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Rouchon V.,Musoum National DHistoire Naturelle | Badet H.,Musoum National DHistoire Naturelle | Belhadj O.,Musoum National DHistoire Naturelle | Bonnerot O.,Musoum National DHistoire Naturelle | And 3 more authors.
Journal of Raman Spectroscopy | Year: 2012

Fossil materials that contain iron sulfide are well known for their instability when exposed to oxygen and humidity. This term however combines a great variety of materials showing different types of damages. Most of them consist of crystal efflorescence appearing on the surface and inside the matrix. In this work, a methodology was determined for the analysis of these damages by the use of Raman and infrared spectroscopy. The infrared and Raman signatures of a large set of iron sulfates were characterized. Specific attention was paid to sideronatrite and ferrinatrite, which are two associated sodium/ iron(III) sulfates, and their infrared and Raman bands were partially assigned. Analysis performed on a selection of 11 damaged fossils showed a great variety of degradation products: besides one case that appeared to be a synthetic resin close to polyvinylchloride acetate, which was applied with a brush on the fossil surface, all degradation products belong to the sulfate group. However, many iron-free sulfates, such as gypsum, halotrichite, epsomite, or pentahydrite were found, often in association with iron sulfates. In one case, despite the presence of iron in the matrix, no iron sulfate could be detected. This shows that the term 'pyritic fossil', commonly used by collection managers, is not appropriate as it oversimplifies the reality. A name such as 'sulfide-containing fossil' would be more suitable. Copyright © 2012 John Wiley & Sons, Ltd.

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