Snakes and
snakebites
By Nutan
Shukla
SNAKES are the most notorious
poisoners of the animal world. Their fame in this regard
has been the major cause of the needless persecution and
destruction of countless millions of harmless reptiles.
Since some are dangerous for humans in the real sense,
all snakes are feared. However, the fact is only 15 per
cent of the living species are poisonous. If we go by
numbers, only 400 species out of 2,300 are venomous. We
usually do not take the trouble of finding out whether
the particular snake is poisonous or not and kill it on
sighting it.
The
most simple way of spotting a venomous species is to
observe the shape of the head. If it is unusually wide,
it is almost certainly a highly poisonous one, but this
does not mean that it should be killed. Snakes are very
timid and elusive creatures. They themselves avoid the
company of human beings or other animals. They strike
only when hungry or threatened. If they are given the
chance to escape they will prefer to flee rather than
face the adversary.
Poisonous snakes have
unusually wide heads because the poison is stored in
enlarged and modified salivary glands. These glands are
connected to long, pointed, hollow teeth that act as
hypodermic needles, injecting the lethal liquid into the
victims flesh. In the most advanced types, these
fangs are hinged. When the snakes mouth is shut
they lie flat, but when the jaws are opened wide to
strike, the two upper teeth that supply the venom are
pivoted down through about 90 degrees, so that they are
at right angles to the top of the head. This means that
when the jaws gape fully open, the sharp fangs are aimed
directly forward. At this moment the snake strikes,
flinging its neck towards its victim at the astonishing
speed of 8 feet per second.
The actual distance
covered will probably be no more than 2 feet, so it is
necessary to respond in less than a quarter of a second
in order to avoid being struck.
As the teeth sink into
the flesh, the pressure of this action squeezes venom out
of the glands and down the hollow tubes of the paired
fangs. It spreads quickly once inside the victim and is
soon circulated in the bloodstream.
If we see typical
snakebites, we will find that snakes stab their victims
rather than biting. They do not grab, but merely hit with
an open mouth. The reason is that the snake must do its
best to protect its precious fangs. If it bit its victim
and then hung on tight, the ensuing struggle while the
injected individual died would probably damage the long,
delicate teeth, ripping them from their sockets.
So the snake makes its
deft, rapid lunge and then immediately withdraws to await
results. The poison works so quickly that the victim
rapidly succumbs and the snake to make its move. The
primary function of snake venom is, of course, to quieten
prey before swallowing it. Its use in self-defence is
entirely secondary and only employed as a last resort.
All snakes prefer to
retreat from predators as quickly as possible, but if
cornered, they will then use their bite as an ultimate
weapon. While defending itself from the predator or
stabbing a prey it sometimes happens that fangs become
dislodged by the ferocity of the strike. When this
happens a new fang quickly grows to replace the lost one.
At any moment there are about six fangs in reserve on
each side of the mouth, at various stages of development.
When an active fang is lost, the next most mature will
take its place and grow very quickly so that it is ready
for use.
Usually, many of the big
vipers have fangs about an inch long , but gaboon viper
from Africa has the most impressive of them all,
measuring about two inches in length, these penetrate
well into the deeper tissues where there is a rich supply
of blood vessels to carry the poison away.
Snake venom is a
yellowish, cloudy liquid which contains neurotoxins
(nerve-poisons) and haemotoxins (blood poisons). In some
snakes like cobras, mambas and sea-snakes venom contains
nerve-poison pre-dominantly whereas in vipers and
rattlesnakes blood-poisons are more active. In case where
neurotixin is injected, there is a creeping paralysis
accompanied by nausea and vomiting, leading to
convulsions and the cessation of breathing. When the
venom containing haemotoxins is injected, it causes
massive swelling around the bitten part with the flesh
turning blue, green, purple or black, with livid blotches
and blisters. This gradually spreads throughout most of
the body, affecting the heart and eventually stopping its
action.
The body of the adult
human, however, can often withstand this chemical
onslaught and ultimately recover fully. It has been
estimated that, of the thousand people bitten by
rattlesnakes annually in the U.S. only about 30 die. This
puts the chances of survival at about 33 to 1, and some
experts believe this should be even higher as much
as 50 to 1. An attempt at a global survey carried out in
the 1950s gave a total world figure of 30,000 deaths
annually from all forms of snakebites.
In the world of serpents
perhaps the most remarkable is spitting cobra of Africa.
They have evolved the ability to rear up and squeeze
their poison glands so forcibly that the venom inside
them is propelled towards their enemy as a jet or spray
of droplets. They are capable of aiming accurately enough
to splash a mans face from a distance of 6 ft. If
the venom strikes his eyes it can temporarily blind him
and possibly even permanently damage his sight. The pain
is severe and no predator would risk a second close
encounter with this snake.
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