Inferring Phytoplankton, Terrestrial Plant and Bacteria Bulk δ¹³C Values from Compound Specific Analyses of Lipids and Fatty Acids
Sami J. Taipale, Elina Peltomaa, Minna Hiltunen, Roger I. Jones, Martin W. Hahn, Christina Biasi, Michael T. Brett

TL;DR
This study shows how to estimate carbon isotope values of phytoplankton, bacteria, and plant matter using specific lipids and fatty acids, improving food web analysis in aquatic ecosystems.
Contribution
The paper introduces a novel method to infer bulk δ¹³C values of phytoplankton, bacteria, and terrestrial matter using compound-specific isotope analysis of lipids and fatty acids.
Findings
Lipid δ¹³C values strongly correlate with bulk δ¹³C values across phytoplankton, bacteria, and terrestrial matter.
Isotopic differences between biomarker fatty acids and bulk biomass vary by organism type, with uncertainties within ±1.4‰.
Phytoplankton lipid content is higher than bacteria and terrestrial matter, influencing isotopic analysis accuracy.
Abstract
Stable isotope mixing models in aquatic ecology require δ13C values for food web end members such as phytoplankton and bacteria, however it is rarely possible to measure these directly. Hence there is a critical need for improved methods for estimating the δ13C ratios of phytoplankton, bacteria and terrestrial detritus from within mixed seston. We determined the δ13C values of lipids, phospholipids and biomarker fatty acids and used these to calculate isotopic differences compared to the whole-cell δ13C values for eight phytoplankton classes, five bacterial taxa, and three types of terrestrial organic matter (two trees and one grass). The lipid content was higher amongst the phytoplankton (9.5±4.0%) than bacteria (7.3±0.8%) or terrestrial matter (3.9±1.7%). Our measurements revealed that the δ13C values of lipids followed phylogenetic classification among phytoplankton (78.2% of…
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Taxonomy
TopicsIsotope Analysis in Ecology · Isotope Analysis in Ecology · Isotope Analysis in Ecology
