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Invertebrate Evolution. Chapter 18. Defining Animals. Multicellular, heterotrophic eukaryotes that obtain nutrients by ingestion or eating food No cell walls for structure Joined by extracellular proteins and intercellular junctions
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Invertebrate Evolution Chapter 18
Defining Animals • Multicellular, heterotrophic eukaryotes that obtain nutrients by ingestion or eating food • No cell walls for structure • Joined by extracellular proteins and intercellular junctions • Most have muscle cells for movement and nerve cells for signal conduction • About 35 phyla in kingdom animalia; we examine 9 • All but 1 are invertebrates or lack a backbone
Animal Life Cycles • Haploid gametes fuse into zygote • Mitosis forms a hollow ball of cells = blastula • Invagination produces a gastrula • Becomes GI system lined with endoderm • Ectoderm for outer covering, some nervous systems • Mesoderm for muscles and internal organs • Larva stage metamorphosis to adult (some animals)
Constructing Phylogenetic Trees • Morphological similarities and differences in body plans • Symmetry • Tissue organization • Embryonic development • Body cavity is an additional body plan feature Kingdom Animalia
Symmetry • Radial often sedentary • Bilateral (most) often mobile • Anterior and posterior • Ventral and dorsal • Location of brain, sense organs, and mouth
Tissue Organization • True tissues are specialized cells, separated by layers • Absent in Porifera (level of organization?) • Formed during gastrulation • 2 layers is ecto- and endoderm • 3 layers is ecto-, meso-, and endoderm
Body Cavity • A coelom or fluid filled space between GI tract and outer body wall • Allows organ movement, protection, and development • Presence or absence divides 3 tissue layer organisms • True coelom is completely lined with mesoderm • Pseudocoelom not completely lined • Platyhelminthes (flat worms) lacks (acoelomate)
Embryonic Development • Based on gastrula opening formed • Protostomes: opening becomes mouth • E.g Arthropoda • Deuterostomes: opening becomes anus • Mouth forms elsewhere • E.g Chordates
Phylum Porifera (Sponges) • Most are stationary (sessile), marine, and asymmetrical • Draws water in through pores and out an osculum • Suspension feeders • Choanocytes pull in food and water • Amoebocytes provide support • Spicules is mineralized material • Spongin is flexible protein • No muscles or nerves • Toxins and antibiotics release for protection
Phylum Cnidaria (Cnidarians) • Radial symmetry and 2 tissue layers • Jelly like substance between • Contractile and nervous tissue (simple) • Exist as polyps or medusas • Carnivorous, use cnidocytes • Incomplete GI tract • http://www.youtube.com/watch?v=fBkmzzAh8Eo&feature=related
Phylum Platyhelminthes (flatworms) • 3 tissue layers, acoelomate, incomplete GI tract • Class Turbellaria (free living) • Simple brain, branched GI, shared mouth/anus • http://www.youtube.com/watch?v=axBaCD4wYXE&feature=PlayList&p=E9E1093124E2F9C9&playnext=1&index=10 • Class Trematoda (flukes) • Animal parasites • Suckers to attach and interior all repro. organs • Larval intermediate stage • Class Cestoda (tapeworms) • Vertebrate GI tract parasites • Scolex, no mouth (absorption), hermaphrodite, eggs released from end in feces • Multiple hosts • http://www.youtube.com/watch?v=GMSc2RZ19Us
Phylum Mulluska (Mollusks) • Coelomates, separate sexes, larval stage (trochophore), circulatory and advanced sensory systems • Muscular foot, visceral mass, mantle, radula (chitinous tongue) • Class Gastropoda (snails and slugs) • Live on land and in all waters • Class Cephalopoda (squids and octopuses) http://www.youtube.com/watch?v=9-azBDt0kik&feature=related • http://www.youtube.com/watch?v=5mBhKe4DxQ4 • Mouth at end of foot, shell small or absent • Most advanced invertebrate brain and sense organs (eyes) • Class Bivalva (scallops, oysters, and clams) • 2 shells hinged together • Suspension feeders, mantle has gills for food and gas exchange
Phylum Nematoda (Roundworms) • Pseudocoelomate, GI tract with 2 openings, separate sexes, and lateral muscles • Free-living (C. elegans) • Parasitic • Dog heartworm • 50 species in humans • Trichinella spiralis • Hook worms • Pinworms
Phylum Annelida (Segmented Worms) • Segmentation, longitudinal and circular muscles, closed circulatory system • Class Polychaeta • Marine organisms, live in tubes, can be colonial • Class Oligochaeta (earthworms) • Segmented excretory, circulatory, repro, and nervous systems; unsegmented GI tract • Hermaphroditic, thickened region gathers gametes and is left in soil • Class Hirudinea(leeches) • Blood-sucking, releases an anesthetic and anticoagulant • Consume 10X’s weight, can go months w/o another meal • Medicinal uses
Phylum Arthropoda (Arthropods) • Most successful phylum • Exoskeleton • Protects and allows joint attachment • Protein and chitin that Is molted with growth • Segmentation • Head, thorax (fused is cephalothorax), and abdomen • Sensory, protection and walking, and swimming respectively • Open circulatory system, blood not contained in vessels • Aquatic species with gills, terrestrial with air sacs
Subphylums • Chelicerates (arachnids) • Hollow mouth appendages • First terrestrial carnivores, deliver venom or toxins • E.g scorpions (night), spiders (day), and ticks/mites • Mandibulata • Solid mouth organs • Examples • Millipedes are herbivores with 2 leg sets per segment • Centipedes are carnivores with 1 leg set per segment • Lobsters, and insects
Classes • Crustacea (Crustaceans) • Aquatic (mostly) and have gills (rolly-polly) • Include lobsters, crayfish, shrimp, barnacles, and crabs • Insecta (Insects) • Most diverse group • Wings, advanced sensory organs, communication, and social structure • Waterproof cuticle, short lives, complex life cycles, and large offspring broods
Class Insecta • Life cycles • Only adults can reproduce or have functional wings • Multiple molts allow for metamorphosis, complete or incomplete • Food sources differ so enhances adaptability • Body plan • 3 parts: head, thorax, and abdomen • Embryonic segments develop independently • Connects with mutation and evolution • 3 pairs of legs, not at cost to legs • Coloration • Camouflage, mimicry, and coloration from independent development
Phylum Echinodermata • E.g sea stars, sand dollars, sea urchin and sea cucumber • Radial symmetry internally and externally as an adult • Bilateral symmetry in larval stage • Calcium containing plates form endoskeleton • Tube feet that are extensions of a water vascular system • For locomotion, feeding, and gas exchange • Mouth and stomach adaptations • deuterostomes • Capable of regeneration
Phylum Chordata • 4 characteristics • Dorsal, hollow nerve cords • Notocord between GI tract and nerve cord • Pharyngeal slits • Post-anal tail • Tunicates (Sea squirts) • Adult has pharyngeal slits only, larva has all four • Lancet • Suspension feeders • Mucus net to trap food