Soil Carbon

Research publications concerning biodynamics
Mark
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Soil Carbon

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Soil organic carbon cycling in a long-term agricultural experiment, Switzerland

Bliedtner, Marcel; Stalder, Tobias; Mäder, Paul; Fließbach, Andreas; Salazar, Gary; Sönke, Szidat and Zech, Roland

Soils are one of the largest organic carbon pools and changes in the carbon release from soils has considerable impact on the composition of atmospheric CO2. Alongside the accelerated carbon release from soils by anthro-pogenic warming (Crowther et al., 2016), agricultural use strongly affects soil organic carbon (SOC) (Johnstonet al., 2009). Conversion from conventional to organic farming has been suggested a valuable contribution to sequester SOC providing a great mitigation potential within agricultural practices (Smith et al., 2008).Here we present SOC contents and 14C activity under two different farming practices in the long-termagricultural DOK trial at Therwil, Switzerland (Mäder et al., 2002). In this long-lasting agricultural experiment, we compare biodynamic farming (biodyn), which receives manure and biodynamic preparations, with conventional farming (conmin), which receives only mineral fertilizers. We analyzed functional SOC fractions from both farming practices for SOC concentration and radiocarbon (∆14C) in two soil layers (0-20 cm and 20-50 cm).Three SOC fractions were obtained by density and particle size fractionation: particular organic matter (POM,labile pool), mineral-associated organic matter <20μm (MOM <20μm, stable pool) and mineral-associatedorganic matter >20μm (MOM >20μm, labile pool).Our results clearly show higher SOC concentrations for biodyn compared to conmin in all SOC fractions in the upper soil layer (0-20 cm). In the subsoil (20-50 cm) we found a negligible influence of farming practices with depth. High ∆14C values in the POM and >20μm fraction indicated that they are a more labile and fastcycling carbon pool, whereas lower∆14C values in the <20μm fraction indicate that this fraction represents astable and slowly cycling carbon pool. ∆14C differences between biodyn and conmin occurred in the POM and>20μm fraction, with higher ∆14C values in the biodyn system suggesting greater input of fresh plant material with a faster turnover.