1. Chapter 32: Animal Diversity By: Group D; Daniel Cazares del Castillo, Fabian Abarca, Justin Cruz, Jayce Frank, William Hoover, And Alberto Rodriguez

2. General Features of Animals Heterotrophy: all animals are heterotrophs. They obtain energy and organic molecules by ingesting other organisms. Multicellularity: all animals are multicellular, many have complex bodies like the jellyfish. No Cell Walls: animal cells differ from those of other multicellular organisms: they lack rigid cell walls and are usually quite flexible. Active movement: animals move more rapidly and in more complex ways than members of other kingdoms-this ability is perhaps their most striking characteristic, one directly related to the flexibility of their cells and the evolution of nerve and muscle tissues.

3. General Features of Animals Diversity in Form- Animals range in size and shape. Most of the animals on Earth are invertebrates. The others are vertebrates. Diversity in Habitat- The animal kingdom is divided into 35-40 phyla. Most of them occur in the sea. Only a couple of them live in freshwater and on land. Sexual Reproduction- Most animals sexually reproduce. Only some species are incapable of sexual reproduction. Embryonic Development- an animal zygote first undergoes a series of mitotic divisions, called cleavage, and like this dividing frog's egg, that produces a ball of cells. the blastula. in most animals, the blastula folds inward at one point to fomr a hollow sac with one opening at one end called the blastopore. an embryo at this stge is called a gastrula. Tissues-the cells of all animals except spones are organized into structural and functional units called tissues.

5. Evolution of the Animal Body Plan Five key innovations can be noted in animal evolution 1.The evolution of symmetry 2.The evolution of tissues, allowing specialized structures and functions 3.The evolution of a body cavity 4.The evolution of various patterns of embryonic development 5.The evolution of segmentation, or repeated body units

6. Evolution of Animal Body Plan: Symmetry Most animals exhibit radial or bilateral symmetry. Radial symmetry is arranged in a way that a longitude plane passes through the central axis Bilateral Symmetry is when the body has right and left halves that are mirror images of each other

7. Evolution of Animal Body Plan: Specialized Structures and Functions During embryonic development, cells specialize to carry out particular functions In all animals, except for sponges, the process is irreversible

8. Evolution of Animal Body Plan: Body Cavity In the process of embryonic development, the cells of animals of most groups organize into three layers (called germ layers): an outer ECTODERM, an inner ENDODERM, and an intermediate MESODERM.

9. Evolution of Animal Body Plan: Embryonic Development Bilaterians have two main types of development It begins with mitotic cell divisions (called cleavages) of the egg that lead to the formation of a hollow ball of cells, which subsequently indents to form a two-layered ball Protostomes, "first mouth," Deuterostomes, "second mouth"

10. Evolution of Animal Body Plan: Segmentation Segmented animals consists of a series of linearly arrayed compartments that typically look alike, at least in early development, but that may have specialized functions. Two advantages result from early embryonic segmentation o In highly segmental animals, each segment may develop a more or less complete set of adult oragn systems, damage to any one segment need not be fatal because other segments duplicate the damaged segment's functions

11. Evolution of Animal Body Plan: Segmentation (Continued) Locomotion is more efficient when individual segments can move semi- independently. Because partitions isolate the segments, each can contract or expand autonomously. Therefore, a long body can move in ways that are often quite complex.

12. Vocab Radial Symmetry- arranged in a way that a longitude plane passes through the central axis bilateral symmetry-the body has right and left halves that are mirror images of each other cephalization- concentration of nervous tissue at the anterior end ectoderm- the outer layer of the one of three germ layers endoderm- the inner layer of three germ layers mesoderm- the intermediate layer pseudocoelom- develops embryologically between mesoderm and endoderm coelom- a cavity thats develops entirely within the mesoderm open circulaory system- blood passes from vessels into sinuses closed circulatory system- entirely confined to blood vessels archenteron- means primitive gut protostomes-includes flatworms, nematodes, mollusks, annelids and arthropod spiral cleavage- line drawn through a sequence of dividing cells spirals outward from the polar axis colonial flagellate hypothesis- first proposed by Ernst Haeckel in 1874 is that metazones descended from colonial protists

13. True or False T/F Heterotrophy applies to all animals T/F Animals have cell walls T/F Protostomes are the "Second Mouth" T/F Once animals specialize during their embryonic development, the new function is irreversible (in all animals) T/F There are five key innovations that can be noted in animal evolution

14. Multiple Choice 1. What kinds of symmetry do most animals exhibit a. asymmetrical and radial b. bilateral and asymmetrical c. asymmetrical and symmetrical d. radial and bilateral e. all of the above f. none of the above