Typical Poriferans - Sponges

Cool Poriferans - Sponges

A glass sponge, popularly known as "Venus's flower basket." Collected in the Philippine Islands at a depth of 100 fathoms
picture courtesy NOAA

Microscopic spicules from a sponge

• Sessile aquatic organisms (fixed in one place)
• Multicellular organisms with few cell types
• Filter feeders on bacteria and other organic material in the water column
• No circulatory, digestive or nervous system, no true tissues or organs, gas exchange and excretion are by diffusion across the cell walls
• Some cells can migrate within the sponge and are able to become other types of cells
• The body shape is designed to optimize water flow which generally enters laterally through pores (ostia) and leaves through a chimney-like hole called the osculum
• Body plan consists of a mesohyl layer of non-living skeletal tissue sandwiched between two layers of cells
• Reproduction can be asexual or sexual, sponges are hermaphrodite (male and female at the same time)
• Found world-wide in mainly marine environments although there are a smaller number of freshwater species

What are sponges like?

Sponges are the most primitive of the multicellular animals, they have been around on earth for 600 million years or more. They are overwhelmingly marine organisms, out of about 15,000 species only around 150 are found in freshwater.

They vary greatly in size, some are the size of a grain of rice, others could hold a fully grown man.

They are frequently brightly coloured and were thought to be plants until 1765 when internal water currents were seen for the first time.

Sponges have cells called choanocytes (pictured right) that have whip-like flagella that they wave to set up water currents that bring in food and oxygen and remove waste. Such currents are even used to move sperm and eggs out of the sponge. The flow of water is inwards through pores in the outer walls of the sponge and then out through the chimney-like osculum. Differences in water flow at the top of this osculum and the bottom of the sponge also helps with the flow of water.

Spicule from a sponge picture used permission of Hgrobe published under Creative Commons Attribution ShareAlike 3.0 License

The mesohyl layer of sponges contains a matrix of dispersed collagen fibrils. They may also contain spicules. These are  structures made of coarse collagen fibres called spongin or they made be made of silica (as in the glass-sponges) or calcium carbonate. They may be simple and rod-like or they may branch and have a three-dimensional structure as that in the picture to the right does. these spicules may be very characteristic of the sponge and are often important in identifying the species.

The more complex ones may interlock for additional support and sometimes extend beyond the outer layer of cells, the pinaocytes.

What do poriferans eat?

Sponges feed on very fine particles suspended in the water. In some tropical sponges, 80% of the material filtered from the water is smaller than a size that can be resolved with a light microscope. The remaining 20% were made of bacteria, dinoflagellates and other very small plankton.

1cm³ of sponge tissue can filter 20 liters of water a day, 20,000 times its own volume.

In tropical waters in particular there is much more of this very fine organic matter in the water than there is plankton, sponges do well here by being able to use this food source. Digestion of food is  intracellular within a food vacuaole.

What eats poriferans?

There are not many things that eat sponges, partly because they are not very nutritious, partly because they are tough with all that collagen and those spicules and partly as they often have chemical toxins as defence.

Some sea slugs (nudibranchs) will eat them as will some starfish and there is a group of flies called the sponge-flies whose larvae feed on freshwater sponges.

The structure of different sponge types.
picture used permission of Philcha
published under Creative Commons Attribution ShareAlike 3.0 License

Yellow - pinacocytes, cells that cover the outside of the sponge, one cell thick. Those at the base secrete a glue that fixes the sponge to the rock or whatever it is attached to.
Red - choanocytes, cells with a cilium, a whip-like structure that wave and cause the flow of water through the sponge
Grey - mesohyl, none-living jelly-like medium that is embedded with spongin fibres and spicules made of silica or calcium carbonate
Blue - water flow

Feeding in sponges, a fluorescent dye is introduced around the sponge which then
moves through the walls before being ejected through the top opening