Your search keyword '"Freshwater resident"' showing total 17 results

1. Comparison of anadromous and landlocked Atlantic salmon genomes reveals signatures of parallel and relaxed selection across the Northern Hemisphere

Author

Erik Kjærner‐Semb, Rolf B. Edvardsen, Fernando Ayllon, Petra Vogelsang, Tomasz Furmanek, Carl Johan Rubin, Alexey E. Veselov, Tom Ole Nilsen, Stephen D. McCormick, Craig R. Primmer, and Anna Wargelius

Subjects

disease resistance, freshwater resident, GWAS, pool sequencing, Salmo salar, seawater adaptation, Evolution, QH359-425

Abstract

Abstract Most Atlantic salmon (Salmo salar L.) populations follow an anadromous life cycle, spending early life in freshwater, migrating to the sea for feeding, and returning to rivers to spawn. At the end of the last ice age ~10,000 years ago, several populations of Atlantic salmon became landlocked. Comparing their genomes to their anadromous counterparts can help identify genetic variation related to either freshwater residency or anadromy. The objective of this study was to identify consistently divergent loci between anadromous and landlocked Atlantic salmon strains throughout their geographical distribution, with the long‐term aim of identifying traits relevant for salmon aquaculture, including fresh and seawater growth, omega‐3 metabolism, smoltification, and disease resistance. We used a Pool‐seq approach (n = 10–40 individuals per population) to sequence the genomes of twelve anadromous and six landlocked Atlantic salmon populations covering a large part of the Northern Hemisphere and conducted a genomewide association study to identify genomic regions having been under different selection pressure in landlocked and anadromous strains. A total of 28 genomic regions were identified and included cadm1 on Chr 13 and ppargc1a on Chr 18. Seven of the regions additionally displayed consistently reduced heterozygosity in fish obtained from landlocked populations, including the genes gpr132, cdca4, and sertad2 on Chr 15. We also found 16 regions, including igf1 on Chr 17, which consistently display reduced heterozygosity in the anadromous populations compared to the freshwater populations, indicating relaxed selection on traits associated with anadromy in landlocked salmon. In conclusion, we have identified 37 regions which may harbor genetic variation relevant for improving fish welfare and quality in the salmon farming industry and for understanding life‐history traits in fish.

Published

2021

2. Differences in growth between offspring of anadromous and freshwater brown trout Salmo trutta.

Author

Jonsson, Bror and Jonsson, Nina

Subjects

*SEA trout, *BROWN trout, *FISH growth, *FRESHWATER fishes, *ATLANTIC salmon, *SALMONIDAE

Abstract

In this study, individual growth of juvenile offspring of anadromous and freshwater resident brown trout Salmo trutta and crosses between the two from the River Imsa, Norway, was estimated. The juveniles were incubated until hatching at two temperatures (±S.D.), either 4.4 ± 1.5°C or 7.1 ± 0.6°C. Growth rate was estimated for 22 days in August–September when the fish on average were c. 8 g in wet mass, and the estimates were standardized to 1 g fish dry mass. Offspring of anadromous S. trutta grew better at both 15 and 18°C than offspring of freshwater resident S. trutta or offspring of crosses between the two S. trutta types. This difference appears not to result from a maternal effect because anadromous S. trutta grew better than the hybrids with anadromous mothers. Instead, this appears to be an inherited difference between the anadromous and the freshwater resident fish lending support to the hypothesis that anadromous and freshwater resident S. trutta in this river differ in genetic expression. Egg incubation temperature of S. trutta appeared not to influence the later growth as reported earlier from the studies of Atlantic salmon Salmo salar. [ABSTRACT FROM AUTHOR]

Published

2021

3. Comparison of anadromous and landlocked Atlantic salmon genomes reveals signatures of parallel and relaxed selection across the Northern Hemisphere.

Author

Kjærner‐Semb, Erik, Edvardsen, Rolf B., Ayllon, Fernando, Vogelsang, Petra, Furmanek, Tomasz, Rubin, Carl Johan, Veselov, Alexey E., Nilsen, Tom Ole, McCormick, Stephen D., Primmer, Craig R., and Wargelius, Anna

Subjects

*LAKE trout, *ATLANTIC salmon, *FISH genetics, *GENOMES, *SALMON farming, *GLACIAL Epoch, *HETEROZYGOSITY

