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Chapter 9 Multicellular and Tissue Levels of Organization

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Title: Chapter 9 Multicellular and Tissue Levels of Organization


1
Chapter 9 Multicellular and Tissue Levels of
Organization
  • Phyla Cnidaria and Ctenophora
  • Zoology
  • Liberty Senior High School

2
Who are the Cnidarians?
Hydra
Sea Anemones
Corals
Jellyfish
3
Whats a Ctenophora?
Comb Jellies
4
Phylum Cnidaria Characteristics
  • Radial Symmetry (or biradial symmetry)
  • Diploblastic tissue-level organization
  • Gel-like mesoglea between epidermal and
    gastrodermal tissue layers
  • Gastrovascular Cavity
  • Nerve net for a nervous system
  • Have cnidocytes specialized cells used in
    defense and feeding

5
Radial Symmetry
6
Diploblastic Tissue Level
  • Ectoderm becomes the epidermis, outer layer of
    body wall.
  • Endoderm becomes gastrodermis, inner layer of
    body wall.
  • Epidermis and Gastrodermis can become many other
    cell types.
  • Mesoglea is a jellylike layer between epidermis
    and gastrodermis cells in the mesoglea are from
    epi- or gastrodermis not triploblastic.

7
Jellyfish Antomy
  • Mesoglea - layer of jelly separating two tissue
    layers of cup or umbrella-shaped body forms.
  • Gastrovascular Cavity a central cavity that
    serves for digestion, circulation and
    reproduction with a single opening that functions
    as both mouth and anus.

8
  • Some cnidarians, such as jellies
  • Have elaborate gastrovascular cavities

9
No Bones, No Brain, but What a Sting!
  • Cnidocytes specialized cells of cnidarians that
    produce and contain stinging nematocysts unique
    to Cnidarians.
  • Cnida (ae) a fluid-filled capsule encasing a
    coiled hollow tube used for attachment, defense,
    and feeding.
  • Nematocyst a type of barbed cnida that
    penetrates prey often delivers toxins.

10
Cnidarian Tentacles
  • Tentacles may have several kinds of cnidae.
  • Some cnidae produce mucus to entrap prey or
    anchor the animal.
  • Cnidocytes on the tentacles have trigger
    structures that, when touched, release the coiled
    nematocyst often barbed, like a harpoon.
  • Contains neurotoxins to paralyze prey.

11
Nemotocysts
Discharged Nemotocyst
Firing Nemotocyst
Nematocyst
12
Dead NH Jellyfish Stings 150 , Hospitalizes 9
Dead Lions Mane Giant Jelly, Wallis Sands State
Park, NH, July 22, 2010
13
Alternation of Generations
  • Most Cnidarians have 2 Body Forms in Life
    Histories
  • Polyp the sessile (attached) state in the life
    cycle cylindrical body and a mouth surrounded by
    tentacles mouth upwards usually asexual.
  • Medusa the free-swimming stage in the life
    cycle shaped like inverted bowl mouth usually
    points downward with tentacles dangling at
    margin usually is dioecious (either male or
    female) and produces gametes. sexual.

14
Alternation of Generations
  • Polyp Form attached to substrate at the aboral
    end with mouth facing upward.
  • Medusa Form free swimming with mouth usually
    facing downward surrounded by feeding tentacles.

15
(No Transcript)
16
Typical Jellyfish Life Cycle
17
Feeding and Digestion
  • Carnivorous eat plankton, small crustaceans,
    fish, EACH OTHER!
  • Tentacles snag prey and drag to mouth.
  • Gastrodermis lines gastrovascular cavity (GVC)
    functions in digestion, exchange of gases,
    respiration, and reproduction.

Lions mane eats another jelly
18
Lions mane jellyfish eating fish
  • Once in GVC, gastrodermal cells secrete
    digestive enzymes and phagocytize food.
  • Nutritive-muscular cells contract and help
    distribute food via peristalsis.
  • Undigested food leaves via the mouth, no anus.

19
Respiration
  • Via diffusion
  • Body is only two cell layers thick.
  • Jellies can be long and heavy but must be within
    0.5 mm from surrounding water for diffusion large
    S.A. to Volume ratio.
  • Use the GVC to help with this.

