Deshayesites deshayesi

 Discovered in Russia, Deshayesites

Iridescent ammonite fossils are remarkable examples of fossilized marine cephalopods that exhibit a shimmering, rainbow-like play of colors. This iridescence is a result of the preservation of the original shell's microstructure, which can diffract light. The phenomenon is not only aesthetically striking but also scientifically significant, providing insights into the conditions under which these fossils were formed and preserved.

Ammonites, including those with iridescent shells, possessed a planispiral shell, meaning it coiled in a single plane. This coiling produced a spiral structure with numerous whorls, which are the complete 360-degree turns of the shell. The shells of ammonites were made primarily of aragonite, a crystalline form of calcium carbonate. In some cases, the aragonite has been preserved, allowing for the iridescent effect to be seen in fossils.

The iridescence in ammonite fossils is due to the preservation of the nacreous (mother-of-pearl) layer of the shell. This layer is composed of microscopic, plate-like crystals of aragonite arranged in a highly ordered structure. When light hits these microscopic layers, it is diffracted and reflected, creating the iridescent effect. The colors seen in iridescent ammonites can range from vibrant blues and greens to reds and purples, depending on the thickness and arrangement of the aragonite layers.

For the iridescence to be preserved in an ammonite fossil, specific conditions are required during the fossilization process. The key factors include:

1. Rapid Burial: The ammonite must be rapidly buried in sediment shortly after death to prevent decomposition and damage to the shell.

2. Low Oxygen Environment: The sediment must create an anaerobic (low oxygen) environment to slow down the decay of organic material and the dissolution of the aragonite shell.

3. Stable Geochemical Conditions: The surrounding sediment and water chemistry must remain stable over geological time to prevent the dissolution of the aragonite and its replacement by other minerals.

Iridescent ammonite fossils are a stunning testament to the beauty and complexity of ancient marine life. The iridescence results from the preservation of the nacreous layer of the shell, with its microscopic, light-diffracting aragonite crystals. These fossils not only captivate collectors and paleontologists alike with their beauty but also provide valuable scientific insights into the conditions of fossilization and the biology of ammonites. The study of iridescent ammonite fossils continues to enhance our understanding of these fascinating creatures and the ancient environments they inhabited.

According to metaphysics: All fossils are thought to support transformation and change. They are believed to assist you in moving from the old to the new and be receptive to the fresh, innovative forces. Ammonites in particular have a few different meanings depending on the coloration. They have an incredibly diverse coloration, with brown and black being the primary energies emanating from this fossil. Brown is often linked to grounding and stability, while black represents protection and transformation.

All minerals and fossils vary slightly in size and shape. You will receive a high quality specimen of the selected item but not the exact one pictured. All minerals, gems, stones and fossils are guaranteed to be top quality; sourced from ethical vendors around the world.