2015
DOI: 10.5194/bg-12-1585-2015
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Spatial variability and hotspots of soil N<sub>2</sub>O fluxes from intensively grazed grassland

Abstract: and the high spatial variability of N 2 O flux across the field are shown to be linked to the distribution of waste from grazing animals and the resultant reactive nitrogen compounds in the soil which are made available for microbiological processes. Features within the field such as shaded areas and manure heaps contained significantly higher available nitrogen than the rest of the field. Although these features only represented 1.1 % of the area of the field, they contributed to over 55 % of the total estima… Show more

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Cited by 62 publications
(68 citation statements)
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“…With respect to grasslands, no direct comparisons have been published. The intensity of grassland management and related N 2 O emissions vary widely, dependent on the rate and type of nitrogen inputs and the prevailing climate (temperature/moisture) (Cowan et al, 2015;Kelliher et al, 2017). For perennial crops planted onto intensively managed grassland, where nitrogen fertilizer and urine excretion by livestock result in high N 2 O emissions, we expect postestablishment emissions to be significantly lower, but empirical data are needed to quantify this.…”
Section: Introductionmentioning
confidence: 99%
“…With respect to grasslands, no direct comparisons have been published. The intensity of grassland management and related N 2 O emissions vary widely, dependent on the rate and type of nitrogen inputs and the prevailing climate (temperature/moisture) (Cowan et al, 2015;Kelliher et al, 2017). For perennial crops planted onto intensively managed grassland, where nitrogen fertilizer and urine excretion by livestock result in high N 2 O emissions, we expect postestablishment emissions to be significantly lower, but empirical data are needed to quantify this.…”
Section: Introductionmentioning
confidence: 99%
“…The two studies described here followed a similar experimental design to that of Hodge & Fitter (2010) using dried, milled Zea mays L. leaves mixed with an agricultural soil (which had a high N 2 O production rate; Storer, 2013), to create organic matter 'patches'. These organic matter patches represent 'N 2 O hotspots' which commonly occur in natural systems (Cowan et al, 2015). Both experiments tested the hypothesis that AMF hyphae would reduce N 2 O production from the organic matter patches, while the second experiment further examined the hypothesis that a reduction in N 2 O production was a consequence of reduced nitrification rates in the presence of AMF hyphae.…”
Section: Introductionmentioning
confidence: 99%
“…There is still large uncertainty associated with the quantification of N 2 O emissions released from agricultural soils on a national and global scale, due to the large spatial and temporal variability in N 2 O fluxes (Cowan et al, 2015;Jahangir et al, 2011;Mathieu et al, 2006). Many past experiments have focussed on the release of N 2 O from soils after the application of nitrogen fertilisers -which is the main cause of the rise of in N 2 O emissions since pre-industrial times (e.g.…”
Section: Introductionmentioning
confidence: 99%