Transcript Document

Sponges, Phylum Porifera
Chapter 6, Zoology
Phylum Porifera
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Pronounced (po-rif'-er-a)
The name means “bearing pores”
Sponges are made up of a system of tiny pores and
canals that make up a intricate filter feeding system.
Sponges are sessile, meaning they have a stationary,
inactive lifestyle.
Their bodies are made up of thousands of cells mixed
together in a gel-like mixture, supported by small
structures called spicules made of calcium carbonate
or silica and collagen.
Phylum Porifera
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Because they are sessile, they are highly dependent
on ocean currents to bring food to them and
eliminate waste products.
They have no organs or true tissues.
Digestion, respiration, and excretion all occur by
simple diffusion directly into the cells.
No nervous system.
Sponges are asymmetrical.
Sponge Ecology
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There are about 5000 sponge species.
About 97% are marine, 3% freshwater.
Embryos are free-swimming.
Adults are always attached to other objects. (rocks,
corals, submerged objects etc.)
Many other organisms such as crab and fish live
symbiotically in or on sponges.
Some sponges live on other organisms like mollusc
shells and corals.
Diversity of Sponges
Sponge Anatomy and Physiology
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Their bodies are made of numerous tiny pores called Ostia
that allow water to flow into a sponge.
One to several large openings that allow water to flow out
of a sponge are called Oscula.
A singular oscula is called an Osculum.
Small cells that line the canals of a sponge with whiplike
flagella are called Choanocytes.
The flagella on the choanocytes maintain the flow of water
through the canals.
The choanocytes also trap food particles.
Sponge Anatomy and Physiology
Sponge Canal Systems
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Sponges have three types of canal systems;
Asconoid, Syconoid, and Leuconoid.
Sponge Canal Systems
Asconoid Sponges
(Flagellated Spongocoels)
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Asconoids have the simplest body plan of the
sponges. They are small and tube-shaped.
Water enters the ostia into a large cavity called the
Spongocoel.
The choanocytes then expel the water out the osculum.
Asconoids are found only in the class Calcarea.
Asconoid Sponges
(Leucosolenia sp.)
Syconoid Sponges
(Flagellated Canals)
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Syconoid sponges are similar to Asconoids. Water is
expelled through one large osculum like the asconoids.
However, the choanocytes do not line the spongocoel.
The choanocytes line canals that radiate along the
sides of the body tube called radial canals.
Syconoids are found mostly in class Calcarea.
Some are also found in class Hexactinellida.
Syconoid Sponges
(Sycon sp.)
Leuconoid Sponges
(Flagellated Chambers)
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The Leuconoid body plan is the most complex.
Their unique body design allows for a much greater body
size. The increased body size increases the amount of
flagellated choanocytes, therefore increasing the amount
of food that can be consumed.
Most leuconoids are large masses rather than simple
tubes, with numerous oscula.
There is no spongocoel in leuconoids.
They are found in all three classes of sponge.
Leuconoid Sponges
Cellular Structure of Sponges
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The connective tissue of sponges consists of a loose gellike mixture called Mesohyl.
The epithelial cells of sponges are called Pinacocytes.
These cells play a role in trapping food particles.
Porocytes make up the ostia that allow the passage of
water into the sponge.
Archaeocytes are cells in the mesohyl that perform a
variety of functions such as digestion and production of
spicules and collagen.
Cellular Structure of a Sponge
Sponge Skeletons
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An important structural protein in the animal
kingdom and in sponges is called collagen.
Thin strands of collagen are found throughout the
bodies of sponges.
The class of Demospongiae produces a form of
collagen known as spongin.
Various forms of spicules are found throughout the
different classes of sponges. They are made up of
Silica or Calcium Carbonate.
Sponge Skeleton
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Spicules on the left
Spongin on the right
Sponge Metabolism
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As mentioned earlier, various sponge cells such as
choanocytes and pinacocytes aid in digestion by
trapping food particles.
The primary cell type that actually metabolizes the
food are the archeocytes.
Respiration and excretion occur by diffusion.
All metabolic activities are highly dependent on a
constant flow of water from ocean currents.
Some sponges filter as much as 1500 liters/day.
Sponge Digestion
Sponge Reproduction
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Sponges reproduce both sexually and asexually.
Most sponges are monoecious. Meaning a single
sponge can have both male and female sex cells.
Sperm cells develop from choanocytes. Egg cells can
develop from choanocytes in some species and from
archaeocytes in others.
Sponge Reproduction
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After fertilization, the zygotes develop into a freeswimming flagellated larva called a parenchymula.
Paranchymula break off from the adult sponge and are
carried away by ocean currents.
Sponges can reproduce asexually by fragmentation (this
occurs when a fragment is broken off from the main body
of the sponge) and by external budding.
Budding occurs when a small sponge grows off of the adult
sponge. Eventually these can break off and regenerate.
Sponge Reproduction
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Asexual reproduction can also occur by the formation of
internal buds called gemmules.
Gemmules are internal buds that are usually remain
dormant and contain archaeocytes.
Gemmules are usually formed during unfavorable
conditions like drought, freezing temperatures, and
anoxia for long periods of time.
After the unfavorable conditions pass, the archaeocytes
can then be released from the gemmules to regenerate
into a new adult sponge.
Sponge Larva and Gemmules
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Parenchymula on
the right.
Gemmule on the
left
Class Calcarea
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Spicules of calcium
carbonate (calcite
and limestone)
All three types of
canals represented
(asconoid, syconoid,
and leuconoid).
All marine
Example (Clathrina)
Class Hexactinellida
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Six-rayed spicules
made of silica (same
substance as glass)
Body often
cylindrical and
funnel shaped
Syconoid or
leuconoid
All Marine
Example, Venus Flower
Basket (Euplectella)
Class Demospongiae
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Skeleton made of silica
spicules that are not
six-rayed, or a
skeleton made of
spongin, or both.
Leuconoid type canal
systems only.
One family freshwater,
all others are marine.
Very diverse group of
sponges