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Salmon populations can adapt their eggs to survive in degraded rivers



Core from a chalk stream spawning habitat showing fine sediment filling pores between gravel. Credit: University of Southampton

The University of Southampton study suggests that the membrane of salmon eggs may evolve to cope with reduced oxygen levels in rivers, thus helping their embryos to incubate successfully.


The research, funded by the Environment Agency and published in the journal Royal Society Open Science, you have found that differences in the structure of the thin film surrounding a salmon embryo affects its ability to absorb dissolved oxygen from river water.

Atlantic salmon are in decline in their natural habitats and it is believed that this is partly due to a reduction in the quality of the water in which they spawn. Sediments werehed off the land by starve rivers of oxygen by encouraging more organic matter to grow and by silting up the gravel beds where salmon lay their eggs in nests (redds). The eggs rely on a sufficient flow of oxygen across their membranes to successfully incubate and this latest study examines how the structure of these membranes vary in different salmon populations.

The researchers took a range of measurements from membranes of eggs at a fish farm in Scotland and from conservation hatcheries in four different UK rivers; Dorchart, Tilt, South Tyne and North Tyne. They were chosen for their varying levels of sediment and oxygenation. The results showed membrane thickness, porosity and permeability varied according to each location.

Further tests on eggs in controlled laboratories showed that those with less permeable membranes were less likely to survive low-oxygen conditions, in other words, the thicker the membrane, the more likely the egg would be hungry for oxigen and perish. Conversely, greater permeability means greater chance of survival.

Salmon egg showing ova as dark patch. Credit: University of Southampton

Lead author Jack Bloomer from Tyne Rivers Trust, who undertook the research while a Ph.D. Student at the School of Geography and Environmental Science at the University of Southampton, comments: "Our findings tell us that the permeability of salmon egg membranes differ according to their location and that their structure affects how efficiently they can receive oxigen from the water around them .

"What we can not say for certain yet is whether populations are surviving by evolving a specific membrane structure to suit the particular conditions of the river they are hatching-although the evidence points to this as a strong possibility and we hope future studies will provide further evidence. "

Professor David Sear, also of Geography and Environmental Science at Southampton, was the lead supervisor on this research working with colleague Professor Paul Kemp of the School of Engineering. Past research by Professor Sear examined how fine sediments from soil erosion, farm run-off, road verges and eroding river banks can accumulate in the nests of Atlantic salmon and other benthic spawning fish.

He commented: "We've previously shown that reduced oxygen supply to the embryo incubation, due to increased fine sediment accumulation in spawning gravels, contributes to the decline in fish numbers in the UK and European rivers.

"This new research explores the biological factors that could make populations of Atlantic salmon more or less susceptible to low ambient oxygen. With further work, it could have important implications for the management and cure of populations of salmon."


Explore further:
Scientists improve predictions of how temperature affects the survival of embryo fish

More information:
Jack Bloomer et al, Does variaction in egg structure among five populations of Atlantic salmon (Salmo salar) influence their survival in low oxygen conditions ?, Royal Society Open Science (2019). DOI: 10.1098 / rsos.181020

Journal reference:
Royal Society Open Science

Provided by:
University of Southampton


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