Well, all butterflies and moths
go through the same basic life cycle. They start out as eggs also known as
“ova” and when these hatch, they do so as very small caterpillars, properly
known as “Larvae”. These then go through several stages or instars each of
which is separated by a skin change, known as “molt” or “ecdysis”. When the
larva has reached a certain size, it changes into a chrysalis or “pupa”. It
stays like this for some time and then emerges as the adult, or “imago”.
Moreover, the various butterfly
families use several different methods of egg laying. Sometimes they lay them
singly, sometimes in batches, on the underside of a leaf. Others choose to lay
their eggs on dead leaves or twigs, or on rocks near their food plant this is
usually to avoid the eggs being eaten by other caterpillars or herbivorous
animals. Another way to reduce the risk that the eggs will be eaten is to lay
them on a part of the plant that is rarely consumed, such as a tendril.
Some plants have evolved a
chemical defense system that will kill any eggs laid on its leaves, before they
get a chance to hatch. When this is the case, the butterfly has to lay its eggs
nearby, rather than directly onto the food plant. Probably the most unusual
place used by a butterfly for egg laying is in a cobweb this is done by the
Australian Rustic (Cupha prosope), from New Guinea and eastern Australia. This
might sound a strange place for egg laying but what safer location could there
be for them than within the striking range of a spider? This species of
butterfly continues with the safety theme while it’s small larva, as it dangles
on the end of a silken thread when it’s not actively feeding. Most larvae get their
first meal after hatching by eating the eggshell and this is often a vital
source of protein, which is needed for their arduous struggle through the
various instars (an ‘instar” is the name given to each stage of the larval
development between skin changes).
The reason for the larval skin
changes is much the same as when a child outgrows its shoes, and needs to
change them for a larger size the caterpillar’s skin won’t stretch anymore, so
it’s time for a new one! The larva’s major preoccupation is with feeding;
indeed they have been described as “eating machine” which sums up their role
very well. They usually increase their weight many thousands of times in a
matter of weeks.
The cuticle, from which the skin
is mostly constructed, cannot stretch enough for the expansion in body volume
due to the massive food intake, so when it’s ready to do so, a hormone is
released which triggers the skin to split behind the head; it is then cast off,
along with the spiracles, revealing a soft, fresh new one underneath. After a
while this hardens up, and the caterpillar wanders off and starts feeding again
in some species though, the caterpillar eats the molted skin first.
Furthermore, when the larva
changes into a pupa, it does so in order to reaarange its internal structures,
so that it can change into a butterfly. This process sometimes known as
“metamorphosis”, is one of the great marvels of the natural world, and has been
used as a metaphor throughout history. The Greeks thought that a butterfly’s
emergence from the pupa was “a personification of the human soul”. A thousand
years later, in early Christian teaching, metamorphosis was used as s symbol of
resurrection. When the caterpillar is ready to turn into a pupa, it will first
find a suitable place for the transformation to take place. With some species
this means a short walk to the nearest twig, but with others it may mean a long
crawl to a distant location. This is perhaps to minimize the risk of them being
found by parasitic wasps, although clearly the farther apart the members of a
brood are, the less is the risk of them falling victim to the same predator.
Once the caterpillar has found a
site that meets its criteria, it will anchor itself to the plant, tree, or
rock. There are several different anchoring methods, but eh most common is the
construction of a silken pad, which is glued in some way to the chosen surface.
The caterpillar then attaches itself to the pad with a special device called a
cremaster, and sometimes also with a “silken girdle”, which is just a thin cord
running around its middle, to help to support the weight. The final skin change
then takes place, in much the same way as a larval molt, although instead of a
fresh skin being underneath, the cuticle hardens into a pupal case. The pupa
will then wriggle incessantly to make the shed skin break free and drop to the
ground. The reason for this is not proven, although it is highly likely that is
to ensure any parasite eggs laid on the skin will be discarded along with it.
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In the days leading up to the
butterfly’s emergence, the pupa will often change color as the wings become
visible through the pupal case. This is often accompanied by a lot “wriggling”
around as it undergoes the final changes. There is no one set time when
emergence occurs in butterflies, but very often they do so in the morning, so
that by the time they start to emerge the sun has warmed the air, and the new
butterfly can bask in its warming rays. During the time from emergence to first
flight it is extremely vulnerable as it cannot escape should a predator find
it. Until its wings have unfurled, it cannot benefit from any chemical defenses
it has either as its warming colors are not visible, or so it may be killed
before its unpalatability is discovered.
There is still a great deal of
mystery about how butterfly wings go through the transition from being soggy
wet “buds” to fully expanded dry wings. The mechanical mechanisms of their
unfolding are worthy of research, as there are many places where we could
benefit from such perfection of design. For instance, if we could copy this
process, it would mean bigger solar panels could be constructed for satellites,
as they could be made to fold away more efficiently. This would lower costs,
and raise efficiency in the future, the signal for your mobile phone, or
television may depend on the engineering of a butterfly wing. The marvels of
nature’s engineering will still be providing inspiration to mankind for a long
time to come!
When the butterfly has dried its
wings fully, it will take its first flight. If it’s a male it will spend the
first few days of its life as an adult seeking nutrition, looking for flowers
rich in nectar from which to extract the all-important sugars that it will use as
fuel on its hunt for a mate. This issue is fraught with problems if the male is
too young he will not be fully sexually mature and if the female is too old,
she will be infertile or will already have mated. This is why males typically
emerge about a week before the females. It also means that predation will occur
mostly among the more common males in some species the ratio of males to
females can be extremely high with in excess of 50 males for every female. It’s
therefore important if a butterfly is going to be eaten, that it’s a common
male and not a rare female.
Not all butterfly species have
male to female ratios this high but, even so it is not surprising that there is
a great deal of competition for fertile females. In some butterfly species, the
male will find what he considers to be a good patch of territory, and will
patrol it, chasing off any other males that try to encroach. This way, he is
proving himself fit to the job of defending his territory he would lose out to
a stronger male. There are many other ways that females select their mates; for
instance, the catch me if you can routine, where she will fly at speed through
bushes and trees, and only males that can keep up are considered worthy.
The selection mechanisms and
general behavior involved in butterfly reproduction has been the subject of
many studies over the years. Some of these have found some very interesting
things for instance during the 1960’s. It was discovered by Stewart Swihart
when he was working in Trinidad that early in the day individuals of the small
postman (Heliconius erato) have their vision enhanced in the yellow part of the
spectrum. It’s believed this is because they feed mostly from yellow flowers.
Somewhere around mid-morning however, something in the brain switches their
sight to being predominantly in the red part of the spectrum. This is because
the females have distinctive red marking son their wings, which the males use
as signals for courtship begin. They will then inspect anything that is red,
and of roughly right size. When a female makes an appearance, she will be
pursued by any males within range. Some things don’t change throughout the
animal kingdom!
Butterfly Classification