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Insect Evolution.

Published byMerike Rosenberg Modified over 5 years ago

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Presentation on theme: "Insect Evolution."— Presentation transcript:

1 Insect Evolution

2 Hexapoda Insecta Pterygota Neoptera Holometabola Apterygotes
Silurian Devonian Carboniferous Permian Triassic Jurassic Cretaceous Entognatha Archaeognatha Hexapoda Zygentoma Ephemeroptera Insecta Odonata Plecoptera Embiodea Pterygota Zoraptera Dermaptera Grylloblattodea ? Mantophasmatodea Orthoptera Phasmatodea Blattaria Isoptera Mantodea Neoptera Psocoptera Phthiraptera Thysanoptera Hemiptera Coleoptera Rhaphidioptera Megaloptera Neuroptera Hymenoptera Holometabola Mecoptera Siphonaptera Diptera Apterygotes Strepsiptera Trichoptera Paleoptera Lepidoptera Hemimetabolous Holometabolous

3 Relationships among Hexapoda
Collembola Entognatha Protura Diplura Hexapoda Archaeognatha Insecta Thysanura Pterygota

4 Evolution of the Insects
(Carpenter ) Four stages in insect evolution 4. Development of metamorphosis 3. Development of wing flexion mechanisms 2. Development of wings 1. Appearance of primitive wingless insects

5 Stages of Insect Evolution (Carpenter, 1953)
1. Apterygotes First insect fossils First terrestrial arthropod fossils First terrestrial arthropod trace fossils

6 Stages of Insect Evolution (Carpenter, 1953)
1. Apterygotes on Land Devonohexapodus - marine hexapod from the Devonian

7 Stages of Insect Evolution (Carpenter, 1953)
2. Development of wings a. From what structural elements are wings composed? b. For what purpose were wing-like structures first used? 2. Development of wings

8 Stages of Insect Evolution (Carpenter, 1953)
2. Development of wings 1. Paranotal Theory paranotal lobes Paleodictyoptera

9 Stages of Insect Evolution (Carpenter, 1953)
2. Development of wings 1. Paranotal Theory venation lobes

10 Stages of Insect Evolution (Carpenter, 1953)
2. Development of wings 2. Gill Theory

11 Stages of Insect Evolution (Carpenter, 1953)
2. Development of wings 2. Gill Theory

12 Hexapoda Insecta Pterygota Neoptera Holometabola 500 400 300 200 100 0
Silurian Devonian Carboniferous Permian Triassic Jurassic Cretaceous Entognatha Archaeognatha Hexapoda Zygentoma Ephemeroptera Insecta Odonata Plecoptera Embiodea Pterygota Zoraptera Dermaptera Grylloblattodea ? Mantophasmatodea Orthoptera Phasmatodea Blattaria Isoptera Mantodea Neoptera Psocoptera Phthiraptera Thysanoptera Hemiptera Coleoptera Rhaphidioptera Megaloptera Neuroptera Hymenoptera Holometabola Mecoptera Siphonaptera Diptera Strepsiptera Trichoptera Lepidoptera

13 Stages of Insect Evolution (Carpenter, 1953)
3. Wing Flexion Ephemeroptera 3. Development of wing flexion mechanisms Odonata Ephemeroptera + Odonata = Paleoptera

14 Stages of Insect Evolution (Carpenter, 1953)
3. Wing Flexion

15 Stages of Insect Evolution (Carpenter, 1953)
3. Wing Flexion Development of wing flexion mechanism 1. Neopterous condition 2. Allowed for better running locomotion, etc. 3. Became dominant and today represents 90% of orders and 97% of species 4. Includes all other modern insects

16 Stages of Insect Evolution (Carpenter, 1953)
4. Development of Metamorphosis Hemimetabolous (Incomplete metamorphosis) Holometabolous (Complete metamorphosis)

17 Hexapoda Insecta Pterygota Neoptera Holometabola Apterygotes
Silurian Devonian Carboniferous Permian Triassic Jurassic Cretaceous Entognatha Archaeognatha Hexapoda Zygentoma Ephemeroptera Insecta Odonata Plecoptera Embiodea Pterygota Zoraptera Dermaptera Grylloblattodea ? Mantophasmatodea Orthoptera Phasmatodea Blattaria Isoptera Mantodea Neoptera Psocoptera Phthiraptera Thysanoptera Hemiptera Coleoptera Rhaphidioptera Megaloptera Neuroptera Hymenoptera Holometabola Mecoptera Siphonaptera Diptera Apterygotes Strepsiptera Trichoptera Paleoptera Lepidoptera Hemimetabolous Holometabolous

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