The Bone Zone

A blog dedicated to bony fish

Oct 23

Gotta go fast!

by swaters9

Rete mirabile Muscle

http://www.fao.org/fishery/topic/16082/en#Roberts/1978 

As one learned in elementary biology, all fish are “cold-blooded” (ectotherms), but this is not the case as there are exceptions. Many in the Thunnus genus is actually able to thermally regulate their bodies and keep themselves quite warm, ranging from 25 to 30 degrees Celsius. Especially those that do long-distance swimming in the open ocean. In fact, tuna have a higher proportion of red muscle present in comparison to other bony fish, which is advantageous for long distance swimming as red muscles are made for longer lasting activities. With these muscles found in tuna they have quite the unique ability! They use an efficient counter-current heat exchange system within their muscles to maintain high body temperatures. As blood vessels overlap heat diffuses to the recently cooled side, making it warm again by the time it reaches the more internal parts of the organism. Heat is generated by their hard working red muscle, and through this system they are able to retain 70-99% of that heat! This feature is quite useful as they don’t have to worry about their muscles cooling down, making them unable to swim long distances. Instead it stays an optimal temperature for muscle stimulation and higher reaction rates. 

Such a unique instance of endothermy within a group (bony fish) that is primarily known for ectothermy was seen as interesting from an animal biology perspective. Surely, this trait was a point of homoplasy. This means it was not a derived trait from ancestors, but it was evolved independently. This was likely an adaptation  that met their needs of long-distance swimming within the vast open ocean as they hunted for their prey. This overall could show how physiological features found within animals can be from decades of selective pressure based on environmental and community interactions. So if you look at the physiology of an organism, it is very likely there for a reason! Animal biologists may not know everything about all animal functions yet, but with these little bits of information it can lead to the reveal of much more. 

 

Citations: 

National Geographic. (2015). “Atlantic Bluefin Tuna.” Retrieved from https://www.nationalgeographic.com/animals/fish/a/atlantic-bluefin-tuna/. 

Hill, R. W.; Wyse, G. A.; Anderson, M. (2004). Animal Physiology. Sinauer Associates, Inc. 

Block, B. A.; Dewar, H; Blackwell, S. B.; Williams, T. D.; Prince, E. D.; Farwell, C. J.; Boustany, A; Teo, S. L.; Seitz, A; Walli, A; Fudge, D (2001). “Migratory Movements, Depth Preferences, and Thermal Biology of Atlantic Bluefin Tuna”(PDF)Science293 (5533): 1310–4.  

Goujon, M. and Majkowski, J. (2000). FAO Fisheries & Aquaculture – Tunas & tuna-like species group. [online] Fao.org. Available at: http://www.fao.org/fishery/topic/16082/en#Roberts/1978 [Accessed 23 Oct. 2019]. 

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Oct 3

You know what they say about BIG FINS!

by swaters9

The speedy blue fin tuna jumps out of the sea, often in the attempt to catch their prey. 

WWF. (2019). Retrieved from https://www.worldwildlife.org/species/bluefin-tuna

Blue Planet II: The Rarely Witnessed “Boiling Sea” https://www.youtube.com/watch?v=CqGfaUF0_c8  

 

The Atlantic bluefin tuna is quite the large, voracious, and speedy predator. They can reach speeds up to 43 mph! Maintaining such speeds and being able to chase after their prey like this is indeed a fin-tastic feat! The key to their success within the vast open ocean is their speed, way of locomotion, and the unique shape of their body. They have a thunniform (teardrop) shaped body as well as a thunniform way of locomotion. The presentation of the body is no mistake, the small, sleek fins allow for less drag/friction, but still leaves room for exact control of direction. Coupled with the minimalistic way of locomotion, great for long distance swimming, the body of the tuna is perfect for a swift swimmer. 

As the tuna family shares this similar trait of sleek, agile bodies, and unique form of locomotion, this hints at an ancestral linkage of quick, long-distance predators. A great example of how effective they are can also be seen in the Blue Planet II clip, where they work with other predators to effectively hunt their prey with their “crystallized” skills. This species has few predators of its own, mostly being other large fish like sharks, or large aquatic mammals like the orca. However, this innate skill to be fast can aid them in predator-prey relations of all types. Plus, because their habitat is often the deep or open ocean, the ability to swim quickly in long distances is a useful and possibly life saving skill. It is very likely that this skill was built up over many generations due to the need for haste travel. 

Unfortunately, the key to insane amounts of speed cannot only be obtained through sleek appearances! But that will be another post for another day…

Citations: 

National Geographic. (2015). “Atlantic Bluefin Tuna.” Retrieved from https://www.nationalgeographic.com/animals/fish/a/atlantic-bluefin-tuna/. 

WWF. (2019). Retrieved from https://www.worldwildlife.org/species/bluefin-tuna. 

 Hawkins, JD; Sepulveda, CA; Graham, JB; Dickson, KA (2003). “Swimming performance studies on the eastern Pacific bonitoSarda chiliensis, a close relative of the tunas (family Scombridae) II. Kinematics”The Journal of Experimental Biology. 206 (16): 2749–2758.

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Sep 4

Phylogenetic Tree

by swaters9

Phylogentic tree containing Scombriformes as future reference

Dickson, K. A., and J. B. Graham. “Evolution and Consequences of Endothermy in Fishes.” Physiol Biochem Zool 77 6 (2004): 998-1018. Print. 

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Sep 4

Hmm something smells fishy…

by swaters9

Herrman, R. Atlantic Bluefin Tuna [digital image]. Retrieved from https://www.pewtrusts.org/en/research-and-analysis/issue-briefs/2017/10/the-story-of-atlantic-bluefin 

If you don’t blink you just might be able to see it fly by in the water! In that fleeting glimpse is none other than Thunnus thynnus or the Atlantic Blue Fin Tuna. Prior to my research endeavors I knew only of its taste, popularity, and its strange ability to be the few warm blooded fish in the ocean. These fish are a migratory species as they hunt on the surface of the vast, empty, open ocean. They follow where their food leads them throughout the Atlantic as there is not much other nutrients in the surface layers of the ocean that they can consume. Their primary spawning grounds are in the Gulf of Mexico and the Mediterranean Sea, areas full of rich nutrients and fellow fish (Nickson). Unfortunately, it is a very popular meat for certain dishes that sell for very high prices ($1.75 million for one fish at one point). This popularity has led to the species being over-fished, and reaching an endangered level! Luckily, many laws have been made to protect their livelihood and from pirate fishing. Organizations like World Wildlife Fund have been helping protect tuna with the use of tracking tags to further study and understand them (WWF). 

Tuna in” for more facts on the fascinating Atlantic Bluefin Tuna!

Citations: 

  • Nickson, A. (2017, October 3). The Story of Atlantic Bluefin Tuna. Retrieved from https://www.pewtrusts.org/en/research-and-analysis/issue-briefs/2017/10/the-story-of-atlantic-bluefin 
  • WWF. (2019). Bluefin Tuna. Retrieved from https://www.worldwildlife.org/species/bluefin-tuna 

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