CLASSIFICATION & DIVERSITY

1. CLASSIFICATION &DIVERSITY

2. Why we need to identify & group organism?? • Recognition of dissimilar organism easier if we can put them in predefined categories

3. Lantern bug (never seen before??!!) • Insects (through experience)

4. b) Grouping allows us to make prediction • Looks different • But distinguishing features group them together • Mammals: give birth

5. How to group living organism?? • Not based only on ONE CHARACTER alone • Eg: animals can fly & cannot fly • Insects -fish • Birds -rodents • Bats • So need to look the overall plan of the organism

6. TAXONOMY • Greek: taxis - 'order' + nomos - 'law' or 'science'. • the practice and science of classification • Classification: placing an object into sets of categories based on properties/characters of the object

7. SERIES OF SETS • KINGDOM (Plants, Animals, Fungi, Bacteria, Protoctista) • PHYLUM (approx. 36 phyla) • CLASS (Crustacea, Myriapoda, Arachnida, Insecta) • ORDER • FAMILY (in animals end with ‘-dae’) • GENUS • SPECIES

8. EG. CLASSIFICATION OF INSECTS • KINGDOM: ANIMALIA • PHYLUM: ARTHROPODA • CLASS: INSECTA • ORDER: DIPTERA • FAMILY: TEPHRITIDAE • GENUS: Bactrocera • SPECIES: dorsalis

9. ADDITIONAL SUBSETS • KINGDOM • PHYLUM • CLASS • ORDER • Suborder • Superfamily – ‘-oidea’ • FAMILY – ‘-dae’ • Subfamily – ‘-nae’

10. Tribe – ‘-inii’ • Subtribe • GENUS • Subgenus • SPECIES • Subspecies

11. KINGDOM: ANIMALIA • PHYLUM: ARTHROPODA • CLASS: INSECTA • ORDER: HYMENOPTERA • SUPERFAMILY: ICHNEUMONOIDEA • FAMILY: ICHNEUMONIDAE • SUBFAMILY: CRYPTINAE • TRIBE: CRYPTINII • GENUS: Goryphus • SPECIES: mesoxanthus • SUBSPECIES: mesoxanthus

12. NOMENCLATURE(TATANAMA)

16. HOW ARE LIVING THINGS NAMED?? • (A) COMMON NAMES • Nyamuktiruk, lalatbuah (fruit fly, kumbangbadak (rhinocerus beetle), kersing/kepinding (true bugs), sorok-sorok (mole cricket), kelip-kelip (firefly), riang-riang (cicada), kutuberas (rice weevil) • Problem: • Not consistent • Doesn’t portray the actual insects

17. (B) SCIENTIFIC NAMES • consistent around the world • one species with single valid name

18. SPECIES • FUNDAMENTAL UNIT OF CLASSIFICATION • DEF: groups of natural populations that can interbreed. They are reproductively isolated from all other species

19. SPECIES NAME • Binomial • Consists of Genus and Specific names • Eg.: Bactroceradorsalis • Written in italic • Genus: start wih capital letter • Species: small letters • If hand written: underline both names seperately (Bactroceradorsalis)

20. GoryphusjendulAzura • Azura: the person who first described and named the species for science • Sometime author name in bracket • The author got the genus wrong

21. COMMON CHARACTERISTICS OF AN INSECT

22. CLASS INSECTA • SUBCLASS 1) APTERYGOTA • ALL ADULTS WINGLESS LIKE IMMATURE STAGE • NO TRUE METAMORPHOSIS • PRIMITIVE • 5 ORDERS

23. 1) PROTURA • Prot=First, Ura=Tail • Eyeless • No antennae • Styli on 1st-3rd abdominal segments • First pair of legs sensory

24. 2) DIPLURA • Di=two; ura=tail • Refers to two cerci • Styli on abdominal segments 1-7 or 2-7 B. Two cerci • C. Eyeless • D. Antennae present

25. 3) COLLEMBOLA(SPRINGTAIL) • Furcula (4th abdominal segment ventrally) • Eyes small with no more than 8 facets (ommatidia) on each side of the head. • D. Antennae present

26. 4) THYSANURA (silverfish) • Short styli on abdominal segments 2-7 • Two cerci and a median caudal filament • Compound eyes small or absent • flattened • Antennae present • Gegat • (old papers, high humid place)

27. 5) MICROCORYPHIA (BRISTLETAILS) • micro, small; coryphia, head • Styli on abdominal segments 2-9 • Two cerci and a median caudal filament • Antennae present • by day hiding in rock crevices or under bark. They feed at night.

