Butterfly

group of insects in the order Lepidoptera
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A butterfly is a (usually) day-flying insect of the order Lepidoptera. They are grouped together in the suborder Rhopalocera. Butterflies are closely related to moths, from which they evolved about 56 million years ago.[1] The earliest discovered fossil moth was 200 million years ago.[2]

Butterflies
Temporal range: Palaeocenepresent
~60 mya {see text}
Papilio machaon
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Suborder: Rhopalocera
Subgroups
The regent skipper (Euschemon rafflesia) is the most distinct skipper butterfly, forming a subfamily of the Hesperiidae
Some butterflies do camouflage: the excellent leaf-mimic Gonepteryx rhamni, the common brimstone, on purple loosestrife
Kallima inachus is a nymphalid butterfly found in tropical Asia. With its wings closed, it looks like a dry leaf with dark veins
The same butterfly, Kallima inachus, showing the upper side of its wings.
Boy looks at butterfly

The life of butterflies is closely connected to flowering plants. Their larvae (caterpillars) feed on plants, and their adults feed on flowers. They lay their eggs on the plants their caterpillars feed on. Butterflies have a long history of co-evolution with flowering plants. Many of the details of plant anatomy are related to their pollinators, and vice versa.[3] The other notable features of butterflies are their extraordinary range of colours and patterns, and their wings. These are discussed below.

Angiosperms (flowering plants) evolved in the Lower Cretaceous, but did not become common until the Upper Cretaceous. Butterflies were the last major group of insects to appear on the planet.[1] They evolved from moths in the latest Cretaceous or the earliest Cainozoic. The earliest known butterfly fossils date to the mid Eocene epoch, between 40 and 50 million years ago.[4]

Like moths, butterflies have four wings covered with tiny scales. The front and back wings are usually zipped together, so that the insect looks as if it has only two wings. When a butterfly is not flying, its wings are usually folded over its back. The wings are patterned and are often brightly coloured. There are many different kinds of butterflies. The males and females of each kind are often slightly different from each other. Butterfly watching is a popular hobby. Some people also keep collections of dead butterflies that they have caught, but they find out that the colour fades.

Like all insects with complete metamorphosis, a butterfly's life goes through four distinct stages. It begins as an egg, which hatches into a larva (a caterpillar). After some time, the larva turns into a chrysalis. While it is in the chrysalis stage, it changes to become an adult butterfly. These changes are only beginning to be understood. To complete the cycle, adults mate and the females lay eggs.

Butterflies are any of the species belonging to the superfamilies Papilionoidea and Hedyloidea. Butterflies, along with the moths and the skippers, make up the insect order Lepidoptera. Butterflies are nearly worldwide in their distribution.

Predators and defences change

Predators change

The main predators of butterflies are birds, just as the main predators of the crepuscular moths are bats. Also monkeys and tree-dwelling reptiles are predators, and some insects and spiders. All reptiles have good colour vision, so that butterfly coloration works just as well on them as it does on birds.

Defences change

The extraordinary colours and patterns on the wings and body can only be understood in terms of their function. Some of the most obvious functions of colour are:

  1. Camouflage: enabling the insect to remain hidden from view
  2. Signalling to other animals
    1. Warning colouration: signalling to other animals not to attack. Caterpillars may have stored poisons from their food plants.
    2. Mimicry: taking advantage of another species' warning coloration
    3. Sexual selection: finding a mate
    4. Other kinds of signalling:
  3. Diversion
    1. Startle defence: unexpected flashes of colour or eyespots

The details vary from group to group, and from species to species. The caterpillars also have colours with similar functions. The poisonous substances which make some butterflies noxious to eat are got from the plants eaten by their caterpillars.

Body change

 
The head of a butterfly

Like most insects, butterflies have three main body parts. These parts are the head, the thorax, and the abdomen. The body is protected by the exoskeleton. The body is made up of sections, known as segments. In between the segments there are flexible areas that allow the butterfly to move. All three parts of the body are covered in very small scales. The scales give the butterfly its colour.[5]

Wings and flight change

Butterflies have a very characteristic flying style. They usually do not fly in straight lines. Their style is well described by the children's version of their name: 'flutter-by'. The way they fly presumably makes them harder for birds to catch.

Some species are capable of strong, long flights (see monarch butterfly migration) and others never leave the woods they were born in. They can survive bird pecks on the wings. Late in the season damage to their wings can often be seen, though they continue flying quite well.

