Complementary effects of sorption and biochemical processing of dissolved organic matter for emerging structure formation controlled by soil texture

Abstract: BackgroundPercolating dissolved organic matter (DOM) from the topsoil is considered the main source of subsoil organic carbon (OC) in temperate soils, but knowledge about its influence on OC storage and structure‐forming processes is limited.AimsWe conducted a 30‐day incubation experiment with artificial soils to study the effects of percolating DOM and soil texture on OC turnover and initial structure formation.MethodsArtificial soils with contrasting texture, but identical mineral composition, were used to m… Show more

“…These were complemented by experimental pedogenesis studies (cf. Bucka et al, 2019;Lehmann et al, 2018;Pronk et al, 2012;Ritschel et al, 2023): The dynamic relocation experiment explored the stability of microaggregates against physicochemical stress under dynamic flow conditions, and the nuclei-framing experiment examined the aggregate formation processes without mechanical disturbance (e.g., Bucka et al, 2019Bucka et al, , 2024.…”

Structure–function co‐evolution during pedogenesis—Microaggregate development and turnover in soils

“…These were complemented by experimental pedogenesis studies (cf. Bucka et al, 2019;Lehmann et al, 2018;Pronk et al, 2012;Ritschel et al, 2023): The dynamic relocation experiment explored the stability of microaggregates against physicochemical stress under dynamic flow conditions, and the nuclei-framing experiment examined the aggregate formation processes without mechanical disturbance (e.g., Bucka et al, 2019Bucka et al, , 2024.…”

Structure–function co‐evolution during pedogenesis—Microaggregate development and turnover in soils

“…Consequently, it is not surprising that the approach to identify and characterize aggregates and their sizes could appear vague or not very systematic (Baveye, 2021; Letey, 1991; Young et al., 2001). But even if an exact determination of where or when aggregates originate and how they evolve or stabilize between snapshots is not feasible, we can still identify the mechanisms and processes that lead to (dis)aggregation (e.g., Bucka et al., 2024; Martin et al., 1955; Roosch et al., 2024) and derive the impact of aggregates on fluxes of energy and matter.…”

The “extra pinch” of pseudosand to enhance tropical biogeochemical processes understanding

Roots exert greater influence on soil respiration than aboveground litter in a subalpine Cambisol