Hairy Frog facts

While investigating facts about Hairy Frogfish and Hairy Frog Claws, I found out little known, but curios details like:

The frog known as the "Hairy Frog", "Horror Frog", or the "Wolverine Frog" that is so aggressive it will literally break its own bones, force them through the skin, then use them as claws to attack; even humans.

how long do hairy frogfish live?

The hairy frog aka the wolverine frog gets its name from its behavior of breaking its own bones and sticking them out out of its skin to use as sharp weapons. It is the only known animal with this behavior.

What do hairy frogfish eat?

In my opinion, it is useful to put together a list of the most interesting details from trusted sources that I've come across answering what does the hairy frog eat. Here are 11 of the best facts about Hairy Frog Attack and Hairy Frogfish Facts I managed to collect.

what is a hairy frog?

1. The Hairy frog is known as the "Wolverine frog" because it is thought to intentionally break its toe bones to force sharp "claws" through its flesh as a means of defence.

2. Hairy Frog is the only vertebrate known possessing claws made of bone pure, piercing her own skin to defend against attackers.

3. Frogs with hairy legs exist. We came upon this in class today and had to look it up if it really existed. Frog with hairy pants.

4. There is a frog that breaks its own bones, pushes them out of its toes to make claws, and also has hair, aptly named the Hairy frog

5. The most metal frog on Earth, the Hairy Frog, intentionally breaks the bones in its toes so that it may project them through its skin and use these retractable "claws" as a defense mechanism.

6. There is a creature called the "hairy frog" (stop laughing!). This frog can break its own fingers and pop the bones out through its skin like little sharp claws. Some similar species can even grow bone spikes that protrude from the wrists.

7. The hairy frog can break the bones in its toes and force them through its skin, forming claws. This is probably a defense behavior. Although a retraction mechanism is not known, it has been hypothesized that the claws later retract passively, while the damaged tissue is regenerated.