When they are alive, it is often difficult to see they have four wings. The wings on each side are linked by a row of little hooks. So in practice they fly as if they had one large wing on each side.

Head change

The head is the first part of the body. It has the eyes, mouth parts, and antennae.[5]

The eyes of a butterfly are large. Like other adult insects, the eye is made up of many small lenses or "optical units". These are compound eyes. Butterflies do not see as many colours as humans, but they can see ultraviolet light.[5]

The mouth of an adult butterfly does not have jaws. It has a kind of mouth that sucks liquids. This mouth is made of two hollow tubes. The tubes are locked together in the middle. When the butterfly is not drinking, the tubes are coiled up. It can uncoil them when it wants to drink.[5] Like all insects, the adult phase is about reproduction. The main eating phase is done by the larvae, which usually eat plant food.

The antennae of a butterfly are used for smell and balance. The antenna in most butterflies is clubbed at the end. In some butterflies (like the skippers), there is a hook at the end of the antenna, instead of a club.[5]

Thorax change

 
The eye-spot on a butterfly's wings

The thorax is the second part of the body. It is made up of three segments. The legs and wings are connected to the thorax.[5]

The legs of a butterfly are made for walking, holding onto things, and tasting. There are three pairs of legs.[5] There are four main parts of the leg. They are the trochanter, the femur, the tibia, and the foot.[6] At the end of each foot, there is a pair of claws. Butterflies in the family Nymphalidae have very short front legs. They keep there front legs close to their bodies. This makes it look like they only have two pairs of legs.[5] In some species, there is a movable body part on the tibia that is used to clean the antennae.[7]

A butterfly has two pairs of wings. Each wing has hollow tubes called veins. The colors and patterns of butterflies are made by tiny scales. The scales overlap each other. They are connected to the wing. If a butterfly is handled, the tiny scales may rub off.[5]

Abdomen change

The abdomen is the third part of the body. It is made up of ten segments. The abdomen is much softer than the head and the thorax. At the end of the abdomen are the reproductive organs. In the male, there is a pair of claspers. They are used to hold on to the female during mating. In the female, there is a tube to lay eggs (the ovipositor).[5]

Life cycle change

Butterflies go through complete metamorphosis. This means that there are four parts in a butterfly's life. The first part is the egg. The second part is the caterpillar (sometimes called the larva). The third part is the chrysalis (sometimes called the pupa). The fourth part is the adult (sometimes called the imago).[5]

Egg change

 
A common castor (Ariadne merione) egg

A female butterfly will lay her eggs on or near the food plant of the caterpillar (the food plant is the plant that the caterpillar feeds on). The female will choose a place to lay her eggs using smell, taste, touch, and sight. Most species will lay just one egg on the food plant. Others will lay groups of five to over 100 eggs on the food plant. Most species will lay their eggs on the leaves of the food plant. Others will lay them on the flowers, stems, bark, or fruit of the food plant.[5]

The eggs come in many different shapes and colours. They may be round or oval, and flattened. In some species, the egg shell is ribbed. The most common colours in butterfly eggs are yellow and green. The eggs will turn dark just before hatching. Also, some butterflies take a day to come out of eggs, while others could take months.

Caterpillar change

 
Common buckeye (Junonia coenia) caterpillars. Note the variation
 
A Old World swallowtail (Papilio machaon) caterpillar showing its osmeterium

Butterfly caterpillars can vary in size, colour, and shape. They may have spines, bristles, or soft body extensions. All caterpillars have 13 body segments. The first three segments make up the thorax. The thorax has three pairs of legs. These legs are called true legs. The other 10 segments make up the abdomen. The abdomen has five pairs of soft legs called prolegs. The prolegs have tiny hooks at the end of each of the foot. They are used to hold on to things. The hooks are called crochets.[5]

A caterpillar's skin does not grow. As the caterpillar grows inside its skin, the skin becomes too tight. In order for the caterpillar to grow bigger, it sheds its too-tight skin. After the old skin is shed, there is a new, larger skin. This is known as moulting. A caterpillar will moult four to five times before turning into a pupa. Each stage between moults is called an instar.[5]

All caterpillars can make silk. The silk is made from the salivary glands. Silk starts out as a liquid in the salivary glands. The caterpillar draws out the silk into a small thread. The silk hardens as soon as it is exposed to the air. Caterpillars use silk to make nests or cocoons.[5]

