Hydrogen isotopic composition (δ2H) of diatom-derived C20 highly branched isoprenoids from lake sediments tracks lake water δ2H

Abstract

The hydrogen isotopic composition of lake water (δ2Hlw) reflects hydrological processes, which can yield information about evaporation and precipitation changes through time when preserved in lake sediment archives. Unfortunately, few proxies exist that record only δ2Hlw. Instead, most δ2Hlw records represent a mix of aquatic and terrestrial material. Highly branched isoprenoids (HBIs), known to be produced by diatoms in marine and lacustrine settings, may be used as a lake water proxy to directly reconstruct hydroclimate, if the hydrogen isotopic composition of HBIs (δ2HHBI) reflects the δ2Hlw. We test this hypothesis by analyzing 78 sediment samples from 12 lakes in the Adirondack Mountains in New York, for HBI concentrations and δ2H. δ2HHBI was compared to δ2Hlw, which showed an average fractionation (εHBI/lw) of −127.3 ± 15.0‰ (1σ) for all samples in all lakes. Consistency in εHBI/lw between samples implies that δ2HHBI may be used to reconstruct δ2Hlw through time, to help assess how lake systems have changed in the past. Sediment samples collected from deeper (>4 m) zones within the lake had smaller variability in εHBI/lw (±11.9‰, 1σ) than samples from shallower zones, suggesting that εHBI/lw may be sensitive to other factors, such as light availability, which may be related to differences in diatom growth habit (e.g., benthic, planktonic). Similarly, the carbon isotopes of HBIs (δ13CHBI) were higher for sediment samples collected in deeper zones in the lake, suggesting that δ13CHBI can be used to further understand differences in HBI synthesis in diatom communities living in different growth habitats.