Table_1_Assessing Stress Resilience After Smolt Transportation by Waterborne Cortisol and Feeding Behavior in a Commercial Atlantic Salmon (Salmo salar) Grow-Out Recirculating Aquaculture System.XLSX

Sampling protocols and water quality sensors have been developed to assess fish health and welfare in recirculating aquaculture systems (RASs). Still, the use of fish-based non-invasive welfare indicators, reflecting the physiological state of the fish, is limited in this type of system. Cortisol, t...

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Bibliographic Details
Main Authors: Erik Höglund (298867), Paulo Fernandes (397251), Paula Rojas-Tirado (12008384), Jan Thomas Rundberget (3225267), Ole-Kristian Hess-Erga (11822039)
Format: Dataset
Language:unknown
Published: 2022
Subjects:
Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
waterborne cortisol
fish welfare
behavior
close containment rearing
welfare indicators
Atlantic salmon
Salmo salar
Online Access:https://doi.org/10.3389/fphys.2021.771951.s001
id ftsmithonian:oai:figshare.com:article/19077791
record_format openpolar
spelling ftsmithonian:oai:figshare.com:article/19077791 2023-05-15T15:32:12+02:00 Table_1_Assessing Stress Resilience After Smolt Transportation by Waterborne Cortisol and Feeding Behavior in a Commercial Atlantic Salmon (Salmo salar) Grow-Out Recirculating Aquaculture System.XLSX Erik Höglund (298867) Paulo Fernandes (397251) Paula Rojas-Tirado (12008384) Jan Thomas Rundberget (3225267) Ole-Kristian Hess-Erga (11822039) 2022-01-27T15:24:25Z https://doi.org/10.3389/fphys.2021.771951.s001 unknown https://figshare.com/articles/dataset/Table_1_Assessing_Stress_Resilience_After_Smolt_Transportation_by_Waterborne_Cortisol_and_Feeding_Behavior_in_a_Commercial_Atlantic_Salmon_Salmo_salar_Grow-Out_Recirculating_Aquaculture_System_XLSX/19077791 doi:10.3389/fphys.2021.771951.s001 CC BY 4.0 CC-BY Physiology Exercise Physiology Nutritional Physiology Reproduction Cell Physiology Systems Physiology Animal Physiology - Biophysics Animal Physiology - Cell Animal Physiology - Systems Comparative Physiology Physiology not elsewhere classified waterborne cortisol fish welfare behavior close containment rearing welfare indicators Dataset 2022 ftsmithonian https://doi.org/10.3389/fphys.2021.771951.s001 2022-02-07T17:20:37Z Sampling protocols and water quality sensors have been developed to assess fish health and welfare in recirculating aquaculture systems (RASs). Still, the use of fish-based non-invasive welfare indicators, reflecting the physiological state of the fish, is limited in this type of system. Cortisol, the major stress-coping hormone in fish, diffuses through the gills. Consequently, waterborne cortisol is a potential fish-based non-invasive welfare indicator in RAS. However, its use in commercial rearing systems is sparse. In this study, we evaluated water cortisol levels and feeding behavior as welfare indicators of newly inserted smolt in a commercial RAS for harvest size Atlantic salmon. The RAS consisted of two parallel fish rearing raceways, raceways 1 and 2, sharing the same water treatment with common outlets and inlets. The smolts were inserted in raceway 1 while salmon that have been in the system for 6 months or more were kept in raceway 2. The smolt insertion period was 3 days. Samples for water cortisol levels were withdrawn the day before, 1 and 3 days after the smolt insertion period. Smolt insertion resulted in elevated water cortisol concentrations in the entire system, with the highest values in raceway 1, one day after smolt insertion. Estimated cortisol production in newly inserted smolt decreased over time, was similar to what has been reported in salmon adapting to experimental tanks. Feeding behavior indicated that the appetite was not fully resumed in the newly inserted smolts, while the appetite of fish in raceway 2 was unaffected by smolt insertion. These results, obtained in a highly intensive commercial RAS, suggest that waterborne cortisol together with feeding behavior can be used as indicators for adaptive processes associated with stress resilience in farmed fish. Thus, they are promising non-invasive indicators for assessing the impact of potential stressors on fish welfare in this type of rearing system. Dataset Atlantic salmon Salmo salar Unknown
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
waterborne cortisol
fish welfare
behavior
close containment rearing
welfare indicators
spellingShingle Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
waterborne cortisol
fish welfare
behavior
close containment rearing
welfare indicators
Erik Höglund (298867)
