A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers
Anadromous salmonid fishes frequently exhibit strong geographic population structuring. However, population genetic differentiation of Atlantic salmon (Salmo salar) at fine geographic scales differs across equivalent spatial extents in different regions. So far, fine-scale genetic differentiation ha...
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2021
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| Online Access: | https://pub.epsilon.slu.se/22696/ https://pub.epsilon.slu.se/22696/1/miettinen_a_et_al_210304.pdf |
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ftslunivuppsala:oai:pub.epsilon.slu.se:22696 2023-05-15T15:31:47+02:00 A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers Miettinen, Antti Palm, Stefan Dannewitz, Johan Lind, Emma Primmer, Craig R. Romakkaniemi, Atso Östergren, Johan Pritchard, Victoria L. 2021 application/pdf https://pub.epsilon.slu.se/22696/ https://pub.epsilon.slu.se/22696/1/miettinen_a_et_al_210304.pdf en eng eng https://pub.epsilon.slu.se/22696/1/miettinen_a_et_al_210304.pdf Miettinen, Antti and Palm, Stefan and Dannewitz, Johan and Lind, Emma and Primmer, Craig R. and Romakkaniemi, Atso and Östergren, Johan and Pritchard, Victoria L. (2021). A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers. Conservation Genetics. 22 [Research article] Fish and Aquacultural Science Research article NonPeerReviewed info:eu-repo/semantics/article 2021 ftslunivuppsala 2022-01-09T19:16:03Z Anadromous salmonid fishes frequently exhibit strong geographic population structuring. However, population genetic differentiation of Atlantic salmon (Salmo salar) at fine geographic scales differs across equivalent spatial extents in different regions. So far, fine-scale genetic differentiation has not been assessed in rivers of the Baltic Sea, a region that contains an evolutionarily distinct Atlantic salmon lineage. Thus, Baltic salmon are currently managed on the river level, without focus on potential genetic structure and diversity within rivers. Here, we used microsatellites to characterize the genetic structure of wild juvenile salmon sampled throughout the interconnected, northern Baltic Tornio and Kalix Rivers. We found genetic differentiation within the two rivers, but not between them: salmon in the upper reaches differed from individuals in the lower reaches, regardless of river system. Further, examining smolts migrating from the river to the sea and adults returning from the sea to spawn, we found an association between the genetic structure and seasonal migration timing. Out-migrating smolts genetically assigned to upper river reaches were older and tended to reach the sea later in the season than smolts from the lower reaches. In contrast, mature adults originating from the upper reaches returned to the river early in the season. Our observation of genetic population structuring between downstream and upstream reaches of the large Tornio and Kalix rivers, and its association with migration timing, implies that careful temporal management of the northern Baltic fisheries would help to preserve the diversity and sustainability of the wild salmon stocks of these rivers. Article in Journal/Newspaper Atlantic salmon Salmo salar Swedish University of Agricultural Sciences (SLU): Epsilon Open Archive Kalix ENVELOPE(23.156,23.156,65.853,65.853) Tornio ENVELOPE(24.147,24.147,65.848,65.848) |
| institution |
Open Polar |
| collection |
Swedish University of Agricultural Sciences (SLU): Epsilon Open Archive |
| op_collection_id |
ftslunivuppsala |
| language |
English |
| topic |
Fish and Aquacultural Science |
| spellingShingle |
Fish and Aquacultural Science Miettinen, Antti Palm, Stefan Dannewitz, Johan Lind, Emma Primmer, Craig R. Romakkaniemi, Atso Östergren, Johan Pritchard, Victoria L. A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers |
| topic_facet |
Fish and Aquacultural Science |
| description |
Anadromous salmonid fishes frequently exhibit strong geographic population structuring. However, population genetic differentiation of Atlantic salmon (Salmo salar) at fine geographic scales differs across equivalent spatial extents in different regions. So far, fine-scale genetic differentiation has not been assessed in rivers of the Baltic Sea, a region that contains an evolutionarily distinct Atlantic salmon lineage. Thus, Baltic salmon are currently managed on the river level, without focus on potential genetic structure and diversity within rivers. Here, we used microsatellites to characterize the genetic structure of wild juvenile salmon sampled throughout the interconnected, northern Baltic Tornio and Kalix Rivers. We found genetic differentiation within the two rivers, but not between them: salmon in the upper reaches differed from individuals in the lower reaches, regardless of river system. Further, examining smolts migrating from the river to the sea and adults returning from the sea to spawn, we found an association between the genetic structure and seasonal migration timing. Out-migrating smolts genetically assigned to upper river reaches were older and tended to reach the sea later in the season than smolts from the lower reaches. In contrast, mature adults originating from the upper reaches returned to the river early in the season. Our observation of genetic population structuring between downstream and upstream reaches of the large Tornio and Kalix rivers, and its association with migration timing, implies that careful temporal management of the northern Baltic fisheries would help to preserve the diversity and sustainability of the wild salmon stocks of these rivers. |
| format |
Article in Journal/Newspaper |
| author |
Miettinen, Antti Palm, Stefan Dannewitz, Johan Lind, Emma Primmer, Craig R. Romakkaniemi, Atso Östergren, Johan Pritchard, Victoria L. |
| author_facet |
Miettinen, Antti Palm, Stefan Dannewitz, Johan Lind, Emma Primmer, Craig R. Romakkaniemi, Atso Östergren, Johan Pritchard, Victoria L. |
| author_sort |
Miettinen, Antti |
| title |
A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers |
| title_short |
A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers |
| title_full |
A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers |
| title_fullStr |
A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers |
| title_full_unstemmed |
A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers |
| title_sort |
large wild salmon stock shows genetic and life history differentiation within, but not between, rivers |
| publishDate |
2021 |
| url |
https://pub.epsilon.slu.se/22696/ https://pub.epsilon.slu.se/22696/1/miettinen_a_et_al_210304.pdf |
| long_lat |
ENVELOPE(23.156,23.156,65.853,65.853) ENVELOPE(24.147,24.147,65.848,65.848) |
| geographic |
Kalix Tornio |
| geographic_facet |
Kalix Tornio |
| genre |
Atlantic salmon Salmo salar |
| genre_facet |
Atlantic salmon Salmo salar |
| op_relation |
https://pub.epsilon.slu.se/22696/1/miettinen_a_et_al_210304.pdf Miettinen, Antti and Palm, Stefan and Dannewitz, Johan and Lind, Emma and Primmer, Craig R. and Romakkaniemi, Atso and Östergren, Johan and Pritchard, Victoria L. (2021). A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers. Conservation Genetics. 22 [Research article] |
| _version_ |
1766362298505494528 |