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Insecta Insects; Entognatha; Hexapods; Hexapoda

Links

Higher taxa:  Life   Insecta   Global map IDnature guides: Aquatic_Insects_New_Hampshire, Coelichneumon, Cratichneumon, Dragonflies, Fruit_Pests, Galapagos_freshwater_invertebrates, Groups_Insecta, Ichneumoninae, Ichneumonoidea, Insect_orders, Lepidoptera, North_American_Invasives, Odonata_families, Plecoptera_families, Siphonaptera_families, USGAClarke We parsed the following live from the Web into this page. Such content is managed by its original site and not cached on Discover Life. Please send feedback and corrections directly to the source. See original regarding copyrights and terms of use. Insect Collection, University of Guelph Animal Diverity Web

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© John Pickering, 2006-2009 Camponotus chromaiodes, worker tending aphids in the genus Aphis	© John Pickering, 2006-2009 Ceratoma catalpae

Kinds

Archeognatha -- Bristletails, Archaeognatha, Silverfish, Firebrats Blattaria -- Cockroaches, Blattodea Coleoptera -- Beetles, Weevils, Fireflies, Lightningbugs, Glow-worms, June bugs, Borers, Ladybirds, Ladybugs Collembola -- Springtails Dermaptera -- Earwigs, Pincerbugs Diplura -- Diplurans Diptera -- Flies, Gnats, Mosquitoes, Midges, Sandflies, Crane flies, Sheep keds, Maggots, True flies, Mosquitos Embiidina -- Embiids Embioptera -- Web spinners, Foot spinners, Webspinners Ephemeroptera -- Mayflies, Cadisflies Grylloblattodea -- Icecrawlers, Rock crawlers Hemiptera -- True bugs, Stink bugs, Shield bugs, Squash bugs, Milkweed bugs, Ambush bugs, Cinch bugs, Water boatmen, Water striders, Cicadas, Aphids, Scale insects, Leafhoppers, Bugs, Leaf hoppers, Stinks, Shields, Squashes, Milkweeds Heteroptera -- True bugs Homoptera -- Leaf hoppers, Cicadas, Aphids, Whiteflies, Scale insects, Treehoppers, Leafhoppers, Spittlebugs, Scale Insects Hymenoptera -- Ants, Bees, Wasps, Sawflies, Horntails, Ichneumons, Mud daubers, Cow killers, Cicada killers Isoptera -- Termites, White ants Lepidoptera -- Butterflies, Moths, Skippers, Caterpillars, Borers, Webworms, Cankerworms, Bagworms Mantodea -- Praying mantids, Preying mantids Mecoptera -- Scorpionflies, Hanging flies Megaloptera -- Dobsonflies, Alderflies, Snakeflies, Fishflies Microvelia Neuroptera -- Lacewings, Antlions, Owlflies Odonata -- Damselflies, Dragonflies, Anisoptera, Zygoptera, Dragonflies and Damselflies Orthoptera -- Grasshoppers, Locusts, Crickets, Katydids Phasmatodea -- Stick insects, Leaf insects, Walking stick insects, Walking sticks, Mantophasmatodea Phthiraptera -- Lice, Mallophaga, Anoplura Plecoptera -- Stoneflies Polydesmida Protura -- Proturans Psocoptera -- Barklice, Booklice, Psocids Raphidioptera -- Snakeflies Siphonaptera -- Fleas Siricoidea -- Siricoid wasps Strepsiptera -- Stylops, Twisted-winged parasites Thysanoptera -- Thrips Thysanura -- Silverfishes, Firebrats, Common bristletails, Zygentoma, Silverfish Trichoptera -- Caddisflies Unknown Zoraptera -- Zorapterans

Overview

Approximately 750,000 insect species have been scientifically named and described. Millions of new ones are yet to be discovered. Please don't be disappointed if there are no images or text for your favorite insects. Our task will take many years to complete. Much of the information so far assembled concerns bees, ants, butterflies, and parasitic wasps in the families Braconidae and Ichneumonidae. Most of this page's other links are a skeleton waiting for information to be added about this most wonderfully diverse group. Please contact John Pickering if you wish to contribute to this effort.

Kinds

Butterflies Beetles Flies Ants Click on image to go to that group.

