A climate-disrupted ocean is pushing sharks, rays and other species to flee ever-hotter water in the tropics, only for them to be killed by increasingly intense upwells of cold water from the depths, a study has found.
One of the authors of the paper described the “eerie” aftermath of a mass die-off of more than 260 marine organisms from 81 species in a singular event of extreme cold upwelling off the coast of South Africa in 2021.
The paper, published in Nature Climate Change on Monday, found that shifts in ocean currents and pressure systems driven by climate breakdown were increasing the frequency and intensity of upwellings, which may in turn increase the vulnerability of migratory species such as bull sharks.
Scientists focused on the mass die-off event in 2021, which they were able to track in unusually precise detail because one of affected creature that survived was a bull shark that had been satellite tagged. They found it had been caught in water that fell more than 10C below the temperature that such tropical species were used to.
The paper details how the shark changed its behaviour in an attempt to avoid the cold areas. It swam much closer to the surface than normal and moved outside its normal migration pattern.
Many of the affected sea creatures’ carcasses washed up on the shore of South Africa, including the pup of a big manta ray that had been aborted by its traumatised mother.
“It was eerie to see so many species washed up dead,” said Ryan Daly, one of the authors of the paper. He said he was surprised that even the very mobile species, such as manta rays and bull sharks, were caught in the upwelling. “You’d think they would have swum away but they got squeezed. They couldn’t escape,” he said.
To understand the broader trends behind the die-off, the scientists tagged other sharks and used 41 years of sea surface temperature data and 33 years of wind records to investigate the frequency and intensity of cold “killer events” inshore of the Indian Ocean’s Agulhas current and the east Australian current in the past 30 years.
They found cold upwelling events had increased in frequency and intensity in these regions between 1981 and 2022. Other species killed in such events include whale sharks, convict surgeonfish, bigeye trevallies and common blacktip sharks.
Tagged bull sharks appeared to change their behaviour to avoid sudden temperature drops by swimming closer to the surface, sheltering in bays and estuaries and only moving to the extent of their poleward distribution during warm seasons.
The marine biologists worked with oceanographers to map upwelling trends and forecast what could happen in the future as climate disruption becomes ever more pronounced and extreme cold upwellings increase in frequency along with periods of extreme surface heat.
Within individual species, certain groups tend to live on the edge of their population range. Daly said these groups were most vulnerable to the sudden and protracted temperature shifts. “There are bull sharks that run the gauntlet of a cool area to get to thermal refuges. Upwellings could kill off this unique genetic diversity.”
He said the findings suggested the need for a new approach to marine conservation that incorporated knowledge about the increasingly complex ways that climate chaos is affecting marine species. “We need to think about expanding conservation areas and prioritising different species,” he said. “We need to think out of the box.”