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An isotope approach based on 13C pulse-chase labelling vs. the root trenching method to separate heterotrophic and autotrophic respiration in cultivated peatlands

Christina Biasi, A. Pitkämäki, Niina M. Tavi, Hannu T. Koponen, Pertti J. Martikainen

2024Työväentutkimus Vuosikirja21 citationsDOIOpen Access PDF

Abstract

We tested an isotope method based on 13 C pulse-chase labelling for determining the fractional contribution of soil microbial respiration to overall soil respiration in an organic soil (cutaway peatland, eastern Finland), cultivated with the bioenergy crop, reed canary grass.The plants were exposed to 13 CO 2 for five hours and the label was thereafter determined in CO 2 derived from the soil-root system.A two-pool isotope mixing model was used to separate sources of respiration.The isotopic approach showed that a minimum of 50% of the total CO 2 originated from soil-microbial respiration.Even though the method uses undisturbed soil-plant systems, it has limitations concerning the experimental determination of the true isotopic signal of all components contributing to autotrophic respiration.A trenching experiment which was comparatively conducted resulted in a 71% fractional contribution of soil-microbial respiration.This value was likely overestimated.Further studies are needed to evaluate critically the output from these two partitioning approaches.

Topics & Concepts

RespirationSoil respirationAutotrophPeatEnvironmental scienceAgronomyHeterotrophSoil waterSoil scienceChemistryEnvironmental chemistryBotanyEcologyBiologyBacteriaGeneticsPeatlands and Wetlands EcologySoil Carbon and Nitrogen DynamicsBioenergy crop production and management
An isotope approach based on 13C pulse-chase labelling vs. the root trenching method to separate heterotrophic and autotrophic respiration in cultivated peatlands | Litcius