| Anacondas Are They Shedding Some Secrets?
I DON’T know about you, but big snakes
fascinate me in a way that few other animals do.
And if we’re talking about big snakes, we’re
talking about anacondas, members of the animal
family Boidae. Curiously, though, despite their
huge proportions, little has been known about
their behavior—that is, until recently.
In 1992, biologist Jesús A. Rivas and
researchers of the New York-based Wildlife Conservation
Society (WCS) began to study these giants for
the first time ever in the wild. When I read that
this six-year-long field study, which was carried
out in a swampy region of Venezuela, had revealed
some new facts, I wondered what had been learned.
Today I will try to find out.
About Names and Species
On a sunny afternoon, I leave my Brooklyn office
and head for the WCS headquarters, located in
New York City’s Bronx Zoo. I had already
done enough research to know some facts about
anacondas.
Strangely, the name anaconda may have originated
far from the animal’s South American home.
Some say that it comes from the Tamil words anai,
meaning “elephant,” and kolra, meaning
“killer.” Others think it comes from
the Sinhala word henakandaya (hena, meaning “lightning,”
and kanda, meaning “stem”). Likely
the Sinhala words—originally used for pythons
in Sri Lanka—were brought from Asia to South
America by Portuguese traders.
Speaking of misnomers, even the anaconda’s
official name, Eunectes murinus, is not exactly
correct. Eunectes means “good swimmer”—and
that it is. But murinus stands for “mouse-colored.”
For a snake with an olive-green skin, this name
“does not seem really suitable,” notes
one reference work.
There is one more thing to mention about the
animal’s scientific names and divisions.
Literature on anacondas usually states that there
are two species of anacondas. One is the subject
of this article—the green anaconda, or water
boa, slithering mainly in the swamps of the Amazon
and Orinoco basins and in the Guianas. The other
is the smaller yellow anaconda (E. notaeus),
a denizen of Paraguay, southern Brazil, and northern
Argentina.
Meet an Expert
Here I am at the Bronx Zoo. This wildlife park,
covering 265 wooded acres [107 wooded hectares],
is home to more than 4,000 animals, including
a dozen or so anacondas. Khaki-clad William Holmstrom
of WCS’s Department of Herpetology (the
study of reptiles) is here to meet me at the zoo’s
entrance. Mr. Holmstrom—a 51-year-old
New Yorker wearing glasses, a mustache, and a
ready smile—is the collection manager of
the zoo’s reptile department and has participated
in the field study of anacondas in Venezuela.
According to him, scientists now recognize the
existence of a third species of anaconda (E. deschauenseei),
an inhabitant of northeastern Brazil and coastal
French Guiana. This afternoon Mr. Holmstrom
will be my expert guide.
It doesn’t take long to sense that my guide
loves snakes the way others love poodles or parakeets.
He tells me that from the time he was a child,
his parents’ home housed salamanders, frogs,
and the like. “Father liked them. Mother
tolerated them.” Needless to say, Mr. Holmstrom
took after his father.
Dazzling Dimensions and Drastic Differences
Inside the 100-year-old reptile house, the two
of us stop in front of an enclosure that houses
an anaconda. Although I am looking at an animal
that I anticipated seeing, I still can’t
suppress my amazement. I marvel at its sheer size
and bizarre proportions. Its blunt-nosed head,
bigger than a man’s hand, is dwarfed by
the bulky body attached to it. My guide tells
me that this striking reptile is a 16-foot-[5
m] long female weighing some 180 pounds [80 kg].
Although her body is nearly as thick as a telephone
pole, I learn that she is merely a “little
leaguer” in comparison with the world record
holder—a roly-poly female anaconda caught
in 1960 that, it was estimated, weighed nearly
500 pounds [227 kg]!
No male anaconda can even dream of attaining
to such dazzling dimensions. Although herpetologists
knew that male anacondas are smaller than females,
the field study found that males are so much smaller
that they look like miniature versions of females.
In fact, the study showed that females are, on
an average, nearly five times bigger than males.
That radical difference in size between the sexes
can be misleading, as biologist Jesús Rivas
discovered. He used to keep a baby anaconda as
a pet but always wondered why the little fellow
kept biting him. Only during the field study did
it dawn on him that he had been petting a full-grown
and irritated male!
Wanted!Reward Waiting
Although an anaconda’s bulk is its star
quality, its length is equally impressive. Granted,
anacondas are not as gargantuan as Hollywood depicts
them—one movie featured a 40-foot-long [12
m] anaconda—but their maximum length of
30 feet [9 m] or so is breathtaking enough to
contemplate.
Anacondas of that size are few and far between.
The largest females caught during the study were
200-pounders [90 kg] measuring some 17 feet [5
m]. In fact, larger anacondas are so hard to find
that a reward of $1,000, offered some 90 years
ago by the New York Zoological Society (the forerunner
of WCS), for any live snake over 30 feet [9.2
m] long has gone uncollected until this day. “We
get two or three calls a year from people in South
America who claim the reward,” says Mr. Holmstrom,
“but when we ask them to send us proof of
their catch in order to justify our going down
there to check it out, the evidence never arrives.”
