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26.1 Introduction to Animals

26.1 Introduction to Animals. Essential Question What makes an animal an “animal”?. What is an animal?. Members of Kingdom Animalia Multicellular Eukaryotic Heterotrophs. Bodies of most animals contain tissues . Tissues are groups of cells that perform a similar function

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26.1 Introduction to Animals

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  1. 26.1Introduction to Animals Essential Question What makes an animal an “animal”?

  2. What is an animal? • Members of Kingdom Animalia • Multicellular • Eukaryotic • Heterotrophs

  3. Bodies of most animals contain tissues • Tissues are groups of cells that perform a similar function • Epithelial tissue (like skin) cover body surfaces • Muscular tissue enable animals to contract and move body parts • Connective tissue (like bone and blood) support an animal’s body and connect its parts • Nervous tissue is composed of nerve cells which carry information throughout the body

  4. 95% of animals are invertebrates • Invertebrates are animals without backbones or vertebral column. • Sponges • Jellyfishes and corals • Sea stars and sea urchins • Worms • Insects

  5. 5% are vertebrates • Have a backbone • Fish • Amphibians • Reptiles • Birds • Mammals

  6. What do animals do to survive? • Feeding • Respiration • Circulation • Excretion • Response to environment • Movement • Reproduction

  7. Homeostasis • Maintaining a stable internal environment, with relatively constant properties such as temperature and pH. • For example – a dog pants when it gets too hot. This releases heat and reduces the body temperature.

  8. Feeding • Must ingest food and then digest it • Herbivores eat plants • Carnivores eat other animals • Omnivores eat both plants and animals • Detritvores feed on decaying plants and animals • Filter feeders strain tiny floating organisms from the water • Form symbiotic relationships which can be symbiotic (helpful) or parasitic (harmful)

  9. Respiration • All animals respire or take in oxygen and release carbon dioxide • Some animals rely on diffusion and absorb oxygen through their skin • Most animals have evolved complex tissues and organ systems like lungs

  10. Circulation and Excretion • Many small aquatic animals rely on diffusion to transport oxygen, nutrients, and waste products to their cells. • Larger animals must have some kind of circulatory system to move materials throughout their bodies. • Ammonia is a primary waste product that must be eliminated through excretion.

  11. Response and Movement • Nerve cells allow animals to respond to their environment • Receptor cells respond to stimuli such as light and sound • Some animals such as sponges stay attached to one spot (sessile) • Most animals are motile, which means that they can move by muscle contraction

  12. Reproduction • Most animals reproduce sexually. • Sexual reproduction helps to create and maintain genetic diversity in populations. • Many invertebrates can reproduce asexually. • Asexual reproduction produces offspring genetically identical to the parent. • This allows an animal to increase offspring rapidly.

  13. Trends in Animal Evolution • Complex animals have: • High levels of cell specialization • Internal body organization • Bilateral body symmetry • Front end or head with sense organs • Body cavity • Embryos develop in layers

  14. Early Development • Animals that reproduce sexually begin life as a zygote or fertilized egg • Study of how an egg develops is called embryology • Zygote undergoes a series of divisions to form a blastula (hollow ball of cells) • The blastula folds on itself to form a blastopore (single opening) • The blastopore leads into a central tube that becomes the digestive tract.

  15. Germ layers formed in one of two ways • Protostome - mouth is formed from the blastopore and includes most invertebrates. • Deuterostome – anus is formed from the blastopore and include echinoderms and all vertebrates.

  16. Layers of Development • Embryos form germ layers: • Endoderm – innermost germ layer develop into digestive and respiratory system • Mesoderm – middle layer give rise to circulatory, reproductive, and excretory organ systems • Ectoderm – outermost layer gives rise to sense organs, nerves, and outer layer of skin

  17. Body Symmetry • With exception of sponges, every animal exhibits some type of body symmetry • Radial symmetry – body divided into equal halves with many imaginary planes • Bilateral symmetry – single imaginary plane divides body into equal left and right sides.

  18. Anatomy Vocabulary • Anterior – front end • Posterior – back end • Dorsal – upper side • Ventral – lower side

  19. Cephalization • Cephalization - animals with bilateral symmetry exhibit a concentration of sense organs and nerve cells at the front end • Anterior end usually called a head. • Allows animals to respond to environment more quickly and in more complex ways • Usually move with anterior end forward so this end comes in contact with environment first • The more complex the animal the more pronounced their cephalization.

  20. Body Cavity Formation • Most animals have a body cavity. This is a fluid-filled space that lies between the digestive tract and the body wall. • Important because they provide a space in which internal organs can be suspended. • Allow for specialized regions to develop and provide room for internal organs to grow and expand.

  21. Body Cavities • Acoelomate– no true body cavity; mesoderm cells do not provide a specialized function. • Pseudocoelomate – false body cavity; body cavity isn’t completely lined with mesoderm. No muscular or connective tissues associated with the gut. • Eucoelomate– true body cavity; body cavity is completely surrounded by mesoderm. Organ systems are most advanced in this pattern.

  22. Nine Animal Phyla to be Studied 1. Porifera – sponges 2. Cnidaria –jellyfish, coral, hydra 3. Platyhelminthes – flatworms 4. Nematoda – roundworms 5. Annelida – segmented worms (earthworms) 6. Mollusca – octopus, squid, snail 7. Echinodermata – sea stars, sea urchins, and sand dollars 8. Arthropoda – crayfish, pill bugs, insects, millipedes, and centipedes 9. Chordata – vertebrates (amphibians, reptiles, birds, fish, mammals)

  23. 26.1 Vocabulary • Blastula • Bilateral symmetry • Cephalization • Deuterostome • Ectoderm • Endoderm • Invertebrate • Mesoderm • Protostome • Radial symmetry • Vertebrate

  24. Lesson Essential Questions • What characteristics do all animals share? • What are the seven essential functions that all animals carry out? • What is the difference between a invertebrate and a vertebrate? • What are important trends in animal evolution? • What is the difference between a protostome and a deuterostome? • In what ways are complex animals different from simple animals? • What are the three layers that develop in early animal embryos? • How do radial symmetry and bilateral symmetry differ?

  25. Animal Symmetry

  26. Animal Symmetry

  27. ANIMAL SYMMETRY

  28. ANIMAL SYMMETRY

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