Abstract

Most Atlantic salmon (Salmo salar L.) populations follow an anadromous life cycle, spending early life in freshwater, migrating to the sea for feeding, and returning to rivers to spawn. At the end of the last ice age ~10,000 years ago, several populations of Atlantic salmon became landlocked. Comparing their genomes to their anadromous counterparts can help identify genetic variation related to either freshwater residency or anadromy. The objective of this study was to identify consistently divergent loci between anadromous and landlocked Atlantic salmon strains throughout their geographical distribution, with the long‐term aim of identifying traits relevant for salmon aquaculture, including fresh and seawater growth, omega‐3 metabolism, smoltification, and disease resistance. We used a Pool‐seq approach (n = 10–40 individuals per population) to sequence the genomes of twelve anadromous and six landlocked Atlantic salmon populations covering a large part of the Northern Hemisphere and conducted a genomewide association study to identify genomic regions having been under different selection pressure in landlocked and anadromous strains. A total of 28 genomic regions were identified and included cadm1 on Chr 13 and ppargc1a on Chr 18. Seven of the regions additionally displayed consistently reduced heterozygosity in fish obtained from landlocked populations, including the genes gpr132, cdca4, and sertad2 on Chr 15. We also found 16 regions, including igf1 on Chr 17, which consistently display reduced heterozygosity in the anadromous populations compared to the freshwater populations, indicating relaxed selection on traits associated with anadromy in landlocked salmon. In conclusion, we have identified 37 regions which may harbor genetic variation relevant for improving fish welfare and quality in the salmon farming industry and for understanding life‐history traits in fish. [ABSTRACT FROM AUTHOR]

Published

2021

4. A key evolutionary step determining osmoregulatory ability for freshwater colonisation in early life stages of fish

Author

00324955, Oto, Yumeki, Kuroki, Mari, Iida, Midori, Ito, Ryosuke, Nomura, Shota, Watanabe, Katsutoshi, 00324955, Oto, Yumeki, Kuroki, Mari, Iida, Midori, Ito, Ryosuke, Nomura, Shota, and Watanabe, Katsutoshi

Abstract

Colonisation of freshwater habitats by marine animals is a remarkable evolutionary event that has enriched biodiversity in freshwater ecosystems. The acquisition of tolerance to hypotonic stress during early life stages is presumed to be essential for their successful freshwater colonisation, but very little empirical evidence has been obtained to support this idea. This study aimed to comprehend the evolutionary changes in osmoregulatory mechanisms that enhance larval freshwater tolerance in amphidromous fishes, which typically spend their larval period in marine (ancestral) habitats and the rest of their life history stages in freshwater (derived) habitats. We compared the life history patterns and changes in larval survivorship and gene expression depending on salinity among three congeneric marine-originated amphidromous goby species (Gymnogobius), which had been suggested to differ in their larval dependence on freshwater habitats. An otolith microchemical analysis and laboratory-rearing experiment confirmed the presence of freshwater residents only in G. urotaenia and higher larval survivorship of this species in the freshwater condition than in the obligate amphidromous G. petschiliensis and G. opperiens. Larval whole-body transcriptome analysis revealed that G. urotaenia from both amphidromous and freshwater-resident populations exhibited the greatest differences in expression levels of several osmoregulatory genes, including aqp3, which is critical for water discharge from their body during early fish development. The present results consistently support the importance of enhanced freshwater tolerance and osmoregulatory plasticity in larval fish to establish freshwater forms, and further identified key candidate genes for larval freshwater adaptation and colonisation in the goby group.

Published

2023

5. Environmental influences on life history strategies in partially anadromous brown trout (Salmo trutta, Salmonidae).

Author

Nevoux, Marie, Finstad, Bengt, Davidsen, Jan Grimsrud, Finlay, Ross, Josset, Quentin, Poole, Russell, Höjesjö, Johan, Aarestrup, Kim, Persson, Lo, Tolvanen, Oula, and Jonsson, Bror

Subjects

*SEA trout, *BROWN trout, *SALMONIDAE, *LIFE history theory, *COMPETITION (Biology)

Abstract

This paper reviews the life history of brown trout and factors influencing decisions to migrate. Decisions that maximize fitness appear dependent on size at age. In partly anadromous populations, individuals that attain maturity at the parr stage typically become freshwater resident. For individual fish, the life history is not genetically fixed and can be modified by the previous growth history and energetic state in early life. This phenotypic plasticity may be influenced by epigenetic modifications of the genome. Thus, factors influencing survival and growth determine life‐history decisions. These are intra‐ and interspecific competition, feeding and shelter opportunities in freshwater and salt water, temperature in alternative habitats and flow conditions in running water. Male trout exhibit alternative mating strategies and can spawn as a subordinate sneaker or a dominant competitor. Females do not exhibit alternative mating behaviour. The relationship between growth, size and reproductive success differs between sexes in that females exhibit a higher tendency to migrate than males. Southern populations are sensitive to global warming. In addition, fisheries, aquaculture with increased spreading of salmon lice, introduction of new species, weirs and river regulation, poor water quality and coastal developments all threaten trout populations. The paper summarizes life‐history data from six populations across Europe and ends by presenting new research questions and directions for future research. [ABSTRACT FROM AUTHOR]

