Water and genes flow between the two largest Baltic salmon rivers
Traffic is busy below the surface of the Baltic Sea and rivers flowing into it. Starting in early summer, mature salmon migrate from the sea into their home rivers to spawn. The study by the University of Helsinki, Natural Resources Institute Finland (Luke) and Swedish University of Agricultural Sciences (SLU) found that salmon destined to spawn far upstream entered the Tornio (Torne in Swedish) River at an earlier date during their spawning migration.
Morever, salmon heading to the upper parts of the river system had almost always spent more than one year at the sea. This is relevant for fisheries, as salmon grow larger the more time they spend at sea. Old and large salmon are particularly prized catches, and essential for the stocks’ wellbeing: large salmon produce the most offspring. How to preserve this kind of diversity is an important consideration in the management and conservation of the largest wild Baltic salmon stocks.
“Salmon that entered the Tornio River earliest in the summer appeared to be mostly on their way to the upper reaches. This suggests that there is good reason to study and closely follow how fishing early in the season may affect the upstream populations,” says lead author of the article Antti Miettinen, from the Faculty of Biological and Environmental Sciences, University of Helsinki.
Salmon don’t follow borders
The Tornio River acts as the border between Finland and Sweden, whereas the neighbouring Kalix River is located entirely in Sweden. These rivers host by far the largest remaining wild Baltic salmon stocks.
Surprisingly, the study found no clear genetic differences separating salmon from the two rivers. This may partly be explained by the rivers being connected to each other by one of the largest bifurcations in the world. About half of the water from the Swedish Torne River flows into the Kalix River through the bifurcation. From the salmon’s perspective, it makes the rivers one vast system to navigate in. In practice, salmon and their genes have a way of reaching the other river.
“The bifurcation and intriguing genetic similarity between salmon from these rivers highlight the significance of cross-border collaboration in conserving and managing this important salmon stock,” Miettinen says.
The peer-reviewed research has been published in Conservation Genetics:
A large wild salmon stock shows genetic and life history differentiation within, but not between, rivers
The research was funded by fishing license revenues from the Tornio/Torne River, The Swedish Agency for Marine and Water Management, The Swedish Research Council Formas, The Natural Resources Institute Finland (Luke), Societas pro Fauna et Flora Fennica, The Betty Väänänen Fund from The Kuopio Naturalists’ Society (KLYY), The Raija and Ossi Tuuliainen Foundation (Raija ja Ossi Tuuliaisen Säätiö), and The Baltic Sea Fund from The Finnish Foundation for Nature Conservation (Suomen Luonnonsuojelun Säätiö).
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