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Assemble Plus Press Release: Studies find that higher temperatures have an adverse effect on mussels

Studies find that higher temperatures have an adverse effect on mussels

A recent study provides new insights into the effects of rising temperatures on bivalves, a class which includes mussels and oysters. The findings show further evidence of the detrimental impact climate change could have on fisheries and aquaculture worldwide.

Mussels exposed to high temperatures can suffer from tissue degradation and increased mortality (Clements et al., 2018), but a complete understanding of the mechanisms behind these effects were unclear. New research led by marine biologists at the Norwegian University of Science and Technology and funded through the EU ASSEMBLE Plus project’s Transnational Access programme investigated how this occurs.

Head researcher for the project, Jeff Clements, said “European mussels are of great economic importance, making up about a quarter of global mussel aquaculture production.  While it is clear that these fragile species are adversely affected by temperature changes, we understand very little about how these effects take place.”

The research team, comprised of Clements and Fredrik from the Norwegian University of Science and Technology, and Kirti Ramesh, Jacob Nysveen, and Sam Dupont from the University of Gothenburg, investigated “valve gaping behaviour” in mussels, an important activity which allows the organisms to eat, respond to their environment, and deter predators.

“Bivalves are particularly interesting as they have no head and therefore have no centralised nervous system”, said Dr Clements. “Despite not having a brain, these animals exhibit complex decision-making behaviours. Understanding these behaviours can give unique insights into wide-ranging effects of climate change”.

Over a period of three months, the research team exposed blue mussels to high temperatures and acidic conditions at the Kristineberg Centre for Marine Research and Innovation in Sweden. After this time, the researchers exposed the bivalves to a simulated predator attack. The researchers recorded the time that it took each bivalve to re-open their shells after they had closed to avoid the predator “attack”.

The team found that pH had no effect on the mussels’ behaviour. In contrast, high temperatures had a significant effect on behaviour: mussels that had been exposed to three months of higher temperatures stayed closed for twice as long as bivalves kept in a lower temperature environment, meaning that they had extended periods of time when they were unable to feed. The researchers believe this increased time spent closed under high temperatures could help to explain why mussels suffer from tissue degradation and increased mortality when temperatures are high for extended periods of time. 

The findings, published in Animal Behaviour, have important implications for how fisheries and aquaculture farms respond to the changing climate. With rising ocean temperatures leading to multiple stresses for aquaculture species, shellfish farmers and industry leaders may need to find new methods to maintain productivity and care for their stock.

Full paper

Clements, J.C., Ramesh, K., Nysveen, J., Dupont, S., and Jutfelt, F. (2021) Animal size and sea water temperature, but not pH, influence a repeatable startle response behaviour in a wide-ranging marine mollusc. Animal Behaviour. doi: 10.1016/j.anmehav.2020.12.008.


This project has received funding from the European Commission’s Horizon 2020 research and innovation programme under grant agreement No 730984 (ASSEMBLE Plus). This output reflects the views only of the author(s), and the European Commission cannot be held responsible for any use which may be made of the information contained therein. The project began in October 2017 and will run until September 2021. The project is coordinated by Sorbonne Université.

The study was also supported by a Marie Skłodowska-Curie Individual Fellowship funded through the European Union Horizon 2020 program (project number 752813 to J.C.C.); a KVA Fund through the University of Gothenburg (to J.C.C.); the Research Council of Norway (262942 to F.J.); and by a Carl Tryggers Fellowship (to K.R.).



Twitter: @ASSEMBLE_Plus

For press queries, please contact Mercedes Arjona ([email protected]

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