Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax)

Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax)

Background: Male European seabass, already predominant (~ 70%) in cultured stocks, show a high incidence (20-30%) of precocious sexual maturation under current aquaculture practices, leading to important economic losses for the industry. In view of the known modulation of reproductive development by swimming exercise in other teleost species, we aimed at investigating the effects of sustained swimming on reproductive development in seabass males during the first year of life in order to determine if swimming could potentially reduce precocious sexual maturation. Methods: Pre-pubertal seabass (3.91 ± 0.22 g of body weight (BW)) were subjected to a 10 week swimming regime at their optimal swimming speed (Uopt) in an oval-shaped Brett-type flume or kept at rest during this period. Using Blazka-type swim tunnels, Uopt was determined three times during the course of the experiment: 0.66 m s- 1 at 19 ± 1 g BW, 10.2 ± 0.2 cm of standard length (SL) (week 1); 0.69 m s- 1 at 38 ± 3 g BW, 12.7 ± 0.3 cm SL (week 5), and also 0.69 m s- 1 at 77 ± 7 g BW, 15.7 ± 0.5 cm SL (week 9). Every 2 weeks, size and gonadal weight were monitored in the exercised (N = 15) and non-exercised fish (N = 15). After 10 weeks, exercised and non-exercised males were sampled to determine plasma 11-ketotestosterone levels, testicular mRNA expression levels of genes involved in steroidogenesis and gametogenesis by qPCR, as well as the relative abundance of germ cells representing the different spermatogenic stages by histological examination. Results: Our results indicate that sustained swimming exercise at Uopt delays testicular development in male European seabass as evidenced by decreased gonado-somatic index, slower progression of testicular development and by reduced mRNA expression levels of follicle stimulating hormone receptor (fshR), 3-beta-hydroxysteroid dehydrogenase (3βhsd), 11-beta hydroxysteroid dehydrogenase (11βhsd), estrogen receptor-beta (erβ2), anti-mullerian hormone (amh), structural maintenance of chromosomes protein 1B (smc1β), inhibin beta A (inhba) and gonado-somal derived factor 1 (gsdf1) in exercised males as compared with the non-exercised males. Conclusions: Swimming exercise may represent a natural and non-invasive tool to reduce the incidence of sexually precocious males in seabass aquaculture.