Published

2019

6. A key evolutionary step determining osmoregulatory ability for freshwater colonisation in early life stages of fish.

Author

Oto Y, Kuroki M, Iida M, Ito R, Nomura S, and Watanabe K

Subjects

Animals, Fresh Water, Larva genetics, Osmoregulation, Ecosystem, Fishes genetics, Fishes metabolism

Abstract

Colonisation of freshwater habitats by marine animals is a remarkable evolutionary event that has enriched biodiversity in freshwater ecosystems. The acquisition of tolerance to hypotonic stress during early life stages is presumed to be essential for their successful freshwater colonisation, but very little empirical evidence has been obtained to support this idea. This study aimed to comprehend the evolutionary changes in osmoregulatory mechanisms that enhance larval freshwater tolerance in amphidromous fishes, which typically spend their larval period in marine (ancestral) habitats and the rest of their life history stages in freshwater (derived) habitats. We compared the life history patterns and changes in larval survivorship and gene expression depending on salinity among three congeneric marine-originated amphidromous goby species (Gymnogobius), which had been suggested to differ in their larval dependence on freshwater habitats. An otolith microchemical analysis and laboratory-rearing experiment confirmed the presence of freshwater residents only in G. urotaenia and higher larval survivorship of this species in the freshwater condition than in the obligate amphidromous G. petschiliensis and G. opperiens. Larval whole-body transcriptome analysis revealed that G. urotaenia from both amphidromous and freshwater-resident populations exhibited the greatest differences in expression levels of several osmoregulatory genes, including aqp3, which is critical for water discharge from their body during early fish development. The present results consistently support the importance of enhanced freshwater tolerance and osmoregulatory plasticity in larval fish to establish freshwater forms, and further identified key candidate genes for larval freshwater adaptation and colonisation in the goby group., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2023. Published by The Company of Biologists Ltd.)

Published

2023

7. Migration and brackish environment use of Prochilodus lineatus (Characiformes: Prochilodontidae) inferred by Sr:Ca ratio transects of otolith

Author

Esteban Avigliano, Jorge Pisonero, Alejandro Dománico, Sebastián Sánchez, and Alejandra V. Volpedo

Subjects

Connectivity, Freshwater resident, Laser ablation, River migration, Streaked prochilod, Zoology, QL1-991

Abstract

ABSTRACT The streaked prochilod, Prochilodus lineatus, represents the most important fishery in the La Plata Basin (South America). Our objective was to analyze brackish environment use by the streaked prochilod captured from Paraná and Uruguay rivers. To accomplish this, lapillus otolith sections were analyzed for Sr:Ca with laser ablation-inductively coupled plasma-mass spectrometry (LA ICP-MS) to infer habitat use of fish. To the interpretation of transects, a threshold that represents the transition between freshwater and brackish environments was calculated using the Sr:Ca ratio of the otolith edge of specimens captured in the first section of the La Plata Estuary (salinity ≥ 0.5 PSU). The percentage of fish using the estuary was higher in the Paraná (37%) than the Uruguay River (5%). Change-point analysis showed that fish entered the estuary between 1 and 3 times throughout life at a wide range of ages (0-15 years). These incursions had no obvious periodicity. This information should be integrated into future management actions, which should also be specific to each area since migration patterns differ between the major rivers of the basin.

Published

2017

8. Migration and brackish environment use of Prochilodus lineatus (Characiformes: Prochilodontidae) inferred by Sr:Ca ratio transects of otolith.

Author

Avigliano, Esteban, Pisonero, Jorge, Dománico, Alejandro, Sánchez, Sebastián, and Volpedo, Alejandra V.

Subjects

*PROCHILODUS lineatus, *FISH migration, *BRACKISH waters, *PROCHILODUS, *OTOLITHS

Abstract

The streaked prochilod, Prochilodus lineatus, represents the most important fishery in the La Plata Basin (South America). Our objective was to analyze brackish environment use by the streaked prochilod captured from Paraná and Uruguay rivers. To accomplish this, lapillus otolith sections were analyzed for Sr:Ca with laser ablation-inductively coupled plasma-mass spectrometry (LA ICP-MS) to infer habitat use of fish. To the interpretation of transects, a threshold that represents the transition between freshwater and brackish environments was calculated using the Sr:Ca ratio of the otolith edge of specimens captured in the first section of the La Plata Estuary (salinity ≥ 0.5 PSU). The percentage of fish using the estuary was higher in the Paraná (37%) than the Uruguay River (5%). Change-point analysis showed that fish entered the estuary between 1 and 3 times throughout life at a wide range of ages (0-15 years). These incursions had no obvious periodicity. This information should be integrated into future management actions, which should also be specific to each area since migration patterns differ between the major rivers of the basin. [ABSTRACT FROM AUTHOR]

Published

2017

9. Evolutionary restoration potential evaluated through the use of a trait-linked genetic marker.

Author

Apgar, Travis M., Pearse, Devon E., and Palkovacs, Eric P.

