Validation of Francis–Kaplan Turbine Blade Strike Models for Adult and Juvenile Atlantic Salmon (Salmo Salar, L.) and Anadromous Brown Trout (Salmo Trutta, L.) Passing High Head Turbines

The negative effects of hydroelectric power (HEP) on salmonid populations has long been recognized and studied. Downstream passage through turbines may potentially constitute a significant source of mortality for both juvenile and adult fish in regulated rivers. Numerical models have been developed...

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Veröffentlicht in:	Sustainability 2020, Vol.12 (16), p.6384
Hauptverfasser:	Vikström, Linda, Leonardsson, Kjell, Leander, Johan, Shry, Samuel, Calles, Olle, Hellström, Gustav
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Sprache:	eng
Schlagworte:	Acoustic telemetry Acoustics Adults animal conservation animal movement and migrations Biologi Biology blade strike ecohydraulics Ecology Ekologi Estimates Fish and Aquacultural Science Fish hatcheries Fish migration Fisk- och akvakulturforskning Francis turbines Hydroelectric power hydropower sustainability Juveniles kelt Mathematical models modeling Mortality Numerical models Populations Regulated rivers Rivers Salmo Salmo salar Salmo trutta Salmon Sustainability Telemetry Trout Turbine blades turbine passage Turbines validation
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creator	Vikström, Linda Leonardsson, Kjell Leander, Johan Shry, Samuel Calles, Olle Hellström, Gustav
description	The negative effects of hydroelectric power (HEP) on salmonid populations has long been recognized and studied. Downstream passage through turbines may potentially constitute a significant source of mortality for both juvenile and adult fish in regulated rivers. Numerical models have been developed to calculate turbine passage mortality based on the probability of collision with the turbine blades, but although widely used in management and conservation, their performance is rarely validated in terms of the accuracy and bias of the mortality estimates. In this study, we evaluated commonly used blade strike models for Kaplan and Francis turbines by comparing model predictions with observed passage mortalities for juvenile 13–27 cm and adult 52–94 cm Atlantic salmon (Salmo salar, L.) and anadromous brown trout (Salmo trutta, L.) acquired by acoustic telemetry. Predictions made for juveniles aligned closer with observed mortality for both Kaplan and Francis turbines (within 1–3% percentage points). However, the model severely underestimated the mortality of adult fish passing through Francis turbines, with up to 50% percentage points difference between predicted and observed mortalities. Furthermore, the model did not capture a clear negative correlation between mortality and discharge observed for salmon between 50–60 cm (grilse). We concluded that blade strike models are a useful tool for quantifying passage mortality for salmonid smolts passing large, high-head turbines, but that the same models should be used with care when trying to estimate the passage mortality of kelts in iteroparous populations. We also concluded that the major cause of passage mortality for juveniles is injury by collision with the turbine blade, but that other factors seem to contribute substantially to the passage mortality of kelts. Our study reports low mortality for smolts up to 27 cm passing through Kaplan and Francis turbines (0–12%), but high mortality for salmon over 50 cm passing though Francis turbines (56–81%).
