Chapter 6 Porifera - Biology PDF

Summary

This document provides a detailed overview of the phylum Porifera, focusing on their structure, function, and classification. It discusses the evolution of multicellularity and specialization in sponge cells, touching upon their unique features in terms of organization, reproduction, and ecology. The document is well-suited for university-level biology courses or independent study in zoology.

Full Transcript

 **Chapter 6 Porifera **

**Metazoa **- Animal clade 

32--34 extant phyla 

\~95% of animal sp. are invertebrates 

**Multicellularity **

Specialization among cells 

Different cell types have different functions 

Some cells types just do reproduction 

Arisen in \>20 lineages 

[Colonial unicells]: connected and coordinated but lack
specialization 

**Origin of Sponges **

**Phylum Porifera (Sponges) **

**Canal Types **

- Large with thick body wall 

- Flagellated radial canals 

- Fold back and forth -- where the choanocytes, inside of the passages
in the body wall

- Water enters canals through prosopyles: toward, opening

- Empties through apopyles: apo = away, opening

- empty into the spongocoel and then out the osculum

- Spongocoel lack choanocytes 

- Clusters of flagellated chambers 

- Filled from incurrent canals 

- Discharge to excurrent canals leading to osculum 

- Can have many oscula 

- Lack true spongocoel 

- Broader canal

- Increased flagellated surface-to-volume ratio 

- More surface covered in choanocytes

- Most sponges 

- That are around today (over ½)

- Intermediate in complexity 

- Transitional step

- Ostia without choanocytes lead to radial choanocyte canals 

- Choanocytes that are inside the canals, but not tight clusters

- More true spongocoel

- Modified leuconoid chambers 

- Internally connected feeding tubes 

- All tubes are connected, choanocyte tubes

- Only tube walls have choanocytes 

**Cell layers --** occurring in most sponges

[Choanoderm]: internal layer of choanocytes 

- Surrounding the spongocoel, or clusters

[Pinacoderm]: external, flat cells (**pinacocytes**) 

-

[Mesohyl]: gelatinous extracellular matrix containing
spicules and other cell types 

-

True tissues have distinct germ layers and structural integration

- These are not structurally integrated enough to be considered true
tissues, need more distinct layers of cells (endoderm, ectoderm,
etc.)

- Sponges lack true tissues

**Other Cell Types **

- [Porocytes]: Tubular cells in body wall that allow water
flow 

- Can be created by infoldings

-

- [Archaeocytes/Amoebocyte]: ameboid cells -- "ameba
shaped"

- Move in mesohyl 

- Receive engulfed food 

- Differentiate into other types 

- Changes into a different type of cell, stem cell

- [Collencytes]: secrete collagen for the spicules

- Collagen is the main structural protein

- [Sclerocytes]: secrete silica 

- Taking in silicon and secreting silica

- Use that as well for spicules -- "glassy"

- [Spongocytes]: secrete spongin 

- Modified collagen that makes sponges flexible, spongy texture

**Asexual Reproduction **

- Fragmentation and budding 

- *Gemmules*: internal buds 

- inside the sponge the gemmules form and are filled with
archaeocytes

- archaeocytres are stem cells and then will have the
potential to be other cells when they are released

- Dormant mass of archaeocytes 

- Survive harsh conditions 

- Produces clones -- same DNA, mitosis

- Ability to regenerate -- not reproduction, but similar

- Mitosis repairing damaged or broken parts

**Sexual Reproduction **

- *Fertilization*: internal or external 

- Sperm develop from choanocytes 

- Makes sense because they have the flagella

- External = would swim out to find egg

- Internal = fertilizes egg inside the mesohyal

- Oocytes develop from archaeocytes 

- [Hermaphroditic]: produce sperm and eggs 

- Both sexes

- Most of the time they cross fertilize

- Make sperm and egg at different times of years

- Do not fertilize themselves

**Development **

- Free-swimming larvae are ciliated 

- Attach to substrate

- Undergo simple development steps

- Flagellated cells migrate inwards to line chambers

**Porifera Clades **

1. Homoscleromorpha: "same stiff form"

a. Mostly nearshore, shallow

b. Simple or no spicules 

i. Encrusting on other structures ?

