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Transcript 
Centrioles
Nucleus
Characteristics
Mitochondrion
Cell Membrane
What Animals Do to Survive
–
–
–
–
Feeding
Respiration
Circulation
Excretion
– Response
– Movement
– Reproduction
–
–
–
–
–
–
Eukaryotic
No cell wall
Heterotrophic
Multicellular
Aerobic
95% are
invertebrates!!
Trends in Animal Evolution
– Cell specialization & levels of organization
– Early development
– Body symmetry
– Cephalization
– Body cavity formation
DOMAIN KINGDOM CHARACTERISTICS
Cell type
Cell Structure Body Type
Nutrition
Example
Bacteria
Eubacteria Prokaryotic Cell wall,
Unicellular
peptidoglycan
Autotrophic &
heterotrophic
Tetanus
E. coli
Archaea
Archaebacteria
Prokaryotic Cell wall, no
Unicellular
peptidoglycan
Autotrophic &
heterotrophic
Methanogens
Eukarya
Protista
Eukaryotic
Mixed
Unicellular & Autotrophic &
multicellular heterotrophic
Amoebas
Euglenas
Kelps
Eukarya
Fungi
Eukaryotic
Cell wall,
chitin
Unicellular & Heterotrophic
multicellular
Yeasts
Mushrooms
Eukarya
Plantae
Eukaryotic
Cell wall,
cellulose
Multicellular
Autotrophic
Ferns
Pine trees
Moss
Eukarya
Animalia
Eukaryotic
No cell wall
Multicellular
Heterotrophic
Birds
Earthworms
Squid
Tissue Development

Process:
1. Fertilization of egg with
sperm to form zygote
2. Cell divides to form many
cells in a solid mass
3. Cells rearrange to form a
hollow ball called a blastula
4. Blastula folds in on itself to
form different layers of tissue
(gastrulation)

Tissue (Germ) Layers:



Endoderm
 Inner layer
 Gives rise to digestive tract
Mesoderm
 Intermediate (middle) layer
 Gives rise to muscles & bones
Ectoderm
 Outer layer
 Gives rise to skin & nerves
Body Cavity Formation
Tissue Development

Process:
1. Fertilization of egg with
sperm to form zygote
2. Cell divides to form many
cells in a solid mass
3. Cells rearrange to form a
hollow ball called a blastula
4. Blastula folds in on itself to
form different layers of tissue
(gastrulation)

Tissue (Germ) Layers:



Endoderm
 Inner layer
 Gives rise to digestive tract
Mesoderm
 Intermediate (middle) layer
 Gives rise to muscles & bones
Ectoderm
 Outer layer
 Gives rise to skin & nerves
• Fluid-filled space between
digestive tract and body wall
• Allow for specialized regions to
develop
• Protects internal organs and
provides room for them to grow
and expand
Symmetry


Ability to divide an object in half with
an “imaginary plane,” so that the two
halves are mirror images of each other
Types of Symmetry:
 Assymetry: no mirror images are possible
 Bilateral Symmetry: there is only one way
to divide the organism to achieve mirror
images
 Radial Symmetry: Multiple planes can
divide the organism through the center of
the body to produce mirror image halves
Cephalization

Concentration of nervous &
sensory tissues in the head
region of an animal’s body
Multicellular
No true tissues
No germ
layer
True tissues
Radial
symmetry
Bilateral
symmetry
2 germ layers
3 germ layers
Acoelomates
No body
cavity
Tube-withina-tube
Pseudocoelomates
Coelomates
Deuterostome
Protostome
Segmentation
Porifera
Cnidaria
Platyhelminthes
Nematoda
Mollusca
Annelida
Arthropoda
Segmentation
Echinodermata
Chordata
PHYLUM
(# species)
Porifera
(~5,000)
Cnidaria
(~9,000)
Platyhelminthes
(~25,000)
Nematoda
(~12,000)
Annelida
(~17,000)
Mollusca
(~50,000)
Echinodermata
(~6,500)
Arthropoda
(over 1,000,000)
Chordata
(~50,000)
EXAMPLES
SYMMETRY CEPHALIZATION GENERAL INFORMATION
Sponges
Asymmetrical Absent
Filter feeders; no tissues or organs
Jellyfish, corals,
anemonies
Radial
symmetry
Absent
Stinging cells called nematocysts
Tapeworms, flukes,
flatworms
Bilateral
symmetry
Present
Distinct head area; single opening
to gastrovascular cavity (pharynx)
Hookworms,
pinworms
Bilateral
symmetry
Present
Distinct mouth & anus; many have
specialized mouth-parts for feeding
Earthworms, leeches, Bilateral
segmented worms
symmetry
Present
Closed circulatory system; true
digestive tract
Snails, clams,
Octopus, squid
Bilateral
symmetry
Present
Soft body, often with hard internal
or external shell
Sea stars, sea
urchins
Radial adults
Absent
Hydrostatic endoskeleton with
calcium carbonate plates in skin
Insects, spiders,
crustaceans
Bilateral
symmetry
Present
Chitinous exoskeleton; segmented
bodies; jointed appendages
Fish, amph., birds,
reptiles, mammals
Bilateral
symmetry
Present
Well-developed brain with spinal
cord; bony endoskeleton
Bilateral larvae
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