Coprolites from the Cretaceous Bearpaw Formation of Saskatchewan

• Published in: Cretaceous research Vol. 41; pp. 31 - 38
• Main Authors: Mahaney, W.C., Barendregt, R.W., Allen, C.C.R., Milner, M.W., Bray, D.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.04.2013
• Subjects: Coprolites; Filamentous fungi; Pseudomorphous coccoid bacteria bacterial endospores; SEM of full bolus and coprolite mats; Coprolites; SEM of full bolus and coprolite mats; Filamentous fungi; Pseudomorphous coccoid bacteria bacterial endospores
• ISSN: 0195-6671; 1095-998X
• DOI: 10.1016/j.cretres.2012.10.005

Coprolites from the Beechy Member of the Cretaceous Bearpaw Formation, southern Saskatchewan, presumably deposited by one or more species of mosasaur or large fish/shark, were recovered and analyzed using SEM/EDS. The data reveal the presence of pseudomorphous coccoid bacteria, potential filamentous bacteria, bacterial endospores and filamentous fungi. No recorded fossil plant or bone material could be identified, either within the highly compressed coprolitic mat-flattened full coprolite bolus – of recovered marine sediment encased in a mixed mat of hematite–apatite primary minerals heavily coated with Ca-smectite and nontronite, or the full coprolite bolus. The presence of fossil bacteria with morphological characteristics similar to those of endospores in other environments suggests that only robust microbial forms such as these survive diagenesis, partly with some carbon still intact, the remainder replaced with silica and iron. The data support the view that coprolites can serve as a useful source of information on the ancient microbial world. ► Upper Cretaceous Coprolite analysis. ► Pseudomorphous bacteria composition in marine coprolites. ► Endospores in coprolites. ► Coprolites as archives of the ancient microbial world.