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The Largest Bio-Silica Structure on Earth : The Giant Basal Spicule from the Deep-Sea Glass Sponge Monorhaphis chuni
Joint Authors
Jochum, Klaus P.
Gan, Lu
Schröder, Heinz C.
Müller, Werner E. G.
Wang, Xiaohong
Source
Evidence-Based Complementary and Alternative Medicine
Issue
Vol. 2011, Issue 2011 (31 Dec. 2011), pp.1-14, 14 p.
Publisher
Hindawi Publishing Corporation
Publication Date
2011-09-04
Country of Publication
Egypt
No. of Pages
14
Main Subjects
Abstract EN
The depth of the ocean is plentifully populated with a highly diverse fauna and flora, from where the Challenger expedition (1873–1876) treasured up a rich collection of vitreous sponges [Hexactinellida].
They have been described by Schulze and represent the phylogenetically oldest class of siliceous sponges [phylum Porifera]; they are eye-catching because of their distinct body plan, which relies on a filigree skeleton.
It is constructed by an array of morphologically determined elements, the spicules.
Later, during the German Deep Sea Expedition “Valdivia” (1898-1899), Schulze could describe the largest siliceous hexactinellid sponge on Earth, the up to 3 m high Monorhaphis chuni, which develops the equally largest bio-silica structures, the giant basal spicules (3 m × 10 mm).
With such spicules as a model, basic knowledge on the morphology, formation, and development of the skeletal elements could be elaborated.
Spicules are formed by a proteinaceous scaffold which mediates the formation of siliceous lamellae in which the proteins are encased.
Up to eight hundred 5 to 10 μm thick lamellae can be concentrically arranged around an axial canal.
The silica matrix is composed of almost pure silicon and oxygen, providing it with unusual optophysical properties that are superior to those of man-made waveguides.
Experiments indicated that the spicules function in vivo as a nonocular photoreception system.
In addition, the spicules have exceptional mechanical properties, combining mechanical stability with strength and stiffness.
Like demosponges the hexactinellids synthesize their silica enzymatically, via the enzyme silicatein.
All these basic insights will surely contribute also to a further applied utilization and exploration of bio-silica in material/medical science.
American Psychological Association (APA)
Wang, Xiaohong& Gan, Lu& Jochum, Klaus P.& Schröder, Heinz C.& Müller, Werner E. G.. 2011. The Largest Bio-Silica Structure on Earth : The Giant Basal Spicule from the Deep-Sea Glass Sponge Monorhaphis chuni. Evidence-Based Complementary and Alternative Medicine،Vol. 2011, no. 2011, pp.1-14.
https://search.emarefa.net/detail/BIM-479950
Modern Language Association (MLA)
Wang, Xiaohong…[et al.]. The Largest Bio-Silica Structure on Earth : The Giant Basal Spicule from the Deep-Sea Glass Sponge Monorhaphis chuni. Evidence-Based Complementary and Alternative Medicine No. 2011 (2011), pp.1-14.
https://search.emarefa.net/detail/BIM-479950
American Medical Association (AMA)
Wang, Xiaohong& Gan, Lu& Jochum, Klaus P.& Schröder, Heinz C.& Müller, Werner E. G.. The Largest Bio-Silica Structure on Earth : The Giant Basal Spicule from the Deep-Sea Glass Sponge Monorhaphis chuni. Evidence-Based Complementary and Alternative Medicine. 2011. Vol. 2011, no. 2011, pp.1-14.
https://search.emarefa.net/detail/BIM-479950
Data Type
Journal Articles
Language
English
Notes
Includes bibliographical references
Record ID
BIM-479950