Interplay of community dynamics, temperature, and productivity on the hydrogen isotope signatures of lipid biomarkers

Ladd, S. Nemiah; Dubois, Nathalie; Schubert, Carsten J.

doi:10.5194/bg-14-3979-2017

Cited by 11 publications

(19 citation statements)

References 64 publications

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“…121! in central Switzerland were lower than those of brassicasterol in a nearby oligotrophic 122! lake (Ladd et al, 2017). There was, however, no significant difference in α Lipid-Water 123!…”

Section: Introduction 70!mentioning

confidence: 90%

“…There was, however, no significant difference in α Lipid-Water 123! values for short-chain fatty acids and phytol between the two lakes (Ladd et al, 2017).…”

Section: Introduction 70!mentioning

confidence: 93%

“…filter samples in suspended particles in the surface waters of Lakes Greifen and 709! Lucerne decrease from spring to summer by as much as 150‰ (Ladd et al, 2017). The 710!…”

Section: !mentioning

confidence: 98%

“…From Lakes Greifen and Lucerne water samples were also collected at 188! four additional time points (Ladd et al, 2017).…”

Section: ! 180!mentioning

confidence: 99%

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Lipid compound classes display diverging hydrogen isotope responses in lakes along a nutrient gradient

Ladd

Nelson

Schubert

et al. 2018

Geochimica et Cosmochimica Acta

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Compound specific hydrogen isotope ratios (2 H/ 1 H) of lipid biomarkers 36! preserved in sediments are used as a paleohydrologic proxies. However, several 37! variables, including contributions from different source organisms and their growth 38! rates, can influence 2 H/ 1 H fractionation between lipids and source water. Significant 39! uncertainties remain about how these factors combine to produce the net 2 H/ 1 H signal 40! exported to sediments. 41! To assess the influence of phosphorus availability on 2 H/ 1 H ratios of lipids 42! accumulating in lake sediments, we analyzed surface sediments and sediment traps 43! from ten central Swiss lakes, representing a wide range of trophic states. In agreement 44! with results from laboratory cultures, 2 H/ 1 H fractionation for the diatom biomarker 45! brassicasterol (24-methyl cholest-5,22-dien-3β-ol) increased in more productive lakes 46! (0.6 ± 0.1 ‰ per µg/L total P in sediment traps and surface sediments). In contrast, 47! 2 H/ 1 H fractionation for phytol, the isoprenoid side-chain moiety of chlorophyll, 48! decreased with increasing total P (-0.4 ± 0.1 ‰ per µg/L total P in sediment traps), 49! suggesting that different biochemical mechanisms are responsible for changes in 2 H/ 1 H 50! fractionation for each class of isoprenoidal lipids. Opposing changes in 2 H-51! fractionation for sterols and phytol cause their 2 H/ 1 H ratios to converge as total P 52! increases. This response may be a new tracer for phytoplankton growth conditions and 53! is not influenced by the source water isotope value. 54! Interpreting the 2 H/ 1 H ratios of short to long chain (C 14-C 30) n-alkanoic acids 55! and n-alkanols is complicated by likely contributions from heterotrophs and/or 56! vascular plants. These values generally did not correlate with lake water isotopes, nor 57! did their fractionation factors correlate with total P. For most lipids there was no 58! significant difference between sediment trap and surface sediment 2 H/ 1 H ratios. 59! However, n-C 14n-C 18 fatty acids were 2 H-enriched in the surface sediments, most 60! likely due to degradation in the water column. Our results indicate that interpretations 61! of short-chain fatty acids as a water isotope signal likely require supporting 62! information about ecological conditions and community structure, but that paired H 63! isotope measurements of phytoplankton-derived sterols and phytol may be developed 64! as a proxy for phytoplankton growth.

show abstract

Section: Introduction 70!mentioning

confidence: 90%

“…There was, however, no significant difference in α Lipid-Water 123! values for short-chain fatty acids and phytol between the two lakes (Ladd et al, 2017).…”

Section: Introduction 70!mentioning

confidence: 93%

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Lipid compound classes display diverging hydrogen isotope responses in lakes along a nutrient gradient

Ladd

Nelson

Schubert

et al. 2018

Geochimica et Cosmochimica Acta

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show abstract

“…However, such interspecies differences appear to be averaged 411 out in the soil as n-alkanes from soil samples did show a good correlation between wax C28 n-fatty acid reported from the sedimentary record of an Alpine lake may be due to 414 local factors such as length of growing season, amount of snowfall or anthropogenic 415 modification of the local vegetation (Wirth and Sessions, 2016), factors that are not always 416 well constrained. Ladd et al (2017) investigated the influence of growth rate and temperature 417 on the δ 2 H value of algal lipids (fatty acids and brassicasterol) in an oligotrophic and a 418 eutrophic lake. Although the authors found significant variability in the δ 2 H values of fatty acids 419 throughout the growing season the average δ 2 H value of the C16 n-fatty acid matched the δ 2 H 420 value of the lake water and was also preserved in the surface sediment.…”

Section: Molecule 255mentioning

confidence: 99%

The paleolimnologist's guide to compound-specific stable isotope analysis – An introduction to principles and applications of CSIA for Quaternary lake sediments

Holtvoeth

Whiteside

Engels

et al. 2019

Quaternary Science Reviews

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Plant type effect overweighs seasonal variation in n-alkanoic acid biomarker on regional Loess Plateau of China

Liu,

Ladd,

Zhao

et al. 2024

Sci. China Earth Sci.

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Interplay of community dynamics, temperature, and productivity on the hydrogen isotope signatures of lipid biomarkers

Cited by 11 publications

References 64 publications

Lipid compound classes display diverging hydrogen isotope responses in lakes along a nutrient gradient

Lipid compound classes display diverging hydrogen isotope responses in lakes along a nutrient gradient

The paleolimnologist's guide to compound-specific stable isotope analysis – An introduction to principles and applications of CSIA for Quaternary lake sediments

Plant type effect overweighs seasonal variation in n-alkanoic acid biomarker on regional Loess Plateau of China

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