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- Title
Soil Bulk Density and Moisture Content Influence Relative Gas Diffusivity and the Reduction of Nitrogen-15 Nitrous Oxide.
- Authors
Klefoth, Roland R.; Clough, Tim J.; Oenema, Oene; Van Groenigen, Jan-Willem
- Abstract
Soil bulk density and moisture influence N2O movement and its reduction. This isotope study shows the sensitivity reduction of N2O, a greenhouse gas, to soil physical properties and their effect on gas diffusion. Increasing soil bulk density and water content promoted N2O reduction. Nitrous oxide is a greenhouse gas and contributes to stratospheric ozone depletion. Soil physical conditions may influence N2O reduction and subsequent N2O emissions. We studied how soil water-filled pore space (WFPS) and soil bulk density (ρb) affect N2O reduction and surface fluxes. Columns were repacked with soil and arranged in a factorial design at three levels of WFPS (60, 75, and 90%) and three levels of soil ρb (0.94, 1.00, 1.07 Mg m-3). Over 19 d, 15N-enriched N2O was introduced at the base of the soil columns and N2O fluxes were measured. Relative gas diffusivities (Dp/Do) were also calculated. Soil ρb and WFPS interacted to affect the recovery of N2O-15N and the antecedent inorganic-N contribution to surface fluxes. Reduction rates of N2O-15N ranged from 0.15 to 0.47 mg N2O-N g-1 soil d-1. Calculated Dp/Do values correlated (P < 0.01) with soil NH4+-N (r = -0.73), NO3--N (r = 0.93), cumulative N2O-N flux (r = 0.76), and N2O-N 15N enrichment (r = 0.80) and were affected by a soil WFPS x soil ρb interaction. Soil N transformations and the net surface N2O flux is dependent on the soil's Dp/Do, and WFPS alone does not suffice to discriminate between N2O emission sources. Consequently, the soil surface N2O flux may be comprised of N2O originating from deeper soil layers transported upward and/or from production in the topsoil.
- Subjects
SOIL moisture; NITROUS oxide; NITROGEN; OZONE layer depletion; STRATOSPHERE
- Publication
Vadose Zone Journal, 2014, Vol 13, Issue 11, p6
- ISSN
1539-1663
- Publication type
Article
- DOI
10.2136/vzj2014.07.0089