News Release

Marine biology: Acidified oceans may corrode shark scales

Peer-Reviewed Publication

Scientific Reports

Prolonged exposure to high carbon dioxide (acidified) seawater may corrode tooth-like scales (denticles) covering the skin of puffadder shysharks, a study in Scientific Reports suggests. As ocean CO2 concentrations increase due to human activity, oceans are becoming more acidic, with potential implications for marine wildlife. Although the effects of acidified water have been studied in several species, this is the first observed instance of denticle corrosion as a result of long-term exposure.

Lutz Auerswald and colleagues investigated the effects of exposure to acidified seawater in puffadder shysharks. The authors found that in three sharks housed in acidified seawater for nine weeks, 25% of denticles on average were damaged, compared to 9.2% of denticles in a control group of three sharks that had been housed in non-acidic water. They suggest that such corrosion may impair the sharks' skin protection and open-water sharks' ability to swim, as denticle surface affects their swimming speed. They also speculate that similar corrosion may occur in sharks' teeth (which have the same structure and composition as denticles), which may negatively impact their feeding.

However, the authors also found that although exposure was linked with increased carbon dioxide concentrations in blood taken from a total of 36 sharks housed in acidified seawater for different periods of time, concentrations of carbonate also increased. This prevented the blood from becoming more acidic, suggesting that these sharks may be able to adjust to high CO2 conditions during periods of exposure.

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Article and author details

Acid-base adjustments and first evidence of denticle corrosion caused by ocean acidification conditions in a demersal shark species

Corresponding author:

Lutz Auerswald
Department of Environment, Forestry and Fisheries and Stellenbosch University, Stellenbosch, South Africa
Lutz.Auerswald@gmail.com

DOI

10.1038/s41598-019-54795-7

Online paper

https://www.nature.com/articles/s41598-019-54795-7

Please link to the article in online versions of your report (the URL will go live after the embargo ends)


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