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MOLLUSCA

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... dinoflagellates key link in marine food webs UNIRAMIA Subphylum Uniramia (uniramians) centipedes, millipedes, insects terrestrial UNIRAMIA uniramous appendages: ... – PowerPoint PPT presentation

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Title: MOLLUSCA


1
MOLLUSCA
  • Phylum Mollusca (mollusks)
  • clam, snail, octopus, squid

2
MOLLUSCA
  • marine, freshwater, terrestrial
  • protostome developmental characters
  • classification conflict Protostomia vs.
    Lophotrochozoa
  • body plan foot, visceral mass, mantle
  • Fig. 33.15

3
MOLLUSCA
  • foot muscular, for movement
  • visceral mass most of internal organs
  • mantle tissue covering visceral mass, secretes a
    shell (calcium carbonate)
  • life in a shell
  • extension often forms mantle cavity
  • mantle cavity gills, anus, excretory pore
  • shell for protection minimal muscle attachment
    which limits mobility

4
MOLLUSCA
  • radula rasping tongue for scraping
  • teeth of chitin point backward on a supporting
    belt
  • circulatory system open
  • heart directs blood from the gills
  • blood sinuses (sinus a hollow) areas where
    blood bathes tissues
  • coelom reduced not need hydrostatic skeleton

5
MOLLUSCA
  • no segmentation
  • dioecious or hermaphroditic
  • anterior nerve ring with ganglia (brain) ventral
    paired nerve cords (Fig. 49.2)
  • 8 Classes we will examine 3 in lecture

6
GASTROPODA
  • Class Gastropoda (snails, slugs)
  • most speciose many habitats
  • dioecious aquatically
  • hermaphroditic terrestrially
  • torsion (twist) asymmetrical embryonic
    development
  • one side of visceral mass grows faster than
    other Fig. 33.18

7
GASTROPODA
  • places visceral mass/shell more centrally over
    body
  • two hypotheses regarding selective advantage
  • 1) get better head retraction
  • 2) get better water flow
  • head with eyes at end of tentacles
  • terrestrial snails have mantle in mantle cavity
    modified into a lung

8
GASTROPODA
  • land slugs reduced or no shell Fig. S7-5
  • selection pressures always involve trade-offs
  • adaptive structures energetically "expensive" to
    maintain
  • why birds on islands become flightless
  • why parasites reduce most organ systems

9
GASTROPODA
  • change in type of pressure or in trade-offs
    causes shifts in directionality of selection
  • selection advantage for shells
  • protection against predators
  • prevents dessication
  • cost consume calcium, secrete CaCO3
  • energetic (physiological) demands

10
GASTROPODA
  • if moist enviro, dessication pressure reduced
  • if low calcium in soil, pressure to conserve for
    other needs
  • what about predation pressure which pushes other
    direction?
  • shift defense
  • already use slime in locomotion, traction
  • modified into being distasteful, secrete rapidly,
    when disturbed

11
BIVALVIA
  • Class Bivalvia
  • clams, mussels, oysters
  • marine, freshwater
  • flattened two-part shell
  • Fig. 33.20

12
BIVALVIA
  • 2 valves incurrent, excurrent siphon derived
    from mantle
  • powerful adductor muscles
  • no distinct head no radula
  • adapted for burrowing, filter feeding
  • shape of shell, narrow foot allow penetration of
    substrate

13
BIVALVIA
  • incurrent siphon brings in water, fine food
    particles
  • mucus coating gills traps particles
  • cilia transport particles to mouth
  • sedimentation (soil erosion) serious threat,
    especially in Illinois
  • freshwater mussels
  • www.museum.state.il.us/ismdepts/zoology/mussels

14
CEPHALOPODA
  • Class Cephalopoda
  • squid, octopus marine
  • most derived mollusc active carnivores
  • only invert. ecological equivalent of fish
  • adaptations for greater mobility, hunting prey
  • closed circulatory system
  • complex nervous system
  • largest invert giant squid 40-50 feet long
  • homoplasy in eye with vertebratres
  • compare Fig. 50.18 with S7-9

