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Microscale carbon distribution around pores and particulate organic matter varies with soil moisture regime

Steffen Schlüter, Frederic Leuther, Lukas Albrecht, Carmen Hoeschen, Rüdiger Kilian, Ronny Surey, Robert Mikutta, Klaus Kaiser, Carsten W. Mueller, Hans J. Vogel

2022Nature Communications179 citationsDOIOpen Access PDF

Abstract

Soil carbon sequestration arises from the interplay of carbon input and stabilization, which vary in space and time. Assessing the resulting microscale carbon distribution in an intact pore space, however, has so far eluded methodological accessibility. Here, we explore the role of soil moisture regimes in shaping microscale carbon gradients by a novel mapping protocol for particulate organic matter and carbon in the soil matrix based on a combination of Osmium staining, X-ray computed tomography, and machine learning. With three different soil types we show that the moisture regime governs C losses from particulate organic matter and the microscale carbon redistribution and stabilization patterns in the soil matrix. Carbon depletion around pores (aperture > 10 µm) occurs in a much larger soil volume (19-74%) than carbon enrichment around particulate organic matter (1%). Thus, interacting microscale processes shaped by the moisture regime are a decisive factor for overall soil carbon persistence.

Topics & Concepts

Microscale chemistryParticulatesMoistureCarbon fibersParticulate organic matterParticulate organic carbonEnvironmental scienceWater contentOrganic matterSoil carbonTotal organic carbonPorosityMaterials scienceSoil scienceSoil waterEnvironmental chemistryChemistryComposite materialGeologyEcologyGeotechnical engineeringBiologyMathematicsNutrientMathematics educationPhytoplanktonComposite numberSoil and Unsaturated FlowSoil Carbon and Nitrogen DynamicsPeatlands and Wetlands Ecology
Microscale carbon distribution around pores and particulate organic matter varies with soil moisture regime | Litcius