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I saw the tuna post. Genuine inquiry: can you please share some of your favorite tuna facts?

Gladly! I already shared some of my favourites, but I can describe them in further detail.

There are 15 species in the Thunnini tribe (the tunas), split between five genera. Most tunas, eight species, are in the genus Thunnus, which is also called “true tunas”! The biggest of them all, Atlantic bluefin tuna, has been reported to reach a maximum size of 4.6 m/15 feet and 900 kg/~2 000 lbs. Read that again. Really take it in. The largest tuna ever measured and weighed were longer than two Shaquille O’Neals stacked on top of one another, and weighed over six Shaquille O’Neals! (I hear people like hearing measurements in Shaquille O'Neals.)

Naturally tuna don't always reach such gargantuan sizes, the average Atlantic and Pacific bluefins are around the two meter/~6.5 feet length range. The average southern bluefin, yellowfin, bigeye tuna and albacore are all around one to two meters long (~3 feet to ~6.5 feet), and one of the more common tuna species to be eaten (especially canned), skipjack tuna, is 80 cm/31 inches long on average. Still, that's not tiny! It's twice as big as your average largemouth bass or pike.

Like I described in my original tuna post, everything about tunas is evolved for speed. Their lunate tail has little surface area to minimise drag in the water. Near their tail they have stabilising horizontal keels. Their dorsal fin has a special groove in the body where it can be tucked completely hidden. Tunas can also tuck in their pelvic fins when they swim at great speeds, less fins sticking out meaning more hydrodynamic shape! Of course though, fins are great for controlling where you're swimming and when you're doing sharp turns: to keep their turns as hard as possible, it has been found that (at least Pacific bluefin and yellowfin) tunas actually use their lymphatic system to pump their dorsal and anal fins full of fluid! The fluid forces the fins into an erect and extremely stiff position that gives the tunas plenty support to stop in their tracks in the water and turn around. A wonderful LiveScience article says it best, making turns with stiff fins versus floppy fins is like "the difference between trying to turn a canoe with a pool noodle versus a sturdy wooden oar."

Tunas have red flesh unlike the white flesh of most fish, and that's because they're simply jam packed full of myoglobin. Swimming continuously and especially swimming at lightning speeds for even a small amount of time takes up a lot of oxygen, and the tuna's blood can bind a lot of it! Also, most interestingly, the circulation system of tunas is set up in such a way that heat produced from their metabolism is retained to heat the body in what is called countercurrent heat exchange. I'll explain this in a lengthier way.

Usually, when blood travels to the peripheries of a fish's body -- even if it was warmed by the fish's metabolic processes -- tends to cool down as it moves closer and closer to the outside world, i.e. the water surrounding the fish. When the blood travels back to the heart and the organs, it's still that cool temperature, for a fish do not keep a constant consistent body temperature like mammals or birds can. This is made no better with the gills, as they are in constant contact with water and the blood of a fish is therefore also constantly in contact with the cooling forces of the water. However! The way that tunas do it is that as the blood vessels travelling further away from the heart are subjected more and more to the cooling forces of the outside world, they are closely intertwined with blood vessels that are going from the periphery back into the center of the body. What happens then is that as the cool blood comes back into the body, it is essentially surrounded by blood that is warmer and warmer the deeper inside it goes. This transfers the heat to the blood vessels that go inside the body, warming the blood overall and allowing tunas to keep their body temperature significantly higher than the surrounding environment! Here's a picture that shows how that works. Fun fact: the net of veins that warms the tuna is called a rete mirabile, a "wonderful net".

Tunas use this tactic to warm their swimming muscles, their brains and their eyes: tunas are visual predators that need to see well, efficiently process what they see, have quick reaction times and fast reflexes, and of course, swim extremely fast. It works rather well for them, as they can maintain a body temperature several degrees higher than the surrounding water!

All these things combined make tunas a fierce oceanic predator! The yellowfin tuna is the fastest and can reportedly swim at a top speed of 75 km/h or 47 mph, but the others aren't bad either, the Atlantic bluefin can swim with a max speed of 53 km/h or 33 mph for example! Estimates for speeds vary a lot though, some max speeds are easily overestimated if there’s no way to accurately measure speed. For one, the NOAA Fisheries site claims that the albacore tuna can reach speeds of over 80 km/h or 50 mph, but then clearly they would be the fastest tunas, even though it’s often agreed that title goes to the yellowfin….? Mmm… Just, they’re fast. They’re very really fast.

Tunas like to swim in schools, sometimes comprised of multiple tuna species. All together they are the terror of fish schools in the temperate and warm seas of the world >:) They tend to stick to surface waters, but some tunas can dive even up to a kilometer deep (3 280 feet), namely Atlantic bluefins! Many species make great migrations between their breeding grounds and where their food goes, they can swim kilometers upon kilometers nonstop without ever tiring. "Nonstop" isn't even hyperbole in this case by the way, tuna cannot stop swimming as their oxygen intake relies on ram ventilation similar to some species of sharks. If they stop, they cannot get water on their gills and suffocate as a result. It's not really known if and how tunas rest as a result, because they are always on the go. Also I don't really know where else to say this, but the keels of tunas actually have a lateral line canal that differs from the rest of the body's lateral line, which might help tunas sense things like water flow and pressure near the tail. The more you know!

I can't leave these facts here without showing some proper tuna pictures that showcase their size. Here’s a 191 kg/422 lb Atlantic bluefin tuna!

Sadly out of the water, but... look at that. Tiger of the ocean, that is.

#tuna #bluefin tuna #atlantic bluefin tuna #pacific bluefin tuna #yellowfin tuna #bigeye tuna #albacore #skipjack tuna #skipjack #southern bluefin tuna #tunafish #fish facts #fishfact #asks #mushroommanchanterelle #fish

A very buggy HiveWing

#wings of fire #wof #wof art #HiveWing #wof hivewing #skipjack #wof oc #my art #my post #my oc

Been playing with another FUTURE future AU and I'm having a lot of fun haha. Maj Skipjack and Cap'n K'nicknack! They also have a ship called Bub-E that they live and travel around in.

I'm thinking that Skipjack is earth's first space explorer, and Bub-E was created to accompany him so he wouldn't need a crew to run the whole ship. They meet Cap'n K'nicknack once they travel far from home, and he ends up derailing their mission by tickling Skipjack's adventure bone.

K'nicknack has a "Koinkydink Drive" which is a reference to the infinite improbability drive from Hitchhiker's Guide, but it's busted. He convinces Skipjack to help repair it to find the legendary candy planet. But Bub-E wishes Skip would focus on the mission first and foremost.

#tmmof #flapjack #captain k'nuckles #space au #cap'n k'nicknack #skipjack