THIS CONTENT IS BROUGHT TO YOU BY THE University of Agder - read more
Blue mussels in Skagerrak are more diverse than previously thought
Researchers have found significant geographical variation in the genetic material of blue mussels. This means they do not spread as widely as previously thought.
“Blue mussels are an iconic species along the shore. Anyone living by the sea has probably collected mussels at some point. However, there have been fewer of them over the past couple of decades, and we're not entirely sure why,” says Professor Ane Timenes Laugen at the University of Agder (UiA).
Together with colleagues from UiA and the Institute of Marine Research, she has conducted a genetic study of blue mussels along the coast from Kristiansand, Norway, to Gothenburg, Sweden.
In a scientific article, the researchers show that there is significant geographical variation in the genes of blue mussels in this sea area. This indicates that different groups of mussels do not mix easily with others, despite being a species that spreads readily.
There are many theories about what has happened to the mussels, but no one is entirely sure. Laugen hopes their findings might provide a piece of the puzzle.
Drifting with the currents
Mussels, like many other marine organisms, do not produce one offspring at a time like humans. Instead, they release thousands or millions of eggs and sperm, which find each other in the water.
Fertilised eggs develop into larvae, which are carried by ocean currents before turning into mussels after about three weeks.
There are many obstacles along the way. Many blue mussel larvae are swept westward by currents along the Skagerrak coast and onward to the North Sea. However, in Skagerrak, there is a large, circulating ocean current that occasionally pulls the larvae out into the open sea. There, the chances or finding a suitable place to settle and mature are lower.
However, ocean currents can also benefit mussel larvae.
One such current is the Baltic surface current, which flows from the Baltic Sea, along the Swedish west coast and down the Norwegian Skagerrak coast.
“This surface current moves quickly, and the larvae can travel quite far in three weeks," says Laugen.
She adds that this is why discovering such great genetic variation in Skagerrak was somewhat unexpected.
Lack of data
“Our challenge as researchers is the lack of systematic data on mussel occurrences. We get reports from the public and a few studies here and there, but we need long-term data series to really understand the causes of the decline,” says Laugen.
The researchers have found some studies on mussel populations along the Swedish coast between Gothenburg and Strömstad from the 1970s, 1980s, and 1990s. However, they are not sure if similar data exists in Norway.
“Locally on the Swedish west coast, there are significant genetic differences between mussel populations within the archipelago and those further out. The same pattern might exist in Norway, but we have not yet investigated this,” says Laugen.
The fact that some mussel populations are genetically very distinct from others means that few larvae come from other areas.
“If something happens to these isolated mussel populations, natural recruitment of new individuals is difficult. We may have lost some mussel habitats because they only reproduced locally,” the researcher says.
“In the summer of 2024, we've seen large numbers of new blue mussels along the coasts of Skagerrak and Kattegat, but we will only see over the next couple of years whether these mussels survive to reproductive age and can contribute to future mussel generations,” she says.
Warns against relocating mussels
The researchers warn against relocating blue mussels.
One reason is that just as different species have intrinsic value, so do genetically distinct populations. But the most important reason is that it is not certain the mussels can cope with relocation.
“If all the blue mussels in Skagerrak disappear, we should be cautious about relocating mussels from Trøndelag. When we move individuals with a specific genetic composition to a new environment, they might not thrive,” says Laugen.
She also notes that shells can carry many diseases, and careless relocation could inadvertently spread these diseases to new areas.
Reference:
Gustafsson et al. Unlocking the secret life of blue mussels: Exploring connectivity in the Skagerrak through biophysical modeling and population genomic, Evolutionary Applications, vol. 17, 2024. DOI: 0.1111/eva.13704
———
Read the Norwegian version of this article on forskning.no
This content is paid for and presented by the University of Agder
This content is created by the University of Agder's communication staff, who use this platform to communicate science and share results from research with the public. The University of Agder is one of more than 80 owners of ScienceNorway.no. Read more here.
More content from the University of Agder:
-
Who are the best at taking penalties in handball?
-
Many cancer survivors struggle to maintain an active lifestyle
-
The sound of a voice impacts the story you hear in a song
-
“Artificial intelligence is not a threat to music”
-
Study reveals gaps in how children experience being heard in Norwegian child welfare services
-
AI-generated images of teenagers: "They're made so beautiful that it becomes intrusive"
