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Ancient “terror bird” used powerful beak
to jab like an agile boxer
International team uses computer
modeling to reconstruct kills
of prehistoric predator
ATHENS,
Ohio (Aug. 18, 2010)—The ancient “terror
bird” Andalgalornis couldn’t fly,
but it used its unusually large, rigid
skull—coupled with a hawk-like hooked
beak—for a fighting strategy reminiscent
of boxer Muhammad Ali. The agile
creature repeatedly attacked and
retreated, landing well-targeted,
hatchet-like jabs to take down its prey,
according to a new study published this
week in the online, open-access journal
PLoS ONE by an international team
of scientists.
The
study is the first detailed look at the
predatory style of a member of an
extinct group of large, flightless birds
known scientifically as phorusrhacids
but popularly labeled “terror birds”
because of their fearsome skull and
often imposing size. Terror birds
evolved about 60 million years ago in
isolation in South America, an island
continent until the last few million
years, radiating into about 18 known
species ranging in size up to the
7-foot-tall (2.1 meters) Kelenken.
Because
terror birds have no close analogs among
modern-day birds, their life habits have
been shrouded in mystery. Now, a
multinational team of scientists has
performed the most sophisticated study
to date of the form, function and
predatory behavior of a terror bird,
using CT scanning and advanced
engineering methods.
“No one
has ever attempted such a comprehensive
biomechanical analysis of a terror
bird,” said study lead author Federico
Degrange of the Museo de La Plata/CONICET
in Argentina, who is conducting his
doctoral research on the evolution of
terror birds. “We need to figure out the
ecological role that these amazing birds
played if we really want to understand
how the unusual ecosystems of South
America evolved over the past 60 million
years.”
The
terror bird under study is called
Andalgalornis and lived in
northwestern Argentina about six million
years ago. It was a mid-sized terror
bird, standing about 4.5 feet tall (1.4
meters) and weighing in at a
fleet-footed 90 pounds (40 kg). Like all
terror birds, its skull was relatively
enormous (14.5 inches or 37 centimeters)
with a deep narrow bill armed with a
powerful, hawk-like hook.
Article
co-author Lawrence Witmer of the Ohio
University Heritage College of Osteopathic
Medicine ran a complete skull of
Andalgalornis through a CT scanner,
giving the team a glimpse into the inner
architecture of the skull. The scans
revealed to Witmer, Degrange and article
co-author Claudia Tambussi, also from
the Museo de La Plata/CONICET and
Degrange’s PhD advisor, that
Andalgalornis was unlike other birds
because it had evolved a highly rigid
skull.
“Birds
generally have skulls with lots of
mobility between the bones, which allows
them to have light but strong skulls.
But we found that Andalgalornis
had turned these mobile joints into
rigid beams. This guy had a strong
skull, particularly in the fore-aft
direction, despite having a curiously
hollow beak,” said Witmer, Chang Ying-Chien
Professor of Paleontology and a
professor of anatomy.
The
evolution of this large and rigid bony
weapon was presumably linked to the loss
of flight in terror birds, as well as to
their sometimes gigantic sizes.
From
the CT scans, Stephen Wroe, director of
the Computational Biomechanics Research
Group at the University of New South
Wales, Australia, assembled
sophisticated 3D engineering models of
the terror bird and two living species
for comparison (an eagle, as well as the
terror bird’s closest living relative,
the seriema). Using computers and
software supplied by Wroe, Degrange and
Karen Moreno of the Université Paul
Sabatier in Toulouse, France, applied an
approach known as Finite Element
Analysis to these models to simulate and
compare the biomechanics of biting
straight down (as in a killing bite),
pulling back with its neck (as in
dismembering prey) and shaking the skull
from side to side (as in thrashing
smaller animals or when dealing with
larger struggling prey). Color images
created by the program show cool-blue
areas where stresses are low and
white-hot areas where stresses get
dangerously high.
The
engineering simulations supported the
CT-based anatomical results. “Relative
to the other birds considered in the
study, the terror bird was well-adapted
to drive the beak in and pull back with
that wickedly recurved tip of the beak,”
remarked Wroe, “but when shaking its
head from side to side, its skull lights
up like a Christmas tree. It really does
not handle that kind of stress well at
all.”
A key
part of the engineering analysis was
determining how hard of a bite
Andalgalornis could deliver. To
examine bite force in birds in general,
Degrange and Tambussi worked with
zookeepers at the La Plata Zoo to get a
seriema and an eagle to chomp down on
their bite meter.
“Combining all this information, we
discovered that the bite force of
Andalgalornis was a little lower
than we expected and weaker than the
bite of many carnivorous mammals of
about the same size. Andalgalornis
may have compensated for this weaker
bite by using its powerful neck muscles
to drive its strong skull into prey like
an axe,” Degrange said.
Taken
together, the team’s results give new
insight into the lifestyle of a unique
avian predator. This terror bird was no
slugger and couldn’t wade into the fray
like a feathered Joe Frazier. Its skull,
though strong vertically, was too weak
from side to side, and the hollow beak
was in danger of catastrophic fracture
if Andalgalornis grappled too
vigorously with large struggling prey.
Instead, the study shows that the terror
bird was required to engage in an
elegant style more like Muhammad Ali,
using a repeated attack-and-retreat
strategy, using well-targeted,
hatchet-like jabs. Once killed, the prey
would have been ripped into bite-sized
morsels by the powerful neck pulling the
head straight back or, if possible,
swallowed whole.
Feeding
on a diversity of strange, now-extinct
mammals and competing with the likes of
saber-tooth marsupials, terror birds
became top predators in their
environment. At least one gigantic
terror bird, Titanis, eventually
invaded North America about two to three
million years ago, but the animals
disappeared from Earth shortly after.
The
research was funded by grants to Witmer
from the U.S. National Science
Foundation; to Wroe from the Australian
Research Council and the Australia and
Pacific Science Foundation; and to
Tambussi from the Fondo Nacional para la
Investigación Científica y Tecnológica
(Argentina).
Images and supporting
materials:
Article:
http://www.plos.org/press/pone-05-08-degrange.pdf.
High-resolution images and movies:
http://www.oucom.ohiou.edu/dbms-witmer/terror_bird/Terror_bird_media_graphics_with_captions_PLoS_ONE.pdf.
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