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Practice Questions for Exam 1 Reproduction that occurs when a portion of a parent splits off to form a new individual is a. Asexual b. Budding c. Sexual – PowerPoint PPT presentation

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Title: Practice Questions for Exam 1


1
Practice Questions for Exam 1
  • Reproduction that occurs when a portion of a
    parent splits off to form a new individual is
  • a. Asexual
  • b. Budding
  • c. Sexual
  • d. a and b
  • e. None of the above

2
  • Which one of the following regarding the
    protozoans is false?
  • a. They are often colonial
  • b. Some have chloroplasts and photosynthesize
  • c. Some possess flagella for locomotion
  • d. They are metazoan
  • e. Some reproduce by fission

3
Biology 320Invertebrate ZoologyFall 2005
  • Chapter 9 Introduction to Bilateria

4
Bilateria
  • Majority (99) of eumetazoans exhibit bilateral
    symmetry
  • These organisms are lumped into the taxon
    Bilateria
  • Has led to the enhancement of neuromuscular
    systems
  • Major milestone - cephalization
  • Therefore, has allowed the colonization of more
    physiologically challenging habitats
  • In particular, terrestrial habitats
  • Also allowed the attainment of larger body sizes
  • 90m in the blue whale

5
Bilateral Symmetry
  • Animal has only one plane of bisection
  • Known as midsaggital plane
  • Produces left and right mirror-image halves
  • Body polarized along two axis
  • Anterior / posterior (head / tail)
  • Ventral / dorsal (belly / back)
  • Most likely evolved from organisms who began
    spending time at air / water interface

6
  • Bilateral symmetry is most often seen in animals
    that move horizontally through habitat
  • Useful because food / mates usually randomly
    distributed
  • Sessile animals often filter feed
  • Radial symmetry is suitable to lifestyle
  • Plankton / particulate matter is somewhat
    uniformly distributed

7
Cephalization
  • Means head development
  • Anterior localization of CNS and sensory
    structures
  • Brain usually one or more ganglial complexes
  • Vertebrates have skull and spinal column to
    protect large CNS
  • Exhibited by motile bilateria
  • Allows motile animals to detect and pursue food,
    mates, shelter, etc.

8
  • Mouth at anterior end
  • Longitudinal nerve cords
  • Usually paired
  • Often have giant axons for rapid conductance (low
    resistance), presumably for escape response
  • To contrast motile bilateria, sessile bilateria
    usually are not cephalized
  • May have radially symmetric portions such as
    crown of tentacles

9
Musculature
  • As many are motile, often have obliquely / cross
    striated muscle for rapid contraction
  • Remember, smooth muscle contracts slowly
  • Outer layer of circular muscle almost always
    encloses an inner longitudinal layer
  • Especially true in vermiform animals
  • Contraction of circular muscles produces
    elongation
  • Due to hydrostatic skeleton

10
  • Longitudinal muscle contractions allow for
  • Bending
  • Undulating
  • Shortening / retraction of posterior end
  • Peristalsis
  • Coordinated / alternating contractions of
    circular and longitudinal muscles
  • Useful for forward propulsion and burrowing
  • Other types of musculature
  • Dorsoventral flattening
  • Helical twisting

11
Bilaterian Compartmentalization
  • Important for specialization of physiological
    regulation
  • Cnidarians first evolved a cavity for
    extracellular digestion
  • However, the gastrovascular cavity is not
    specialized
  • Carries out multiple functions
  • Example, bilaterian gut specializes in digestion
    and absorption
  • Bilaterians have evolved other body systems that
    increase physiological compartmentalization
  • Coelom
  • Hemal system

12
The Bilaterian Gut
  • More primitive bilaterians still posses a blind
    gut
  • Many have a true gut (hollow tube) that is
    composed of specialized regions
  • Mouth and foregut ingestion and initial
    digestion
  • Midgut chemical digestion and absorption
  • Hindgut and anus elimination of wastes,
    reclamation of water, and ion regulation

13
  • Origins of gut regions
  • Foregut and hindgut develop from embryonic
    ectoderm
  • Midgut develops from embryonic endoderm becomes
    gastrodermis
  • Specialized structures of gut regions
  • Foregut
  • Buccal cavity chamber that receives food and
    may house teeth
  • Pharynx throat that may be protrusible in some
    animals
  • Esophagus ciliated portion that links foregut
    and midgut
  • Midgut
  • Stomach enlarged for digestion
  • Intestine forms feces and joins hindgut
  • Ceca outpockets of stomach or intestine that
    increase SA for digestion, absorption, and/or
    storage
  • Hindgut
  • Rectum receives indigestible wastes
  • Cloaca name for rectum if gonoducts / excretory
    ducts empty here

14
Keep in mind, names of gut regions and structures
are not standardized across the phyla!
15
Coeloms
  • Fluid-filled cavity lined with mesodermally
    derived epithelium (mesothelium)
  • Fluid is known as coelomic fluid
  • Circulated by mesothelial cilia or muscular
    contractions
  • Functions
  • Houses organs
  • Hydrostatic skeleton
  • Circulation
  • Reproduction
  • Excretion
  • Three types
  • Acoelomates typical of small animals as they
    are not diffusion limited
  • Pseudocoelomates cavity not entirely lined with
    mesothelium
  • Coelomates true body cavity lined with
    mesoderm-derived mesothelium or peritoneum

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  • Segmentation occurs when coelom is partitioned
    by
  • Mesenteries longitudinal
  • Septa transverse
  • Benefit is that each segment can be regulated
    individually
  • Locomotion
  • Loss of some segments may not be life threatening

18
Hemal System
  • Essentially a circulatory system that consists
    of
  • Blood (called hemolymph in most inverts)
  • Vessels
  • Sinuses
  • Blood is usually circulated via muscular
    contractions
  • Hemal system is usually absent in small animals
  • Some organisms (especially pseudocoelomates) have
    a hemocoel
  • Large circulatory sinus that doubles as main body
    cavity

19
Excretion
  • Larger animals have nephridia (little kidneys)
  • Remove nitrogenous waste and osmoregulate
  • Wastes are removed w/ water out of a
    nephridiopore
  • Variation in nephridia

20
Cleavage Patterns
  • Diagnostic tool for systematics
  • Radial cleavage
  • Cleavage planes are parallel or perpendicular to
    axis of zygote
  • Occurs in cnidarians, lophophorates, and
    deuterostomes (covered next)
  • Spiral cleavage
  • Cleavage planes are oblique to axis of zygote
  • Occurs in flatworms, molluscs, segmented worms,
    etc.

21
Coelom Formation
  • Enterocoely
  • Outfoldings of archenteron pinch off
  • Occurs in deuterostomes
  • Schizocoely
  • Coelom splits early in development
  • Forms segmental coelomic cavities

22
Divisions of Bilateria
  • Two major divisions
  • Protostomia molluscs, annelids, and arthropods
  • Deuterostomia echinoderms and chordates
  • Protostomes
  • Spiral cleavage
  • Schizocoely
  • Blastopore becomes mouth
  • Deuterostomes
  • Radial cleavage
  • Enterocoely
  • Blastopore becomes anus, and mouth forms elsewhere

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