20
Internal Transport
  • Via diffusion

21
Excretion
  • Via diffusion

22
Movement
  • Buoyancy from water also hydrostatic skeleton
    from the GVC.
  • Move on water current or wind.
  • Epithelial cells in body wall can contract and
    push water from the GVC and out mouth polyp
    collapses.
  • Circular and radial cells may cause rhythmic
    pulsations of bell.
  • May also walk along bottom with tentacles.

23
Responsiveness
  • Most primitive nervous system in animals.
  • Have a nerve net below epidermis carries
    impulses from local stimuli around the body.
  • Some touch and chemical receptors throughout the
    body.
  • Some species have a nerve ring at the margin of
    the medusa for swimming.
  • Others have statocyst at the margin CaCo3
    sensitivity to gravity and coordinates swimming.

24
Sexual Reproduction
  • Dioecious either male or female not
    hermaphrodite.
  • Sperm or egg released into GVC or released into
    water for external fertilization.
  • Embryo develops into planula ciliated,
    free-swimming larva.
  • Planula attaches to substrate, becomes polyp.

25
Asexual Reproduction
  • Polyps may form from budding from other polyps.
  • Some use fission.

Fission in Sea Anemones
26
Class Hydrozoa
  • Small, common, marine and freshwater.
  • Characteristics
  • Nematocysts only in epidermis
  • Gametes are epidermal released into water and
    not GVC.
  • Incomplete digestive tract with unbranched gut.
  • Mesoglea is acellular mostly thin, gel-like.
  • Polyp is dominant body from.
  • Most have colonial polyps that are specialized
    for feeding, budding, defense.
  • Ex. Hydra, Obelia, Gonionemus, Physalia physalis
    (Portugese man-of-war)

27
Hydrozoan Life Cycle
28
Hydra
  • Freshwater hydrozoan that lacks a medusa stage.
  • Asexually reproduces by budding from the side of
    polyp. Sexual reproduction occurs in polyp stage.

29
Hydra Anatomy
30
Brown Hydra Budding
31
Brown Hydra eating
32
Hydra Capturing Daphnia
33
Order Siphonophora
  • Large colonies of specialized polypoid and
    medusoid individuals.
  • Various medusoid individuals form swim bell, sac
    floats, defensive structures, etc.
  • Many represent a bridge between colonial animals
    and complex organisms
  • Exist as colonies
  • Within colonies are special polyps adapted to
    feeding, reproduction, movement, and other
    functions
  • Major predators with some consuming significant
    quantities of krill
  • Example Portuguese man-of-war

34
Physalia physalis , Portuguese man of war(a
Hydrozoan), NOT a true jellyfish
35
Man of war colony of specialized medusoid
and polypoid organisms efficient predator of
krill.
36
Class Scyphozoa True Jellyfish
Fried egg jelly
37
Class Scyphozoa
  • All marine, mostly harmless, true jellyfish
  • Characteristics
  • Dominant stage is medusa form.
  • Mesoglea is thicker with some amoeboid cells.
  • Incomplete digestive tract with four branches.
  • Cnidocytes in gastrodermis and epidermis.
  • Gametes are gastrodermal in origin.
  • Ex. Aurelia, Mastigias (Stinging nettle)

38
Class Scyphozoa
  • Range in size from smaller than a coin to more
    than a meter across with tentacles more than 3 m
    long
  • Most are large planktonic organisms that swim but
    also drift with the current
  • Weak swimmers, move by contracting their rounded
    body, or bell
  • Feed on almost anything they catch
  • Dangerous species helmet shaped bells, with
    long tentacles and fleshy lobes from oral surface.

39
Scyphozoan Life Cycle
40
Ecological Role of Scyphozoans
  • Efficient predators of plankton, crustraceans,
    fish, etc.
  • Prey for leatherback turtle and several species
    of large fishpredators move seasonally with
    jellies.
  • Plastic bags, balloons, and small trash often are
    mistaken by turtles as jellies and can harm them
    by obstructing their digestive tracts.

41
True Jellyfish
42
Red-eyed medusa
43
Jellyfish at TCI
44
True Jellyfish
45
Jellyfish
Lions mane
46
Jellyfish
Purple lions mane
47
Jellyfish that break the rules Upside Down
Jellyfish
48
Sea Nettle
49
Could jellyfish ever be a problem?
50
Giant Jelly off Coast of Japan
51
When Jellyfish are a Problem!
http//abcnews.go.com/video/playerIndex?id9226474

52
Cyanea capillata 7 ft. bell, 120 ft tentacles
one of the largest
53
Jellyfish Humor
54
Class Cubozoa
  • Medusa is cuboidal, tentacles hang from each
    corner.
  • Polyps are very small
  • Active swimmers and feeders in warm tropical
    waters.
  • Ex. Sea wasp, box jellies.

