Natural History, including Apex the Stegosaurus

Natural History, including Apex the Stegosaurus

View full screen - View 1 of Lot 21. Large Iridescent Ammonite.

Large Iridescent Ammonite

Late Cretaceous (approx. 71 million years ago), Bearpaw Formation, Alberta, Canada

Auction Closed

July 17, 03:28 PM GMT

Estimate

30,000 - 50,000 USD

Lot Details

Description

Large Iridescent Ammonite

Placenticeras costatum

Late Cretaceous (approx. 71 million years ago)

Bearpaw Formation, Alberta, Canada


18⅞ x 16⅞ x 3 inches (48 x 43 x 7.6 cm), 23⅜ inches (59.4 cm) tall on stand. 23.1 pounds (10.5 kg).


A large individual ammonite shell with a beautifully cleaned and polished surface. Complete with custom metal and wood stand.

AN EXCEPTIONAL AND LARGE RAINBOW AMMONITE DISPLAYING A FULL SPECTRUM OF VIBRANT COLORS


Placenticeras ("flat horn") was a fast-swimming, predaceous cephalopod — a taxonomic class that includes present-day nautilus, octopus, and squid. Much like a submarine, ammonites employed gas- and liquid-filled chambers to regulate their position in the water column. The animal itself lived only in the outermost compartment, employing its tubular siphuncle to connect its chambers along the shell's ventral surface.


While dinosaurs ruled the land during the Late Cretaceous, Placenticeras flourished in the oceans and spanned the globe. However, the vast majority of these species resided in the Western Interior Seaway, an ocean that cut North America in half from the Arctic Circle to what is now the Gulf of Mexico. In ideal circumstances for preservation, a recently-deceased ammonite would sink to the bottom of the sea and become covered in sediment. Over time, its muddy tomb would become converted to shale, and it is these ancient shale deposits in the Canadian Rockies that yield the world's most significant — and only gem-quality — ammolite deposits.


Along with amber and pearl, ammolite is one of the world's only biogenic gems. Resembling inorganic opal, it is found exclusively in the shells of ammonites that have undergone the fossilization process known as permineralization.


The quality of gem ammolite is determined by a number of factors, first and foremost being its number of primary colors: reds and greens are somewhat more common, whereas blues and purples are much more rare. Also of great significance is the range of the ammolite's chromatic shift, graded by the way its colors change in hue and intensity as they diffract light when viewed from different angles. Lastly, the ammolite's magnitude of iridescence impacts its quality and value, with the finest specimens displaying large and uninterrupted swaths of lustrous, rainbow-like colors. On each of these metrics, this specimen's ammolite is first-rate.