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No evidence of isotopic fractionation in olive trees (<i>Olea europaea</i>): a stable isotope tracing experiment

Anam Amin, Giulia Zuecco, Chiara Marchina, Michael Engel, Daniele Penna, Jeffrey J. McDonnell, Marco Borga

2021Hydrological Sciences Journal18 citationsDOIOpen Access PDF

Abstract

Plant transpiration is the dominant water flux in the global terrestrial water balance and a key process in the hydrological sciences. Stable isotopes have contributed greatly to this understanding but one difficult assumption for plant water source quantification using hydrogen and oxygen isotopes is that no isotopic fractionation occurs during water uptake and transport within the plant. Here we present a simple glasshouse experiment with two potted olive trees to test isotopic fractionation. We irrigated the trees with labelled water and cryogenically extracted water from twigs, cores and roots. We found no significant differences in the isotopic composition of water extracted from wood cores and twigs in distinct parts of the trees as they reflected the signature of labelled water. However, significant differences were obtained between plant water and deep soil water. Our results suggest no isotopic fractionation in olive trees, under the specific experimental conditions, validating the traditional isotope-tracing approach.

Topics & Concepts

FractionationTranspirationStable isotope ratioOleaIsotope fractionationIsotope analysisIsotopeOlive treesChemistryIsotopic signatureEnvironmental chemistryBotanyWater contentEnvironmental scienceGeologyBiologyPhotosynthesisEcologyChromatographyGeotechnical engineeringQuantum mechanicsPhysicsPlant Water Relations and Carbon DynamicsGroundwater and Isotope GeochemistryTree-ring climate responses
No evidence of isotopic fractionation in olive trees (<i>Olea europaea</i>): a stable isotope tracing experiment | Litcius