Presentation is loading. Please wait.

Presentation is loading. Please wait.

ENDOPTERYGOTES.

Published byΜαρία Οικονόμου Modified over 6 years ago

Similar presentations

Presentation on theme: "ENDOPTERYGOTES."— Presentation transcript:

1 ENDOPTERYGOTES

2 ENDOPTERYGOTA (=HOLOMETABOLA)
Major Change in Life Pattern Exopterygota Egg Nymph Adult Endopterygota Egg Larva Pupa Adult

3 Changes needed in becoming an endopterygote
1. Larval musculature - not functional in adult 2. Change in gut 3. Mouthpart modifications

4 Are there intermediates?
Aleyrodidae - whiteflies (Homoptera) - histolysis of nymphal organs - wing development is external Thrips (Thysanoptera) - histolysis of nymphal muscles - wing development is external

5 Metamorphosis - how do they do it?

6 Metamorphosis - how do they do it?

7 Metamorphosis - waste products
Deamination Protein breakdown Ammonia - toxic Uric acid Meconium

8 Predominance of the Endopterygota

9 Phylogeny of Insects Insecta ? Archaeognatha Thysanura Paleoptera
Orthopteroids Megaloptera Pterygota Rhaphidioptera Neuroptera Neoptera Hemipteroids Coleoptera ? Strepsiptera Endopterygota Diptera Mecoptera Siphonaptera Trichoptera Lepidoptera Hymenoptera

10 Neuropteroid Orders ? Megaloptera Megaloptera Rhaphidioptera
Neuroptera Neuroptera Coleoptera ? Strepsiptera Strepsiptera Endopterygota Diptera Mecoptera Siphonaptera Trichoptera Lepidoptera Hymenoptera

11 NEUROPTEROID ORDERS NEUROPTERA (antlions, lacewings) MEGALOPTERA
(Dobsonflies, alderflies) RHAPHIDIOPTERA (snakeflies) STREPSIPTERA (twisted wing parasites)

12 Hexapoda Insecta Pterygota Neoptera Holometabola Apterygotes
Silurian Devonian Carboniferous Permian Triassic Jurassic Cretaceous Entognatha Archaeognatha Hexapoda Zygentoma = Thysanura) 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

13 Coleoptera Rhaphidioptera Megaloptera Neuroptera Hymenoptera Mecoptera Siphonaptera Diptera Strepsiptera Trichoptera Lepidoptera

14 Molecular evidence Mecoptera Siphonaptera Diptera Lepidoptera
Trichoptera Neuroptera Rhaphidionaptera Megaloptera Coleoptera Strepsiptera Hymenoptera HEMIMETABOLOUS Carboniferous Permian Triassic Jurassic Cretaceous Weigman et al, 2009

15 Comparison of Phylogenies
Mecoptera Siphonaptera Megaloptera Diptera Rhaphidioptera Lepidoptera Trichoptera Neuroptera Neuroptera Rhaphidioptera Coleoptera Megaloptera ? Strepsiptera Coleoptera Diptera Strepsiptera Mecoptera Siphonaptera Hymenoptera Coleoptera Trichoptera Rhaphidioptera Lepidoptera Megaloptera Neuroptera Hymenoptera Hymenoptera Mecoptera Siphonaptera Diptera Strepsiptera Trichoptera Lepidoptera

16 Hexapod Orders Strepsiptera Strepsi - twisted, ptera - wing
Number of Species 500 Common names Twisted wing parasites, strepsipterans Typical habitats Parasites of other insects Distinguishing characteristics -reduced life stages -triungulin larva -forewings are halteres -wings with few veins -females - breed while larval Other features

17 Strepsiptera - features
Males - ‘ raspberry eye’ Forewings = halteres

18

19 Moults - 2nd and 3rd instar
Strepsiptera - Life cycle Oral secretions soften host cuticle Host endocuticle detaches and surrounds parasite Seeks host Moults - 2nd and 3rd instar -legless grub Triungulin (1st instar larva) hatches Pupation Host cuticle Female larval cuticle Male leaves to seek mate Mating Cephalothorax Female stays in host Brood canal Genital pore

20 Strepsiptera - mating = oocyte sperm

21 Moults - 2nd and 3rd instar
Strepsiptera - Life cycle Oral secretions soften host cuticle Host endocuticle detaches and surrounds parasite Seeks host Moults - 2nd and 3rd instar -legless grub Triungulin (1st instar larva) hatches Pupation Host cuticle Female larval cuticle Male leaves to seek mate Mating Cephalothorax Female stays in host Brood canal Genital pore

22 Hexapod Orders Neuroptera Neuro - nerve, ptera - wing
Number of Species 5000 Common names Lacewings, antlions Typical habitats Variable Distinguishing characteristics -numerous crossveins in wing -larvae with incomplete gut -most primitive endopterygote -predaceous larvae Other features

23 Neuroptera - who are they?
Lacewings Larvae - predatory Adults - predatory or pollen feeders

24 Neuroptera - who are they?
Antlions

25 Neuroptera - who are they?
Antlions Larvae construct pits to trap prey

26 Neuroptera - who are they?
Mantispidae -convergent evolution with Mantodea

27 Neuroptera - who are they?
Sisyridae - spongilla flies

28 Hexapod Orders Megaloptera Megalo - large, ptera - wing
Number of Species 300 Common names Dobsonflies, alderflies Typical habitats Variable , larvae - aquatic Distinguishing characteristics -predatory larvae with complete gut -anal fold in wing Other features -pronotum slightly extended -mandibles in adult not used

29 Megaloptera - who are they?
Adult Larva - “hellgrammite”

30 Megaloptera - who are they?
Life cycle Eggs hatch & larvae drop into stream/pond Eggs laid overhanging water Adults mate Pupate in earthen cell Hellgrammite larva

31 Hexapod Orders Raphidioptera Raphidio - ????, ptera - wing
Number of Species 200 Common names snakeflies Typical habitats Forests - found west of Rockies Distinguishing characteristics -greatly extended pronotum -adults and larvae predatory Other features

Download ppt "ENDOPTERYGOTES."

