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Determination of De Novo and Pool Emissions of Terpenes from Four Common Boreal/alpine Trees by 13CO2 Labelling and PTR-MS Analysis

Overview
Journal Plant Cell Environ
Date 2009 Dec 31
PMID 20040067
Citations 36
Authors
Andrea Ghirardo
Kristine Koch
Risto Taipale
Ina Zimmer
Jorg-Peter Schnitzler
Janne Rinne
Affiliations
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Abstract

Boreal forests emit a large amount of monoterpenes into the atmosphere. Traditionally these emissions are assumed to originate as evaporation from large storage pools. Thus, their diurnal cycle would depend mostly on temperature. However, there is indication that a significant part of the monoterpene emission would originate directly from de novo synthesis. By applying 13CO2 fumigation and analyzing the isotope fractions with proton transfer reaction mass spectrometry (PTR-MS) and classical GC-MS, we determined the fractions of monoterpene emissions originating from de novo biosynthesis in Pinus sylvestris (58%), Picea abies (33.5%), Larix decidua (9.8%) and Betula pendula (100%). Application of the observed split between de novo and pool emissions from P. sylvestris in a hybrid emission algorithm resulted in a better description of ecosystem scale monoterpene emissions from a boreal Scots pine forest stand.

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