Paulo Fernandes (397251)
Paula Rojas-Tirado (12008384)
Jan Thomas Rundberget (3225267)
Ole-Kristian Hess-Erga (11822039)
Table_1_Assessing Stress Resilience After Smolt Transportation by Waterborne Cortisol and Feeding Behavior in a Commercial Atlantic Salmon (Salmo salar) Grow-Out Recirculating Aquaculture System.XLSX
topic_facet Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
waterborne cortisol
fish welfare
behavior
close containment rearing
welfare indicators
description Sampling protocols and water quality sensors have been developed to assess fish health and welfare in recirculating aquaculture systems (RASs). Still, the use of fish-based non-invasive welfare indicators, reflecting the physiological state of the fish, is limited in this type of system. Cortisol, the major stress-coping hormone in fish, diffuses through the gills. Consequently, waterborne cortisol is a potential fish-based non-invasive welfare indicator in RAS. However, its use in commercial rearing systems is sparse. In this study, we evaluated water cortisol levels and feeding behavior as welfare indicators of newly inserted smolt in a commercial RAS for harvest size Atlantic salmon. The RAS consisted of two parallel fish rearing raceways, raceways 1 and 2, sharing the same water treatment with common outlets and inlets. The smolts were inserted in raceway 1 while salmon that have been in the system for 6 months or more were kept in raceway 2. The smolt insertion period was 3 days. Samples for water cortisol levels were withdrawn the day before, 1 and 3 days after the smolt insertion period. Smolt insertion resulted in elevated water cortisol concentrations in the entire system, with the highest values in raceway 1, one day after smolt insertion. Estimated cortisol production in newly inserted smolt decreased over time, was similar to what has been reported in salmon adapting to experimental tanks. Feeding behavior indicated that the appetite was not fully resumed in the newly inserted smolts, while the appetite of fish in raceway 2 was unaffected by smolt insertion. These results, obtained in a highly intensive commercial RAS, suggest that waterborne cortisol together with feeding behavior can be used as indicators for adaptive processes associated with stress resilience in farmed fish. Thus, they are promising non-invasive indicators for assessing the impact of potential stressors on fish welfare in this type of rearing system.
format Dataset
author Erik Höglund (298867)
Paulo Fernandes (397251)
Paula Rojas-Tirado (12008384)
Jan Thomas Rundberget (3225267)
Ole-Kristian Hess-Erga (11822039)
author_facet Erik Höglund (298867)
Paulo Fernandes (397251)
Paula Rojas-Tirado (12008384)
Jan Thomas Rundberget (3225267)
Ole-Kristian Hess-Erga (11822039)
author_sort Erik Höglund (298867)
title Table_1_Assessing Stress Resilience After Smolt Transportation by Waterborne Cortisol and Feeding Behavior in a Commercial Atlantic Salmon (Salmo salar) Grow-Out Recirculating Aquaculture System.XLSX
title_short Table_1_Assessing Stress Resilience After Smolt Transportation by Waterborne Cortisol and Feeding Behavior in a Commercial Atlantic Salmon (Salmo salar) Grow-Out Recirculating Aquaculture System.XLSX
title_full Table_1_Assessing Stress Resilience After Smolt Transportation by Waterborne Cortisol and Feeding Behavior in a Commercial Atlantic Salmon (Salmo salar) Grow-Out Recirculating Aquaculture System.XLSX
title_fullStr Table_1_Assessing Stress Resilience After Smolt Transportation by Waterborne Cortisol and Feeding Behavior in a Commercial Atlantic Salmon (Salmo salar) Grow-Out Recirculating Aquaculture System.XLSX
title_full_unstemmed Table_1_Assessing Stress Resilience After Smolt Transportation by Waterborne Cortisol and Feeding Behavior in a Commercial Atlantic Salmon (Salmo salar) Grow-Out Recirculating Aquaculture System.XLSX
title_sort table_1_assessing stress resilience after smolt transportation by waterborne cortisol and feeding behavior in a commercial atlantic salmon (salmo salar) grow-out recirculating aquaculture system.xlsx
publishDate 2022
url https://doi.org/10.3389/fphys.2021.771951.s001
genre Atlantic salmon
Salmo salar
genre_facet Atlantic salmon
Salmo salar
op_relation https://figshare.com/articles/dataset/Table_1_Assessing_Stress_Resilience_After_Smolt_Transportation_by_Waterborne_Cortisol_and_Feeding_Behavior_in_a_Commercial_Atlantic_Salmon_Salmo_salar_Grow-Out_Recirculating_Aquaculture_System_XLSX/19077791
doi:10.3389/fphys.2021.771951.s001
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fphys.2021.771951.s001
_version_ 1766362704261414912

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