Oxymoron is a
figure of speech that juxtaposes elements that appear to be contradictory. An
oxymoron is a compressed paradox: a figure of speech in which seemingly
contradictory terms appear side by side. Some examples are : crash landing;
benevolent dictator; darkness visible; deafening silence; deceptively honest
...... and ‘walking fish’ ! – but then what appears illogical, could often be
proved different by Science and technology.
We know the phrase ‘a fish out of water’ – which describes someone who
is uncomfortable in a particular situation – as fishes struggle naturally when
they are kept out of water, even for a brief while.
Standen, working with
McGill University paleontology professor Hans Larsson and student Trina Du,
decided to conduct her study using a primitive African fish called a bichir.
Bichirs, sometimes kept as pets, have a body shape similar to the first
tetrapods. They can breathe air and they can "walk" on land by
propelling themselves with their fins, albeit clumsily.
All in our life, we have
read that - Fishes are animals that live and swim in the water, breathe using
gills. They are thousands of varieties –
from the smaller ones of gold fish, guppies and mollies kept as aquarium fish –
to trouts and like to Ocean charmers like Sharks and Whales; besides there are
stranger ones - eels, seahorses, shellfish, cuttlefish, starfish, jellyfish and
more – which by some definition are not fishes.
By some accounts, there are more than 32,000 described species of
fishes, more than all the amphibians, reptiles, birds, and mammals combined.
Fishes are an important food resource worldwide, and fishing pressure has
caused many fish stocks to crash or be at risk.
Fish are abundant in most
bodies of water. They can be found in nearly all aquatic environments, from
high mountain streams. Fish have had a role in culture through the ages,
serving as religious symbols, and as the
subjects of art, books and movies. Raising fish on land seems like the sort of
idea not sane people will have. But for three McGill University researchers, it
made perfect sense. How else would you find out what behavioral and
physiological changes might have taken place when fish first made the move from
sea to land over 400 million years ago?
"I used to look at
fins and their motion, and I always thought it was so interesting and
complex," says Emily Standen, lead author of a study published in Nature
today, and an evolutionary biomechanics researcher who now works at the
University of Ottawa. "And then I thought, wow, how does that change from
a fin to something that might work on land? That’s how this project
started." Standen and her
colleagues took 111 juvenile Polypterus senegalus — a fish species that goes by
the common name Senegal bichir, or "dinosaur eel" — and raised them
for eight months in a terrestrial environment. This environment consisted of
mesh flooring covered in pebbles and just 3 millimeters of water — a precaution
that, combined with water misters, prevented the fish from drying out. The
researchers also formed a control group using 38 fish growing up in their usual
aquatic environment.
"We used high-speed
video to analyze their movements at the end of the eight-month period,"
Standen says who added "Fish raised on land walk with a more effective
gait." "They plant their legs
closer to the body’s midline, they lift their heads higher, and they slip less
during that walking cycle." The fish raised on land were also generally
more consistent in the way they walked than their aquatic counterparts. But
their behavior wasn’t the only thing that changed. For example, "the bones
in the pectoral girdle — the bones that support the fins — changed their
shape," she says.
For a commoner, it would make no sense as to why should somebody try
to make a pure water creature live and walk on land – is it cruel is what
readily comes to mind .... but for Scientists experiments are far fetched as
Standen says it is exciting to think that we can use experiments on living
animals to make inferences about what might have happened to physically similar
animals during large scale evolutionary transitions.
With regards – S.
Sampathkumar.
1st Sept. 2014.
With inputs from BBC and
livescience.com