Subjects

*GENETIC markers, *STEELHEAD trout, *FISH behavior, *FISH migration, *EFFECT of human beings on fishes

Abstract

Human-driven evolution can impact the ecological role and conservation value of impacted populations. Most evolutionary restoration approaches focus on manipulating gene flow, but an alternative approach is to manipulate the selection regime to restore historical or desired trait values. Here we examined the potential utility of this approach to restore anadromous migratory behavior in coastal California steelhead trout ( Oncorhynchus mykiss) populations. We evaluated the effects of natural and anthropogenic environmental variables on the observed frequency of alleles at a genomic marker tightly associated with migratory behavior across 39 steelhead populations from across California, USA. We then modeled the potential for evolutionary restoration at sites that have been impacted by anthropogenic barriers. We found that complete barriers such as dams are associated with major reductions in the frequency of anadromy-associated alleles. The removal of dams is therefore expected to restore anadromy significantly. Interestingly, accumulations of large numbers of partial barriers (passable under at least some flow conditions) were also associated with significant reductions in migratory allele frequencies. Restoration involving the removal of partial barriers could be evaluated alongside dam removal and fishway construction as a cost-effective tool to restore anadromous fish migrations. Results encourage broader consideration of in situ evolution during the development of habitat restoration projects. [ABSTRACT FROM AUTHOR]

Published

2017

10. Comparison of anadromous and landlocked Atlantic salmon genomes reveals signatures of parallel and relaxed selection across the Northern Hemisphere

Author

Kjaerner-Semb, Erik, Edvardsen, Rolf B., Ayllon, Fernando, Vogelsang, Petra, Furmanek, Tomasz, Rubin, Carl-Johan, Veselov, Alexey E., Nilsen, Tom Ole, McCormick, Stephen D., Primmer, Craig R., Wargelius, Anna, Kjaerner-Semb, Erik, Edvardsen, Rolf B., Ayllon, Fernando, Vogelsang, Petra, Furmanek, Tomasz, Rubin, Carl-Johan, Veselov, Alexey E., Nilsen, Tom Ole, McCormick, Stephen D., Primmer, Craig R., and Wargelius, Anna

Abstract

Most Atlantic salmon (Salmo salarL.) populations follow an anadromous life cycle, spending early life in freshwater, migrating to the sea for feeding, and returning to rivers to spawn. At the end of the last ice age similar to 10,000 years ago, several populations of Atlantic salmon became landlocked. Comparing their genomes to their anadromous counterparts can help identify genetic variation related to either freshwater residency or anadromy. The objective of this study was to identify consistently divergent loci between anadromous and landlocked Atlantic salmon strains throughout their geographical distribution, with the long-term aim of identifying traits relevant for salmon aquaculture, including fresh and seawater growth, omega-3 metabolism, smoltification, and disease resistance. We used a Pool-seq approach (n = 10-40 individuals per population) to sequence the genomes of twelve anadromous and six landlocked Atlantic salmon populations covering a large part of the Northern Hemisphere and conducted a genomewide association study to identify genomic regions having been under different selection pressure in landlocked and anadromous strains. A total of 28 genomic regions were identified and includedcadm1on Chr 13 andppargc1aon Chr 18. Seven of the regions additionally displayed consistently reduced heterozygosity in fish obtained from landlocked populations, including the genes gpr132, cdca4, and sertad2 on Chr 15. We also found 16 regions, includingigf1on Chr 17, which consistently display reduced heterozygosity in the anadromous populations compared to the freshwater populations, indicating relaxed selection on traits associated with anadromy in landlocked salmon. In conclusion, we have identified 37 regions which may harbor genetic variation relevant for improving fish welfare and quality in the salmon farming industry and for understanding life-history traits in fish.

