Dynamic stability of mineral-associated organic matter: enhanced stability and turnover through organic fertilization in a temperate agricultural topsoil

Mayer, Marius; Leifeld, Jens; Szidat, Sönke; Mäder, Paul; Krause, Hans-Martin; Steffens, Markus (2023). Dynamic stability of mineral-associated organic matter: enhanced stability and turnover through organic fertilization in a temperate agricultural topsoil. Soil Biology & Biochemistry, 184, p. 109095. Elsevier 10.1016/j.soilbio.2023.109095

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Soil organic matter (SOM) plays a vital role for soil quality, sustainable food production and climate change mitigation. It is common knowledge that SOM consists of different pools with varying qualities, quantities, and turnover times. However, it is still poorly understood how mineral and organic fertilization affects the formation and stabilization of mineral-associated organic matter (MAOM) and how long it can remain there. Here, we report on the long-term effects of different farming systems on the stability and turnover of the fine silt and clay-sized MAOM fraction (<6.3 μm) of a Haplic Luvisol (0–20 cm) in the DOK long-term trial (Switzerland). We compared three farming systems with contrasting fertilization (CONMIN = pure mineral, CONFYM = mineral + organic, BIODYN = pure organic) with an unfertilized control (NOFERT) between 1982 and 2017. We performed specific surface area (SSA) measurements on fractionated MAOM samples (<6.3 μm) from 1982 to 2017, before and after removal of OM, measured the 14C activity of all samples during the entire period and estimated the mean residence time (MRT) with a model taking into account ‘bomb 14C’ and radioactive decay. We found constant MAOM-C contents under organic fertilization. Results of SSA analysis indicate best conditions for MAOM-C stabilization under organic fertilization and different sorption mechanisms in MAOM between farming systems with and without organic fertilization. The modelled MRTs were significantly higher in NOFERT (238 ± 40 yrs) and CONMIN (195 ± 27 yrs), compared to CONFYM (138 ± 18 yrs) and BIODYN (140 ± 19 yrs), implying a high C turnover (i.e. more active MAOM) at high C contents under organic fertilization. Our findings show that MAOM is not the dead OM but corroborates the concept of ‘dynamic stability’. Continuous OM inputs from organic fertilizers and their rapid and constant turnover are needed to stabilize the “stable” MAOM-C fraction.

Item Type:	Journal Article (Original Article)
Division/Institute:	08 Faculty of Science > Institute of Geography > Physical Geography > Unit Soil Science 10 Strategic Research Centers > Oeschger Centre for Climate Change Research (OCCR) 08 Faculty of Science > Department of Chemistry, Biochemistry and Pharmaceutical Sciences (DCBP) 08 Faculty of Science > Institute of Geography 08 Faculty of Science > Institute of Geography > Physical Geography
UniBE Contributor:	Szidat, Sönke, Steffens, Markus
Subjects:	900 History > 910 Geography & travel 500 Science > 570 Life sciences; biology 500 Science > 540 Chemistry 500 Science > 550 Earth sciences & geology
ISSN:	0038-0717
Publisher:	Elsevier
Language:	English
Submitter:	Sönke Szidat
Date Deposited:	02 Aug 2023 06:26
Last Modified:	20 Aug 2023 02:37
Publisher DOI:	10.1016/j.soilbio.2023.109095
BORIS DOI:	10.48350/185161
URI:	https://boris.unibe.ch/id/eprint/185161

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Dynamic stability of mineral-associated organic matter: enhanced stability and turnover through organic fertilization in a temperate agricultural topsoil

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