Climate change 'could be making fish smaller' say Aberdeen researchers Published duration 28 January 2014

image copyright Getty Images image caption Researchers looked at fish including North Sea herring

A decline in the length of fish in the North Sea could be linked to climate change, according to researchers at the University of Aberdeen.

Their findings suggest edthe maximum body length of fish including haddock, whiting, herring, plaice and sole has fallen by as much as 29% over 38 years.

They said that coincides with an increase in water temperatures of between 1C and 2C.

Food availability and fishing pressure was also assessed.

The team hopes the findings - published in Global Change Biology - will promote further research into the impacts of climate change on fish.

Dr Alan Baudron, research fellow at the university's School of Biological Sciences, said: "We used data collated by the International Council for the Exploration of the Sea reporting the age and length of commercial fish in the North Sea.

"Our analysis showed that the majority of species examined - specifically, haddock, whiting, herring, Norway pout, plaice and sole - experienced a synchronous reduction in their maximum length over the time period.

"What is interesting is that this was detected across a range of fish species eating different diets, living at different depths and experiencing different levels of fishing mortality.

"The synchronicity suggests that the one common factor they all experienced - increasing water temperatures - could have been at least partly responsible for the observed reductions in length.

"The timing of the reduction in maximum length coincided with years when water temperature in the North Sea increased."

He explained: "Our findings are consistent with current understanding of the physiology of fish. Because fish are cold-blooded animals their metabolic rates are determined by the ambient temperature.

"In general, fish grow more rapidly during their early life when temperatures are warmer. The consequence of rapid juvenile growth is that they become mature at a smaller length and therefore don't grow as large as they would have in colder waters.

"Other factors, such as food availability or fishing pressure, also contribute to variability in body length.

"However, we showed that it is less likely that these factors could explain the synchronous change in length observed across species."