Published

2021

11. Differences in growth between offspring of anadromous and freshwater brown trout Salmo trutta

Author

Nina Jonsson and Bror Jonsson

Subjects

0106 biological sciences, anadromous brown trout, Trout, Offspring, Zoology and botany: 480 [VDP], Zoology, Fresh Water, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, freshwater resident, Brown trout, Rivers, Salmon, Animals, Juvenile, Salmo trutta, Salmo, Zoologiske og botaniske fag: 480 [VDP], Ecology, Evolution, Behavior and Systematics, Egg incubation, fish, Fish migration, biology, Hatching, 010604 marine biology & hydrobiology, Temperature, Maternal effect, daily growth, temperature, biology.organism_classification

Abstract

Individual growth of juvenile offspring of anadromous and freshwater resident brown trout Salmo trutta and crosses between the two from the River Imsa, Norway was estimated. The juveniles were incubated until hatching at two temperatures (±SD), either 4.4 ± 1.5 °C or 7.1 ± 0.6 °C. Growth rate was estimated during 22 days in August-September when the fish on average were about 8 g in wet mass, and the estimates were standardized to 1 g fish dry mass. Offspring of anadromous S. trutta grew better at both 15 and 18 °C than offspring of freshwater resident S. trutta or offspring of crosses between the two S. trutta types. This difference appears not to result from a maternal effect because anadromous S. trutta grew better than the hybrids with anadromous mothers. Instead, the difference appears to be an inherited difference between the anadromous and the freshwater resident fish lending support to the hypothesis that anadromous and freshwater resident S. trutta in this river differ in genetic expression. Egg incubation temperature of S. trutta appeared not to influence later growth as earlier reported from studies of Atlantic salmon Salmo salar. This article is protected by copyright. All rights reserved.

Published

2021

12. Comparison of anadromous and landlocked Atlantic salmon genomes reveals signatures of parallel and relaxed selection across the Northern Hemisphere

Author

Craig R. Primmer, Anna Wargelius, Fernando Ayllon, Rolf B. Edvardsen, Petra Vogelsang, Alexey E. Veselov, Carl-Johan Rubin, Erik Kjærner-Semb, Tomasz Furmanek, Stephen D. McCormick, Tom Ole Nilsen, Helsinki Institute of Sustainability Science (HELSUS), Evolution, Conservation, and Genomics, Institute of Biotechnology, and Organismal and Evolutionary Biology Research Programme

Subjects

0106 biological sciences, 0301 basic medicine, disease resistance, Population, Salmo salar, lcsh:Evolution, Zoology, Single-nucleotide polymorphism, COHO SALMON, Biology, METABOLISM, 010603 evolutionary biology, 01 natural sciences, SEQUENCE, freshwater resident, ACTIVATION, 03 medical and health sciences, smoltification, selective sweeps, HORMONE, Genetic variation, GROWTH-FACTOR-I, Genetics, lcsh:QH359-425, SALAR, GWAS, 14. Life underwater, Salmo, education, Ecology, Evolution, Behavior and Systematics, Smoltification, GENE-EXPRESSION, education.field_of_study, Fish migration, seawater adaptation, Original Articles, biology.organism_classification, Spawn (biology), DEFICIENCY, 030104 developmental biology, 1181 Ecology, evolutionary biology, SINGLE NUCLEOTIDE POLYMORPHISMS, Original Article, Landlocked country, pool sequencing, General Agricultural and Biological Sciences

Abstract

Most Atlantic salmon (Salmo salar L.) populations follow an anadromous life cycle, spending early life in freshwater, migrating to the sea for feeding, and returning to rivers to spawn. At the end of the last ice age ~10,000 years ago, several populations of Atlantic salmon became landlocked. Comparing their genomes to their anadromous counterparts can help identify genetic variation related to either freshwater residency or anadromy. The objective of this study was to identify consistently divergent loci between anadromous and landlocked Atlantic salmon strains throughout their geographical distribution, with the long‐term aim of identifying traits relevant for salmon aquaculture, including fresh and seawater growth, omega‐3 metabolism, smoltification, and disease resistance. We used a Pool‐seq approach (n = 10–40 individuals per population) to sequence the genomes of twelve anadromous and six landlocked Atlantic salmon populations covering a large part of the Northern Hemisphere and conducted a genomewide association study to identify genomic regions having been under different selection pressure in landlocked and anadromous strains. A total of 28 genomic regions were identified and included cadm1 on Chr 13 and ppargc1a on Chr 18. Seven of the regions additionally displayed consistently reduced heterozygosity in fish obtained from landlocked populations, including the genes gpr132, cdca4, and sertad2 on Chr 15. We also found 16 regions, including igf1 on Chr 17, which consistently display reduced heterozygosity in the anadromous populations compared to the freshwater populations, indicating relaxed selection on traits associated with anadromy in landlocked salmon. In conclusion, we have identified 37 regions which may harbor genetic variation relevant for improving fish welfare and quality in the salmon farming industry and for understanding life‐history traits in fish. publishedVersion

