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Animal Evolution –The Invertebrates Chapter 25 Part 3

Animal Evolution –The Invertebrates

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Animal Evolution –The Invertebrates. Chapter 25 Part 3. 25.11 Roundworms— Unsegmented Worms That Molt. Roundworms (phylum Nematoda) are unsegmented, pseudocoelomate worms with a secreted cuticle that is molted Most are decomposers, some are parasites - PowerPoint PPT Presentation

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Page 1: Animal Evolution –The  Invertebrates

Animal Evolution –The Invertebrates

Chapter 25 Part 3

Page 2: Animal Evolution –The  Invertebrates

25.11 Roundworms— Unsegmented Worms That Molt

Roundworms (phylum Nematoda) are unsegmented, pseudocoelomate worms with a secreted cuticle that is molted

Most are decomposers, some are parasites• Parasitic roundworms include Trichinella, Ascaris,

hookworms, Wuchereria, and pinworms

Page 3: Animal Evolution –The  Invertebrates

Roundworm Body Plan

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Fig. 25-29a, p. 420

pharynx intestine eggs in uterus gonad

false coelom (unlined body cavity) muscular body wall anus

Page 5: Animal Evolution –The  Invertebrates

Animation: Roundworm body plan

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Roundworms

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25.12 Arthropods—Animals With Jointed Legs

Arthropods (phylum Arthropoda) are the most diverse animal phylum – with more than a million species• Trilobites are an extinct group• Modern arthropods include horseshoe crabs,

spiders, ticks, crabs, lobsters, centipedes, and insects

Page 8: Animal Evolution –The  Invertebrates

Living Arthropod Subgroups

Page 9: Animal Evolution –The  Invertebrates

Key Arthropod Adaptations

A hardened exoskeleton (cuticle)• Hormones control molting

Jointed appendages for movement• Some legs are modified for special tasks

Highly modified segments• Example: wings

Page 10: Animal Evolution –The  Invertebrates

Key Arthropod Adaptations

Sensory specializations• Compound eyes• Antennae that detect touch and chemicals

Specialized developmental stages• Body plans may change by metamorphosis• Example: Caterpillar and butterfly

Page 11: Animal Evolution –The  Invertebrates

Key Arthropod Adaptations

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Fig. 25-31a, p. 421

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Fig. 25-31b, p. 421

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Fig. 25-31c, p. 421

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Fig. 25-31d, p. 421

Page 16: Animal Evolution –The  Invertebrates

25.13 Chelicerates—Spiders and Their Relatives

Chelicerates are arthropods without antennae• Marine chelicerates include the oldest living

arthropod lineage (horseshoe crabs) • All land chelicerates are arachnids, including

spiders, scorpions, ticks, and mites

Page 17: Animal Evolution –The  Invertebrates

Chelicerates

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Fig. 25-32a, p. 422

telson

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Fig. 25-32b, p. 422

telson (with stinger)

pedipalp cephalothorax abdomen

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Fig. 25-32c, p. 422

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Fig. 25-32d, p. 422

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Fig. 25-32e, p. 422

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Fig. 25-32f, p. 422

Page 24: Animal Evolution –The  Invertebrates

Chelicerates: The Spiders

Spiders bite with fanglike chelicerae that deliver venom from poison glands

Paired spinners in the abdomen eject silk

Open circulatory system mingles blood with tissue fluids; Malpighian tubules move excess water and wastes to gut for disposal

Page 25: Animal Evolution –The  Invertebrates

Body Plan of a Spider

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Fig. 25-33, p. 422

digestive gland Malpighian tubules

eye brain heart

poison gland

anus

pedipalp

mouth book lung ovary spinners

sperm receptacle silk gland

chelicera

Page 27: Animal Evolution –The  Invertebrates

25.14 The Mostly Marine Crustaceans

Crustaceans are mostly marine arthropods with two pairs of antennae• Small crustaceans include krill, copepods, and

barnacles• Decapod crustaceans include lobsters, crayfish,

crabs and shrimps

Page 28: Animal Evolution –The  Invertebrates

Crustaceans

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Fig. 25-34a, p. 423

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Fig. 25-34b, p. 423

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Fig. 25-34c, p. 423

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Fig. 25-34d, p. 423

Page 33: Animal Evolution –The  Invertebrates

Body Plan of a Lobster

Page 34: Animal Evolution –The  Invertebrates

Fig. 25-35, p. 423

abdomen segments

cephalothorax (fused segments)

eyes (two)

antennae (two pairs)

food-handling appendages (three pairs)

tail fan

swimmerets first leg

walking legs (five pairs)

