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Do NO, N 2 O, N 2 and CO 2 fluxes differ in soils sourced from cropland and varying riparian buffer vegetation? An incubation study.

Jerry C DlaminiE H TesfamariamM VerbeeckN LoickA Louro-LopezJ M B HawkinsM S A BlackwellR M DunnA L CollinsL M Cardenas
Published in: Soil use and management (2023)
Riparian buffers are expedient interventions for water quality functions in agricultural landscapes. However, the choice of vegetation and management affects soil microbial communities, which in turn affect nutrient cycling and the production and emission of gases such as nitric oxide (NO), nitrous oxide (N 2 O), nitrogen gas (N 2 ) and carbon dioxide (CO 2 ). To investigate the potential fluxes of the above-mentioned gases, soil samples were collected from a cropland and downslope grass, willow and woodland riparian buffers from a replicated plot scale experimental facility. The soils were re-packed into cores and to investigate their potential to produce the aforementioned gases via potential denitrification, a potassium nitrate (KNO 3 - ) and glucose (labile carbon)-containing amendment, was added prior to incubation in a specialized laboratory DENItrification System (DENIS). The resulting NO, N 2 O, N 2 and CO 2 emissions were measured simultaneously, with the most NO (2.9 ± 0.31 mg NO m -2 ) and N 2 O (1413.4 ± 448.3 mg N 2 O m -2 ) generated by the grass riparian buffer and the most N 2 (698.1 ± 270.3 mg N 2  m -2 ) and CO 2 (27,558.3 ± 128.9 mg CO 2 m -2 ) produced by the willow riparian buffer. Thus, the results show that grass riparian buffer soils have a greater NO 3 - removal capacity, evidenced by their large potential denitrification rates, while the willow riparian buffers may be an effective riparian buffer as its soils potentially promote complete denitrification to N 2 , especially in areas with similar conditions to the current study.
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