Published

2020

13. Evolutionary restoration potential evaluated through the use of a trait‐linked genetic marker

Author

Eric P. Palkovacs, Travis M. Apgar, and Devon E. Pearse

Subjects

0106 biological sciences, ecological restoration, Dam removal, 010603 evolutionary biology, 01 natural sciences, dam removal, freshwater resident, life history variation, Gene flow, Genetics, rapid evolution, Restoration ecology, Ecology, Evolution, Behavior and Systematics, Phenotypic plasticity, Fish migration, biology, Ecology, 010604 marine biology & hydrobiology, Original Articles, biology.organism_classification, fish passage, anadromy, Divergent evolution, Trout, Oncorhynchus mykiss, Trait, Original Article, General Agricultural and Biological Sciences

Abstract

Human-driven evolution can impact the ecological role and conservation value of impacted populations. Most evolutionary restoration approaches focus on manipulating gene flow, but an alternative approach is to manipulate the selection regime to restore historic or desired trait values. Here we examined the potential utility of this approach to restore anadromous migratory behavior in coastal California steelhead trout (Oncorhynchus mykiss) populations. We evaluated the effects of natural and anthropogenic environmental variables on the observed frequency of alleles at a genomic marker tightly associated with migratory behavior across 39 steelhead populations from across California, USA. We then modeled the potential for evolutionary restoration at sites that have been impacted by anthropogenic barriers. We found that complete barriers such as dams are associated with major reductions in the frequency of anadromy-associated alleles. The removal of dams is therefore expected to restore anadromy significantly. Interestingly, accumulations of large numbers of partial barriers (passable under at least some flow conditions) were also associated with significant reductions in migratory allele frequencies. Restoration involving the removal of partial barriers could be evaluated alongside dam removal and fishway construction as a cost-effective tool to restore anadromous fish migrations. Results encourage broader consideration of in situ evolution during the development of habitat restoration projects. This article is protected by copyright. All rights reserved.

Published

2017

14. Environmental influences of life history strategies in partial anadromous brown trout (Salmo trutta, Salmonidae)

Author

Quentin Josset, Jan Grimsrud Davidsen, Russell Poole, Marie Nevoux, Johan Höjesjö, Lo Persson, Bror Jonsson, Bengt Finstad, Kim Aarestrup, Oula Tolvanen, Ross Finlay, Écologie et santé des écosystèmes (ESE), Institut National de la Recherche Agronomique (INRA)-AGROCAMPUS OUEST, Norwegian Institute for Nature Research (NINA), Department of Natural History, University Museum, Marine Institute, Direction de la Recherche, de l’Expertise et des données, Agence Française pour la Biodiversité (AFB), Department of Biological and Environmental Sciences, National Institute of Aquatic Resources, Technical University of Denmark [Lyngby] (DTU), Department of Wildlife, Fish and Environmental Studies, Swedish University of Agricultural Sciences (SLU), The Water Protection Association of the River Vantaa and Helsinki Region, Department of Landscape Ecology, and Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)

Subjects

0106 biological sciences, [SDV]Life Sciences [q-bio], Zoology and botany: 480 [VDP], charr salvelinus-alpinus, arctic charr, habitat, Management, Monitoring, Policy and Law, Aquatic Science, Oceanography, migration, 010603 evolutionary biology, 01 natural sciences, Life history theory, freshwater resident, lepeophtheirus-salmonis, sea-trout, Brown trout, nonanadromous oncorhynchus-mykiss, Aquaculture, sexual size, 14. Life underwater, Salmo, Zoologiske og botaniske fag: 480 [VDP], dimorphism, Ecology, Evolution, Behavior and Systematics, Salmonidae, Fish migration, biology, Reproductive success, Ecology, business.industry, 010604 marine biology & hydrobiology, wild atlantic salmon, sex ratio, biology.organism_classification, lice, Trout, fresh-water resident, alternative mating tactics, partial anadromy, climate-change, business

Abstract

This paper reviews the life history of brown trout and factors influencing decisions to migrate. Decisions that maximize fitness appear dependent on size at age. In partly anadromous populations, individuals that attain maturity at the parr stage typically become freshwater resident. For individual fish, the life history is not genetically fixed and can be modified by the previous growth history and energetic state in early life. This phenotypic plasticity may be influenced by epigenetic modifications of the genome. Thus, factors influencing survival and growth determine life‐history decisions. These are intra‐ and interspecific competition, feeding and shelter opportunities in freshwater and salt water, temperature in alternative habitats and flow conditions in running water. Male trout exhibit alternative mating strategies and can spawn as a subordinate sneaker or a dominant competitor. Females do not exhibit alternative mating behaviour. The relationship between growth, size and reproductive success differs between sexes in that females exhibit a higher tendency to migrate than males. Southern populations are sensitive to global warming. In addition, fisheries, aquaculture with increased spreading of salmon lice, introduction of new species, weirs and river regulation, poor water quality and coastal developments all threaten trout populations. The paper summarizes life‐history data from six populations across Europe and ends by presenting new research questions and directions for future research. freshwater resident, habitat, migration, partial anadromy, Salmonidae, sex ratio