Identification

How to identify insect orders

Phylogeny

Taxonomic Category Scientific Name Common Name Phylum Arthropoda Arthropods Class Hexapoda Hexapods

Links to other sites

Insect Diversity Project -- comparing communities in the New World Nomina Insecta Neartica -- Checklist of North American Insects Bug People -- for school activities Clemson University -- additional Websites Woodlice, they're not insects but... walking with woodlice Systematic Thesaurus, Zoological Record Russian Insects -- Insects from the entire world for collectors

References

Borror, D. J., C. A. Triplehorn & N. F. Johnson. 1989. Introduction to the Study of Insects. 1989. Harcourt College Publishers. Borror, D. J. & R. E. White. 1970. A Field Guilde to the Insects of America North of Mexico. Houghton Mifflin Co., Boston, MA

Acknowledgements

We thank Cassie Lloyd for technical support in developing this page.

Following modified from Insect Collection, University of Guelph

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NORTH AMERICAN INSECT ORDERS All photographs and text @ S.A. Marshall       Archeognatha (Jumping Bristletails) Blattodea (Cockroaches)  Coleoptera (Beetles)  Collembola (Springtails)  Dermaptera (Earwigs)      Diplura Diptera (Flies)  Embioptera (Webspinners)  Ephemeroptera (Mayflies)  Grylloblattodea (Rock Crawler)     Hemiptera (True Bugs) Hymenoptera (Bees, Wasps & Sawflies) Isoptera (Termites)  Lepidoptera (Moths & Butterflies) Mantodea (Mantids)      Mecoptera (Scorpion Flies) Megaloptera (Alderflies, Dobsonflies & Snakesflies) Neuroptera (Lacewings)  Odonata (Dragonflies & Damselflies) Orthoptera (Crickets, Katydids & Grasshoppers)     Phasmotodea (Walking Sticks) Phthiraptera (Lice)  Plecoptera (Stone Flies) Protura (Proturans)  Psocoptera (Book lice & Bark lice)     Siphonaptera (Fleas)  Strepsiptera (Strepsipterans)  Thysanoptera (Thrips)  Thysanura (Silverfish)  Trichoptera (Caddisflies)      Zoraptera (Zooapterans)

