Meet the Suspects

Article Title: 
Museum Collections Solve Whalefish Mystery
Header Text: 

More than a century ago, in 1895, two Smithsonian scientists described a new kind of deep sea creature living at least 1000 m (3,280 ft) below the ocean’s surface—a part of the ocean that we still know very little about.

The scientists named their find the whalefish because of its whale-like appearance. Little did they know that this fish would become one of the prime suspects in a mystery that took scientists from around the world decades to solve.


CREDIT: 

Chris Kenaley

The Mystery Develops

Flash forward to 1956, when scientists described another new kind of fish. It was named the tapetail because of its long, streamer-like tail. It also had a large upturned mouth.

Unlike the whalefish, the tapetail was found living near the ocean’s surface. And there was something very curious about this sea creature: Every single one of the 120 tapetail specimens scientists studied was a larva or juvenile.

Where were all the adults?

 


CREDIT: 

Dave Johnson/Smithsonian Institution

The Plot Thickens

In 1966, based on 11 specimens, scientists added another deep sea creature to the list of mystery suspects: the bignose fish, found living deep in the sea like the whalefish. It has an unusual nose-like bulge on its snout with large organs for smelling. Its upper jaw can’t move. And something else proved odd about the bignose fish: Of the 65 specimens now collected, every one is a male. Where were the females?

Then, in 1989, the whalefish also became a suspect. An Australian scientist studied all the whalefish specimens collected so far—a total of over 500 from all over the world. Every adult was a female. Where were the males?

Article Extras
Ocean Portal Generated Tags: 
OP - Content Topics: 

Examine the Clues

Article Title: 
Museum Collections Solve Whalefish Mystery

In 2003, a team of Japanese scientists analyzed the DNA of tapetails and whalefish. The results suggested that these two very different looking fishes were almost identical in one specific gene. But more clues were needed. An international team of marine biologists took a closer look at specimens of tapetails, bignose fish, and whalefish in museum collections. The team included Dave Johnson, an ichthyologist at the Smithsonian. Here’s what the team found.

  • Bignose fish have no throats or stomachs, but they do have enormous livers.
  • The immovable jaws of bignose fish could conceivably develop from the moveable jaws of tapetails.
  • Some tapetail specimens appear to be in the process of changing into bignose fish. With these and other clues from museum collections, scientists were able to crack the case.


CREDIT: 

Composite by Dave Johnson/Smithsonian Institution

Aha! They’re All in the Family

It may be hard to believe because they look so different, but tapetails, bignose fish, and whalefish are actually all members of the same family (Cetomimidae).

  • Tapetails are the young, or larvae. They use their upturned mouths to gorge on small shellfish.
  • Bignose fish are the males. They feed off of their huge livers and use their large nasal organs to sniff for females.
  • Whalefish are the females. They use their gaping mouths to capture large prey.

There are other examples of males and females with very different shapes (sexual dimorphism) and of animals changing from one shape to another as they grow older (metamorphosis). But this is one of the most amazing examples of sexual dimorphism combined with metamorphosis ever found among vertebrates.

 


CREDIT: 

Chip Clark/Smithsonian Institution

Museum Collections Hold the Clues

“This is an incredibly exciting finding,” says Smithsonian ichthyologist Dave Johnson. “The answer to the puzzle was right under our noses all along—in the specimens. We just needed to study them more carefully.”

This scientific mystery clearly demonstrates the importance of museum collections. Many years after a specimen was collected, it may provide biologists with the answer to a new question raised by science. 

“The study also shows the need for continued exploration and collection in the open ocean—from the surface to the deep sea,” says Johnson. “Who knows what other mysteries remain to be solved there?”

Article Extras