The influence of sediment diagenesis and aluminium on oxygen isotope exchange of diatom frustules

The oxygen isotope composition of diatom frustules, delta O-18(diatom), is thought to reflect the isotopic composition of the ambi-ent seawater at the time of biomineralization. However, the delta O-18(diatom) can be overprinted due to the susceptibility of silanol groups (both external and internal) to isotope exchange. Here, using high-resolution imaging, we investigate what factors may influence this post-mortem isotopic alteration during the initial stages of diagenesis in the sediment. A diatomaceous clay was incubated with 18O-enriched seawater with fresh diatom detritus placed at the sediment-water interface (SWI) and at depth in the sediment. NanoSIMS analysis showed that the fresh diatom detritus as well as fossil frustules became significantly enriched in O-18, and that a relationship between Al-content and 18O-exchange could be observed. To further study the potential role of Al as an inhibitor of oxygen exchange, we measured Al on the surface of fossil frustules and performed additional incubations of diatom detritus in seawater with various concentrations of dissolved Al. The presence of Al-rich material bound to the surface of fossil frustules did not reduce the extent of O-18-enrichment in the underlying silica. However, exposure of diatoms detritus to dissolved Al, which led to a significant increase in frustule Al/Si ratio and a homogenously distributed Al in the frustule valve, significantly lowered the amount of 18O-enrichment. We hypothesize that Al incorporated into the silica structure can slow down 18O exchange while Al present as surface contaminants (clays or other aluminosilicates) has no inhibitory role. (c) 2022 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/ licenses/by/4.0/).

Automated summary

This study investigates the factors influencing the post-mortem isotopic alteration of diatom frustules during initial stages of diagenesis in sediment. The results show that both fresh diatom detritus and fossil frustules become enriched in O-18, and a relationship between Al-content and 18O-exchange is observed. The presence of Al incorporated into the silica structure slows down 18O exchange, while Al as surface contaminants has no inhibitory role.