Following modified from Animal Diverity Web

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Overview  News  Technology  Conditions of Use  Privacy Policy  Partners & Contributors  Awards & Recognition  ADW Staff  Contact Us  Spinning Skulls  About Mammals  Frog Calls  Resources for College Instructors  Resources for K-12 Instructors  Contribute to ADW  What's in a Scientific Name?  Authority Lists: Where We Get Our Names  Name, Rank, and Serial Number  Organismal classification: evolutionary relationships & ranks  Glossary  Search Guide  Related Links  Contact Us  Report an Error Structured Inquiry Search — preview Home Kingdom Animalia Phylum Arthropoda Class Insecta Class Insecta insects Information Pictures Specimens Sounds Classification 2009/11/22 03:10:53.795 US/Eastern By Phil Myers Kingdom: Animalia Phylum: Arthropoda Class: Insecta Members of this Class With around one million named species and perhaps several times that number unnamed, insects account for a great majority of the species of animals on earth. They are a tremendously successful group. Insects can be found in almost all terrestrial and freshwater habitats, from the driest deserts to freshwater ponds, from the canopy of a tropical rainforest (where their diversity is unbelievably great) to the arctic wastes. A few species are even marine. Their feeding habits are similarly varied; almost any substance that has nutritive value is eaten by some group of insects. Insects also show huge variety in shape and form. Almost the only condition their group does not attain is very large body size. A number of features, however, are shared by most kinds of living insects. In addition to the general characteristics of uniramians, these include a body composed of three tagmata, a head, thorax, and abodmen; a pair of relatively large compound eyes and usually three ocelli located on the head; a pair of antennae, also on the head; mouthparts consisting of a labrum, a pair of mandibles, a pair of maxillae, a labium, and a tonguelike hypopharynx; two pairs of wings, derived from outgrowths of the body wall (unlike any vertebrate wings); and three pairs of walking legs. Insects have a complete and complex digestive tract. Their mouthparts are especially variable, often complexly related to their feeding habits. Insects "breathe" through a tracheal system, with external openings called spiracles and increasingly finely branched tubules that carry gases right to the metabolizing tissues. Aquatic forms may exchange gases through the body wall or they may have various kinds of gills. Excretion of nitrogenous waste takes place through Malpighian tubules. The nervous system of insects is complex, including a number of ganglia and a ventral, double nerve cord. The ganglia are largely independent in their functioning; for example, an isolated thorax is capable of walking. Yet ganglia also use sensory output. A grasshopper with one wing removed can correct for this loss and maintain flight, using sensory input from its brain. Sense organs are complex and acute. In addition to ocelli and compound eyes, some insects are quite sensitive to sounds, and their chemoreceptive abilities are astounding. Insects are dioecious and fertilization is internal in most. The ways in which mating is accomplished, however, are incredibly variable; study of this variability by evolutionary biologists has greatly advanced our understanding of the evolution of behavior, social evolution, and traits such as number, size of young and patterns of investment in them. Reproduction by insects often involves a male locating a receptive female through chemicals (pheromones) released by the female. In most species, females store the sperm in a special receptacle in their abdomens; even species that lay huge numbers of eggs (in honeybees, for example, the number may be over one million), females mate only once and rely on sperm stored during that mating for the rest of their lives. The manner in which growth is accomplished is an especially important characteristic of insects. In some, hatching eggs produce miniature adults, which to grow must shed their exoskeleton in a process called ecdyisis. In almost 90% of insect species, however, newly hatched young are completely different in appearance from adults. These larval forms usually live in different habitats, eat different foods, and assume a body form completely different from that of their parents. The larva feeds and grows, molting its skin periodically. At some point larval growth is completed, the larva stops feeding and builds a case or cocoon around itself. In this nonfeeding condition it is called a pupa or chrysalis. While so encased, the larva undergoes a complete transformation or "metamorphosis" of its body form, and a fully-formed adult emerges. Insects that experience this sort of complete change are called "holometabolous." Other species undergo a more gradual process, in which the newly hatched young are more similar to the adult but are small in size, lack wings, are sexually immature, and may differ in other, relatively minor ways as well. The young in these insects are called nymphs, and the lifestyle is referred to as "hemimetabolous." Insects are incalculably valuable to man. Usually, we think of them in a negative context. Insects eat our food, feed on our blood and skin, contaminate our dwellings, and transmit horrible diseases. But without them, we could not exist. They are a fundamental part of our ecosystem. A brief and incomplete list of their positive roles would include the pollination of many, perhaps most higher plants; the decomposition of organic materials, facilitating the recycling of carbon, nitrogen, and other essential nutrients; the control of populations of harmful invertebrate species (including other insects); the direct production of certain foods (honey, for example); and the manufacture of useful products such as silk and shellac. There is no general agreement on the details of how different groups of insects are related. Our classification (see the Classification tab) has not been fully edited yet, and has errors. We're working on this, but with so many groups, it's a big job. See the Tree of Life page listed below for more information. Other Web Resources: Tree of Life Web Project page on Insecta References: Hickman, C.P. and L. S. Roberts. 1994. Animal Diversity . Wm. C. Brown, Dubuque, IA. Brusca, R. C., and G. J. Brusca. Invertebrates. 1990. Sinauer Associates, Sunderland, MA. Pearse, V., J. Pearse, M. Buchsbaum, and R. Buchsbaum. 1987. Living Invertebrates. Blackwell Scientific Publications, Palo Alto, Ca. For More Information Find Insecta " information at BioKIDS: Kids' Inquiry of Diverse Species Contributors Phil Myers (author), Museum of Zoology, University of Michigan. 2009/11/22 03:10:54 US/Eastern To cite this page: Myers, P. 2001. "Insecta" (On-line), Animal Diversity Web. Accessed November 23, 2009 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Insecta.html. Disclaimer: The Animal Diversity Web is an educational resource written largely by and for college students . ADW doesn't cover all species in the world, nor does it include all the latest scientific information about organisms we describe. Though we edit our accounts for accuracy, we cannot guarantee all information in those accounts. While ADW staff and contributors provide references to books and websites that we believe are reputable, we cannot necessarily endorse the contents of references beyond our control. Other formats: OWL Home   ¦   About Us   ¦   Special Topics   ¦   Teaching   ¦   About Animal Names   ¦   Help Structured Inquiry Search — preview Sponsored in part by the Interagency Education Research Initiative, the Homeland Foundation and the University of Michigan   Museum of Zoology . This material is based upon work supported by the National Science Foundation under Grants DUE-0633095 and DRL-0628151. The ADW Team gratefully acknowledges their support. Report Error — Comment ©1995-2008, The Regents of the University of Michigan and its licensors. All rights reserved.