Download slideshow for porifera

Poriferans
1
The first metazoans
Phylum Porifera (Sponges)
• ~5,500 extant species
•  98% are marine, 2% freshwater
• Lack nerves and have no true musculature
• No specialized organs
• Adults are asymmetrical or superficially
radially symmetrical
• Cells are totipotent
• Use choanocytes (unique flagellated cells) to
drive water through canals and chambers
which constitute the aquaferous system
2
The first metazoans
Choanoflagellates (protozoan) – can operate in a colonial way.
How are these guys any different?
Sponges can differentiate self from non-self
3
Poriferan Body Plan
4
Poriferan Body Plan
Choanoderm
•  inner layer of cells
•  Choanocytes (collar cells)
–  Cylindrical arrangement villi
surrounding single flagellum
Functions:
1.  Circulation – generate currents to circulate
water through sponge
2.  Feeding - Capture of food particles
3.  Reproduction- Capture incoming sperm
5
Poriferan Body Plan
•  Mesohyl
– 
– 
– 
– 
Gel like matrix
Acellular and non-living
Contains archaeocytes
Contains spicules
Archaeocyts:
• Amoeboid like cells
• Digest food particles captured by choanocytes
• Give rise to sperm and eggs
• Role in self-recognition
• Eliminate wastes
• Differentiate to sclerocytes or spongocytes
6
Sclerocytes, spongocytes and spicules
• Derived from archaeocytes
• Produce spicules – calcium carbonate, silica, or collagenous protein
Importance
•  Act as support elements for sponge structures and possibly to deter predation
• Systematists use them for species identification
7
Poriferan Body Plan
Pinacoderm (epidermis)
–  Continuous layer on the external
surface of sponge
–  Lines the incurrent and excurrent
canals
*
–  Basement membrane is absent
–  Separates sponges from all
other metazoa epithelia which
have a basement membrane
Pinocytes – thin flattened cells that make up the Pinacoderm
8
Poriferan Body Plan
Three basic body types:
1.  Asconoid
2.  Synconoid
3.  Leuconoid
9
Poriferan Body Plan
Three basic body types:
Asconoids
• 
• 
• 
Choanoderm is one cell thick,
simple and continuous
Single osculum
Small simple forms
• 
Rarely exceed 10 cm in
height
10
Leucosolenia sp.
Poriferan Body Plan
Three basic body types:
Syconoids
• 
• 
• 
• 
Folding of pinacoderm and choanoderm
Simple and complex forms
Choanocyte chambers
• 
Open to atrium via apopyle
Single osculum
• 
Complex forms
• 
• 
Incurrent canals
Prosopyles – openings from inccurent chambers
into choanocyte chambers
Path of water flow in complex forms:
Dermal pore
incurrent canal
prosopyle
choanocyte chamber
osculum
atrium
apopyle
11
Scypha sp.
12
Sycon sp.
Poriferan Body Plan
Three basic body types:
Leuconoids
• 
• 
• 
• 
• 
• 
Largest and most complex
sponges
up to 1 m in height
Complex folding of choanoderm
Thickening of mesohyl
Discrete choanocyte chambers
• 
Increase in number
• 
Decrease in size
Atrium is reduced to a series of
excurrent canals which lead to
oscula
Dermal pore
incurrent canal
prosopyle
choanocyte chamber
osculum
excurrent canal
apopyle
13
osculum
Excurrent canal
Clathria sp
14
Poriferan feeding
•  most sponges are filterfeeders
•  rely on intracellular digestion
–  Phagocytosis
–  Pinocytosis
•  Coordinated efforts of
choanocytes and
Archaeocytes
15
Poriferan feeding
•  most sponges are filterfeeders
•  water is moved by
current action and
choanocyte flagellae
•  choanocyte collars
capture food particles
16
The rate of water flow is important for efficient filter-feeding in sponges
The increased surface area created by the compartmentalization in leuconoid
sponges reduces the velocity of water flow to enhance particulate capture by
choanocytes.
17
Poriferan feeding
•  Predatory Sponge!!
–  Only one species
(Abestopluma)
–  Discovered 1995
–  Mediterranean sea caves
•  Lack choanocyte lined
aquaferous system
•  Trap prey on external
spicules
•  Feeding cells migrate to
envelope and digest prey
18
Reproduction
Can have both asexual and sexual reproduction
Asexual Reproduction
1.  Budding
•  Small piece of sponge buds or breaks off
•  Carried by current
•  Anchors to new substrate and begins to grow a new individual
2.  Reduction bodies
•  Marine sponges
19
Reproduction
Can have both asexual and sexual
reproduction
Asexual Reproduction
1.  Gemmule formation
•  Occurs mainly in freshwater
sponges of family Spongillidae
•  Occurs in response to harsh
conditions (temp or environmental)
•  Remarkable example of poriferan
cell totipotency
20
Reproduction
Gemmule formation
• Archaeocytes aggregate in mesohyl and udergo rapid
mitosis
• Trophocytes (nurse cells) stream to archaeocyte mass
and are engulfed by phagocytosis
• Provide nutrition during dormancy
• Mass of cells surrounded by three layers of spongin
• Amphidisc spicules are transported to spongin envelope
• Micropyle forms (absence of spicules in this region)
• Gemmule begins “hibernation” while parent sponge dies
and disintegrates
21
Reproduction
Gemmule hatching
• Favourable environmental conditions
• Micropyle opens up
• First archaeocytes released flow over gemmule and
substratum
• Form pinacoderm and choanoderm framework
• Second wave of archaeocytes colonize this initial
framework
• Growth of a new sponge!
22
Reproduction
Sexual Reproduction
• Most sponges are hemaphroditic
• Produce egg and sperm at different times
• Cross fertilization is required
• Sperm – arise from choanocytes
• Oocyte – forms in meshyle surrounded by follicle
cells and nurse cells
•  Sperm are released via the aquaferous system and
broadcast by the current
• Choanocytes capture sperm, phagocytise sperm
(differentiate into amoeboid form) and deliver to the
oocyte located in the mesohyl
• Choanocytes digest the sperm of other sponge and
invertebrate species but not their own (species
recognition)
23