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                    O emissions due to nitrogen fertilizer applications in two regions of sugarcane cultivation in Brazil

Signor, Diana; Cerri, Carlos Eduardo Pellegrino; Conant, Richard T.

doi:10.1088/1748-9326/8/1/015013

Cited by 110 publications

(81 citation statements)

References 42 publications

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“…This value is close to the default value of 1% of the N applied used by the IPCC (IPCC, 2006) but lower than those of other field studies with sugarcane (Allen et al, 2010;Carmo et al, 2013;Denmead et al, 2010;Signor et al, 2013;Weier et al, 1998). Carmo et al (2013) found an emission factor of 0.7% of N applied as urea in sugarcane fields in Brazil, but the fertilizer emission factor increased to 3% when vinasse and harvest trash were present.…”

Section: Discussionsupporting

confidence: 62%

“…However, when vinasse, a residue of ethanol production, was applied, the N fertilizer emission factor increased to 3%. In two other regions in Brazil, Signor et al (2013) reported higher losses of N 2 O in sugarcane fields than those reported by Carmo et al (2013).…”

mentioning

confidence: 62%

“…2). Other researchers also showed greater N 2 O emissions in the first weeks after N fertilizer application, attributing this effect to increased N availability for nitrification and denitrification processes and favorable environmental conditions for N 2 O emissions such as rainfall, high soil moisture, temperature, and available C ( Jumadi et al, 2008;Linzmeier et al, 2001;Menéndez et al, 2006;Signor et al, 2013;Weitz et al, 2001;Zaman et al, 2008).…”

Section: Discussionmentioning

confidence: 91%

See 2 more Smart Citations

Enhanced-Efficiency Fertilizers in Nitrous Oxide Emissions from Urea Applied to Sugarcane

et al. 2015

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The environmental benefits of producing biofuels from sugarcane have been questioned due to greenhouse gas emissions during the biomass production stage, especially nitrous oxide (N 2 O) associated with nitrogen (N) fertilization. The objective of this work was to evaluate the use of nitrification inhibitors (NIs) dicyandiamide (DCD) and 3,4 dimethylpyrazole phosphate (DMPP) and a controlled-release fertilizer (CRF) to reduce N 2 O emissions from urea, applied at a rate of 120 kg ha -1 of N. Two field experiments in ratoon cycle sugarcane were performed in Brazil. The treatments were (i) no N (control), (ii) urea, (iii) urea+DCD, (iv) urea+DMPP, and (v) CRF. Measurements of N 2 O fluxes were performed using static chambers with four replications. The measurements were conducted three times per week during the first 3 mo and biweekly afterward for a total of 217 and 382 d in the first and second seasons, respectively. The cumulative N 2 O-N emissions in the first ratoon cycle were 1098 g ha -1 in the control treatment and 1924 g ha -1 with urea (0.7% of the total N applied). Addition of NIs to urea reduced N 2 O emissions by more than 90%, which did not differ from those of the plots without N. The CRF treatment showed N 2 O emissions no different from those of urea. The results were similar in the second ratoon: the treatment with urea showed N 2 O emissions of 0.75% of N applied N. Application of NIs resulted in a strong reduction in N 2 O emissions, but CRF increased emissions compared with urea. We therefore conclude that both NIs can be options for mitigation of greenhouse gas emission in sugarcane used for bioenergy.

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Section: Discussionsupporting

confidence: 62%

mentioning

confidence: 62%

Section: Discussionmentioning

confidence: 91%

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Enhanced-Efficiency Fertilizers in Nitrous Oxide Emissions from Urea Applied to Sugarcane

et al. 2015

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“…However, results from a growing number of field experiments with multiple N fertilizer rates indicate that emissions of N 2 O respond in an exponentially increasing manner to increasing N inputs across a range of fertilizer formulations, climates, and soil types (e.g., refs. [13][14][15][16], suggesting that EFs are not constant but increase monotonically with N additions.…”

mentioning

confidence: 99%

Global metaanalysis of the nonlinear response of soil nitrous oxide (N ₂ O) emissions to fertilizer nitrogen

Shcherbak

Millar

Robertson

2014

Proc. Natl. Acad. Sci. U.S.A.