28. SUBCLASS 2) PTERYGOTA • With wings • 2 groups: • 1) Exopterygota (18) • Incomplete metamorphosis (no pupa) • Develop wings outside of body • 2) Endopterygota (9) • Complete metamorphosis (with pupa) • Develop wings inside body (visible when adult)

29. EXOPTRYGOTA • 1) BLATTARIA • Body flattened and oval • head concealed from above by pronotum • Wings usually present • Tarsi five-segmented. • Antennae long and slender • Cockroaches

30. 2)ORTHOPTERA • Body usually linear in shape • Antennae conspicuous • Fore wing straight, narrow • Hind wing broad, membranous and fan-like • Hindlegs adapted for jumping • Grasshoppers & crickets

31. 3)HEMIPTERA • Subdivided into 2 suborder: • A) heteroptera • B) homoptera

32. 3A)HETEROPTERA (TRUE BUGS) • Mouthparts modified into • Forewing hemielitron • Wings, when at rest, held flat over body and overlap each other. • Some wingless • C. Typically triangular scutellum (feature shared with Coleoptera). • D. Antennae consist of 4-5 segments.

34. 3B)HOMOPTERA • Mouthparts modified into beak • Antennae short, bristle-like. • Both pairs of wings of uniform texture and held roof-like over body. • Considerable variation in body form (winged, wingless, degenerate legs).

36. 4)PHASMIDA/PHASMATODEA • Stick-like or leaf-like • Legs long and slender and not enlarged for jumping, diging, or capturing prey. • Abdomen long and slender • Antennae with 8-80 segments • Stick insects, leaf insects

37. 5)MANTODEA • Fore legs adapted for grasping prey • Tarsi five-segmented. • Antennae short • Praying mantis • Female ats male after mating

38. 6) ODONATA • DRAGONFLY AND DAMSELFLY

39. 7) ISOPTERA • Iso= equal; ptera= wings • Anai-anai • Soft bodied • No constriction of waist • Chewing Mouthparts • Monoliform or filiform antenna • Fontanelle - secretions from top of head glue soil to gather

40. 8) DERMAPTERA (TEMPIRING) • Front wings: short, similar to elytra in beetles • Hind wings: membranous • Mouthparts chewing • Prominate cerci • Nocturnal • Under bark, cracks • Scavengers - dead and decaying plant material

41. 9) PLECOPTERA (STONEFLIES) • Adults – near aquatic habitat; don't fly that much; hiding in vegetation, debris • Adults feed soft vegetation such as flowers, fruits, pollen, lichens, algaeNymphs feed on invertebrates or plant detritus

42. 10) GRYLLOBLATTODEA • gryllo, relating to crickets, blattaria, relating to cockroaches • Wingless, Compound eyes small or absent • D. Body leathery • E. Abdmen oval and cylindrical • F. Antennae 23-40 segments • Habitat: high altitude • Food: debris of insects that died on snow fields at high altitudes.

43. 11) EPHEMEROPTRA • Two-pair of triangular, membranous wings with many veins • Ten-segmented abdomen with two to three caudal filaments (cerci) • Fragile-looking • Near water • Adults don’t feed • Immature: algae, plants • bioindicator

44. 12) ZORAPTERA • Winged, wingless (lack eyes) B. 2-Segmented tarsi • C. Chewing mouthparts • D. Cerci present • E. Moniliform 9-segment antenna • Feed on fungus and dead insects

45. 13) PSOCOPTERA • 2- to 3-Segment tarsi • B. Roof-like wing position • C. No cerci • D. Overall appearance - bulbous head, long antennae • E. "Gnawing" mouthparts • Damp areas • Feed ob old books, lichen, fungus on wood

46. 14) THYSANOPTERA • Very tiny, < 2mm • Mouthpart: stylet • Narrowed wings with fringes • Veins greatly reduced/absent • Flowers, under bark, leaf litter

47. 15) EMBIIDINA • embid, lively (run backward quickly when disturbed) • No ocelli • Chewing mouthparts • Males- winged; Females - not winged • leaf litter, under stones, bark • Food:dried plant material, dried grasses

48. 16) PHTHIRAPTERA (KUTU) • Wingless, ectoparasite • 1 Tarsi - modified for a claw • Mouthparts - stylets for sucking lice, mandibles for chewing lice • Dorso - ventally flattened • Eggs glue to hair or feather

49. Host-specific • Birds and mammals:chewing lice (MALLOPHAGA) • Mammals: sucking lice (ANOPLURA)

50. 17) MANTOPHASMATODEA • discovered 2002 • South Africa • Carnivorous • Related to Phasmatodea, Grylloblattodea and Mantodea