1. An introduction to animal diversity

2. Characteristics of Animals
Multicellular heterotrophs
Most have muscle and nervous tissue
Most reproduce sexually, with a flagellated sperm and a large egg uniting to form a diploid zygote.
The diploid stage dominates the life cycle.

3. Animal Development The zygote is a fertilized egg.
The zygote of an animal undergoes a series of mitotic divisions called cleavage.
An eight-cell embryo is formed by three rounds of cell division.
Cleavage results in a multicellular stage called the blastula.
The blastula is typically a hollow ball of cells around a cavity called the blastocoel.
Most animals also undergo gastrulation, in which one end of the embryo folds inward to form two layers of embryonic tissue, ectoderm and endoderm; eventually fills in the blastocoel to form the gastrula.

4. Early Stages of Embyonic Development
cleavage
cleavage
Zygote
8 cell stage
Blastula
Blastocoel
Gastrulation
GGastrula

5. Formation of two layers of embryonic tissue in gastrulation
The pouch formed by gastrulation is the archenteron

6. Animals that have only two tissue layers are Diploblastic
Cnidarians and Ctenophores are diploblastic.

7. Mesoderm is formed from cells that migrate from or pinch off the endoderm

8. Animals that have mesoderm in addition to ectoderm and endoderm are triploblastic

9. Future of Embyonic Tissues
Ectoderm: Forms epidermal layer of the skin and nervous system
Endoderm: Forms the lining of the gut the liver and the lungs.
Mesoderm forms muscles, bone, kidney, gonads, and connective tissue.

10. Some animals have larval stages and will undergo metamorphosis.

11. Animals share “HOX” genes – a unique family of genes that play important roles in development.

12. Animals can be characterized by body plans.
Symmetry is the overall shape of the body.
If an animal is symmetrical, it can be divided along at least one plane into similar halves.
Animals that have no plane of symmetry are asymmetrical. SPONGES are asymmetrical.

13. Types of Symmetry
Simplest form of symmetry is spherical symmetry, in which body parts radiate out from a central point. In infinite number of planes can pass through the central point and divide the organism into halves. Unicellular protists.
Radial Symmetry: one main axis and any plane cutting through that axis divides the animal into similar parts. Cnidarians and Ctenophores, adult Echinoderms
Bilateral Symmetry: Animal can be divided into a mirror “right” and “left” halves. Animals that move in one direction; Associated with cephaliztion.

15. Cephalization
Concentration of sensory equipment at one end (the anterior or head end) of the organism.

16. Absence or Presence of Fluid-filled Body Cavity
Acoelomate animals, such as flatworms lack an enclosed, fluid-filled body cavity, the space is filled with masses of cells called mesenchyme.
Pseudocoelomate animals have a body cavity called a pseudcoel, in which many of the internal organs are suspended. It is enclosed by muscles only on the outside.
Coelomate animals have a body cavity that develops within the mesoderm. The coelom is enclosed on both sides by mesoderm.

18. Functions of the Body Cavity
Cushions the suspended organs
Acts as a hydrostatic skeleton
Enables internal organs to grow and move independently

19. Segmentation Many animals have bodies that are divided into segments.
Segments allow specialization of body parts.
Allow animals to alter shape of body to control movements and separate body cavity into compartments.
Arthropods and Annelids show segmentation.
Some animals have only internal segmentation, as in vertebrate embyos.

20. Triploblastic animals are divided into Protostomes and Deuterostomes
Mouth forms from the blastopore
Spiral, determinate cleavage
Determinate means cells are commited to a specific fate as early as two cell stage
Coelom forms from splits in the mesoderm
Deuterostomes
Mouth forms from secondary opening
Radial, indeterminate
cleavage
Indeterminate cleavage means cells are not fated until later in development
Coelom forms from out-pockets of the mesoderm lining the archenteron

23. Review Lacks symmetry and true tissues?
Show radial symmetry and are diploblastic?
Have three tissue layers, but lack body cavity?
Show bilateral symmetry and have a psuedocoelom?
Have a true coelom and are protostomes?
Have a true coelom and are deuterostomes?