Increased rainfall threatens UK sea urchins


Sea urchins exposed to diluted seawater for long periods show signs of physical deterioration, according to scientists from British Antarctic Survey, the University of Cambridge and the Scottish Association for Marine Science. Their study also found that even slight changes in salinity – or saltiness – trigger changes to urchin behaviour as they try to cope with their new conditions.

Urchins are slow moving bottom feeders, making them especially vulnerable to rapid changes to their habitat. In the UK, climate change is predicted to ‘freshen’ many coastal areas, so the research underscores the potential impact of climate-induced rainfall changes on these marine animals and their broader ecosystems.

Sea urchins exposed to diluted seawater for long periods show signs of physical deterioration. Nick Barrett, BAS.

As our climate warms, Britain’s weather is becoming more extreme; in Scotland precipitation has increased by 20% since the 1960s. Salinity is one of the critical environmental factors that affect the biology of marine organisms, with increased rainfall and glacial melting reducing the salinity of coastal waters.

The researchers exposed European sea urchins at the Scottish Association for Marine Science in Oban to conditions mimicking those that could occur under future climate scenarios, with salinity ranging from 31 parts salt per thousand (‰) – that of ambient seawater – to a more extreme scenario dropping to 11‰.

Over an initial 24 hour period, and later for 25 days, the team measured how much oxygen the creatures consumed, how quickly they fed and their ability to flip themselves over if they toppled.

In the mid-salinity water, the scientists observed changes in behaviour, but the sea urchins showed clear signs of adjustments and tolerance, indicating they could survive long-term at this level if conditions change in the environment.

A small boat in a body of water with a mountain in the background
The urchins were collected from Loch Linnhe, west coast of Scotland.

But immersed in less salty water – around 21‰ – the urchins’ physical condition deteriorated: they became sluggish, eating less and breathing more rapidly. They lost spines and body mass, and their tube-feet discoloured, indicating severe stress.

Nicholas Barrett, PhD student at British Antarctic Survey and the Department of Earth Sciences at the University of Cambridge says:

“Coastal waters are predicted to freshen as climate changes because of increased rainfall and glacial melting, and salinity is one of the main factors impacting the physiology and ecology of marine life.

Though it was heartening to see the sea urchins successfully adjust to some reduction in salinity, further reductions had a dramatic impact on the animals health, suggesting their long-term survival could be severely compromised.

This urchin species plays a crucial role in controlling the growth of various large kelp seaweeds. Its disappearance could therefore upset the delicate balance of coastal ecosystems.”

Controlled salinity experiments like these differ from the natural acclimatisation process that urchins may exhibit in the wild, but this research offers a clear prediction of how this species may fair under future heavy rainfall induced by climate change.

A close up of a flower
The European sea urchin is commonly associated with giant kelp forests. Nick Barrett, BAS.

Behavioural and physiological impacts of low salinity on the sea urchin Echinus esculentus by Barrett, N., et al is published in Journal of Experimental Biology.

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