Published

2019

15. Migration and brackish environment use of Prochilodus lineatus (Characiformes: Prochilodontidae) inferred by Sr:Ca ratio transects of otolith

Author

Sebastián Sánchez, Alejandro Domanico, Alejandra V. Volpedo, Esteban Avigliano, and Jorge Pisonero

Subjects

0106 biological sciences, Range (biology), Prochilodontidae, Aquatic Science, Characiformes, Migración de rio, 010603 evolutionary biology, 01 natural sciences, River migration, lcsh:Zoology, medicine, Agua dulce residente, lcsh:QL1-991, Transect, Ecology, Evolution, Behavior and Systematics, Otolith, geography, Connectivity, Streaked prochilod, geography.geographical_feature_category, biology, Brackish water, Conectividad, Agricultura, 010604 marine biology & hydrobiology, Estuary, Ablación laser, biology.organism_classification, Laser ablation, Fishery, medicine.anatomical_structure, Sábalo, CIENCIAS AGRÍCOLAS, purl.org/becyt/ford/4.1 [https], Prochilodus lineatus, Animal Science and Zoology, Freshwater resident, Agricultura, Silvicultura y Pesca, purl.org/becyt/ford/4 [https]

Abstract

El sábalo, Prochilodus lineatus, representa la pesquería más importante en la Cuenca del Río de la Plata (Sudamérica). Nuestro objetivo fue analizar el uso del hábitat estuarino del sábalo proveniente de los ríos Uruguay y Paraná. Para esto, se analizó la relación Sr:Ca en secciones de otolitos lapilli por ablación láser acoplada a espectrometría de masas con fuente de plasma de acoplamiento inductivo (LA ICP-MS) para inferir el uso de hábitat. Para interpretar las transectas, un umbral que representa la transición entre los ambientes de agua dulce y estuarino, fue calculado usando la relación Sr:Ca del borde del otolito de especímenes capturados en la primera sección del estuario del Plata (salinidad ≥0.5 UPS). El porcentaje de peces que usaron el estuario fue más elevado para el Paraná (37%) en relación al Uruguay (5%). El análisis de cambio puntual mostro que los individuos ingresan al estuario entre 1 a 3 veces a lo largo de la vida en un amplio rango de edades (0-15 años). Las incursiones no mostraron una periodicidad notoria. Esta información debería integrarse a futuras acciones de manejo que deberían ser específicas para cada área considerando los patrones de migración que difieren entre los grandes ríos de la Cuenca. The streaked prochilod, Prochilodus lineatus, represents the most important fishery in the La Plata Basin (South America). Our objective was to analyze brackish environment use by the streaked prochilod captured from Paraná and Uruguay rivers. To accomplish this, lapillus otolith sections were analyzed for Sr:Ca with laser ablation-inductively coupled plasma-mass spectrometry (LA ICP-MS) to infer habitat use of fish. To the interpretation of transects, a threshold that represents the transition between freshwater and brackish environments was calculated using the Sr:Ca ratio of the otolith edge of specimens captured in the first section of the La Plata Estuary (salinity ≥ 0.5 PSU). The percentage of fish using the estuary was higher in the Paraná (37%) than the Uruguay River (5%). Change-point analysis showed that fish entered the estuary between 1 and 3 times throughout life at a wide range of ages (0-15 years). These incursions had no obvious periodicity. This information should be integrated into future management actions, which should also be specific to each area since migration patterns differ between the major rivers of the basin. Fil: Avigliano, Esteban. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Unidad Ejecutora de Investigaciones en Producción Animal. Universidad de Buenos Aires. Facultad de Ciencias Veterinarias. Unidad Ejecutora de Investigaciones en Producción Animal; Argentina Fil: Pisonero, Jorge. Universidad de Oviedo; España Fil: Dománico, Alejandro. Ministerio de Agroindustria. Subsecretaría de Pesca y Acuicultura. Laboratorio de la Dirección de Pesca Continental; Argentina. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas; Argentina Fil: Sánchez, Sebastián. Universidad Nacional del Nordeste. Facultad de Ciencias Veterinarias. Instituto de Ictiología del Nordeste; Argentina Fil: Volpedo, Alejandra. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Unidad Ejecutora de Investigaciones en Producción Animal. Universidad de Buenos Aires. Facultad de Ciencias Veterinarias. Unidad Ejecutora de Investigaciones en Producción Animal; Argentina

Published

2017

16. Comparison of anadromous and landlocked Atlantic salmon genomes reveals signatures of parallel and relaxed selection across the Northern Hemisphere.

