Sponge spicules can be
calcareous or
siliceous. Siliceous spicules are sometimes embedded in
spongin. Spicules are found in a range of symmetry types.
spp.; (B) Microsclere (sigma) of Mycale quadripartita; (C) Megasclere (oxea) of Haliclona epiphytica; (D) Spicule tetralophose calthrop of homoscleromorph Plakina'' (A) Monaxons form simple
cylinders with pointed ends. The ends of diactinal monaxons are similar, whereas monactinal monaxons have different ends: one pointed, one rounded. Diactinal monaxons are classified by the nature of their ends: oxea have pointed ends, and strongyles are rounded. Spine-covered oxea and strongyles are termed acanthoxea and acanthostrongyles, respectively. and are branching spicules that may take irregular forms, or may form structures with an I, Y or X shape. • Megascleres are large spicules measuring from 60-2000
μm and often function as the main support elements in the skeleton. • Acanthostyles are spiny styles. • Anatriaenes, orthotriaenes and protriaenes are triaenes - megascleres with one long and three short rays. • Strongyles are megascleres with both ends blunt or rounded. • Styles are megascleres with one end pointed and the other end rounded. • Tornotes are megascleres with spear shaped ends. • Tylotes are megascleres with knobs on both ends. • Microscleres are small spicules measuring from 10-60 μm and are scattered throughout the tissue and are not part of the main support element. evolved several times independently, resulting in multiple recruitments of the same genes for biomineralization in different lineages. Among these genes, members of the
alpha carbonic anhydrase gene family (CAs) are essential for biomineralization. The zinc-binding is mediated by three
histidine residues essential for the protein's
catalytic function. CAs are involved in many physiological processes requiring ion regulation or carbon transport, both of which are crucial for the controlled precipitation of carbonate biominerals. In mammals, where they are best studied, 16 different CAs are expressed in specific tissues and active in defined subcellular compartments.
Cytosolic,
mitochondrial,
membrane-bound, and secreted CA forms can be distinguished, and these groups got expanded and reduced in different animal groups. Specific CAs are involved in the carbonate biomineralization in distinct animal lineages, Spicules are formed by
sclerocytes, which are derived from
archaeocytes. The sclerocyte begins with an organic
filament, 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. The shapes of calcareous sponge spicules are simple compared with the sometimes very elaborate siliceous spicules found in the other sponge classes. With only a few exceptions, calcareous sponge spicules can be of three basic types: monaxonic, two-tipped diactines, triactines with three spicules rays, and four-rayed tetractines. Specialized cells, the sclerocytes, produce these spicules, and only a few sclerocytes interact in the formation of one specific spicule: Two sclerocytes produce a diactine, six sclerocytes form a triactine, and seven a tetractines. Calcareous sponges can possess only one or any combination of the three spicule types in their body, and in many cases, certain spicule types are restricted to specific body parts. This indicates that spicule formation is under strict genetic control in calcareous sponges, and specific CAs play an essential role in this genetic controlShown left: The largest biosilica structure on Earth is the giant basal spicule from the deep-sea glass sponge
Monorhaphis chuni. The largest biosilica structure on Earth is the giant basal spicule from the deep-sea
glass sponge Monorhaphis chuni. Siliceous spicules were first described and illustrated in 1753 by
Vitaliano Donati, who found them in the species
Geodia cydonium from the
Adriatic Sea: he called these spicules "little balls". They are later called globular crystalloids, globate spicules, or globostellates by sponge taxonomists, until 1888 when
William Sollas finally coins the term "sterraster" from the Greek
sterros meaning "solid" or "firm" – see diagram on the right. Meanwhile, similar ball-shaped spicules are observed in another genus,
Placospongia, and these are at first considered as "sterrasters" for these different spicules (coming from the Greek
selene for "moon", referring to the "half-moon" shape). Finally, an additional term "aspidaster" is created by von Lendenfeld in 1910, convinced that the flattened sterrasters in the genus
Erylus are significantly different from those in
Geodia. The
Geodia can be massive animals more than a meter across. from shallow temperate/tropical waters worldwide. It is not a very diverse genus with only 10 species currently described (WPD) and a handful of
undescribed species. which suggests that a more detailed study of the sterraster/aspidaster surface would potentially bring new characters for Geodiidae genera identification. ==Spicule "life cycle"==