Sponsored Links

Kamis, 30 November 2017

Sponsored Links

Biological Fiber Optic Nanotech - Venus' Flower Basket - YouTube
src: i.ytimg.com

The Venus' flower basket (Euplectella aspergillum) is a hexactinellid sponge in the phylum Porifera inhabiting the deep ocean.

The sponge symbiotically houses two small shrimp, a male and a female, who live out their lives inside the sponge. The shrimp breed, and when their offspring are tiny, they escape to find a new Venus' flower basket of their own. The shrimp inside the basket clean it and, in return, the basket provides food for the shrimp by trapping it in its tissues and then releasing wastes into the body of the sponge for the shrimp. It is also speculated that the bioluminescent light of bacteria harnessed by the sponge may attract other small organisms which the shrimp eat.

In Japan, this symbiotic relationship symbolizes the idea "till death do us part", and the sponge is given as a wedding gift (in a dead, dry state).

Venus' flower baskets were also extremely popular in Victorian England, and one could easily fetch five guineas, equivalent to over £500 today.


Video Venus' flower basket



Occurrence

''E. aspergillum is found in a small area of the sea nearby the Philippine Islands. Similar species occur near Japan and in other parts of the western Pacific Ocean and the Indian Ocean.



Maps Venus' flower basket



Morphology

The body structure of these animals is a thin-walled, cylindrical, vase-shaped tube with a large central atrium. The body is composed entirely of silica in the form of 6-pointed siliceous spicules, which is why they are commonly known as glass sponges. The spicules are composed of 3 perpendicular rays giving them 6 points. Spicules are microscopic, pin-like structures within the sponge's tissues that provide structural support for the sponge. It is the combination of spicule forms within a sponge's tissues that helps identify the species. In the case of glass sponges the spicules "weave" together to form a very fine mesh which gives the sponge's body a rigidity not found in other sponge species and allows glass sponges to survive at great depths in the water column.


Attenborough's Ark: Venus' Flower Basket | Benvironment
src: 3.bp.blogspot.com


Optical fibers and solar cells

The glassy fibers that attach the sponge to the ocean floor, 5-20 cm long and thin as human hair, are of interest to fiber optics researchers. The sponge extracts silicic acid from seawater and converts it into silica, then forms it into an elaborate skeleton of glass fibers. Other sponges such as the orange puffball sponge (Tethya aurantium) can also produce glass biologically. The current manufacturing process for optical fibers requires high temperatures and produces a brittle fiber. A low-temperature process for creating and arranging such fibers, inspired by sponges, could offer more control over the optical properties of the fibers. These nano-structures are also potentially useful for the creation of more efficient, low-cost solar cells.


Venus Flower Basket Sponge Skeleton Euplectella aspergillum Stock ...
src: c8.alamy.com


Material strength

These sponges skeletons have complex geometric configurations, which have been extensively studied for their stiffness, yield strength, and minimal crack propagation. An aluminum tube (aluminum and glass have similar elastic modulus) of equal length, effective thickness, and radius, but homogeneously distributed, has 1/100th the stiffness.


Real Monstrosities: Ludicrously Ornate Sponge
src: 3.bp.blogspot.com


References

  • William McCall, AP (August 20, 2003). "Glassy sponge has better fiber optics than man-made". 
  • Joanna Aizenberg et al. PNAS 2004. "Biological glass fibers: Correlation between optical and structural properties" (PDF). 
  • Kevin Bullis (Nov-Dec 2006). "Silicon and Sun". Technology Review. 
  • Clare Valentine. Encyclopedia of Life. 

Critter of the Week : the venus flower baskets Euplectellidae | NIWA
src: www.niwa.co.nz


External links

  • The Venus' flower basket and skyscrapers YouTube.

Source of the article : Wikipedia

Comments
0 Comments