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Taktik
mengadoptasi hewan tidak berubah untuk 50 juta tahun
Animal foraging tactics unchanged for 50 million years
Date:
July 15,
2014
Source:
University of Southampton
Summary:
Animals have used the same technique to search for
food that's in short supply for at least 50 million years, a new study
suggests. Researchers analyzed fossilized sea urchin trails from northern Spain
and found the tracks reflect a search pattern still used by a huge range of
creatures today.
...............
Animals have used the same technique to search for food
that's in short supply for at least 50 million years, a University of
Southampton-led study suggests.
Researchers
analysed fossilised sea urchin trails from northern Spain and found the tracks
reflect a search pattern still used by a huge range of creatures today.
But this is
the first example of extinct animals using such a strategy.
The findings
could explain why so many modern animals use the technique, and suggest the
pattern may have an even more ancient origin.
Creatures
including sharks, honeybees, albatrosses and penguins all search for food
according to a mathematical pattern of movement called a Lévy walk -- a random
search strategy made up of many small steps combined with a few longer steps.
Although a Lévy walk is random, it's the most efficient way to find food when
it's scarce.
David Sims,
Professor of Marine Ecology at the University of Southampton and lead author of
the study, says: "How best to search for food in complex landscapes is a
common problem facing all mobile creatures.
"Finding
food in a timely fashion can be a matter of life or death for animals -- choose
the wrong direction to move in often enough and it could be curtains. But
moving in a random search pattern called a Lévy walk is mathematically the best
way to find isolated food."
Even though a
wide range of modern creatures search for food according to this pattern,
scientists had no idea how the pattern came about, until now.
Professor
Sims and colleagues from the University of Southampton, NERC's National
Oceanography Centre, Rothamsted Research, VU University Amsterdam and the
Natural History Museum analysed the fossilised Eocene-era tracks that were made
by sea urchins that lived on the deep sea floor around 50 million years ago.
The long trails are preserved in rocky cliffs in a region called Zumaia in
northern Spain.
"Finding
the signature of an optimal behaviour in the fossil record is exceedingly rare
and will help to understand how ancient animals survived very harsh conditions
associated with the effects of dramatic climate changes," says Professor
Sims, who is currently seconded to the Marine Biological Association in
Plymouth. "Perhaps it's a case of when the going got tough, the tough
really did get going."
"The
patterns are striking, because they indicate optimal Lévy walk searches likely
have a very ancient origin and may arise from simple behaviours observed in
much older fossil trails from the Silurian period, around 440 million years
ago," he adds.
Professor
Richard Twitchett of the Natural History Museum and co-author of the study
adds: "It's amazing to think that 50 million-year-old fossil burrows and
trails have provided us with the first evidence of foraging strategies in
animals that live on and in the deep-sea floor -- studies which would be nearly
impossible and very expensive to do in modern oceans.
"Trace
fossils are remarkable and beautiful records of the movements of ancient
animals, which have been frozen in time and tell us so much about the evolution
of life on Earth and the environments of the past."
The
researchers think the collapse of primary producers, such as phytoplankton, and
widespread food scarcity caused by mass extinctions, which show up in the
fossil record, could have triggered the evolution of Lévy-like searches.
The Eocene
lasted from 56 to 33.9 million years ago, and began as a time of global
warming, with temperatures soaring across the planet.
Lévy walks
aren't just confined to animals; our ancient hunter-gatherer ancestors used
exactly the same approach, as do modern hunter-gatherers in northern Tanzania.
The study is
published in The Proceedings of the National Academy of Sciences.
Story
Source:
The above
story is based on materials provided by University of Southampton. Note: Materials may be edited
for content and length.
Journal
Reference:
- D. W. Sims, A. M. Reynolds, N. E. Humphries, E. J. Southall, V. J. Wearmouth, B. Metcalfe, R. J. Twitchett. Hierarchical random walks in trace fossils and the origin of optimal search behavior. Proceedings of the National Academy of Sciences, 2014; DOI: 10.1073/pnas.1405966111
