1. Kingdom: Animals Domain Eukarya 2007-2008 Domain Bacteria Archaea
Common ancestor

2. Chapter 32, intro to animal diversity
Here’s a little vocab to get you through activity sheet!
Zygote 1st cell, formed by fertilization
Cleavage mitotic division of zygote into a ball of small cells (morulla)
Blastula the ball, after hollowing out in the center
Gastrula an indentation forms in the blast., gut formation beginning(1st cell specialization)
(embryo, fetus; larva, pupa, metamorphosis)

3. This is fun! Let’s continue (see p630, 631)!
Symmetry, radial & bilateral
Dorsal, ventral, saggital, traverse
Germ layers ecto-, meso- & endoderms
Diploblasts and triploblasts
Coelomates
Protosomes and deuterosomes
Archenteron
Diplo have 2 germ layers, ecto and endo
Triplo has 3, adds meso
Proto and deut; how early devel occurs: spiral & determinate vs radial and indeterminate

4. Animal Characteristics
Heterotrophs
must ingest others for nutrients
Multicellular
complex bodies
No cell walls
allows active movement
Sexual reproduction
no alternation of generations
no haploid gametophyte

5. Animal Evolution Ancestral Protist Cnidaria Nematoda Annelida
Echinoderm
Porifera
Platyhelminthes
Mollusca
Arthropoda
Chordata
sponges
jellyfish
flatworms
roundworms
mollusks
segmented worms
insects spiders
starfish
vertebrates
backbone
segmentation
endoskeleton
coelom
body cavity
bilateral symmetry
tissues
multicellularity
Ancestral Protist

6. Body Cavity
ectoderm
How much is the digestive tract separated from the rest of the body?
mesoderm
endoderm
acoelomate
ectoderm
mesoderm
endoderm
pseudocoel
pseudocoelomate
3 body layers
ectoderm
mesoderm
endoderm
ectoderm
mesoderm
coelom cavity
endoderm
coelomate

7. Ch 33 Invertebrata: Phylum Porifera
food taken into each cell by endocytosis
Sponges
no distinct tissues or organs
do have specialized cells
no symmetry
sessile (as adults)

8. Invertebrate: Cnidaria
Jellyfish, hydra, sea anemone, coral
tissues, but no organs
two cell layers
radial symmetry
predators
tentacles surround gut opening
extracellular digestion
release enzymes into gut cavity

9. Stinging cells of Cnidarians
hydra
stinging cell
with nematocyst
trigger
discharged
nematocyst
undischarged
tentacles
mouth
sensory
cell

10. Invertebrate: Platyhelminthes
Flatworms (acoelomates)
tapeworm, planaria
mostly parasitic
bilaterally symmetrical
allows high level of specialization within parts of the body
now have a mouth at one end & an anus at the other!
ectoderm
mesoderm
endoderm

11. Invertebrate: Nematoda (pseudocoelomates)
Roundworms
bilaterally symmetrical
have both mouth & anus
well-developed digestive system
many are parasitic
hookworm
C. elegans

12. Invertebrate: Mollusca
Mollusks
clams, snails, squid
bilaterally symmetrical (with exceptions)
soft bodies, mostly protected by hard shells
true coelom; peritonium

13. Invertebrate: Annelida
Segmented worms
earthworms, leeches
segments are not specialized
bilaterally symmetrical
true coelom
fan worm
leech

14. Invertebrate: Arthropoda
Spiders, insects, crustaceans
most successful animal phylum
bilaterally symmetrical
segmented
jointed appendages
exoskeleton
chitin + protein

15. Arthropod groups arachnids crustaceans insects 8 legs, 2 body parts
spiders, ticks, scorpions
crustaceans
gills, 2 pairs antennae
crab, lobster, barnacles, shrmp
insects
6 legs, 3 body parts

16. Invertebrate: Echinodermata
Starfish, sea urchins, sea cucumber
radially symmetrical
spiny exoskeleton

17. Invertebrate quick check…
Invertebrates: Porifera, Cnidaria, Platyhelminthes, Nematoda, Annelida, Mollusca, Arthropoda, Echinodermata
Which group includes snails, clams, and squid?
Which group is the sponges?
Which are the flatworms?
…segmented worms?
…roundworms?
Which group has jointed appendages & an exoskeleton?
Which two groups are radially symmetrical?
Which group has no symmetry?