Similar presentations

Entomology 462 Orders of Insects

Entomology 462 Orders of Insects
Common Insect Orders Adapted from Berkeley Natural History Museums lesson “A Quick Way to Identify Common Insect Orders”

Common Insect Orders Adapted from Berkeley Natural History Museums lesson “A Quick Way to Identify Common Insect Orders”
KAREN LANCOUR National Rules Committee Chairman- Life Sciences

KAREN LANCOUR National Rules Committee Chairman- Life Sciences
ENDOPTERYGOTES. ENDOPTERYGOTA (=HOLOMETABOLA) Major Change in Life Pattern Exopterygota Egg NymphAdult Endopterygota EggLarvaPupaAdult.

ENDOPTERYGOTES. ENDOPTERYGOTA (=HOLOMETABOLA) Major Change in Life Pattern Exopterygota Egg NymphAdult Endopterygota EggLarvaPupaAdult.
Alderflies, dobsonflies, snakeflies, lacewings and antlions

Alderflies, dobsonflies, snakeflies, lacewings and antlions
Understanding Insect Life Cycles. What is a Life Cycle? A life cycle is the continuous sequence of changes undergone by an organism from beginning of.

Understanding Insect Life Cycles. What is a Life Cycle? A life cycle is the continuous sequence of changes undergone by an organism from beginning of.
Immature Insects Rick Story, Department of Entomology.

Immature Insects Rick Story, Department of Entomology.
KAREN LANCOUR National Rules Committee Chairman- Life Sciences

KAREN LANCOUR National Rules Committee Chairman- Life Sciences
MECOPTERA (scorpionflies) SIPHONAPTERA (fleas). So far in classification Neoptera Exopterygota Head with gula Head without gula Neuropteroid Orders mandibulate.

MECOPTERA (scorpionflies) SIPHONAPTERA (fleas). So far in classification Neoptera Exopterygota Head with gula Head without gula Neuropteroid Orders mandibulate.
Developing Entomological Skills and Techniques (how to be a bugdork)

Developing Entomological Skills and Techniques (how to be a bugdork)
HYMENOPTERA (wasps, bees, ants). 500 400 300 200 100 0 Entognatha Archaeognatha Zygentoma Ephemeroptera Odonata Plecoptera Embiodea Zoraptera Dermaptera.

HYMENOPTERA (wasps, bees, ants) Entognatha Archaeognatha Zygentoma Ephemeroptera Odonata Plecoptera Embiodea Zoraptera Dermaptera.
Phylum Arthropoda Subphylum 4 Uniramia ‘DIC’ or ‘CID’ Class Chilopoda Class Diplopoda Class Insecta Which one has most legs per segment?

Phylum Arthropoda Subphylum 4 Uniramia ‘DIC’ or ‘CID’ Class Chilopoda Class Diplopoda Class Insecta Which one has most legs per segment?
Insect Evolution.

Insect Evolution.
BIO 255: Insect Diversity. I. Insect Diversity A. In Taxonomic Context.

BIO 255: Insect Diversity. I. Insect Diversity A. In Taxonomic Context.
Biology 3451 Entomology Introduction. How the course is organized Part 1: Guts ‘n’ Gonads Internal and External Structure 1. All major body sections +

Biology 3451 Entomology Introduction. How the course is organized Part 1: Guts ‘n’ Gonads Internal and External Structure 1. All major body sections +
INSECT CLASSIFICATION KIND PHILLIP CAME OVER FOR GOOD SPAGHETTI !!!

INSECT CLASSIFICATION KIND PHILLIP CAME OVER FOR GOOD SPAGHETTI !!!
EPHEMEROPTERA. Two theories of flight Entognatha Archaeognatha Zygentoma = Thysanura Ephemeroptera Odonata Plecoptera Embiodea Zoraptera Dermaptera Grylloblattodea.

EPHEMEROPTERA. Two theories of flight Entognatha Archaeognatha Zygentoma = Thysanura Ephemeroptera Odonata Plecoptera Embiodea Zoraptera Dermaptera Grylloblattodea.
Orders of Insects David J. Shetlar, Ph.D. The “BugDoc” The Ohio State University, OARDC & OSU Extension Columbus, OH Revised: September, 2004 - DJS.

Orders of Insects David J. Shetlar, Ph.D. The “BugDoc” The Ohio State University, OARDC & OSU Extension Columbus, OH Revised: September, DJS.
Insect taxonomic diversity

Insect taxonomic diversity
External Anatomy Adult insects are known for having three major body regions, six legs, one pair of antennae and usually two pair of wings as adults.

External Anatomy Adult insects are known for having three major body regions, six legs, one pair of antennae and usually two pair of wings as adults.

Similar presentations

Ads by Google