Impact of different soil erosion levels on gross N transformation processes and gaseous N losses
2025
Schoof, Julia | Holz, Maire | Rütting, Tobias | Well, Reinhard | Buchen-Tschiskale, Caroline
Erosion is a key driver of topsoil removal in agriculture, resulting in nutrient losses and leaving truncated soil profiles on shoulder slopes, where subsoil material can be incorporated into topsoil by the plough, changing soil properties and, thus, altering biogeochemical cycling and associated nitrogen (N) losses. To date, the effects of topsoil erosion on N cycling have rarely been investigated. We conducted a short-term mesocosm experiment, integrating 15N tracing techniques to quantify N transformation processes, focusing on N availability and N losses in three artificially eroded agricultural topsoils. Nitrogen transformation pathways were simulated using the numerical model Ntrace, considering N uptake by maize (Zea mays L.) at early development stages. The 15N label also allows the quantification of nitrous oxide (N2O) and dinitrogen (N2) losses by applying the 15N gas flux method (15NGF). Erosion induced topsoil dilution significantly reduced gross N turnover and consequently N2O and N2 emissions in both treatments with and without plants. The oxidation of ammonium (NH4+) to nitrate (NO3−) was by far the dominating N pathway across all investigated topsoils, followed by Norg mineralization > NH4+ immobilization. However, more than 90 % of total N2O losses derived from the NO3− pool, with coupled nitrification-denitrification assumed to be the dominant process at water contents of ∼40 % water-filled pore space (WFPS). Although maize more than doubled N2O + N2 emissions in some treatments, the overall effect of topsoil dilution on gaseous N losses was considerably greater, independent of maize presence. Our study contributes to a more comprehensive understanding of N cycling in erosion-affected agricultural soils, which is essential for enhancing N fertilizer use efficiencies and reducing N pollution.
Show more [+] Less [-]AGROVOC Keywords
Bibliographic information
Publisher Elsevier Science
ISSN 0038-0717This bibliographic record has been provided by Thünen-Institut