Most caterpillars feed on leaves of plants or trees. Most species of caterpillars will feed only on a small number of certain kinds of plants. If the caterpillar's food plant is not found, it may starve to death.[5]

Some species of caterpillars (in the family Lycaenidae) are tended by ants. The caterpillars have special glands that make a sweet liquid called honeydew. The ants like the honeydew. In return for the honeydew, the ants protect the caterpillars from predators. The caterpillars also have special body parts that make sounds. The caterpillar will make sounds with the body parts and "call" the ants when the caterpillar is being attacked by predators. The ants hear the sounds and come to protect the caterpillar.[8]

Caterpillars in the subfamily Miletinae eat insects in the order Hemiptera. This includes aphids, mealybugs, leafhoppers and treehoppers.[9]p356

Caterpillars in the family Papilionidae have a special organ. This organ is called an osmeterium. It is a bad-smelling gland that is shaped like a snake's tongue. It is kept behind the inside of the head. When a predator tries to eat the caterpillar, the caterpillar releases the osmeterium. This usually scares the predators away.[9]p161

Pupa change

 
Old World Swallowtail (Papilio machaon) chrysalis

The pupa (plural, pupae) is formed after the last moult. The caterpillar will find a special place to pupate (pupate means to turn into a pupa). The digestive tract is emptied. The caterpillar sheds its skin. The pupa is now exposed. The caterpillar's tissues are broken down and rebuilt into the butterfly's tissues.[5]

The pupa cannot move. It is attached to an object by tiny hooks on the end of the abdomen. These hooks make up what is called the cremaster. There are many tiny holes on the pupa. They allow respiratory gases to move in and out of the pupa.[5]

Many pupae are easy for predators to attack. Some caterpillars (in the family Hesperiidae and the subfamilies Parnassiinae and Satyrinae) make shelters out of silk and leaves to protect themselves when they become pupae. These shelters are called cocoons. Most butterfly pupae do not have cocoons to protect themselves. Instead, the pupae have brown or green colours to camouflage themselves among leaves and branches. Pupae that do not have cocoons are called chrysalids or chrysalises.[5]

Survival change

Some butterflies may be in trouble because of habitat loss. Because of the destruction of forests and grasslands, some types of butterflies have nowhere to feed and lay eggs. To help, some people plant a butterfly garden with flowers having lots of nectar for butterflies to feed on. Some people also keep plants that butterflies lay eggs on, and enjoy watching the caterpillars hatch out and feed on the plant. Chemical sprays that are used to keep pests away from garden plants, also kill butterflies.

Fossils change

The earliest Lepidoptera fossils date to the Triassic-Jurassic boundary, about 200 million years ago.[10] Butterflies evolved from moths. The oldest known butterfly is Protocoeliades kristenseni from the Palaeocene of Denmark, about 55 million years ago. It belongs to the family Hesperiidae (skippers).[11] Molecular clock estimates suggest that butterflies originated sometime in the mid-Cretaceous, but only significantly diversified during the Cenozoic.[12] Genetic data suggest they originated in North-America 102.5–100.0 million years ago from a nocturnal moth ancestor that fed on legumes. Only about 17 million years ago did they colonize Europe.[13] The oldest American butterfly is from the later Eocene from the Florissant Formation fossil beds,[14][15] about 34 million years old.[16]

Butterfly families change

Butterfly families
Family Common name Characteristics Image
Hedylidae American moth-butterflies Small, brown, like geometrid moths; antennae not clubbed; long slim abdomen  
Hesperiidae Skippers Small, darting flight; clubs on antennae hooked backwards  
Lycaenidae Blues, coppers, hairstreaks Small, brightly coloured; often have false heads with eyespots and small tails resembling antennae  
Nymphalidae Brush-footed or four-footed butterflies Usually have reduced forelegs, so appear four-legged; often brightly coloured  
Papilionidae Swallowtails Often have 'tails' on wings; caterpillar generates foul taste with osmeterium organ; pupa supported by silk girdle  
Pieridae Whites and allies Mostly white, yellow or orange; some serious pests of Brassica; pupa supported by silk girdle  
Riodinidae Metalmarks Often have metallic spots on wings; often conspicuously coloured with black, orange and blue  