Oh, by the way, the reward for a 30-footer [9.2
m] now stands at $50,000!
Close Up
I follow my guide as he leads me to the second
floor of the reptile house, which serves as a
holding and breeding area. The place is hot and
humid. To give me an unobstructed look at my subject
of interest, Mr. Holmstrom opens the door
of an enclosure that holds a hefty female anaconda.
At this point, there are some eight feet [2 m]—and
nothing else—between us and the animal.
Then, the anaconda’s head rises slowly and
moves steadily in our direction. By now only a
distance of three feet [1 m] remains between the
anaconda’s head and ours.
“We’d better back off,” says
Mr. Holmstrom matter-of-factly, “she
may be looking for food.” I readily agree.
He shuts the door of the enclosure, and the anaconda’s
head moves back until it gradually comes to rest
near the center of its coiled body.
If you manage to ignore the anaconda’s
malevolent-looking glare and take a good look
at its red-striped head, you will see that it
has remarkable features. The anaconda’s
eyes and nostrils, for instance, form the highest
points on its head. This allows the snake to submerge
its body and head and leave its eyes and nostrils
just above the water surface—much the way
alligators do. That explains how the snake approaches
prey while remaining camouflaged.
Tight Coils and Loose Jaws
The anaconda is not poisonous. It kills by wrapping
its coils tightly around its prey. It does not
crush its prey, but each time the victim exhales,
the snake tightens its coils until the helpless
victim suffocates. Almost anything—from
ducks to deer—is considered fair game. However,
reliable reports of people being eaten by anacondas
are rare.
Since snakes cannot chew or tear their food,
the anaconda has no choice but to swallow its
dead prey whole—even if the prey is considerably
bulkier than the snake itself. In fact, if you
could tackle food the way an anaconda does, you
could wrap your lips around a coconut and gulp
it down whole as easily as if it were a peanut.
How does the anaconda do it?
“It walks its head over the prey,”
says Mr. Holmstrom. He explains that the
anaconda’s jaws are loosely attached to
its head. Before setting its teeth into a bulky
victim, its lower jaw can drop down and spread
out. Then the anaconda pushes one side of its
lower jaw forward, hooks its backward-facing teeth
into the prey, and pulls that side of the jaw
and the prey back into its mouth. Next, it repeats
the same steps with the other half of its lower
jaw. To some extent the upper jaw can do the same.
With this alternating forward movement, the animal’s
jaw seems indeed to be walking over the prey.
Once the prey has been swallowed, which may take
several hours, the snake yawns a few times, and
the various parts of its flexible head fall back
into place.
What prevents the anaconda from choking? The
presence of an extendable windpipe located in
the floor of its mouth. While working its food
inward, the anaconda pushes its windpipe outward
to the front of its mouth. That way, the snorkellike
windpipe gives the anaconda access to air while
eating.
Who Is Who?
My guide now removes the lid from a terrarium,
and we look down at two young anacondas. Their
identical looks make me wonder how the researchers
could tell the difference between the hundreds
of wild anacondas they studied during their Venezuelan
project.
Mr. Holmstrom explains that they tried to
solve the identification problem by making tiny
branding irons out of paper clips. They heated
the “irons” and branded small numbers
on the anacondas’ heads. The method worked
well until the snakes shed their skin—and
their numbers! The researchers noticed, though,
that each anaconda already carries its own identification
mark. Each snake has a pattern of black blotches
on the yellow underside of its tail—as unique
to each snake as a fingerprint is to a human.
“All we needed to do was to diagram the
pattern found on a stretch of skin 15 scales in
length, and we had enough variations to tell apart
the 800 snakes that we studied.”
The Fastest, the Fittest, or the Strongest?
As we wrap up the interview in Mr. Holm-strom’s
office, he shows me a picture he took in Venezuela
of male anacondas all coiled around one another.
It is a spellbinding sight. He explains that this
knot of tangled anaconda bodies forms a so-called
breeding ball. (See photo on page 26.) “Somewhere
inside this ball is a female anaconda. One time
we found a female with 13 males coiled around
her that was a record.”
Are the males fighting? Well, it’s more
like a slow-motion wrestling match. Each of the
male contenders tries to squeeze the others out
and maneuver himself into a mating position with
the female. The match may last for as long as
two to four weeks. Who wins? The fastest (the
male that finds the female first), the fittest
(the male that produces the most sperm), or the
strongest (the male that outwrestles the competition)?
Researchers hope to find the answer soon.
At the end of the afternoon, I thank my guide
for his captivating tour. As I travel back to
my office, I reflect on what I’ve learned.
Granted, I still don’t share the sentiments
of biologist Jesús Rivas, that “anacondas
are fun,” but I admit that anacondas definitely
grabbed my attention. As researchers continue
to trail anacondas in the wild, it will be interesting
to learn whether these giant snakes will be inclined
to shed more of their fascinating secrets...By
An Awake! Staff Writer
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