Emission of N2O, N-2 and CO2 from soil fertilized with nitrate: Effect of compaction, soil moisture and rewetting

Abstract

Soil compaction and soil moisture are important factors influencing denitrification and N2O emission front fertilized soils. We analyzed the combined effects of these factors on the emission of N2O, N-2 and CO2 from undisturbed soil cores fertilized with (NO3-)-N-15 (150 kg N ha(-1)) in a laboratory experiment. The soil cores were collected from differently compacted areas in a potato field, i.e. the ridges (rho(D) = 1.03 g cm(-1)), the interrow area (rho(D) = 1.24 g cm(-3)), and the tractor compacted interrow area (rho(D) = 1.64 g cm(-3)), and adjusted to constant soil moisture levels between 40 and 98% water-filled pore space (WFPS). High N2O emissions were a result of denitrification and occurred at a WFPS >= 70% in all compaction treatments. N2 production occurred only at the highest soil moisture level (>= 90% WFPS) but it was considerably smaller than the N2O-N emission in most cases. There was no soil moisture effect on CO2 emission from the differently compacted soils with the exception of the highest soil moisture level (98% WTPS) of the tractor-compacted soil in which soil respiration was significantly reduced. The maximum N2O emission rates from all treatments occurred after rewetting of dry soil. This rewetting effect increased with the amount of water added. The results show the importance of increased carbon availability and associated respiratory O-2 consumption induced by soil drying and rewetting for the emissions of N2O, (c) 2005 Elsevier Ltd. All rights reserved.