Some colourful butterflies change

Monarch butterfly gallery change

Related pages change

References change

  1. 1.0 1.1 Grimaldi D. and Engel M.S. 2005. Evolution of the insects. Cambridge University Press, p590–606. ISBN 0-521-82149-5
  2. Briggs, Helen. Meet the butterflies from 200 million years ago. BBC Science & Environment. [1] Archived 2019-07-20 at the Wayback Machine
  3. 95% of flowering plants in tropical lowlands rely on animals for pollination or dispersal of seeds. Thomson, John N. 1994. The coevolutionary process. University of Chicago Press, p7. ISBN 0-226-79760-0
  4. Hall J.P.W; Robbins R.K. & Harvey D.J. (2004). "Extinction and biogeography in the Caribbean: new evidence from a fossil riodinid butterfly in Dominican amber". Proceedings of the Royal Society of London B. 271 (1541): 797–801. doi:10.1098/rspb.2004.2691. PMC 1691661. PMID 15255097.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  5. 5.00 5.01 5.02 5.03 5.04 5.05 5.06 5.07 5.08 5.09 5.10 5.11 5.12 5.13 5.14 5.15 5.16 5.17 5.18 Smart, Paul 1977. The Illustrated Encyclopedia of the Butterfly World, chapter 2. Chartwell Books. ISBN 0-89009-093-9
  6. Cech, Rick and Tudor, Guy 2005. Butterflies of the East Coast. Princeton University Press, Princeton, NJ, p36. ISBN 0-691-09055-6
  7. Triplehorn, Charles A. and Johnson, Norman F. 2005. Borror and Delong's introduction to the study of insects. 7th ed, Thomson Brooks/Cole. Belmont, California, p578. ISBN 0-03-096835-6
  8. Wagner, David L. 2005. Caterpillars of Eastern North America. Princeton University Press, Princeton, NJ, p91. ISBN 0-691-12144-3
  9. 9.0 9.1 Scott, James A. 1986. The Butterflies of North America. Stanford University Press, Stanford, CA. ISBN 0-8047-2013-4
  10. Eldijk, Timo J.B. van; Wappler, Torsten; Strother, PaulK.; Weijst, Carolen M.H. van der; Rajaei, Hossein; Visscher, Henk; Schootbrugge, Bas van de (2018-01-01). "A Triassic-Jurassic window into the evolution of Lepidoptera". Science Advances. 4 (1): e1701568. Bibcode:2018SciA....4.1568V. doi:10.1126/sciadv.1701568. ISSN 2375-2548. PMC 5770165. PMID 29349295.
  11. De Jong, Rienk (2016-08-09). "Reconstructing a 55-million-year-old butterfly (Lepidoptera: Hesperiidae)". European Journal of Entomology. 113: 423–428. doi:10.14411/eje.2016.055.
  12. Chazot, Nicolas; Wahlberg, Niklas; Freitas, André Victor Lucci; Mitter, Charles; Labandeira, Conrad; Sohn, Jae-Cheon; Sahoo, Ranjit Kumar; Seraphim, Noemy; de Jong, Rienk; Heikkilä, Maria (2019-02-25). "Priors and posteriors in bayesian timing of divergence analyses: the age of butterflies revisited". Systematic Biology. 68 (5): 797–813. doi:10.1093/sysbio/syz002. ISSN 1063-5157. PMC 6893297. PMID 30690622. Archived from the original on 19 July 2021. Retrieved 9 July 2021.
  13. A global phylogeny of butterflies reveals their evolutionary history, ancestral hosts and biogeographic origins
  14. Meyer, Herbert William; Smith, Dena M . (2008). Paleontology of the Upper Eocene Florissant Formation, Colorado. Geological Society of America. p. 6. ISBN 978-0-8137-2435-5. Archived from the original on 24 April 2016. Retrieved 8 January 2016.
  15. "Lepidoptera – Latest Classification". Discoveries in Natural History & Exploration. University of California. Archived from the original on 7 April 2012. Retrieved 15 July 2011.
  16. McIntosh, W.C.; et al. (1992). "Calibration of the latest Eocene-Oligocene geomagnetic polarity time scale using 40Ar/39Ar dated ignimbrites". Geology. 20 (5): 459–463. Bibcode:1992Geo....20..459M. doi:10.1130/0091-7613(1992)020<0459:cotleo>2.3.co;2.

Further reading change

  • Boggs C; Watt W. & Ehrlich P. 2003. Butterflies: evolution and ecology: taking flight. University of Chicago Press, Chicago, USA.
  • Pyle R.M. 1992. Handbook for butterfly watchers. Houghton Mifflin. ISBN 0-395-61629-8