Impact of terrestrial organic matter input on distributions of hydroxylated isoprenoidal GDGTs in marine sediments: Implications for OH-isoGDGT-based temperature proxies

Publication date

2025-08

Authors

Varma, Devika
IJedema, Yord WillowISNI 0000000506754003
Peterse, FrancienORCID 0000-0001-8781-2826ISNI 0000000492917456
Reichart, Gert JanISNI 0000000049622557
Sinninghe Damste, J.S.ORCID 0000-0002-8683-1854ISNI 0000000390349312
Schouten, StefanISNI 0000000387885288

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Abstract

Isoprenoidal glycerol dialkyl glycerol tetraethers (isoGDGTs) and hydroxylated isoGDGTs (OH-isoGDGTs) are widespread in marine, lacustrine, and terrestrial environments and serve as paleoenvironmental proxies. Several indices based on their distributions, such as TEX86 (based on isoGDGTs), RI-OH, RI-OH′ (both based on OH-isoGDGTs), %OH and TEX86OH (both based on isoGDGTs and OH-isoGDGTs), have been utilized as sea water temperature proxies. Although terrestrial organic matter (OM) input of isoGDGTs may affect the TEX86 in coastal marine settings, relatively little is known on its consequences for OH-isoGDGT distributions and related proxies. Here, we studied the distributions of OH-isoGDGTs in soils, rivers, and coastal marine settings at three locations: the Kara Sea, the Iberian margin, and the northern Gulf of Mexico, receiving terrestrial OM through the Yenisei, the Tagus and the Mississippi Rivers, respectively. In general, we observe higher relative abundances of OH-isoGDGTs (%OH) in coastal marine environments compared to soils and rivers from the same area. Comparison of OH-isoGDGT distributions shows that, in particular, the abundance of OH-isoGDGT with one cyclopentane moiety relative to total OH-isoGDGTs was lower in terrestrial settings. In general, the RI-OH was higher in terrestrial settings, while such a consistent offset was not observed for RI-OH′. The TEX86OH index, exhibits a distinct difference between terrestrial and marine settings, similar to the pattern observed for the TEX86. This similarity is primarily attributed to the relatively minor influence of terrestrial OH-isoGDGTs compared to regular isoGDGTs in the TEX86OH index. Despite these differences, only the coastal sediments of the Kara Sea showed indications of a potential bias of OH-isoGDGTs-based proxies caused by terrestrial OM input. However, these distributional variations may also be caused by the large salinity gradient in the Kara Sea, since it has been established that salinity has an effect on the distributions of OH-isoGDGTs. Our results show that caution should be exercised when interpreting temperature estimates based on OH-isoGDGT proxies in marine settings affected by large river outflows resulting in a substantial terrestrial OM input and/or have a strong salinity gradient.

Keywords

Gulf of Mexico, Hydroxylated GDGT, Iberian margin, Kara Sea, Salinity, Terrestrial organic matter, Geochemistry and Petrology, SDG 14 - Life Below Water

Citation

Varma, D, Yedema, Y W, Peterse, F, Reichart, G J, Sinninghe Damsté, J S & Schouten, S 2025, 'Impact of terrestrial organic matter input on distributions of hydroxylated isoprenoidal GDGTs in marine sediments : Implications for OH-isoGDGT-based temperature proxies', Organic Geochemistry, vol. 206, 105010. https://doi.org/10.1016/j.orggeochem.2025.105010