18. Oh, look… your first baby picture!
Chordata Ch 34
Vertebrates
fish, amphibians, reptiles, birds, mammals
internal bony skeleton
backbone encasing spinal column
skull-encased brain
hollow dorsal
nerve cord
becomes brain & spinal cord
becomes gills or Eustachian tube
Oh, look… your first baby picture!
pharyngeal
pouches
becomes vertebrae
postanal
tail
becomes tail or tailbone
notochord

19. Vertebrates: Fish Characteristics body structure body function
450 mya
salmon, trout, sharks
Vertebrates: Fish
Characteristics
body structure
bony & cartilaginous skeleton
jaws & paired appendages (fins)
scales
body function
gills for gas exchange
two-chambered heart; single loop blood circulation
ectotherms
reproduction
external fertilization
external development in aquatic egg
gills
body

20. Transition to Land Evolution of tetrapods
Tibia
Femur
Fibula
Humerus
Shoulder
Radius
Ulna
Pelvis
Lobe-finned fish
Early amphibian
Anybody heard of the Hox gene?
Homeobox group: determines development

21. Vertebrates: Amphibian
350 mya
frogs
salamanders toads
Vertebrates: Amphibian
lung
buccal
cavity
glottis
closed
Characteristics
body structure
legs (tetrapods)
moist skin
body function
lungs (positive pressure) & through skin for gas exchange
three-chambered heart; veins from lungs back to heart
ectotherms
reproduction
external fertilization
external development in aquatic egg
metamorphosis (tadpole to adult)

22. Vertebrates: Reptiles
250 mya
dinosaurs, turtles
lizards, snakes
alligators, crocodile
Vertebrates: Reptiles
Characteristics
body structure
dry skin, scales, armor
body function
lungs for gas exchange
Pull air in; negative pressure
three-chambered heart
ectotherms
reproduction
internal fertilization
external development in amniotic egg (compartments)
embryo
leathery
shell
chorion
allantois
yolk sac
amnion

23. Invasive Burmese pythons of Fla.

24. Vertebrates: Birds Characteristics body structure body function
150 mya
finches, hawk
ostrich, turkey
Vertebrates: Birds
Characteristics
body structure
feathers & wings
thin, hollow bone; flight skeleton
body function
very efficient lungs & air sacs
four-chambered heart
endotherms
reproduction
internal fertilization
external development in amniotic egg
trachea
anterior
air sacs
lung
posterior

25. lungs, diaphragm; negative pressure four-chambered heart endotherms
220 mya / 65 mya
mice, ferret
elephants, bats whales, humans
Vertebrates: Mammals
Characteristics
body structure
hair
specialized teeth
body function
lungs, diaphragm; negative pressure
four-chambered heart
endotherms
muscles
contract
diaphragm
contracts

26. Vertebrates: Mammals
reproduction
internal fertilization
internal development in uterus
nourishment through placenta
birth live young
mammary glands make milk

27. Vertebrates: Mammals Sub-groups monotremes egg-laying mammals
duckbilled platypus, echidna
marsupials
pouched mammals
short-lived placenta
koala, kangaroo, opossum
placental
true placenta
shrews, bats, whales, humans

28. Vertebrate quick check…
Which vertebrates lay eggs with shells?
Which vertebrates are covered with scales?
What adaptations do birds have for flying?
What kind of symmetry do all vertebrates have?
Which vertebrates are ectothermic and which are endothermic
Why must amphibians live near water?
What reproductive adaptations made mammals so successful?
What characteristics distinguish the 3 sub-groups of mammals?

29. That’s the buzz!
Any Questions?