Evidence for a biological origin of uranium-rich carbon masses within the Ediacaran Salt Range Formation of Pakistan

Brett Valentine; Paul C. Hackley; Martha Stokes; Maitrayee Bose; Ryan J. McAleer; Imran Khan

doi:10.1016/j.orggeochem.2026.105226

Evidence for a biological origin of uranium-rich carbon masses within the Ediacaran Salt Range Formation of Pakistan

Organic Geochemistry

By: Brett Valentine, Paul C. Hackley, Martha Stokes, Maitrayee Bose, Ryan J. McAleer, and Imran Khan

https://doi.org/10.1016/j.orggeochem.2026.105226

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Abstract

Thucholites are unique organic structures found in igneous and sedimentary rocks composed of a U-C-rich interior enclosed by an organic outer shell. Their formation and occurrence have perplexed scientists for over 100 years. Typically, thucholites are sparse in sedimentary rocks but where found in abundance, they may be the result of rapid paleoecological disruptions, e.g., volcanic ashfall. Here, we evaluated thucholites from the Ediacaran Salt Range Formation of the Indus Basin in Pakistan using field emission scanning electron microscopy (FESEM) and nanoscale secondary ion mass spectroscopy (NanoSIMS) to propose a two-stage mechanism for thucholite development. NanoSIMS results suggest organic matter in thucholite cores formed by biological fractionation (represented by the presence of lighter ¹³C/¹²C and ³⁴S/³²S) while the outer organic mantle formed via radiolysis-induced polymerization. FESEM elemental analysis confirms compositional differences between the two thucholite components (core and mantle), further implying their contrasting origins. Dimensional comparison of thucholite cores and their U-bearing mineral morphologies to ancient and modern U-biomineralized microbes suggests that the thucholite cores formed from metal-biological interactions. The presence of volcanogenic biotite, alkali feldspar, and clay spherules (interpreted as devitrified volcanic glass) with thucholite suggests that the thucholite cores in the Salt Range Formation are biological responses to rapid paleoenvironmental change from volcanic eruption which preserved the fossilized morphologies of Proterozoic microorganisms.

Suggested Citation

Valentine, B., Hackley, P.C., Stokes, M., Bose, M., McAleer, R.J., and Khan, I., 2026, Evidence for a biological origin of uranium-rich carbon masses within the Ediacaran Salt Range Formation of Pakistan: Organic Geochemistry, v. 219, 105226, 10 p., https://doi.org/10.1016/j.orggeochem.2026.105226.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Evidence for a biological origin of uranium-rich carbon masses within the Ediacaran Salt Range Formation of Pakistan
Series title	Organic Geochemistry
DOI	10.1016/j.orggeochem.2026.105226
Volume	219
Publication Date	June 20, 2026
Year Published	2026
Language	English
Publisher	Elsevier
Contributing office(s)	Geology, Energy & Minerals Science Center
Description	105226, 10 p.
Country	Pakistan
Other Geospatial	Salt Range