WHAT IS A BUTTERFLY?
Butterflies are the adult flying stage of certain insects belonging to an order or group called Lepidoptera. Moths also belong to this group. The word "Lepidoptera" means "scaly wings" in Greek. This name perfectly suits the insects in this group because their wings are covered with thousands of tiny scales overlapping in rows. The scales, which are arranged in colorful designs unique to each species, are what gives the butterfly its beauty.
Like all other insects, butterflies have six legs and three main body parts: head, thorax (chest or mid section) and abdomen (tail end). They also have two antennae and an exoskeleton.
BUTTERFLY LIFE CYCLE A life cycle is made up of the stages that a living organism goes through during its lifetime from beginning to end. A butterfly undergoes a process called complete metamorphosis during its life cycle. This means that the butterfly changes completely from its early larval stage, when it is a caterpillar, until the final stage, when it becomes a beautiful and graceful adult butterfly. The butterfly life cycle has four stages: egg, larva, pupa, and adult.
The first stage of the butterfly life cycle is the egg or ovum. Butterfly eggs are tiny, vary in color and may be round, cylindrical or oval. The female butterfly attaches the eggs to leaves or stems of plants that will also serve as a suitable food source for the larvae when they hatch. The larva, or caterpillar, that hatches from the egg is the second stage in the life cycle. Caterpillars often, but not always, have several pairs of true legs, along with several pairs of false legs or prolegs. A caterpillar's primary activity is eating. They have a voracious appetite and eat almost constantly. As the caterpillar continues to eat, its body grows considerably. The tough outer skin or exoskeleton, however, does not grow or stretch along with the enlarging caterpillar. Instead, the old exoskeleton is shed in a process called molting and it is replaced by a new, larger exoskeleton. A caterpillar may go through as many as four to five molts before it becomes a pupa.
The third stage is known as the pupa or chrysalis. The caterpillar attaches itself to a twig, a wall or some other support and the exoskeleton splits open to reveal the chrysalis. The chrysalis hangs down like a small sack until the transformation to butterfly is complete. The casual observer may think that because the pupa is motionless that very little is going on during this "resting stage." However, it is within the chrysalis shell that the caterpillar's structure is broken down and rearranged into the wings, body and legs of the adult butterfly. The pupa does not feed but instead gets its energy from the food eaten by the larval stage. Depending on the species, the pupal stage may last for just a few days or it may last for more than a year. Many butterfly species overwinter or hibernate as pupae.
The fourth and final stage of the life cycle is the adult. Once the chrysalis casing splits, the butterfly emerges. It will eventually mate and lay eggs to begin the cycle all over again. Most adult butterflies will live only a week or two, while a few species may live as long as 18 months.
FEEDING
The larval or caterpillar stage and the adult butterfly have very different food preferences, largely due to the differences in their mouth parts. Both types of foods must be available in order for the butterfly to complete its life cycle.
Caterpillars are very particular about what they eat, which is why the female butterfly lays her eggs only on certain plants. She instinctively knows what plants will serve as suitable food for the hungry caterpillars that hatch from her eggs. Caterpillars don't move much and may spend their entire lives on the same plant or even the same leaf! Their primary goal is to eat as much as they can so that they become large enough to pupate. Caterpillars have chewing mouth parts, called mandibles, which enable them to eat leaves and other plant parts. Some caterpillars are considered pests because of the damage they do to crops. Caterpillars do not need to drink additional water because they get all they need from the plants they eat.
Adult butterflies are also selective about what they eat. Unlike caterpillars, butterflies can roam about and look for suitable food over a much broader territory. In most cases, adult butterflies are able to feed only on various liquids. They drink through a tube-like tongue called a proboscis. It uncoils to sip liquid food, and then coils up again into a spiral when the butterfly is not feeding. Most butterflies prefer flower nectar, but others may feed on the liquids found in rotting fruit, in ooze from trees, and in animal dung. Butterflies prefer to feed in sunny areas protected from wind.
Butterflies are cold-blooded, meaning they cannot regulate their own body temperature. As a result, their body temperature changes with the temperature of their surroundings. If they get too cold, they are unable to fly and must warm up their muscles in order to resume flight. Butterflies can fly as long as the air is between 60°-108° F, although temperatures between 82°-100° F are best. If the temperature drops too low, they may seek a light colored rock, sand or a leaf in a sunny spot and bask. Butterflies bask with their wings spread out in order to soak up the sun's heat
EGG LAYINGAfter mating with a male, the female butterfly must go in search of a plant on which to lay her eggs. Because the caterpillars that will hatch from her eggs will be very particular about what they eat, she must be very particular in choosing a plant. She can recognize the right plant species by its leaf color and shape. Just to be sure, however, she may beat on the leaf with her feet. This scratches the leaf surface, causing a characteristic plant odor to be released. Once she is sure she has found the correct plant species, she will go about the business of egg-laying. While laying her eggs, they are fertilized with the sperm that has been stored in her body since mating. Some butterflies lay a single egg, while others may lay their eggs in clusters. A sticky substance produced by the female enables the eggs to stick where ever she lays them, either on the underside of a leaf or on a stem.
MIGRATING
Another way that butterflies can escape cold weather is by migrating to a warmer region. Some migrating butterflies, such as the painted lady and cabbage butterfly, fly only a few hundred miles, while others, such as the monarch, travel thousands of miles.
Monarchs are considered the long-distance champions of butterfly migration, traveling as many as 4000 miles round trip. They begin their flight before the autumn cold sets in, heading south from Canada and the northern United States. Monarchs migrate to the warmer climates of California, Florida and Mexico, making the trip in two months or less and feeding on nectar along the way. Once arriving at their southern destination, they will spend the winter resting for the return flight. Few of the original adults actually complete the trip home. Instead, the females mate and lay eggs along the way and their offspring finish this incredible journey.
CAMOUFALGEButterflies and caterpillars are preyed upon by birds, spiders, lizards and various other animals. Largely defenseless against many of these hungry predators, Lepidoptera have developed a number of passive ways to protect themselves. One way is by making themselves inconspicuous through the use of camouflage.
Caterpillars may be protectively colored or have structures that allow them to seemingly disappear into the background. For example, many caterpillars are green, making them difficult to detect because they blend in with the host leaf. Some larvae, particularly those in the Tropics, bear a resemblance to bird droppings, a disguise that makes them unappealing to would-be predators.
The coloration and pattern of a butterfly's wings may enable it to blend into its surrounding. Some may look like dead leaves on a twig when they are at rest with their wings closed. The under wing markings of the comma and question mark butterflies help them to go unnoticed when hibernating in leaf litter.