Warming promotes loss of subsoil carbon through accelerated degradation of plant-derived organic matter
Abstract
Increasing global temperatures have the potential to stimulate decomposition and alter the composition of soil organic matter (SOM). However, questions remain about the extent to which SOM quality and quantity along the soil profile may change under future warming. In this study we assessed how +4 °C whole-soil warming affected the quantity and quality of SOM down to 90 cm depth in a mixed-coniferous temperate forest using biomarker analyses. Our findings indicate that 4.5 years of soil warming led to divergent responses in subsoils (>20 cm) as compared to surface soils. Warming enhanced the accumulation of plant-derived n-alkanes over the whole soil profile. In the subsoil, this was at the expense of plant- and microorganism-derived fatty acids, and the relative abundance of SOM molecular components shifted from less microbially transformed to more transformed organic matter. Fine root mass declined by 24.0 ± 7.5% with warming over the whole soil profile, accompanied by reduced plant-derived inputs and accelerated decomposition of aromatic compounds and plant-derived fatty acids in the subsoils. Our study suggests that warming accelerated microbial decomposition of plant-derived inputs, leaving behind more degraded organic matter. The non-uniform, and depth dependent SOM composition and warming response implies that subsoil carbon cycling is as sensitive and complex as in surface soils. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000474255Publication status
publishedExternal links
Journal / series
Soil Biology and BiochemistryVolume
Pages / Article No.
Publisher
ElsevierSubject
Whole soil warming; Deep soil organic matter; Biomarker; Alkanes; Fatty acids; DecompositionOrganisational unit
03982 - Six, Johan / Six, Johan
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