ii. Do not need skeleton due to that

c. Leuconoid 

iii. More complex sponge, flagellated chambers

d. Pinacoderm has a basal lamina (incipient epithelium) 

iv. The outer layer is more complex, still not a true tissue

2. Calcarea: 

e. Calcerous spicules 

v. Spicules are made out of calcium carbonate

f. Asconoid, syconoid, and leuconoid forms 

3. Demospongiae:** --** largest group

g. 80% of living sponge species

h. Leuconoid -- more complex

i. Spicules: silica and many with spongin 

- High oxygen ponds and springs 

- Encrust stems and submerged wood 

- Die in fall but leave gemmules 

- Seasonal

- Leave behind the gemmules that are packed with archeocytes

- Bath sponges 

- Spicules have spongin, modified collagen (flexible), and no silica 

- soft

- Can be farmed 

- Fragments of them and suspend them at the right height and area,
they will filter feed and grow into the right size for a bath
sponge

- Recently discovered 

- Deep water caves 

- Hook-like spicules entangle prey 

- Lack choanocytes and internal canals 

- Unique carnivorous feeding mode 

- Considered sponges because of their ancestral history, have arisen
from this group, but have lost characteristics

**4. Hexactinellida **

- '6-rayed sponges' or 'glass sponges' 

- Siliceous (have silica)

- May be the longest-lived animal (up to 15k years) 

- Indeterminant growth -- do not stop growing, compare known ages
and their size to larger size

- Sponges have their skeleton of spicules has growth rings to look
at like trees

- Usually deep and cold sea 

- Extensive *syncytium*: multinucleated cytoplasm 

- Two layers of choanocytes and other cells within those layers

- Also known as the tribecular reticulum

- A bunch of cells fused together, that is why there are a lot of
nuclei

**Ecological Relationships --** can be noxious or smell bad

- Prey for predators 

- Turtles, parrot fish, nudibranch

- Hosts for parasites 

- Polykeet (segmented worm, lots of branches), fungal and bacteria
parasites

- Hosts for commensals -- symbiotic organism, organism will benefit
but no impact on host, +0

- live on the sponge, but sponge does not benefit

- Christmas tree worm, sea anemones

- Commensals/Mutualists

- A sponge living on a giant clam

- Can also be mutualistic, crab decorating the shell

- Beneficial to both -- sponge camouflages the crab, the crab
will defend predators from eating the sponge

- Competitors 

- Competitors with other sponges and other sessile organisms

- Competing for space as well

**Human Connections **

- Chemical extracts and bacterial isolates: *medicinal* *properties* 

- Lots of review papers that look at these compounds

- Mediterranean sponges -- tested 50 sponges and half have
anti-tumor properties

- Fibrous elements: *scaffold for tissue engineering* 

- Use the spicules for tissue engineering

- Bone or cartilage regrowth

- Glass spicules: *fiber optic properties* 

- Transmit light, discovered due to the sponges have
photosynthetic endosymbionts deep inside of them, the spicules
transmit that

- Spongin: *removal of chemical pollution* 

- Ex\] remove chemical byproduct of making plastic (absorb)

END OF SPONGES

**Placozoa -** 'Plate animal' 'Flat' *Slide* *example*: sticky hairy
plate

- Small (20 microns thick) 

- One of the smallest animals

- Marine and free-living 

- Not parasitic

- No fixed shape or symmetry 

- Flat bob shape

- Dorsal and ventral cilia 

- Sister taxon obscure 

- They don't know who their closest relative is

- Usually put by sponges, but not for sure

- 6 cell types: 

1. Gland cells -- digestive enzymes

2. Dorsal epithelial cells - cilia

3. Ventral epithelial cells -- cilia

4. Lipophil -- lipids

5. Shiny sphere cells - ?

6. Fiber cells

- Eat by engulfment 

- Reproduce by fission or budding