15
ARTHROPODA
  • Phylum Arthropoda
  • crustaceans, spiders, insects
  • marine, freshwater, terrestrial, aerial
  • protostome developmental characters
  • classification conflict Protostomia vs.
    Ecdysozoa
  • segmentation
  • Fig. 33.29

16
ARTHROPODA
  • segments with jointed appendages jointed feet
  • segments/appendages show 2 trends
  • 1) reduction in number
  • 2) increase in specialization (descent with
    modification)
  • cuticle exoskeleton of chitin (carbohydrate) and
    protein

17
ARTHROPODA
  • segmentation/exoskeleton/specialized jointed
    appendages
  • allows rapid, precise movement
  • exoskeleton muscle attachment protection from
    predation avoid dessication
  • ecdysis shed exoskeleton as grows
  • nervous system cephalization
  • sense organs
  • vision (eyes)
  • touch/smell (antennae)

18
ARTHROPODA
  • open circ. system heart blood sinuses
    (hemocoel)
  • hemolymph bloodlike fluid
  • respiratory system gills (aquatic) terrestrial
    book lungs (Fig. 33.32), tracheal system (Fig.
    33.35)
  • only dioecious
  • most successful metazoan body plan
  • based on habitats, species, individuals

19
ARTHROPODA
  • critical component of all ecosystem food webs
    pollinators (insects)
  • look at some major groups
  • Subphylum Chelicerata (chelicerates)
  • horseshoe crab, spiders, scorpions, ticks, mites

20
CHELICERATA
  • mostly terrestrial few aquatic
  • 2 basic body parts cephalothorax (no separate
    head), abdomen
  • no appendages on first segment
  • 6 pairs of appendages on cephalothorax

21
CHELICERATA
  • 1st pair are chelicerae
  • chelicerae claw-like appendages near mouth
  • functions vary feeding, grasping, fangs, pincers
  • 2nd pair are pedipalps
  • functions vary sensory, feeding, reproduction
  • no antennae only simple eyes

22
CRUSTACEA
  • Subphylum Crustacea (crustaceans)
  • crayfish, true crabs, lobsters, shrimp
  • marine, freshwater few terrestrial

23
CRUSTACEA
  • cephalothorax, abdomen Fig. 33.29
  • 2 pairs of antennae
  • several pairs of mouthparts
  • many biramous appendages on cephalothorax and
    abdomen two-branched at the distal portion

24
CRUSTACEA
  • specialization locomotion, feeding, respiration
    (gills)
  • larval stages diverse
  • copepods zooplankton (small animals)
  • feed on diatoms, dinoflagellates
  • key link in marine food webs

25
UNIRAMIA
  • Subphylum Uniramia (uniramians)
  • centipedes, millipedes, insects
  • terrestrial

26
UNIRAMIA
  • uniramous appendages 1 unbranched unit not
    branched at distal portion Fig. 33.35
  • 1 pair of antennae
  • respiratory system tracheal system

27
INSECTA
  • Class Insecta insects
  • most speciose of all known life probably of all
    life

28
INSECTA
  • everywhere except oceans
  • coevolution with angiosperms
  • head, thorax, abdomen
  • 1 pair antennae 3 pairs of legs most with 2
    pairs wings
  • Fig. 33.35

29
INSECTA
  • digestive system specialized parts
  • respiratory system tracheal system
  • excretory system Malpighian tubules
  • Fig. 44.13

30
INSECTA
  • outfoldings of digestive system
  • take wastes from hemolymph and empty into midgut
  • rectum reabsorbs water, nutrients
  • dry waste exits anus (conserves water)

31
INSECTA
  • nervous system cephalization brain pair of
    ventral nerve cords ganglia
  • wings not true appendages extensions of cuticle
  • keeps legs free
  • many advantages of flight
  • dispersal (movement) to new areas
  • escape from predators

32
INSECTA
  • metamorphosis larval, pupal, adult stages
  • Fig. 33.36

33
BOTFLY
  • human botfly (Dermatobia hominis)
  • female botfly captures female mosquito
  • glues eggs onto mosquitos body
  • when mosquito begins blood meal, body heat
    triggers hatching of botfly egg
  • botfly larva drops onto skin, burrows in
  • hooks hold larva in place antibiotic secretion
    prevents bacterial competition
  • respiratory spiracle (snorkel)
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