Whale hip bones play key role in sex, Study
Whale hip bones play key role in sex, Study

Whale hip bones play key role in sex, Study

Scientists looked at the key role whales’ pelvic bones play in the process of reproduction.

Whales and dolphins have hip bones leftover from their land-roaming ancestors that existed 40 million years ago. In the past researchers believed these bones were slowly withering away, but new research suggests these pelvic bones actually do serve a purpose and influence sexual selection, the University of Southern California reported.

“Everyone’s always assumed that if you gave whales and dolphins a few more million years of evolution, the pelvic bones would disappear. But it appears that’s not the case,” said Matthew Dean, assistant professor at the USC Dornsife College of Letters, Arts and Sciences, and co-corresponding author of a paper on the research that was published online by Evolution on Sept. 3.

Painstaking project

Dean collaborated with fellow co-corresponding author Jim Dines, collections manager of mammalogy at NHM and a former graduate student in Dean’s lab, on a painstaking four-year project to analyze cetacean (whale and dolphin) pelvic bones.

The muscles that control a cetacean’s penis — which has a high degree of mobility — attach directly to its pelvic bones. As such, it made sense to Dean and Dines that the pelvic bones could affect the level of control over the penis that an individual cetacean has, perhaps offering an evolutionary advantage.

To test this hypothesis, the researchers examined hundreds of pelvic bones — first at the NHM, which has the second-largest collection of marine mammal specimens in North America and then at the Smithsonian Institution, which has the largest.

“Cetacean skeletons are stored as boxes of bones on warehouse shelves, with each box containing an individual specimen. You have to comb through each box looking for the specific bone you need. The pelvic bones are comparatively small and aren’t always collected with the rest of the skeleton, but after the first couple hundred boxes, we got very good at finding them when they were present,” said Dines, who graduated from USC Dornsife’s Integrative and Evolutionary Biology program while maintaining his role at NHM.

Digital models

Using a 3-D laser scanner, Dean and Dines created digital models of the curved bones, offering an unprecedented level of detail about their shape and size, as well as giving them the option to computationally manipulate them — say, to compare two different bones.

Next, they gathered reams of data going as far back as the days of whalers about testis size relative to body mass in whales. Throughout nature, more “promiscuous” animal species — that is, those with females who mate with several males, creating a more competitive mating environment — develop larger testes relative to their body mass as a way of outperforming the competition.

Finally, they compared the size of the pelvic bones (relative to body size) to the size of the animal’s testis (again, relative to body size). The results were clear: The bigger the relative testis, the bigger the relative pelvic bone — meaning that more competitive mating environments seem to drive the evolution of larger pelvic bones. Males from more promiscuous species also evolve larger penises, so larger pelvic bones appear necessary to attach larger muscles for penis control.

As a negative control, Dean and Dines also compared testis size to the size of one of the animal’s ribs. If pelvic bone size were simply a reflection of overall skeletal size, there should be a corresponding correlation in the ribs — but there was not, strengthening the interpretation that whale pelvic bones are specifically targeted by selection related to mating system.

“Our research really changes the way we think about the evolution of whale pelvic bones in particular, but more generally about structures we call ‘vestigial.’ As a parallel, we are now learning that our appendix is actually quite important in several immune processes, not a functionally useless structure,” Dean said.

Over the course of their four-year project, the team created a new way of measuring and quantifying the complicated 3-D structures of bones, using laser scanners to generate 3-D images of the bones and developing novel computational methods to analyze bones that lack obvious landmarks.

The process has significant potential for the recording and study of bones by museums, Dines said.

Revolutionary technology

When doing their data collection, the team had to request loans from the Smithsonian and several other museums, which would ship out the bones themselves for study. However, if all specimens were recorded using Dean and Dines’ system, digital copies could be sent anywhere in the world for free — without risking the loss or damage of the original specimen. The data that Dean and Dines collected are detailed enough to generate 3-D printed versions of the bones, if desired.

“Cutting-edge imaging technologies like 3-D laser scanning are revolutionizing how museum collections are used. Not only do they give us a new way of analyzing bones and other specimens, they also allow us to make precise replicas of those specimens. The replicas can then, for example, be sent to colleagues abroad or placed on exhibit while the original specimen stays in the museum researcher’s lab for further study,” Dines said.

Their collaborators included Peter Ralph and Andrew Smith of USC Dornsife; E. Otarola-Castillo of Harvard University and Iowa State University; and Jesse Alas of West Adams Preparatory High School.

High school students are rarely listed as co-authors on peer-reviewed scientific journal articles, but Alas more than earned his place on the list, Dean said.

Currently a student at the University of California, Irvine, Alas crossed Dean’s path by chance when, on a tour of USC with other local high schoolers, he spotted a bit of Python programming language that Dean had written on a white board for his undergraduate students. Dean said, “when I asked where he learned it, it turned out he was self-taught.”

Dean hired Alas to navigate much of the complicated computation that encoded 3-D data of the pelvic bone structure.


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