Page 35: Animal Evolution –The  Invertebrates

Crab Life Cycle

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Fig. 25-36, p. 423

juvenileadult

femaleegg

larva

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Fig. 25-36, p. 423

Stepped Art

adult female

egg

larva

juvenile

Page 38: Animal Evolution –The  Invertebrates

Animation: Crab life cycle

Page 39: Animal Evolution –The  Invertebrates

25.15 Myriapods—Lots of Legs

Myriapods (“many feet”) are arthropods with two antennae and many body segments

Centipedes are predators

Millipedes are scavengers

Page 40: Animal Evolution –The  Invertebrates

Myriapods

Centipede and millipede

Page 41: Animal Evolution –The  Invertebrates

25.16 The Insects

Insects have a three-part body plan• The head has compound eyes, a pair of

antennae, and specialized mouthparts• The thorax has three pairs of legs; some lineages

have wings• Malpighian tubules in the abdomen eliminate

wastes and save water

Page 42: Animal Evolution –The  Invertebrates

Insect Body Plan: Bedbug

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Fig. 25-38, p. 424

abdomen

thorax with six legs

head with two eyes, and two antennae

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Specialized Mouthparts

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Fig. 25-39, p. 425

liplike labrumantenna

compound

mandible

maxilla

maxillapalps

liplike labrum

labium

eye

a c

db

Page 46: Animal Evolution –The  Invertebrates

Animation: Insect head parts

Page 47: Animal Evolution –The  Invertebrates

Insects

Arthropods are the most successful animals, and insects are the most successful arthropods

Insects are adapted to life on land; a system of tracheal tubes delivers air to their tissues

Development may be direct, or through incomplete or complete metamorphosis

Page 48: Animal Evolution –The  Invertebrates

Insect Development

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Fig. 25-40, p. 425

a Direct development: Growth in size between molts but no change in body form

egg young adult

b Incomplete metamorphosis: gradual change with each molt until the nymph becomes adult

egg nymphs adult

c Complete metamorphosis: larvae grow, then molt into a pupa, which is remodeled into the adult form egg larvae pupa adult

Page 50: Animal Evolution –The  Invertebrates

25.17 Insect Diversity and Importance

It would be hard to overestimate the importance of insects, for either good or ill

Insects help provide us with food crops, are food for animals, and help dispose of wastes• The four most diverse groups of insects all

include pollinators of flowering plants

A few insects eat our crops or carry pathogens

Page 51: Animal Evolution –The  Invertebrates

Insect Diversity

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Fig. 25-41a, p. 427

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Fig. 25-41b, p. 427

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Fig. 25-41c, p. 427

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Fig. 25-41d, p. 427

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Fig. 25-41e, p. 427

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Fig. 25-41f, p. 427

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Fig. 25-41g, p. 427

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Fig. 25-41h, p. 427

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Fig. 25-41i, p. 427

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Fig. 25-41j, p. 427

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Fig. 25-41k, p. 427

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Fig. 25-41l, p. 427

Page 64: Animal Evolution –The  Invertebrates

25.6-25.17 Key ConceptsThe Major Invertebrate Lineages

One major lineage of animals with tissues includes the flatworms, annelids, mollusks, nematodes, and arthropods

All are bilaterally symmetrical

The arthropods, which include the insects, are the most diverse of all animal groups

Page 65: Animal Evolution –The  Invertebrates

The Protostome-Deuterostome Split

So far, all of the animals with a three-layered embryo – from flatworms to arthropods – have been protostomes

All of the following animals – from echinoderms to vertebrates – are deuterostomes

Page 66: Animal Evolution –The  Invertebrates

25.18 The Spiny-Skinned Echinoderms

Echinoderms (phylum Echinodermata) have “spiny skins” embedded with interlocking spines and plates of calcium carbonate

They begin life as bilateral larvae and develop into spiny-skinned, radial adults

They are brainless and have a unique water-vascular system for locomotion

Page 67: Animal Evolution –The  Invertebrates

Echinoderm Body Plan: Sea Star

Page 68: Animal Evolution –The  Invertebrates

Fig. 25-42, p. 428

upper stomach

gonad spine

lower stomach

coelom

digestive gland

eyespot

ampulla of a tube foot

canal of water-vascular system

spine ossicle (tiny skeletal structure)

tube feeta

c

anus

Page 69: Animal Evolution –The  Invertebrates

Animation: Body plan of a sea star

Page 70: Animal Evolution –The  Invertebrates

Echinoderm Diversity

Echinoderms include about 6,000 marine invertebrates such as sea stars, brittle stars, sea urchins, and sea cucumbers

Echinoderms can regenerate lost body parts; any portion of a sea star with some of the central disc can regrow missing parts

Page 71: Animal Evolution –The  Invertebrates

Echinoderms

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25.18 Key ConceptsOn the Road to Vertebrates

Echinoderms are on the same branch of the animal family tree as the vertebrates

They are invertebrates with bilateral ancestors, but adults now have a decidedly radial body plan

Page 73: Animal Evolution –The  Invertebrates

Animation: Chelicerates

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Animation: Crustaceans

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Animation: Insect development

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Video: Old genes, new drugs

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Video: Water vascular system

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Video: Rotifers

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Video: Beetle

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Video: Brittle star

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Video: Giant clam, octopus

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Video: Nudibranch

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Video: Otter eating

Page 84: Animal Evolution –The  Invertebrates

Video: Sea anemones