Irukandji or Carukia barnesi
55
Class Cubozoa Box Jellyfish
Chironex fleckeri
Irukandji or Carukia barnesi
56
Chironex fleckerithe sea wasp
57
Portuguese Man o War vs. Box Jelly fish
58
Class Anthozoa
  • All marine, colonial (corals) or solitary (sea
    anemones)
  • Characteristics
  • Lack a medusa stage.
  • Cnidocytes have no cnidocils (triggers).
  • Mouth leads to a pharynx and then to the GVC.
  • GVC is divided by mesentaries that bear
    cnidocytes and gonads.
  • Mesoglea have amoeboid cells
  • Ex. Corals and sea anemones

59
Sea Anemones
  • Mostly solitary and colorful
  • Sessile attach to surfaces with a pedal disk
    may burrow or glide on disk. If threatened, may
    force water out GVC and fold over for protection.

60
Sea Anemones
  • Have a hydrostatic skeleton in GVC and mesentary
    compartments.
  • Muscle fibers are gastrodermal.
  • May crawl on sides or thrash about, when
    threatened.
  • Feed on invertebrates and fish.

61
Anemone Reproduction
  • Asexual (fragmentation or fission) and sexual
    reproduction monoecious or dioecious.
  • If monoecious, male gametes mature earlier than
    female gametes to avoid self-fertilization
    protandry.
  • Gametes mature along mesentaries and
    fertilization is either external or within the
    GVC.

62
Rosy Sea Anemone
63
Anemone Symbiosis
  • Found in tropical waters, clown anemonefish
    (e.g. clownfish) receive protection by living
    among the stinging tentacles.
  • Has protective mucous and becomes acclimated to
    toxin by rubbing its sides on anemone.
  • Fish eats parasites and fans water for anemone
    fish is also protandry Finding Nemo is wrong!
    Dad should become Mom!

64
Clown anemonefish eggs with sea anemone
65
The Other Anthozoan - Corals
  • Stony corals form reefs
  • Epithelial cells secrete calcium carbonate
    exoskeleton around base and sides of column.
  • When threatened, polyps retract into exoskeleton.
  • Reproduction similar to anemone, asexual budding
    produces colonies.

66
Coral Life Cycle
67
Class Anthozoa Corals
68
Brain Coral
69
Coral
70
Sea Fan
71
Flower Coral Coral with Exposed Polyps
72
Coral Symbiosis
  • Living in epidermis or gastrodermis are algae
    zooanthellae.
  • Photosynthetic dinoflaellate zooxanthellae
    provide sugars and other organics for the coral
    (up to 98 of the food for corals).
  • Metabolism of coral polyps provide the algae with
    nitrogen and phosphorus.
  • Zooxanthellae remove CO2 from water, the pH
    raises and the calcium carbonate precipitates as
    aragonite (exoskeleton for coral polyps.
  • Thus, corals must live in warm shallow (less than
    90 m) of water for photosynthesis.

73
Zooanthellae Living inside Coral Polyps
Responsible for the bright colors of corals
74
Corals with an Attitude!
  • Fire Coralscreate a mild burn upon contact
  • Waxy, tan appearance and grow in small tree-like
    colonies or as an encrusting colony on an
    existing reef

75
Phylum Ctenophora
  • Ctenophora comb bearers comb jellies and sea
    walnuts all marine.
  • Characteristics
  • Diploblastic maybe triploblastic (cellular
    mesoglea)
  • Biradial symmetry
  • Gel and cellular mesoglea
  • True muscle development in mesoglea
  • GVC
  • Nerve net
  • Adhesive structures called colloblasts
  • Eight rows of ciliary bands comb rows for
    locomotion

76
Ctenophorans
  • Comb rows coordinated via statocyst at the aboral
    pole.
  • Colloblasts are adhesive cells used to capture
    prey.
  • Tentacles bring food to mouth that leads to
    branched GVC.
  • Has two anal canals have an anal opening
    (unlike jellies)
  • All are monoecious both male and female sex
    organs in same individual.

77
Comb Jellies use Rows of Cilia to Move Some are
Bioluminescent
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