Spanish Shawl Nudibranch - Flabellina iodinea Profile

Spanish Shawl Nudibranch - Flabellina iodinea Profile    The Spanish shawl nudibranch (Flabellina iodinea), also known as the purple aeolis, is a striking nudibranch, with a purple or bluish body, red rhinophores and orange cerata. Spanish shawl nudibranchs can grow to about 2.75 inches in length. Unlike some nudibranchs, which remain on their chosen substrate, this nudibranch can swim in the water column by flexing its body from side to side in a u-shape. Click here for a video of a Spanish shawl nudibranch swimming. Seeing this nudibranch swimming may remind you of the fringed shawls worn by Flamenco dancers, for which this nudibranch gets its name.    Classification:    Kingdom: Animalia Phylum: Mollusca Class: Gastropoda Order: Nudibranchia Family: Flabellinoidea Genus: Flabellina species: iodinea    Habitat and Distribution: You might think of a colorful creature like this as inaccessible - but Spanish shawl nudibranchs are found in relatively shallow water in the Pacific Ocean from British Columbia, Canada to the Galapagos Islands. They can be found in intertidal areas out to a water depth of about 130 feet. Feeding: This nudibranch feeds on a species of hydroid (Eudendrium ramosum), which possesses a pigment called astaxanthin. This pigment gives the Spanish shawl nudibranch its brilliant color. In the Spanish shawl nudibranch, the astaxanthin shows up in 3 different states, creating the purple, orange and red colors found on this species. Astaxanthin is also found in other marine creatures, including lobsters (which contributes to the lobsters red appearance when cooked), krill, and salmon. Reproduction:    Nudibranchs are hermaphroditic - they poses reproductive organs of both sexes, so they can mate opportunistically when another nudibranch is nearby. Mating occurs when two nudibranchs get together - the reproductive organs are on the right side of the body, so the nudibranchs match up their right sides. Usually both animals pass sperm sacs through a tube, and eggs are laid. Nudibranchs may be found first by seeing their eggs - if you see eggs, the adults who laid them may be nearby. The Spanish shawl nudibranch lays ribbons of eggs that are pinkish-orange in color, and are often found on the hydroids upon which it preys. After about a week, the eggs develop into free-swimming veligers, which eventually settle on the ocean bottom as a miniature nudibranch that grows into a larger adult.    Sources:    Goddard, J.H.R. 2000. Flabellina iodinea (Cooper, 1862).  Sea Slug Forum. Australian Museum, Sydney. Accessed November 11, 2011.McDonald, G. Intertidal Invertebrates of the Monterey Bay Area, California.  Accessed November 11, 2011.Rosenberg, G. and Bouchet, P. 2011. Flabellina iodinea (J. G. Cooper, 1863). World Register of Marine Species. Accessed on November 14, 2011.SeaLifeBase. Flabellina iodinea. Accessed November 14, 2011.

Berkelium Element Facts - Atomic Number 97 or Bk

Berkelium Element Facts - Atomic Number 97 or Bk Berkelium is one of the radioactive synthetic elements made in the cyclotron at Berkeley, California and the one that honors the work of this lab by bearing its name. It was the fifth transuranium element discovered (following neptunium, plutonium, curium, and americium). Heres a collection of facts about element 97 or Bk, including its history and properties: Element Name Berkelium Atomic Number 97 Element Symbol Bk Atomic Weight 247.0703 Berkelium Discovery Glenn T. Seaborg, Stanley G. Thompson, Kenneth Street, Jr., and Albert Ghiorso produced berkelium in December, 1949 at the University of California, Berkeley (United States). The scientists bombarded americium-241 with alpha particles in a cyclotron to yield berkelium-243 and two free neutrons. Berkelium Properties Such a small quantity of this element has been produced that very little is known about its properties. Most of the available information is based on predicted properties, based on the elements location on the periodic table. It is a paramagnetic metal and has one of the lowest bulk modulus  values of the actinides. Bk3 ions are fluorescent at 652 nanometers (red) and 742 nanometers (deep red). Under ordinary conditions, berkelium metal assumes hexagonal symmetry, transforming to a face-centered cubic structure under pressure at room temperature, and an orthorhombic structure upon compression to 25 GPa. Electron Configuration [Rn] 5f9  7s2 Element Classification Berkelium is a member of the actinide element group or transuranium element series. Berkelium Name Origin Berkelium is pronounced as  BURK-lee-em. The element is named after Berkeley, California, where it was discovered. The element californium is also named for this lab. Density 13.25 g/cc Appearance Berkelium has a traditional shiny, metallic appearance. It is a soft, radioactive solid at room temperature. Melting Point The melting point of berkelium metal is  986  Ã‚ °C. This value is below that of neighbor element curium  (1340  Ã‚ °C), but higher than that of californium  (900  Ã‚ °C). Isotopes All of the isotopes of berkelium are radioactive. Berkelium-243 was the first isotope to be produced. The most stable isotope is berkelium-247, which has a half-life of 1380 years, eventually decaying into americium-243 via alpha decay. About 20 isotopes of berkelium are known. Pauling Negativity Number 1.3 First Ionizing Energy The first ionizing energy is predicted to be about 600 kJ/mol. Oxidation States The most common oxidation states of berkelium are 4 and 3. Berkelium Compounds Berkelium chloride (BkCl3) was the first Bk compound produced in sufficient quantity to be visible. The compound was synthesized in 1962 and weighed approximately 3 billionths of a gram. Other compounds which have been produced and studied using x-ray diffraction include berkelium oxychloride, berkelium fluoride (BkF3), berkelium dioxide (BkO2), and berkelium trioxide (BkO3). Berkelium Uses Since so little berkelium has ever been produced, there are no known uses of the element at this time aside from scientific research. Most of this research goes toward synthesis of heavier elements. A 22-milligram sample of berkelium was synthesized at Oak Ridge National Laboratory and was used to make element 117 for the first time, by bombarding the berkelium-249 with calcium-48 ions at the Joint Institute for Nuclear Research in Russia. The element does not occur naturally, so additional samples must be produced in a lab. Since 1967, just over 1 gram of berkelium has been produced, in total! Berkelium Toxicity The toxicity of berkelium has not been well-studied, but its safe to assume it presents a health hazard if ingested or inhaled, due to its radioactivity. Berkelium-249 emits low-energy electrons and is reasonably safe to handle. It decays in alpha-emitting californium-249, which remains relatively safe for handling, but does result in free-radical production and self-heating of the sample. Berkelium Fast Facts Element Name: BerkeliumElement Symbol: BkAtomic Number: 97Appearance: Silvery metalElement Category: ActinideDiscovery: Lawrence Berkeley National Laboratory (1949) Sources Emsley, John (2011). Natures Building Blocks: An A-Z Guide to the Elements. New York, NY: Oxford University Press. ISBN 978-0-19-960563-7.Peterson, J. R.; Fahey, J. A.; Baybarz, R. D. (1971). The crystal structures and lattice parameters of berkelium metal. J. Inorg. Nucl. Chem. 33 (10): 3345–51. doi:10.1016/0022-1902(71)80656-5Thompson, S.; Ghiorso, A.; Seaborg, G. (1950). The New Element Berkelium (Atomic Number 97). Physical Review. 80 (5): 781. doi:10.1103/PhysRev.80.781Thompson, Stanley G.; Seaborg, Glenn T. (1950). Chemical Properties of Berkelium. OSTI Technical Report doi:10.2172/932812