Skip to main content

Chapter 32 & 33

Kingdom Animilia

  • Over 1.5 million species
    • Estimated 73 million
  • 35 Phylums
    • Over half are insects
  • More similarities within animal genomes than other kingdoms

Characteristics 

  • Multicellular
  • Lack of cell wall
  • Sexual reproduction
    • mobile sperm
    • larger non-motile egg
  • Nervous Tissue
    • Complexity
    • Responsiveness
  • Hox Genes
    • Special clusters of genes associated with the planning of the body

20190127_221923.jpg

20190127_222027.jpg

Metazoans

  • All animals
  • Multicellular animals
  • Paratoans
    • Sponges
  • Eumetazoans
    • "true" multicellular animals

Classification/Systematics

  • Old
    • Morphology
    • Embryotic Development
  • Recent
    • Molecular genetics

Body Plans

Morphological and Developmental Features

  1. Body Symmetry
  2. Number of tissue Layers
  3. Patterns of Embryonic development 

Symmetry

  • Eumetazoa
    • Divided by symmetry
  • Radiata
    • Radial symmetry
    • Often Circular or tubular
  • Bilateria
    • Bilateral symmetry
    • Dorsal
      • Back
    • Ventral
      • Front
    • Anterior
    • Posterior
    • cephalization
      • enlarged head

20190127_224622.jpg

Tissues

  • Metazoa
    • all animals
    • divided on weather or not they have specialized tissues
  • Parazoa
    • Porfera
      • sponges
      • may have distinct cell types
  • Enmetazoa
    • more than one type of tissue
    • organs
    • all other animals
Germ Layers
  • Radial
    • 2 layers
    • Diploblastic
      • endoderm
      • extoderm
  • Bilateral
    • 3 layers
    • Triploblastic
      • endoderm
      • extoderm
      • mesoderm

20190127_225448.jpg

Embryonic Development
  • Protostome
    • Blastopore becomes mouth
    • cleavage is determinate
      • fate of embryonic cells are determined early
  • Deuterostome (second opening)
    • Blastopore becomes anus
    • cleavage is indeterminate
    • each cell produced by early cleavage can develop into a complete embryo 
Other Morphological Characteristics

Used in classification

  • Presence or absence or coelom
  • Body segmentation

Molecular data suggest these features are unreliable in terms of understanding evolutionary history

Body Cavity

Coelom

    • a fluid-filled body cavity
  • Coelomate or eucolemate
    • true coelom
    • coelom completely lined with mesoderm
  • Pseudocoelom
    • coelom only partially lined with mesoderm
    • rotifers and roundworms
  • Acoelomate
    • lack of a body cavity and instead have mesenchyme
    • flatworms

20190127_231017.jpg

Functions of the Coelom

  • Cushions internal organs
  • Enables movements and growth of internal organs independent of the body wall
  • Fluid acts as a simple circulatory system

Segmentation

  • Body may be divided into regions called segments
  • occurs in annelid worms, arthropods, and chordates
  • allows specialization of body region

20190127_231635.jpg

DO NOT worry about the number of species

Molecular views of Animal Diversity

  • Scientist now use molecular techniques to classify animals
    • Compare similarities in DNA, rRNA, and Animo Acids
    • Closely related organisms have fewer differences than those more distantly related
  • Advantages over morphological data in that genetic sequences are easier to quantify and compare
    • Example: A,T,G, and C in DNA

Genes used in Molecular Systematics

  • Studies often focus on ribosomal RNA (rRNA)
    • Universal in all organisms
    • changes slowly over time
  • Hox genes also studied often
    • Found in all animals
    • duplications in these genes may have led to evolution of body form
  • Phylogenies constructed using rRNA and Hox genes are similar and often agree with those based on morphology

Invertebrates

  • "without backbone"
  • +95% of all species

Phylum Porifera

  • Sponges
  • lack tissues (organs)
  • multicellular
  • pores
    • filter H2O and food
  • Invertebrates

Phylum Cnidaria

  • Jelly fish, corals, anemones 
  • Diploblastic development
    • Two tissue layers
  • Mesoclea 
    • gelatinous covering
  • Nerve net
    • interconnected nerve cells 
    • no brain
  • One opening with gastrovascular cavity
  • Protostomes
  • Invertebrates
  • Radial symmetry
  • Salt and fresh water
  • Stingers

Phylum Cterophora

  • Comb jellies
  • Same characteristics as Cnidaria
  • Strictly salt water
  • No Stingers

Phylum Platyhelminthes

  • Flatworms, tapeworms, flukes
  • Triploblastic
  • Organs and organ systems
  • Enhanced nerve net
    • 2 cerebral ganglia
  • One opening with gastrovascular cavity
  • Protostomes
  • invertebrates
  • bilateral symmetry
  • Acoelomate

Phylum Rotifera

  • rotifers
  • pseucoelomate
  • Triploblastic
  • Two openings
    • complete gut tract
    • alimentary canal
  • Protostomes 
  • Corona
  • simple brain
  • invertebrates

Phylum Mollusea

  • Snails, slugs, oysters, octopus, squid, clams, muscles
  • Triploblastic
  • Eucoelomate
  • Complete gut tract
  • Protostomes
  • Invertebrates
  • Three part Body
    • Foot
    • Visceral mass
    • Mantle
      • Many have outer shells

Phylum Annelida

  • Segmented ring worms
  • Triploblastic
  • Eucoelomate
  • Complete gut tract
  • Protostomes
  • Enhanced nervous system
  • Invertebrates

Phylum Nematoda

  • Roundworms
  • Triploblastic
  • Pseudocoelomate
  • Complete gut tract
  • Protostomes
  • Invertebrates

Phylum Anthropoda

  • Insects, crustaceans, spiders, ticks
  • Highest diversity of animals
    • >1.5 million species
  • Hardened Exoskelton
  • Protostomes
  • Invertebrates
  • Eucoelomate
  • Triploblastic
  • Complete gut tract
  • Enhanced nervous system
    • Insects, in particular, have an enhanced brain
  • segmented appendages

Phylum Echinodermata

  • sea stars, urchins, seacucumbers, sand dollars
  • Triploblastic
  • Eucoelomate
  • Complete gut tract
  • Deuterostomes
  • Simple nervous system
  • Endoskeleton
    • series of plates

Phylum Chordota

  • Deuterstomes
  • Complete gut tract
  • Endoskeleton
  • Few invertebrates
    • Mostly vertebrates
  • Eucloemates
  • Triploblastic

Four Critical Innovations of Chordate Body Design

  1. Notochord
  2. Dorsal, hollow nerve cord
  3. Pharyngeal gill pouches
  4. Post-anal tail
  • These four features are exhibited at some point of life history/development
    • Only some Fishes exhibit all four

Notochord

  • Cartilagenous supporting rod along the dorsal axis
  • Replaced by jointed "backbone"
    • Vertebral column of hardened cartilage or bone

Dorsal, hollow nerve cord

  • Expanded at the anterior end
    • Brian
  • Enclosed/supported/protected by the Notocord

Pharyngeal gill pouches

  • Gill slits
  • pharynx
    • back of mouth cavity

Post-anal Tail

  • Tail extends posterior of the anus

Humans

Notochord

  • replaced by vertebrae
  • only pieces left are the inter-vertebral discs between vertebrae 

Nerve cord

  • Dorsal, hollow with largest brain capacity (compared to body size)

Pharyngeal Pouches

  • Embryonic Development
  • 1 pair retained as Eustachian tubes

Post-anal Tail

  • One vertebra as a tail bone (coccyx)

 

Back to top