Feather in Amber - SOLD Cretaceous Burmite Showcase - 0.88"
Feather in Amber - SOLD Cretaceous Burmite Showcase - 0.88"
This incredible specimen is a one-of-a-kind 0.88" Feather in Amber specimen. Contained within the golden bead of amber is a feather dating to the Cretaceous Period over 65,000,000 years ago!
It is a unique and beautiful piece of history from the Age of Dinosaurs. This and other Burmite amber pieces come from the Hukawng Valley of Northern Myanmar (Burma). Cretaceous Burmese amber has been found to have inclusions of a high diversity of terrestrial fauna and flora. The piece comes with a display case along with a certificate of authenticity.
Fossilized Insects & More in Amber
Millions of years ago, insects were trapped within sticky pieces of resin. In some cases, feathers, small lizards, and even a dinosaur tail were also subjected to this capturing process. We can now find all these items in all their beauty within the golden beads of amber.
This specimen is one of these fascinating displays of historical preservation, an authentic piece of amber which dates back 65,000,000 years all the way to the Cretaceous. This amber piece is one of our showcase specimens, a one-of-a-kind item like no other. The material is single-sourced directly from the Hukawng Valley of Northern Myanmar (Burma.)
This is one of the most visually unique fossils in our collection — just don't use it to clone any dinosaurs.
Each specimen is enclosed in a handsome, glass-topped riker box case measuring 4 1/2" x 3 1/2". A certificate of authenticity is also included.
You can find more amber in the collection below!
MORE ABOUT AMBER
What is amber?
Amber is a unique fossil substance that shines with a golden hue. For millennia it has been an object of interest to many cultures and some pieces are especially interesting due to the prehistoric creatures captured within. The story of these nuggets of time all begins millions of years ago with an insect and a tree.
When a plant is damaged by a hungry bug, it secretes a substance called resin to activate its defense system. Resin is a viscous material produced by plants, primarily from conifers, that is both sticky and smelly (some might say fragrant). This scent lures the insect towards it, where it can quickly become trapped in the resin. In essence, it is an ancient and organic flypaper.
The tackiness of resin comes from carboxylic acids which make up the bulk of its mass. Hydrocarbon compounds known as terpenes provide the fragrance. Together, these organic compounds create the perfect bug-catching defense for trees. In fact, if you've ever enjoyed the scent of a pine candle, you may be falling for the very same evolutionary trap!
When compressed and heated beneath layers of sediment for millions of years, tree resin undergoes a process of molecular polymerization. This changes the chemical structure of the resin, making it tougher and stony. The result is a low-density, amorphous solid known as amber.
A World Inside
When recovered, amber is often dull, reddish-brown, or even gray. After polishing, amber practically glows. The original color of the resin is preserved in a beautiful yellow-orange, but the material becomes translucent, allowing you to see what's been captured inside. Thanks to the stickiness of the original material, small objects can be perfectly preserved during the fossilization process. These are called inclusions, and they range from dust and pollen to insects and even fossilized lizards!
The discovery of amber with animal inclusions is always an incredible find. While they can't exactly be used to clone dinosaurs, they tell us a lot about the anatomy of prehistoric insects and help us better understand their evolutionary paths. When you hold a bead of insect amber, you're looking through a portal to our planet's past.
Known as Burmite, Cretaceous Burmese amber has been found to have inclusions of a high diversity of terrestrial fauna and flora. At least 228 families of organisms have been recorded, including many new taxa. Arthropods (insects) are predominant, with mites, ticks, termites, and lice being the most abundant.
Further Reading
Daza, Juan D., Edward L. Stanley, Philipp Wagner, Aaron M. Bauer, and David A, Grimaldi. "Mid-Cretaceous amber fossils illuminate the past diversity of tropical lizards." Science Advances 2(3) 4 March 2016. Web. 5 April 2019.
Grimaldi, David A., Michael S. Engel, and Paul C. Nascimbene. "Fossiliferous Cretaceous amber from Myanmar (Burma): its rediscovery, biotic diversity, and paleontological significance." American Museum Novitates (2002): 1-71.
Pierson, Jessica A. Late Cretaceous (Campanian and Maastrichtian) Sequence Stratigraphy, Southeastern North Carolina, USA. Diss. University of North Carolina at Wilmington, 2003.
Shi, Guanghai, David A. Grimaldi, George E. Harlow, Jing Wang, Jun Wang, Mengchu Yang, Weiyan Lei, Qiuli Li, and Xianhua Li. "Age constraint on Burmese amber based on U-Pb dating of zircons." Cretaceous Research 37 (2012) 155-163. Web. 5 April 2019.
Swift, Donald JP, and S. Duncan Heron Jr. "Tidal deposits in the Cretaceous of the Carolina Coastal Plain." Sedimentary Geology 1 (1967): 259-282.
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