A1 Journal article (refereed)
Reduction of forest soil biota impacts tree performance but not greenhouse gas fluxes (2025)


Georgopoulos, K., Bezemer, T. M., Christiansen, J. R., Larsen, K. S., Moerman, G., Vermeulen, R., Anslan, S., Tedersoo, L., & Gomes, S. I. (2025). Reduction of forest soil biota impacts tree performance but not greenhouse gas fluxes. Soil Biology and Biochemistry, 200, Article 109643. https://doi.org/10.1016/j.soilbio.2024.109643


JYU authors or editors


Publication details

All authors or editorsGeorgopoulos, Konstantinos; Bezemer, T. Martijn; Christiansen, Jesper Riis; Larsen, Klaus Steenberg; Moerman, Gina; Vermeulen, Roos; Anslan, Sten; Tedersoo, Leho; Gomes, Sofia IF.

Journal or seriesSoil Biology and Biochemistry

ISSN0038-0717

eISSN1879-3428

Publication year2025

Publication date02/11/2024

Volume200

Article number109643

PublisherElsevier

Publication countryUnited Kingdom

Publication languageEnglish

DOIhttps://doi.org/10.1016/j.soilbio.2024.109643

Research data linkhttps://doi.org/10.5061/dryad.dfn2z35bg

Publication open accessOpenly available

Publication channel open accessPartially open access channel

Publication is parallel published (JYX)https://jyx.jyu.fi/handle/123456789/98391


Abstract

Soil communities are essential to ecosystem functioning, yet the impact of reducing soil biota on root-associated communities, tree performance, and greenhouse gas (GHG) fluxes remains unclear. This study examines how different size fractions of soil biota from young and mature forests influence Alnus glutinosa performance, root-associated community composition, and GHG fluxes. We conducted a mesocosm experiment using soil community fractions (wet sieving through 250, 20, 11, and 3 μm) from young and mature forest developmental stages as inocula. The results indicate that the root-associated community composition was shaped by forest developmental stage but not by the size of the community fractions. Inoculation with the largest size fraction from mature forests negatively affected tree growth, likely due to increased competition between the plants and soil biota. In addition, GHG fluxes were not significantly impacted by either size fraction or forest developmental stage despite the different community composition supplied. Overall, our research indicates that A. glutinosa strongly selects the composition of the root-associated community, despite differences in the initial inoculum, and this composition varies depending on the stage of ecosystem development, impacting the performance of the trees but not GHG fluxes.


Keywordssoil biologysoil biotamycorrhizamycorrhizal fungiAlnus incanagreenhouse gases

Free keywordssoil microbial community; root associated community composition; fractionation; greenhouse gas fluxes; alnus glutinosa


Contributing organizations


Ministry reportingYes

JUFO rating3

Preliminary JUFO rating3


Last updated on 2024-20-11 at 20:05