927

566

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Nitrous oxide (N 2 O) is a potent greenhouse gas (GHG) that also depletes stratospheric ozone. Nitrogen (N) fertilizer rate is the best single predictor of N 2 O emissions from agricultural soils, which are responsible for ∼50% of the total global anthropogenic flux, but it is a relatively imprecise estimator. Accumulating evidence suggests that the emission response to increasing N input is exponential rather than linear, as assumed by Intergovernmental Panel on Climate Change methodologies. We performed a metaanalysis to test the generalizability of this pattern. From 78 published studies (233 site-years) with at least three N-input levels, we calculated N 2 O emission factors (EFs) for each nonzero input level as a percentage of N input converted to N 2 O emissions. We found that the N 2 O response to N inputs grew significantly faster than linear for synthetic fertilizers and for most crop types. N-fixing crops had a higher rate of change in EF (ΔEF) than others. A higher ΔEF was also evident in soils with carbon >1.5% and soils with pH <7, and where fertilizer was applied only once annually. Our results suggest a general trend of exponentially increasing N 2 O emissions as N inputs increase to exceed crop needs. Use of this knowledge in GHG inventories should improve assessments of fertilizer-derived N 2 O emissions, help address disparities in the global N 2 O budget, and refine the accuracy of N 2 O mitigation protocols. In low-input systems typical of sub-Saharan Africa, for example, modest N additions will have little impact on estimated N 2 O emissions, whereas equivalent additions (or reductions) in excessively fertilized systems will have a disproportionately major impact.fertilizer response | greenhouse gas emissions | agriculture | bioenergy | greenhouse gas mitigation

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“…The influence of management practices on GHG emissions associated with sugarcane production has been the focus of numerous studies comparing conventional to reduced tillage (Packer et al, 2015), increasing soil organic matter , fertilizer applications (Signor;Cerri;Conant, 2013) and crop rotations (Oliveira Bordonal et al, 2013). The current studies that have examined alterations in the GHG balances have used life-cycle approaches.…”

Section: Introductionmentioning

confidence: 99%

Sugarcane residue management impact soil greenhouse gas

et al. 2018

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Mechanized sugarcane harvest is replacing the historic practice of field burning, due to environmental concerns of the particulate and emissions during burning. However, the impact of these practices on soil greenhouse gas (GHG) production potential is not fully known. Thus, the present work quantified the potential production, in 1 g of soil, of greenhouse gases (GHG) in three systems of sugarcane management. The systems were: area with a history of burning sugarcane before harvest (B) and another with two systems of management of "green sugarcane" in two periods of implantation -5 (G-5) and 10 years (G-10). A laboratory incubation experiment was used to assess the production potentials of carbon dioxide (CO 2 ), nitrous oxide (N 2 O) and methane (CH 4 ) in 1g of soil samples by the different sugarcane management systems. The results of this study demonstrate that the sugarcane management systems had an impact on the potential production of CO2 in the soil. In addition, when the results of gases were divided from convex and concave areas, differences in CO2 patterns between areas B and G-10 were observed, with greater emission in the G-10 area, probably due the residue on the soil surface.

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N ₂ O emissions due to nitrogen fertilizer applications in two regions of sugarcane cultivation in Brazil

Cited by 110 publications

References 42 publications

Enhanced-Efficiency Fertilizers in Nitrous Oxide Emissions from Urea Applied to Sugarcane

Enhanced-Efficiency Fertilizers in Nitrous Oxide Emissions from Urea Applied to Sugarcane

Global metaanalysis of the nonlinear response of soil nitrous oxide (N ₂ O) emissions to fertilizer nitrogen

Sugarcane residue management impact soil greenhouse gas

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N 2 O emissions due to nitrogen fertilizer applications in two regions of sugarcane cultivation in Brazil

Cited by 110 publications

References 42 publications

Enhanced-Efficiency Fertilizers in Nitrous Oxide Emissions from Urea Applied to Sugarcane

Enhanced-Efficiency Fertilizers in Nitrous Oxide Emissions from Urea Applied to Sugarcane

Global metaanalysis of the nonlinear response of soil nitrous oxide (N 2 O) emissions to fertilizer nitrogen

Sugarcane residue management impact soil greenhouse gas

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Product

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N ₂ O emissions due to nitrogen fertilizer applications in two regions of sugarcane cultivation in Brazil

Global metaanalysis of the nonlinear response of soil nitrous oxide (N ₂ O) emissions to fertilizer nitrogen