Last year,
members of the Holekamp lab, as part of BEACON (an inter-disciplinary program working
to study ‘evolution in action’ http://beacon-center.org/welcome/), got together to build a new
educational outreach plan at the MSU Science Festival, which continued onto to
the US Science and Engineering Festival in Washington D.C.. We are now bringing
those lessons to area schools, and just last night we were part of Science
Night at Marble Elementary School in East Lansing (Hadley’s Alma Mater!).
We began with
the skulls!
With these
skulls, we taught the kids about the evolutionary relationships between hyenas
and other carnivores. Most paid avid attention as we showed them how you can
deduce what and how carnivores feed from skull morphology.
We asked the
kids three questions to start:
1.
Using
the pictures of the animals and the skulls, can you tell me who is who, and who
is related to whom?
2.
Which
are the hyenas?
3.
Which
of the other carnivores is most closely related to the hyenas?
Can you
figure it out? How well did you do compared to the kids?
About 75% of
the kids could match the skulls to the correct animal. Almost all the kids
could identify the three-bone crushing hyenas (spotted, brown, striped) but
very few could pick out the aardwolf as their relative. We were pleased to see
that the kids were quite good at determining that hyenas are feliforms (i.e.
‘cat-like animal) not caniforms (i.e. ‘dog-like animals’). Few however could
pick the meerkat out as the closest relative. However, when given the skull most
could quickly see the relationship. They noticed the homologous jaw structures and dentition shared by these
two species, because it was almost like looking at a miniature hyena skull!
We also talked
to them about how spotted hyenas evolved from scavengers but are now top
predators, though two of their sister species (the brown hyena and the striped
hyena) are still known to scavenge for a majority of their diet. We showed them
how all three of these species share similar teeth structure, a high sagittal
crest and wide zygomatic arches – adaptations that allow for powerful jaw
muscles to exert pressure on bone-crushing teeth.
We also drew
their attention to the aardwolves, the last extant (living) member of
Hyaenidae, showing their completely different skull morphology. The large arches and crest are missing and
once you open the mouth, you’ll notice relatively few small teeth. When asked
what they thought aardwolves ate with those tiny teeth, and the kids got pretty
darn close with their answers of ‘bugs’ and ‘plants’. In fact, this species
specialize in eating termites!
From this
conversation of skulls, we then talked to the kids about why spotted hyenas are
so different, bringing in more of our research. And when you talk about our
research in Kenya, you can’t avoid….spot patterns!
And thus, we
had them try their hand at matching spots to identify hyenas.
What do you
think? Can you figure out who the three hyenas in the color photos are?
The kids
matched photos for nine different hyenas; some struggled, a few Kay should
consider hiring to be the next RAs in the field, but all of them stayed
incredibly focused on the task. We were quite impressed; most of the adults
tried their hand at one and were ready to walk away!
Our team had
a blast talking with the kids and the parents and look forward to more
collaborative outreach programs in the future. Stay tuned!
~Hadley and Kevin (McCormick)
P.S. The skulls and spot matching game were in constant
competition with Jessica (a Holekamp research assistant) and her reptiles – you
can’t beat live animals!
FYI, if anyone would like us to come to your school, and your school is in or near the Lansing area, please let us know. We also teach kids about evolution with digital programs, robotics and the Lenski long term bacterial experiment.
ReplyDeleteKenna, I think you should do this presentation at your alma mater when you come home in January.
ReplyDelete