1. Chapter 32 An Introduction to Animal Diversity
What is an animal?
Multicellular, heterotrophic eukaryote – ingestion
Structural support from structural proteins – NOT cell walls
Nervous tissue & muscle tissue for impulse conduction & movement
Sexual reproduction with motile sperm swimming to non-motile egg
How did animals evolve?
- Current animal development

2. Figure 32.2 Early embryonic development in animals (layer 1)
Zygote
Cleavage
Eight-cell stage
Cleavage – cell division w/out cytokinesis
- More cells but same total volume – no cell growth

3. Figure 32.2 Early embryonic development in animals (layer 2)
Zygote
Cleavage
Eight-cell stage
Blastula
Cross section of blastula
Blastocoel
Blastula – hollow ball of cells
-coel – opening or cavity

4. Figure 32.2 Early embryonic development in animals (layer 3)
Zygote
Cleavage
Eight-cell stage
Blastula
Cross section of blastula
Blastocoel
Gastrula
Gastrulation
Endoderm
Ectoderm
Blastopore
Gastrulation – movement of cells to form 2 layers
Blastopore – opening where cells move into
Ectoderm – outside layer
Endoderm – inside layer

5. Chapter 32 An Introduction to Animal Diversity
What is an animal?
Multicellular, heterotrophic eukaryote – ingestion
Structural support from structural proteins – NOT cell walls
Nervous tissue & muscle tissue for impulse conduction & movement
Sexual reproduction with motile sperm swimming to non-motile egg
How did animals evolve?
Current animal development
Current hypothesis

6. Figure 32.4 One hypothesis for the origin of animals from a flagellated protist
Colonial protist,
an aggregate of
identical cells
Hollow sphere of unspecialized cells (shown in cross section)
Beginning of cell specialization
Infolding
Gastrula-like “protoanimal”
Somatic cells
Digestive
cavity
Reproductive cells

7. Chapter 32 An Introduction to Animal Diversity
What is an animal?
How did animals evolve?
How are animals grouped & characterized?
Body plans
Symmetry
None (sponge)
Radial
multiple central axis “cuts” provide mirror images
Only have top & bottom
Bilateral
Only 1 central axis “cut” provides a mirror image
Has top, bottom, left & right
Radial
Bilateral

8. Chapter 32 An Introduction to Animal Diversity
What is an animal?
How did animals evolve?
How are animals grouped & characterized?
Body plans
Symmetry & TISSUES
None (sponge)
Radial
multiple central axis “cuts” provide mirror images
Only have top & bottom
Diploblastic – 2 cell layers
Ectoderm
Endoderm
Bilateral
Only 1 central axis cut provides a mirror image
Has top, bottom, left & right
Triploblastic – 3 cell layers
Ectoderm & endoderm
Mesoderm – in between ecto- & endoderm
Cephalization – movement of sensory equipment towards the
anterior end of the organism – associated with movement

9. Chapter 32 An Introduction to Animal Diversity
What is an animal?
How did animals evolve?
How are animals grouped & characterized?
Body plans
Symmetry & tissues
Body cavities
Acoelomates – without a body cavity
Pseudocoelomates – “false body cavity” – cavity not completely
lined with tissue derived from mesoderm
Coelomates – body cavity completely lined with tissue
from mesoderm

10. Figure 32.8 Body plans of triploblastic animals
Coelom
Body covering
(from ectoderm)
Digestive tract
(from endoderm)
Tissue layer
lining coelom
and suspending
internal organs
(from mesoderm)
Pseudocoelom
Muscle layer
(from
mesoderm)
Tissue-
filled region
Coelomate. Coelomates such as annelids have a true coelom, a body cavity completely lined by tissue derived from mesoderm.
(a)
Pseudocoelomate. Pseudocoelomates such as nematodes have a body cavity only partially lined by tissue derived from mesoderm.
(b)
Acoelomate. Acoelomates such as flatworms lack a body cavity between the digestive tract and outer body wall.
(c)

11. Chapter 32 An Introduction to Animal Diversity
What is an animal?
How did animals evolve?
How are animals grouped & characterized?
Body plans
Symmetry & tissues
Body cavities
Developmental plan
Protostome
Deuterostome

12. Figure 32.9 A comparison of protostome and deuterostome development
Protostome development
(examples: molluscs, annelids,
arthropods)
Deuterostome development
(examples: echinoderms,
chordates)
Eight-cell stage
Spiral and determinate
Radial and indeterminate
Coelom
Archenteron
Blastopore
Mesoderm
Schizocoelous: solid
masses of mesoderm
split and form coelom
Enterocoelous:
folds of archenteron
form coelom
Anus
Mouth
Mouth develops
from blastopore
Anus develops
Cleavage. In general, protostome development begins with spiral, determinate cleavage. Deuterostome development is characterized by radial, indeterminate cleavage.
(a)
Coelom formation. Coelom formation begins in the gastrula stage. In protostome development, the coelom forms from splits in the mesoderm (schizocoelous development). In deuterostome development, the coelom forms from mesodermal outpocketings of the archenteron (enterocoelous development).
(b)
Fate of the blastopore. In protostome development, the mouth forms from the blastopore. In deuterostome development, the mouth forms from a secondary opening.
(c)
Digestive tube

13. Figure One hypothesis of animal phylogeny based mainly on morphological and developmental comparisons
Porifera
Cnidaria
Ctenophora
Phoronida
Ectoprocta
Brachiopoda
Echinodermata
Chordata
Platyhelminthes
Mollusca
Annelida
Arthropoda
Rotifera
Nemertea
Nematoda
“Radiata”
Deuterostomia
Protostomia
Bilateria
Eumetazoa
Metazoa
Ancestral colonial
flagellate

14. Figure 32.11 One hypothesis of animal phylogeny based mainly on molecular data
Calcarea
Silicarea
Ctenophora
Cnidaria
Echinodermata
Chordata
Brachiopoda
Phoronida
Ectoprocta
Platyhelminthes
Nemertea
Mollusca
Annelida
Rotifera
Nematoda
Arthropoda
“Radiata”
“Porifera”
Deuterostomia
Lophotrochozoa
Ecdysozoa
Bilateria
Eumetazoa
Metazoa
Ancestral colonial
flagellate

15. Figure 32.12 Ecdysis Ecdysozoa – secrete an exoskeleton and molt
Nematoda & Arthropoda

16. Figure 32.13 Characteristics of lophotrochozoans
100 m
Apical tuft
of cilia
Mouth
Anus
(a)
An ectoproct, a lophophorate
(b)
Structure of trochophore larva