{{Taxobox
| color = pink
| name = Endopterygota
| image = Panorpa communis V.jpg
| image_width = 220px
| image_caption = ''
Panorpa communis'', a
scorpionfly (order Mecoptera)
| regnum =
Animalia
| phylum =
Arthropoda
| subphylum =
Hexapoda
| classis =
Insecta
| subclassis =
Pterygota
| infraclassis =
Neoptera
| superordo =
Endopterygota
| superordo_authority = Sharp,
1898
| subdivision_ranks =
Orders
| subdivision =
Hymenoptera (
ants,
bees, etc.)
Coleoptera (beetles)
Strepsiptera (twisted-winged parasites)
Raphidioptera (snakeflies)
Megaloptera (
alderflies, etc.)
Neuroptera (net-veined insects)
Mecoptera (scorpionflies, etc.)
Siphonaptera (
fleas and
snow fleas)
Diptera (true
flies)
Trichoptera (
caddisflies)
Lepidoptera (
butterflies,
moths)
For fossil groups and possible future splits, see text.
}}
The
Endopterygota, also known as
Holometabola, are
insects of the subclass
Pterygota which go through distinctive
larval,
pupal, and adult stages. They undergo a radical
metamorphosis, with the
larval and adult stages differing considerably in their structure and behaviour. This is called
holometabolism, or complete metamorphism.
The Endopterygota are among the most diverse insect
superorders, with at least 680,000 living species divided between eleven
orders, containing insects such as
butterflies,
fleas,
bees,
ants and
beetles.
They are distinguished from the
Exopterygota (or Hemipterodea) by the way in which their wings develop. Endopterygota (meaning literally "internal winged forms") develop wings inside the body and undergo an elaborate metamorphosis involving a pupal stage. Exopterygota ("external winged forms") develop wings on the outside of their bodies and do not go through a pupal stage. The latter trait is
8plesiomorph]ic however and not exclusively found in the exopterygotes, but also in groups such as
Odonata (dragonflies and damselflies) which are not Neoptera but more
basal among insects.
Systematics
ITIS considers any subdivision of the Neoptera beyond the
orders invalid, but this is almost universally rejected.
The Endopterygota are sometimes divided into three assemblages:
Neuropteroida (Neuroptera, Megaloptera, Raphidioptera and Coleoptera),
Hymenopteroida (Hymenoptera), and
Panorpoida (Siphonaptera, Diptera, Trichoptera, Lepidoptera, Strepsiptera and Mecoptera). It was long believed that the
hymenopterans, with their highly-developed
social systems, constituted the most advanced insects, despite their rather "primitive"
anatomy compared to
flies and
beetles for example.
More recently, this is increasingly been rejected and
DNA sequence data seems to verify that the hymenopterans are indeed among the most
basal endopterygotes, whereas flies and
fleas are often considered the most radically advanced insects nowadays. This calls the previous subdivision into question, and consequently several new
taxa have been proposed, splitting up the Endopterygota. While some groups (such as the "sucking-stinging" fly-flea assemblage or the caddisfly-butterfly group) seem indeed to be good
clades, it is not likely that the relationships of the endopterygotes, or the neopteran insects in general, will be resolved in detail soon.
Superorder Neoptera ''
sensu stricto''
Hymenoptera (ants, bees, etc.)
Coleoptera (beetles)
Strepsiptera (twisted-winged parasites)
Raphidioptera (snakeflies)
Megaloptera (alderflies, etc.)
Neuroptera (net-veined insects)
Proposed superorder
Mecopteroidea/
Antliophora
Mecoptera (scorpionflies, etc.)
Siphonaptera (fleas and snow fleas)
Diptera (true flies)
Protodiptera (fossil)
Proposed superorder
Amphiesmenoptera
Trichoptera (caddisflies)
Lepidoptera (butterflies, moths)
''
Incertae sedis''
Glosselytrodea (fossil)
Miomoptera (fossil)
Category:Insects
de:Holometabole Insekten
es:Endopterygota
fr:Holométabolisme
it:Endopterygota
nl:Endopterygota
no:Holometabole insekter
pt:Endopterygota