Sharks have been on this planet for more than 400 million years. They're older than the first trees, the North Star, and even the rings of Saturn. They've seen and been through it all — but the mounting effects of human driven climate change could be what finally proves too much for these ancient beings.
As we continue to pump astronomical amounts of carbon dioxide into the atmosphere, nearly a third of it gets absorbed by the ocean, gradually making its water more acidic.
For sharks, the consequences could be horrifying. New research suggests that this acidifying could dissolve and weaken shark teeth, severely damaging the ability of these apex predators to feed and defend themselves. Not even their famed ability to regrow their rows of deadly chompers could be enough to offset the phenomenon.
"Shark teeth, despite being composed of highly mineralized phosphates, are still vulnerable to corrosion under future ocean acidification scenarios," Maximilian Baum, a biologist at Heinrich Heine University in Germany, and lead author of a new study published in the journal Frontiers in Marine Science, said in a statement about the work. "They are highly developed weapons built for cutting flesh, not resisting ocean acid. Our results show just how vulnerable even nature's sharpest weapons can be."
Currently, the average pH level of the ocean is 8.1. In the some 200 years since the industrial revolution began, it's dropped by about 0.1 pH units, according to NOAA, representing a 30 percent increase in acidity. One study projects that the ocean could plunge to a pH level of 7.3 by 2300, if current rates of emissions hold. Meanwhile, some research has found that current pH levels are already damaging denticles, the tiny serrated scales that form the top layer of a shark's skin.
"Since ocean acidification is known to damage calcified structures like corals and shells, we wanted to investigate whether shark teeth, especially in species... that swim with their mouths open to ventilate their gills and have constant seawater exposure, might also be vulnerable," Baum told CNN.
In an experiment, the researchers collected shark teeth that were shed by blacktip reef sharks — a vital predator in tropical coral reefs — housed in a local aquarium. For eight weeks, they submerged one batch in a tank containing water with the ocean's current pH of 8.1, and another batch in a tank with the projected pH of 7.3.
It was immediately clear which set of teeth were worse off, after examining them with electron microscopy.
"We observed visible surface damage such as cracks and holes, increased root corrosion, and structural degradation," said coauthor Sebastian Fraune, head of the Institute of Zoology and Organismic Interactions at HHU, in the statement.
Bizarrely, the acid-bathed teeth had a higher circumference — not because they actually grew, but because their surfaces were more irregular. Bigger teeth may sound like an advantage, but not if they're weakened.
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