantic salmon at a Half-Ice Harbor fish ladder
topic_facet passage efficiency
salmon
fish ladder
telemetry
power station
description Due to exploitation of the world’s rivers, the upstream migration of anadromous species is frequently delayed or even prevented. To mitigate these problems and allow fish to migrate past obstacles, structures such as fish ladders have been developed. However, recent studies show that many of the present fish passage facilities are deficient. Monitoring and evaluation of passage facilities is therefore crucial to enable necessary adjustments. In this study I have examined the passage efficiency and the migration behavior for upstream migrating Atlantic salmon (Salmo salar L.) passing a recently built fish ladder in the river Umeälven. 104 salmon were caught, tagged and released in the spillway close to the fish way entrance during the 2012 spawning run. Tagged fish were monitored with several radio telemetry loggers and PIT-antennas (Passive Integrated Transponder). The result revealed a passage efficiency of 78% and a mean delay of 30 days, post-tagging, before passage. Salmon tagged earlier in the season delayed longer before passing the fish way. The majority of salmon visited the entrance pool several times (mean 11.3 visits) before ascending and the time spent in the entrance pool were in general high (mean 2.4 days). The activity in and out from the entrance pool followed a diel rhythmicity but was independent of discharge in the bypass channel. The ladder was visited in average 1.5 times before the final ascent, which took on average 17.7 hours. A delay was observed in the upper part of the ladder in front of the VAKI-system, used to count passing fish. Once past the VAKI-system, there seems to be no problem for the fish to reach river Vindelälven. I also report that the migration pattern passed the fish way did not differ between native salmons from the Ume/Vindelälven stock and strayers with a genetic origin from the Luleälven stock. Till följd av exploatering av världens vattendrag, blir uppströms migrerande fiskar ofta uppehållna eller till och med hindrade. För att minska problemen och möjligöra för ...
format Other/Unknown Material
author Karlsson, Robert
author_facet Karlsson, Robert
author_sort Karlsson, Robert
title Passage efficiency and migration behavior for adult Atlantic salmon at a Half-Ice Harbor fish ladder
title_short Passage efficiency and migration behavior for adult Atlantic salmon at a Half-Ice Harbor fish ladder
title_full Passage efficiency and migration behavior for adult Atlantic salmon at a Half-Ice Harbor fish ladder
title_fullStr Passage efficiency and migration behavior for adult Atlantic salmon at a Half-Ice Harbor fish ladder
title_full_unstemmed Passage efficiency and migration behavior for adult Atlantic salmon at a Half-Ice Harbor fish ladder
title_sort passage efficiency and migration behavior for adult atlantic salmon at a half-ice harbor fish ladder
publisher SLU/Dept. of Wildlife, Fish and Environmental Studies
publishDate 2013
url https://stud.epsilon.slu.se/5638/
long_lat ENVELOPE(22.041,22.041,65.587,65.587)
ENVELOPE(15.133,15.133,65.767,65.767)
geographic Luleälven
Umeälven
geographic_facet Luleälven
Umeälven
genre Atlantic salmon
Luleälven
Salmo salar
genre_facet Atlantic salmon
Luleälven
Salmo salar
op_relation https://stud.epsilon.slu.se/5638/
_version_ 1766362682895630336

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