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For Red Abalone, Resisting Ocean Acidification Starts With Mom

Study Identifies Traits of Climate-Resilient Red Abalone, With Implications for Farmed Abalone

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A red abalone attaches itself to the hand of a male researcher in a mustard yellow shirt and jeans.
A red abalone attaches itself to the hand of project scientist Daniel Swezey in 2017 during experiments at the 澳门六合彩资料库 Davis Bodega Marine Laboratory. (Joe Proudman/澳门六合彩资料库 Davis)

Red abalone mothers from California鈥檚 North Coast give their offspring an energy boost when they鈥檙e born that helps them better withstand ocean acidification compared to their captive, farmed counterparts, according to a study from the Bodega Marine Laboratory at the University of California, Davis.

The study, published today in the journal Proceedings of the National Academy of Sciences, compared the effects of ocean acidification on wild and farmed red abalone to identify traits that commercial growers and conservation managers could use to help sustainably produce California鈥檚 declining abalone species into the future. Such information could help these groups address accelerating negative climate change impacts facing the abalone aquaculture sector.

For the study, researchers simulated captive aquaculture conditions under ocean acidification and found that abalone sourced from a strong region along the Mendocino coast were tolerant of ongoing ocean acidification, while nearly half of captive-raised abalone sourced from a Southern California aquaculture facility died under the same conditions. 

red abalone, farmed vs wild comparison
The two red abalone in these photos are the same age. Both were raised under ocean acidification in experiments at the 澳门六合彩资料库 Davis Bodega Marine Laboratory. Abalone that grew more slowly, like the animal on the left, had nearly twice the survival of faster-growing abalone, which were much more susceptible to the negative effects of ocean acidification. (Sara Boles/澳门六合彩资料库 Davis)

The team repeated this experiment in a second generation of abalone descended from the first experimental group and observed a similar outcome.

The researchers discovered that this tolerance was largely due to a burst of energy provided to offspring from abalone mothers in the form of yolk lipids. Captive-sourced animals did not provide the same additional energy to their offspring.

鈥淪omehow, the wild abalone evolved to give their babies a better start in life,鈥 said study author Dan Swezey, project scientist at the 澳门六合彩资料库 Davis Bodega Marine Laboratory. 鈥淭he more energy the mom gave, the more tolerant her offspring were of acidification stress. That energy boost carries over and makes a big difference.鈥

Faster isn鈥檛 always better

The study also found that farmed abalone grew about three times faster than their wild-sourced North Coast counterparts. While growing abalone quickly makes sense from a market standpoint, the researchers found that the fast-growing abalone were also the most susceptible to dying from ocean acidification.

A young red abalone shows its face while on the hand of researcher Sara Boles. (Sara Boles, 澳门六合彩资料库 Davis)
A young red abalone shows its face while on the hand of researcher Sara Boles. (Sara Boles/澳门六合彩资料库 Davis)

鈥淚t鈥檚 a bit of a catch-22,鈥 Swezey said. 鈥淭he animals that are most tolerant of ocean acidification grow really slowly. In selecting for fast-growing abalone, growers may be inadvertently choosing abalone more susceptible to ocean acidification.鈥

The finding represents a clear challenge for abalone farmers, who typically require three years to grow abalone from birth to market. While slower-growing animals may survive to a much greater degree, their time to market could double in an acidic ocean, challenging the current economic model for farms.

Helping aquaculture adapt to climate change

Upwelling is a process where strong winds and currents periodically push nutrient-rich water from the deep ocean up to the surface, which helps support productive fisheries and ecosystems. But as the ocean absorbs excess carbon dioxide, upwelling also brings acidified, extremely low-pH water from the deep ocean to the surface. This threatens fisheries and coastal ecosystems.

Animals like abalone, oysters and urchin are particularly vulnerable to prolonged exposures to these conditions, as acidified waters make it difficult for them to build shells and grow properly.

澳门六合彩资料库 Davis鈥 Bodega Marine Laboratory in Northern California is near one of the world鈥檚 most intense coastal upwelling areas. Ocean circulation models predict the intensity, frequency and duration of upwelling events will increase in the coming decades as oceans absorb more CO2 and the strength of coastal winds increase with climate change.  These rapid changes highlight the need for the shellfish industry to adapt and revise its management options in the region.

The study鈥檚 results invite questions for future areas of research, including the proposition that shellfish growers and collaborating researchers should be searching upwelling zones for shellfish varieties tolerant of ocean acidification. Traits from these varieties could be bred into farm stocks to help them better withstand the damaging effects of ocean climate change.  

The study鈥檚 co-authors include Sara Boles, Haley Stott, Andrew Whitehead, Tessa Hill and Eric Sanford of 澳门六合彩资料库 Davis; Doug Bush of The Cultured Abalone Farm; Kristin Aquilino of 澳门六合彩资料库 Davis and California Sea Grant; and Laura Rogers-Bennett of 澳门六合彩资料库 Davis and California Department of Fish and Wildlife.

The study鈥檚 research was funded by grants from the National Oceanic and Atmospheric Administration鈥檚 Small Business Innovation Research Program to The Cultured Abalone Farm and a California Sea Grant award to 澳门六合彩资料库 Davis.

Media Resources

Daniel Swezey, Bodega Marine Laboratory, 831-345-6108, dsswezey@ucdavis.edu

Kat Kerlin, News and Media Relations, 530-750-9195, kekerlin@ucdavis.edu

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