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Ancient
sea creatures filtered food like modern whales
Ancient
sea creatures filtered food like modern whales
Date:
March 26,
2014
Source:
University of Bristol
Summary:
Ancient, giant marine animals used bizarre facial
appendages to filter food from the ocean, according to new fossils discovered
in northern Greenland. The new study describes how the strange species, called
Tamisiocaris, used these huge, specialized appendages to filter plankton,
similar to the way modern blue whales feed today.
.......................................
Ancient,
giant marine animals used bizarre facial appendages to filter food from the
ocean, according to new fossils discovered in northern Greenland. The new
study, led by the University of Bristol and published today in Nature, describes how
the strange species, called Tamisiocaris, used these huge, specialized
appendages to filter plankton, similar to the way modern blue whales feed
today.
The animals
lived 520 million years ago during the Early Cambrian, a period known as the
'Cambrian Explosion' in which all the major animal groups and complex
ecosystems suddenly appeared. Tamisiocaris belongs to a group of animals
called anomalocarids, a type of early arthropod that included the largest and
some of the most iconic animals of the Cambrian period. They swam using flaps
down either side of the body and had large appendages in front of their mouths
that they most likely used to capture larger prey, such as trilobites.
However, the
newly discovered fossils show that those predators also evolved into suspension
feeders, their grasping appendages morphing into a filtering apparatus that
could be swept like a net through the water, trapping small crustaceans and
other organisms as small as half a millimetre in size.
The
evolutionary trend that led from large, apex predators to gentle, suspension-feeding
giants during the highly productive Cambrian period is one that has also taken
place several other times throughout Earth's history, according to lead author
Dr Jakob Vinther, a lecturer in macroevolution at the University of Bristol.
Dr Vinther
said: "These primitive arthropods were, ecologically speaking, the sharks
and whales of the Cambrian era. In both sharks and whales, some species evolved
into suspension feeders and became gigantic, slow-moving animals that in turn
fed on the smallest animals in the water."
In order to
fully understand how the Tamisiocaris might have fed, the researchers
created a 3D computer animation of the feeding appendage to explore the range
of movements it could have made.
"Tamisiocaris
would have been a sweep net feeder, collecting particles in the fine mesh
formed when it curled its appendage up against its mouth," said Dr Martin
Stein of the University of Copenhagen, who created the computer animation.
"This is a rare instance when you can actually say something concrete
about the feeding ecology of these types of ancient creatures with some
confidence."
The
discovery also helps highlight just how productive the Cambrian period was,
showing how vastly different species of anomalocaridids evolved at that time,
and provides further insight into the ecosystems that existed hundreds of
millions of years ago.
"The
fact that large, free-swimming suspension feeders roamed the oceans tells us a
lot about the ecosystem," Dr Vinther said. "Feeding on the smallest
particles by filtering them out of the water while actively swimming around
requires a lot of energy -- and therefore lots of food."
Tamisiocaris is one of many recent discoveries of remarkably
diverse anomalocarids found in rocks aged 520 to 480 million years old.
"We once thought that anomalocarids were a weird, failed experiment,"
said co-author Dr Nicholas Longrich at the University of Bath. "Now we're
finding that they pulled off a major evolutionary explosion, doing everything
from acting as top predators to feeding on tiny plankton."
The Tamisiocaris
fossils were discovered during a series of recent expeditions led by co-author
David Harper, a professor at Durham University. "The expeditions have
unearthed a real treasure trove of new fossils in one of the remotest parts of
the planet, and there are many new fossil animals still waiting to be
described," he said. "Our new understanding of this remarkable animal
adds another piece to a fascinating jigsaw puzzle."
The
expeditions were funded by the Agouron Institute, Carlsberg Foundation and
Geocenter Denmark.
Story
Source:
The above
story is based on materials provided by University of Bristol. Note: Materials may be
edited for content and length.
Journal
Reference:
- Jakob Vinther, Martin Stein, Nicholas R. Longrich, David A. T. Harper. A suspension-feeding anomalocarid from the Early Cambrian. Nature, 2014; 507 (7493): 496 DOI: 10.1038/nature13010
