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Introduction to Animals

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1 Introduction to Animals
Chapter 27 Introduction to Animals

2 I. Characteristics of Animals
A. Heterotrophy Unable to make food Food is eaten and then digested in a cavity inside the animal’s body

3 B. Mobility Move by means of muscle cells Animals can swim, crawl, walk, run, and fly C. Multicellularity The size of most of the cells that make up animals are roughly the same size The number of cells or each animal are drastically different

4 D. Diploidy With few exceptions, adult animals are diploid, meaning their body cells have two copies of each chromosome Only gametes are haploid Permits an animal to exchange genes between the two copies of a set of chromosomes, creating new combinations of genes

5 E. Sexual Reproduction F. Absence of a Cell Wall Allows animals mobility Allows cells to move around in your body

6 G. Blastula Formation A blastula is a hallow ball of cells that arises from the zygote

7 Develop into three primary tissue layers – ectoderm, endoderm, and mesoderm
- Give rise to all of the tissues and organs of the adult body

8 H. Tissues Groups of cells with a common structure that work together to perform a specific function Examples 1. The cells of muscle tissue are specialized to contract, producing movement 2. The cells of nerve tissue are specialized to conduct signals

9 I. Body Symmetry Each animal has its own body plan that describes an animal’s shape, symmetry, and internal organization Plan results from information carried by animal’s genes which have been the result of natural selection

10 1. Asymmetrical Sponges show a symmetrical body plan, they have irregular shapes that are often dependent on where they are growing

11 2. Radial Symmetry Body parts arranged around a central axis A plane that passes through the central axis divides the organism into roughly equal halves Today’s radially symmetrical animals are aquatic Move slowly or drift in ocean currents

12 3. Bilateral Symmetry A body design in which there are distinct right and left halves A plane that passes through the animal’s midline divides the animals into mirror image halves

13 Four distinct body surfaces
Dorsal - top Ventral – bottom Anterior – front Posterior - back

14 Enabled different parts of the body to become specialized in different ways
Most bilateral animals have also developed an anterior concentration of sensory structures and nerves in a process called cephalization

15 J. Internal Body Cavity A coelom is a fluid-filled space found between the body wall and the digestive tract Animals with no body cavity are called acoelomates

16 Other animals, called pseudocoelomates, have a body cavity located between the mesoderm and endoderm

17 Coelomates have a true coelom, a body cavity located entirely within the mesoderm
- Provides an internal space where mesoderm and endoderm can be in contact with each other during embryonic development - Aided in the evolution of complex organs made of more than one type of tissue

18 K. Body Segmentation Segmented animals are composed of a series of repeating, similar units called segments In vertebrates, segments are not visible externally Segments are not totally independent of each other i.e. a circulatory system connects all segments, nerves also connect each segment to a brain

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20 II. Kinds of Animals 35 major divisions called phyla that show an extraordinary range of body forms, internal body systems, and behaviors Organized into a phylogenetic tree that shows how animals are related through evolution

21 Clues to animal relationships can be found in the fossil record and by comparing the anatomy and physiology of living animals The most direct evidence of evolutionary relationships comes from comparing the DNA in the genes of various animal species

22 III. Tissues and Organs Specialized to perform specific functions A. Digestion Sponges digest their food within their body cells so their food cannot be larger than their individual cells

23 Other organisms digest their food within a digestive cavity that contains digestive enzymes
- Allows them to prey on organisms larger than their body cells

24 Simple animals have a gastrovascular cavity, a digestive cavity with only one opening
Other animals have a digestive tract (gut) with two openings - Allows for specialization

25 B. Respiration Simple animals exchange oxygen and carbon dioxide with the environment by diffusion

26 Diffusion does not supply complex animals with sufficient oxygen
Aquatic animals use gills to respire

27 Gills are not suitable for most terrestrial animals because they do not function unless they are kept moist

28 C. Circulation A circulatory system delivers oxygen and nutrients throughout the body

29 In an open circulatory system, a heart pumps fluid containing oxygen and nutrients through a series of vessels out into the body cavity - Fluid washes across body’s tissues - Fluid collects in open spaces and flows back to the heart

30 In a closed circulatory system, a heart pumps blood through a system of blood vessels
- Blood remains in the vessels and does not come in contact with the body’s tissues - Materials pass into and out of the blood by diffusion through the walls of the blood vessels

31 D. Conduction of Nerve Impulses
Neurons are specialized for carrying messages in the form of electrical impulses (conduction) These cells coordinate the activities in an animal’s body allowing it to respond to its environment

32 In simple animals, nerves cells are similar and are linked to one another in a web
Bilaterally symmetric animals have clusters of neurons called ganglia Complex animals have brains with sensory structures, such as eyes, that allow them to interact with their environment in more-complex ways

33 E. Support An animal’s skeleton gives support and allows movement 1. Hydrostatic skeleton Most soft-bodied invertebrates have a hydrostatic skeleton that consists of water that is contained under pressure in a closed cavity

34 2. Exoskeleton Other invertebrates have an exoskeleton, a rigid external skeleton that encases the body of an animal

35 3. Endoskeleton Composed of a hard material, such as bone, embedded within an animal

36 F. Excretion The removal of wastes produced by cellular metabolism A toxic waste product produced is ammonia Ammonia dissolves in body fluids and becomes less toxic

37 It is inefficient to get rid of all the fluid with dissolved ammonia so mammal’s have kidneys that convert ammonia to a less toxic urea and filter it from fluid, allowing the animal to maintain its water balance while getting rid of waste

38 IV. Reproductive Strategies
A. Asexual Reproduction Reproduction that does not involve the fusion of two gametes

39 B. Sexual Reproduction A new individual is formed by the union of a male and a female gamete Gametes are produced in the sex organs Hermaphrodites have male and female organs, however their gametes are produced at different times so self-fertilization does not occur


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