doi_str_mv	10.3390/su12166384
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Passing High Head Turbines</title><source>Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals</source><source>SWEPUB Freely available online</source><source>MDPI - Multidisciplinary Digital Publishing Institute</source><creator>Vikström, Linda ; Leonardsson, Kjell ; Leander, Johan ; Shry, Samuel ; Calles, Olle ; Hellström, Gustav</creator><creatorcontrib>Vikström, Linda ; Leonardsson, Kjell ; Leander, Johan ; Shry, Samuel ; Calles, Olle ; Hellström, Gustav ; Sveriges lantbruksuniversitet</creatorcontrib><description>The negative effects of hydroelectric power (HEP) on salmonid populations has long been recognized and studied. Downstream passage through turbines may potentially constitute a significant source of mortality for both juvenile and adult fish in regulated rivers. 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Furthermore, the model did not capture a clear negative correlation between mortality and discharge observed for salmon between 50–60 cm (grilse). We concluded that blade strike models are a useful tool for quantifying passage mortality for salmonid smolts passing large, high-head turbines, but that the same models should be used with care when trying to estimate the passage mortality of kelts in iteroparous populations. We also concluded that the major cause of passage mortality for juveniles is injury by collision with the turbine blade, but that other factors seem to contribute substantially to the passage mortality of kelts. 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Passing High Head Turbines</title><title>Sustainability</title><description>The negative effects of hydroelectric power (HEP) on salmonid populations has long been recognized and studied. Downstream passage through turbines may potentially constitute a significant source of mortality for both juvenile and adult fish in regulated rivers. Numerical models have been developed to calculate turbine passage mortality based on the probability of collision with the turbine blades, but although widely used in management and conservation, their performance is rarely validated in terms of the accuracy and bias of the mortality estimates. In this study, we evaluated commonly used blade strike models for Kaplan and Francis turbines by comparing model predictions with observed passage mortalities for juvenile 13–27 cm and adult 52–94 cm Atlantic salmon (Salmo salar, L.) and anadromous brown trout (Salmo trutta, L.) acquired by acoustic telemetry. Predictions made for juveniles aligned closer with observed mortality for both Kaplan and Francis turbines (within 1–3% percentage points). However, the model severely underestimated the mortality of adult fish passing through Francis turbines, with up to 50% percentage points difference between predicted and observed mortalities. Furthermore, the model did not capture a clear negative correlation between mortality and discharge observed for salmon between 50–60 cm (grilse). We concluded that blade strike models are a useful tool for quantifying passage mortality for salmonid smolts passing large, high-head turbines, but that the same models should be used with care when trying to estimate the passage mortality of kelts in iteroparous populations. We also concluded that the major cause of passage mortality for juveniles is injury by collision with the turbine blade, but that other factors seem to contribute substantially to the passage mortality of kelts. 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Passing High Head Turbines</atitle><jtitle>Sustainability</jtitle><date>2020</date><risdate>2020</risdate><volume>12</volume><issue>16</issue><spage>6384</spage><pages>6384-</pages><issn>2071-1050</issn><eissn>2071-1050</eissn><abstract>The negative effects of hydroelectric power (HEP) on salmonid populations has long been recognized and studied. Downstream passage through turbines may potentially constitute a significant source of mortality for both juvenile and adult fish in regulated rivers. Numerical models have been developed to calculate turbine passage mortality based on the probability of collision with the turbine blades, but although widely used in management and conservation, their performance is rarely validated in terms of the accuracy and bias of the mortality estimates. In this study, we evaluated commonly used blade strike models for Kaplan and Francis turbines by comparing model predictions with observed passage mortalities for juvenile 13–27 cm and adult 52–94 cm Atlantic salmon (Salmo salar, L.) and anadromous brown trout (Salmo trutta, L.) acquired by acoustic telemetry. Predictions made for juveniles aligned closer with observed mortality for both Kaplan and Francis turbines (within 1–3% percentage points). However, the model severely underestimated the mortality of adult fish passing through Francis turbines, with up to 50% percentage points difference between predicted and observed mortalities. Furthermore, the model did not capture a clear negative correlation between mortality and discharge observed for salmon between 50–60 cm (grilse). We concluded that blade strike models are a useful tool for quantifying passage mortality for salmonid smolts passing large, high-head turbines, but that the same models should be used with care when trying to estimate the passage mortality of kelts in iteroparous populations. We also concluded that the major cause of passage mortality for juveniles is injury by collision with the turbine blade, but that other factors seem to contribute substantially to the passage mortality of kelts. Our study reports low mortality for smolts up to 27 cm passing through Kaplan and Francis turbines (0–12%), but high mortality for salmon over 50 cm passing though Francis turbines (56–81%).</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/su12166384</doi><oa>free_for_read</oa></addata></record>
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subjects	Acoustic telemetry Acoustics Adults animal conservation animal movement and migrations Biologi Biology blade strike ecohydraulics Ecology Ekologi Estimates Fish and Aquacultural Science Fish hatcheries Fish migration Fisk- och akvakulturforskning Francis turbines Hydroelectric power hydropower sustainability Juveniles kelt Mathematical models modeling Mortality Numerical models Populations Regulated rivers Rivers Salmo Salmo salar Salmo trutta Salmon Sustainability Telemetry Trout Turbine blades turbine passage Turbines validation
title	Validation of Francis–Kaplan Turbine Blade Strike Models for Adult and Juvenile Atlantic Salmon (Salmo Salar, L.) and Anadromous Brown Trout (Salmo Trutta, L.) Passing High Head Turbines
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