Tracing of recently assimilated carbon in respiration at high temporal resolution in the field with a tuneable diode laser absorption spectrometer after in situ 13CO2 pulse labelling of 20-year-old beech trees

doi:10.1093/treephys/tpp072

Tree Physiology Advance Access originally published online on September 21, 2009
Tree Physiology 2009 29(11):1433-1445; doi:10.1093/treephys/tpp072

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Tracing of recently assimilated carbon in respiration at high temporal resolution in the field with a tuneable diode laser absorption spectrometer after in situ ¹³CO₂ pulse labelling of 20-year-old beech trees

Caroline Plain¹^,2, Dominique Gerant¹^,2, Pascale Maillard¹^,2, Masako Dannoura¹^,3, Yanwen Dong¹^,2, Bernd Zeller⁴, Pierrick Priault¹^,2, Florian Parent¹^,2 and Daniel Epron¹^,2^,5

¹ Nancy Université, Université Henri Poincaré, UMR 1137, Ecologie et Ecophysiologie Forestières, Faculté des Sciences, F-54500 Vandoeuvre les Nancy, France
² INRA, UMR 1137, Ecologie et Ecophysiologie Forestières, Centre de Nancy, F-54280 Champenoux, France
³ Laboratory of Forest Hydrology, Division of Environmental Science and Technology, Graduate School of Agriculture, Kyoto University, Kyoto 606-8502, Japan
⁴ INRA, UR1139, Biogéochimie des Ecosystèmes Forestiers, Centre de Nancy, F-54280 Champenoux, France
⁵ Corresponding author (daniel.epron{at}scbiol.uhp-nancy.fr)

Abstract

The study of the fate of assimilated carbon in respiratory fluxesin the field is needed to resolve the residence and transfertimes of carbon in the atmosphere–plant–soil systemin forest ecosystems, but it requires high frequency measurementsof the isotopic composition of evolved CO₂. We developed a closedtransparent chamber to label the whole crown of a tree and alabelling system capable of delivering a 3-h pulse of 99% ¹³CO₂in the field. The isotopic compositions of trunk and soil CO₂effluxes were recorded continuously on two labelled and onecontrol trees by a tuneable diode laser absorption spectrometerduring a 2-month chase period following the late summer labelling.The lag times for trunk CO₂ effluxes are consistent with a phloemsap velocity of about 1 m h^–1. The isotopiccomposition ( ${delta}$ ¹³C) of CO₂ efflux from the trunk was maximal 2–3 daysafter labelling and declined thereafter following two exponentialdecays with a half-life of 2–8 days for the firstand a half-life of 15–16 days for the second. Theisotopic composition of the soil CO₂ efflux was maximal 3–4 daysafter labelling and the decline was also well fitted with asum of two exponential functions with a half-life of 3–5 daysfor the first exponential and a half-life of 16–18 daysfor the second. The amount of label recovered in CO₂ effluxwas around 10–15% of the assimilated ¹³CO₂ for soil and5–13% for trunks. As labelling occurred late in the growingseason, substantial allocation to storage is expected.

Keywords: carbon allocation, Fagus sylvatica, residence time, soil CO₂ efflux, trunk CO₂ efflux

Received April 8, 2009; Accepted August 4, 2009

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