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Main Authors: Graziano, Marco, Benito, Raul, Planas, Josep V., Palstra, Arjan P.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Aquaculture, Fish endocrinology, Optimal swimming speed, Precocious maturation, Puberty,
Online Access:https://research.wur.nl/en/publications/swimming-exercise-to-control-precocious-maturation-in-male-seabas
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spelling dig-wur-nl-wurpubs-5366732024-12-04 Graziano, Marco Benito, Raul Planas, Josep V. Palstra, Arjan P. Article/Letter to editor BMC Developmental Biology 18 (2018) 1 ISSN: 1471-213X Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax) 2018 Background: Male European seabass, already predominant (~ 70%) in cultured stocks, show a high incidence (20-30%) of precocious sexual maturation under current aquaculture practices, leading to important economic losses for the industry. In view of the known modulation of reproductive development by swimming exercise in other teleost species, we aimed at investigating the effects of sustained swimming on reproductive development in seabass males during the first year of life in order to determine if swimming could potentially reduce precocious sexual maturation. Methods: Pre-pubertal seabass (3.91 ± 0.22 g of body weight (BW)) were subjected to a 10 week swimming regime at their optimal swimming speed (Uopt) in an oval-shaped Brett-type flume or kept at rest during this period. Using Blazka-type swim tunnels, Uopt was determined three times during the course of the experiment: 0.66 m s- 1 at 19 ± 1 g BW, 10.2 ± 0.2 cm of standard length (SL) (week 1); 0.69 m s- 1 at 38 ± 3 g BW, 12.7 ± 0.3 cm SL (week 5), and also 0.69 m s- 1 at 77 ± 7 g BW, 15.7 ± 0.5 cm SL (week 9). Every 2 weeks, size and gonadal weight were monitored in the exercised (N = 15) and non-exercised fish (N = 15). After 10 weeks, exercised and non-exercised males were sampled to determine plasma 11-ketotestosterone levels, testicular mRNA expression levels of genes involved in steroidogenesis and gametogenesis by qPCR, as well as the relative abundance of germ cells representing the different spermatogenic stages by histological examination. Results: Our results indicate that sustained swimming exercise at Uopt delays testicular development in male European seabass as evidenced by decreased gonado-somatic index, slower progression of testicular development and by reduced mRNA expression levels of follicle stimulating hormone receptor (fshR), 3-beta-hydroxysteroid dehydrogenase (3βhsd), 11-beta hydroxysteroid dehydrogenase (11βhsd), estrogen receptor-beta (erβ2), anti-mullerian hormone (amh), structural maintenance of chromosomes protein 1B (smc1β), inhibin beta A (inhba) and gonado-somal derived factor 1 (gsdf1) in exercised males as compared with the non-exercised males. Conclusions: Swimming exercise may represent a natural and non-invasive tool to reduce the incidence of sexually precocious males in seabass aquaculture. en application/pdf https://research.wur.nl/en/publications/swimming-exercise-to-control-precocious-maturation-in-male-seabas 10.1186/s12861-018-0170-8 https://edepot.wur.nl/448101 Aquaculture Fish endocrinology Optimal swimming speed Precocious maturation Puberty https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Aquaculture
Fish endocrinology
Optimal swimming speed
Precocious maturation
Puberty
Aquaculture
Fish endocrinology
Optimal swimming speed
Precocious maturation
Puberty
spellingShingle Aquaculture
Fish endocrinology
Optimal swimming speed
Precocious maturation
Puberty
Aquaculture
Fish endocrinology
Optimal swimming speed
Precocious maturation
Puberty
Graziano, Marco
Benito, Raul
Planas, Josep V.
Palstra, Arjan P.
Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax)
description Background: Male European seabass, already predominant (~ 70%) in cultured stocks, show a high incidence (20-30%) of precocious sexual maturation under current aquaculture practices, leading to important economic losses for the industry. In view of the known modulation of reproductive development by swimming exercise in other teleost species, we aimed at investigating the effects of sustained swimming on reproductive development in seabass males during the first year of life in order to determine if swimming could potentially reduce precocious sexual maturation. Methods: Pre-pubertal seabass (3.91 ± 0.22 g of body weight (BW)) were subjected to a 10 week swimming regime at their optimal swimming speed (Uopt) in an oval-shaped Brett-type flume or kept at rest during this period. Using Blazka-type swim tunnels, Uopt was determined three times during the course of the experiment: 0.66 m s- 1 at 19 ± 1 g BW, 10.2 ± 0.2 cm of standard length (SL) (week 1); 0.69 m s- 1 at 38 ± 3 g BW, 12.7 ± 0.3 cm SL (week 5), and also 0.69 m s- 1 at 77 ± 7 g BW, 15.7 ± 0.5 cm SL (week 9). Every 2 weeks, size and gonadal weight were monitored in the exercised (N = 15) and non-exercised fish (N = 15). After 10 weeks, exercised and non-exercised males were sampled to determine plasma 11-ketotestosterone levels, testicular mRNA expression levels of genes involved in steroidogenesis and gametogenesis by qPCR, as well as the relative abundance of germ cells representing the different spermatogenic stages by histological examination. Results: Our results indicate that sustained swimming exercise at Uopt delays testicular development in male European seabass as evidenced by decreased gonado-somatic index, slower progression of testicular development and by reduced mRNA expression levels of follicle stimulating hormone receptor (fshR), 3-beta-hydroxysteroid dehydrogenase (3βhsd), 11-beta hydroxysteroid dehydrogenase (11βhsd), estrogen receptor-beta (erβ2), anti-mullerian hormone (amh), structural maintenance of chromosomes protein 1B (smc1β), inhibin beta A (inhba) and gonado-somal derived factor 1 (gsdf1) in exercised males as compared with the non-exercised males. Conclusions: Swimming exercise may represent a natural and non-invasive tool to reduce the incidence of sexually precocious males in seabass aquaculture.
format Article/Letter to editor
topic_facet Aquaculture
Fish endocrinology
Optimal swimming speed
Precocious maturation
Puberty
author Graziano, Marco
Benito, Raul
Planas, Josep V.
Palstra, Arjan P.
author_facet Graziano, Marco
Benito, Raul
Planas, Josep V.
Palstra, Arjan P.
author_sort Graziano, Marco
title Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax)
title_short Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax)
title_full Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax)
title_fullStr Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax)
title_full_unstemmed Swimming exercise to control precocious maturation in male seabass (Dicentrarchus labrax)
title_sort swimming exercise to control precocious maturation in male seabass (dicentrarchus labrax)
url https://research.wur.nl/en/publications/swimming-exercise-to-control-precocious-maturation-in-male-seabas
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AT planasjosepv swimmingexercisetocontrolprecociousmaturationinmaleseabassdicentrarchuslabrax
AT palstraarjanp swimmingexercisetocontrolprecociousmaturationinmaleseabassdicentrarchuslabrax
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