麻豆淫院

When you picture a shark, you probably think of a large, powerful predator cruising the open ocean.

Species such as the great white shark, tiger shark and bull shark dominate popular media, with stories of rare and isolated cases of attacks on humans (such as the on Sydney's northern beaches) instilling a widespread fear of sharks in the public, and influencing government policy, including the and other "control equipment" across Australia.

While these three species are certainly charismatic predators, they represent less than 0.6% of living sharks. The more than 500 species of living sharks exhibit an astounding diversity of shapes and sizes, from giant 20-meter-long whale sharks to phone-sized bioluminescent , flattened angel sharks, hammerheads, , and wobbegongs.

But how did sharks become so diverse? A I led investigated the evolution of body shape in sharks from their ancient ancestors , all the way to the present day.

A time before the dinosaurs

The huge variation in body shapes we see today did not appear overnight鈥攖he shark lineage traces back to a time before the dinosaurs.

Scientists often use fossils to recreate shifts in body shape and size across the evolutionary tree of different animal groups. Unfortunately, we can't do the same thing with sharks.

That's because shark skeletons are made of . So unlike mammals, birds or reptiles, we don't have many complete fossils of ancient sharks. Instead, we have loads and loads of isolated fossil teeth.

This means that, until now, scientists have known very little about how, when and why the huge diversity of shark body types we see today evolved.

Instead of using fossils, we collected information about body shape from of more than 400 living shark species, and used a statistical method called ancestral state reconstruction to estimate the body shape of ancient sharks.

We also collected information about the habitats that different shark species prefer鈥攁nd how environmental conditions have shifted since the emergence of the very first sharks.

Ancient sharks were bottom-dwellers

Our analyses suggest ancient sharks were probably benthic鈥攎eaning they lived on or close to the sea floor. Pelagic sharks that roamed the open ocean and resembled today's large iconic predators such as great white, tiger or bull sharks, did not arise until the Jurassic period 145鈥�201 million years ago, at the very earliest.

This means that, for the first half of their existence, sharks were restricted to habitats close to the sea floor.

Why? Interestingly, we found that three of the four times sharks have colonized the open ocean, there was a shift in body shape (including the evolution of a deeper body and more symmetrical tail) that occurred just before the shift in habitat.

The timing of these shifts also indicates historical climate change (including rising sea levels and tectonic shifts) may have played a crucial role in creating more pelagic habitats these sharks could have colonized.

This means that as the climate changed, so too did the habitats that ancient sharks inhabited, enabling the evolution of new body shapes. And it so happened that these deeper bodies with more symmetrical tails were better suited for open-water living.

Better understanding ancient ecosystems

By looking back in time at what ancient sharks looked like and how they might have lived, we can better understand how ancient ecosystems functioned, and predict how they may respond to future human-made climate change.

More broadly, these results showcase that not all sharks are the same. Most sharks鈥攂oth ancient and living鈥攁re small and benthic, not large, dangerous apex predators.

So the next time you picture a shark, think not only of great whites and tigers, but also of the ancient bottom-dwellers that shaped the seas long before the first dinosaurs.

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