Author

Kjærner-Semb E, Edvardsen RB, Ayllon F, Vogelsang P, Furmanek T, Rubin CJ, Veselov AE, Nilsen TO, McCormick SD, Primmer CR, and Wargelius A

Abstract

Most Atlantic salmon ( Salmo salar L.) populations follow an anadromous life cycle, spending early life in freshwater, migrating to the sea for feeding, and returning to rivers to spawn. At the end of the last ice age ~10,000 years ago, several populations of Atlantic salmon became landlocked. Comparing their genomes to their anadromous counterparts can help identify genetic variation related to either freshwater residency or anadromy. The objective of this study was to identify consistently divergent loci between anadromous and landlocked Atlantic salmon strains throughout their geographical distribution, with the long-term aim of identifying traits relevant for salmon aquaculture, including fresh and seawater growth, omega-3 metabolism, smoltification, and disease resistance. We used a Pool-seq approach ( n  = 10-40 individuals per population) to sequence the genomes of twelve anadromous and six landlocked Atlantic salmon populations covering a large part of the Northern Hemisphere and conducted a genomewide association study to identify genomic regions having been under different selection pressure in landlocked and anadromous strains. A total of 28 genomic regions were identified and included cadm1 on Chr 13 and ppargc1a on Chr 18. Seven of the regions additionally displayed consistently reduced heterozygosity in fish obtained from landlocked populations, including the genes gpr132 , cdca4, and sertad2 on Chr 15. We also found 16 regions, including igf1 on Chr 17, which consistently display reduced heterozygosity in the anadromous populations compared to the freshwater populations, indicating relaxed selection on traits associated with anadromy in landlocked salmon. In conclusion, we have identified 37 regions which may harbor genetic variation relevant for improving fish welfare and quality in the salmon farming industry and for understanding life-history traits in fish., Competing Interests: None declared., (© 2020 The Authors. Evolutionary Applications published by John Wiley & Sons Ltd.)

Published

2020

17. Revisão e considerações sobre o uso do habitat, distribuição e história de vida de Lycengraulis grossidens (Agassiz, 1829) (Actinopterygii, Clupeiformes, Engraulididae)

Author

Ana Cecília Giacometti Mai and João Paes Vieira

Subjects

contingents, anadromous, review, Coastal fish, freshwater resident, catádromo, catadromous, geography, Fish migration, anádromo, geography.geographical_feature_category, biology, Ecology, Actinopterygii, Clupeiformes, Estuary, estuarine resident, biology.organism_classification, Bycatch, Fishery, revisão, Habitat, Taxonomy (biology), estuarino residente, residente de água doce, contingentes

Abstract

In this paper, we present a summary of the current knowledge of Lycengraulis grossidens, a widely distributed coastal fish that occurs from Belize to Argentina. This species is abundant in estuaries along the Southwest Atlantic Coast and is important for recreational fishing, and as bycatch of shrimp fisheries. We compiled data available on taxonomy, phylogeny, ecology, fisheries and organized conceptually the life cycle of the species according to modern estuarine-use classification. Our review showed that along its geographic distribution and inside some particular environments (i.e., estuaries and costal lagoons) the species have been classified in a variety of ways in order to describe the remarkable complexity of habitat use that varies from freshwater resident, anadromous, marine migrant, estuarine resident, marine stragglers, catadromous to semi-catadromous. We conclude that L. grossidens is able to reproduce either in freshwater or estuarine water and postulate that it has a high plasticity in habitat use and life history, with migratory and resident contingents in the same local population. There seems to be a latitudinal change in migratory behavior of this species along the South America Coast, prevailing anadromous or semi-anadromous pattern at higher latitudes and marine migrants at the tropical northeast coast of Brazil. Neste trabalho é apresentada uma compilação do conhecimento atual de Lycengraulis grossidens, uma espécie de peixe amplamente distribuído pela costa oeste do Atlântico Sul, ocorrendo de Belize a Argentina. Esta espécie é abundante nos estuários e tem importância na pesca recreacional além de sofrer impacto da pesca do camarão. São revisados dados publicados sobre a taxonomia, filogenia, ecologia, pesca e ciclo de vida da espécie. Nossa revisão mostrou que, ao longo de sua distribuição, a espécie tem sido classificada de várias formas na tentativa de descrever seu uso do habitat, desde residentes de água doce, anádromos, marinhos migrantes, estuarinos residentes, catádromo e semi-catádromo. Conclui-se que a espécie é capaz de se reproduzir em água doce ou salgada, com uma alta plasticidade no uso do habitat e na sua história de vida, com componentes migrantes e residentes no mesmo local. Além disso, parece haver uma mudança no comportamento migratório da espécie em diferentes latitudes, mostrando um padrão anádromo ou semi-anádromo nas maiores latitudes e marinhos migrantes ao longo da costa tropical do Brasil.

Published

2013