The role of isotopically different terrestrial plants in controlling sedimentary n-alkane 2H/1H composition

Nikolai Pedentchouk, Yvette Eley

Research output: Contribution to conferenceAbstractpeer-review


Recent studies of modern terrestrial plants growing at a single location reveal that 2H/1H fractionation between source water and leaf wax n-alkyl lipids can vary by up to 100‰. This provides a challenge for interpreting sedimentary n-alkyl δ2H records, because the contribution of isotopically different plants can shift through time. Palaeohydrological studies often either ignore this factor or try accounting for it by identifying the presence/absence of vegetation change using n-alkane molecular distributions or δ13C values. To evaluate potential problems associated with those approaches, we applied two different methods for reconstructing palaeoprecipitation δ2H from n-alkanes extracted from 1 m core from Stiffkey saltmarsh, Norfolk, UK. We found that sediment n-alkane 2H values shifted by up to 70‰ since the 1500’s, with the main positive excursion between the 1720’s and 1820’s. Over the same period, however, δ13C values varied by only 1-3‰. We used the IsoConc mixing model to predict down-core vegetation change. We identified three time intervals where plant contributions shifted. We then calculated palaeoprecipitation δ2H using: (a) previously published εwax/water, and (b) εwax/water calculated for the Stiffkey plants. The palaeoprecipitation δ2H determined using the first approach showed 30-45‰ shifts from the 1620’s to 1870’s. In contrast, calculations using εwax/water derived specifically for the Stiffkey plants showed only small fluctuations of <14‰. This study demonstrates that the assumption of a minimal role of shifts in isotopically different palaeovegetation may lead to erroneous conclusions regarding δ2H values of paleoprecipitation. In addition, selection of appropriate εwax/water values is critical for accurate reconstruction of this parameter. New methods are required to identify, quantify, and correct for vegetation shifts in sedimentary sequences to ensure the influence of plant community change can be evaluated when interpreting biomarker δ2H records.
Original languageEnglish
Publication statusPublished - 2014
EventAmerican Geophysical Union (AGU) Fall Meeting 2014 - San Francisco, United Kingdom
Duration: 15 Dec 201419 Dec 2014


ConferenceAmerican Geophysical Union (AGU) Fall Meeting 2014
Country/TerritoryUnited Kingdom
CitySan Francisco

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