Everything about Spicule totally explained
» This article is about the skeletal structure. See also Spicule (solar physics).
Spicules are
skeletal structures that occur in most
sponges. They provide structural support and deter
predators. Large spicules, visible to the naked eye are referred to as megascleres, while smaller, microscopic ones are termed microscleres. The term
spicule can also refer to structures on other organisms, such as the
copulatory spicules of certain
nematodes. This article discusses sponge spicules.
Spicules have four major symmetry types: Monaxon (simple cylinders with pointed ends), triaxon, tetraxon, and polyaxon. Sponges can be
calcareous,
siliceous, or composed of
spongin. The meshing of many spicules serves as the sponge’s
skeleton. The composition, size, and shape of spicules is one of the largest determining factors in sponge
taxonomy.
Spicules are formed by
sclerocytes, which are derived from archaeocytes. The sclerocyte begins with an organic, and adds silica to it. Spicules are generally elongated at a rate of 1-10 μm per hour. Once the spicule reaches a certain length it protrudes from the sclerocyte
cell body, but remains within the cell’s
membrane. On occasion, sclerocytes may begin a second spicule while the first is still in progress.
Recent research on the
Euplectella aspergillum (Venus' Flower Basket) has demonstrated that the spicules of certain deep-sea sponges have similar traits to
fiber optic cables. In addition to being able to trap and transport light, these spicules have a number of advantages over commercial fiber optic wire. They are stronger, resist stress easier, and form their own support elements. Also, the low-temperature formation of the spicules, as compared to the high temperature stretching process of commercial fiber optics, allows for the addition of
impurities which improve the
refractive index. In addition, these spicules have built-in
lenses in the ends which gather and focus light in dark conditions. It has been theorized that this ability may function as a light source for
symbiotic algae (as with
Rosella racovitzae) or as an attractor for
shrimp which live inside the Venus' Flower Basket. However, a conclusive decision hasn't been reached; it may be that the light capabilities are simply a coincidental trait from a purely structural element.
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