Greenhouse gas emissions from synthetic nitrogen manufacture and fertilization for main upland crops in China

Chai, Rongyao; Ye, Xinxin; Chao, Ma; Wang, Qingyun; Tu, Renfeng; Zhang, Ligan; Gao, Hongjian

doi:10.1186/s13021-019-0133-9

Cited by 82 publications

(50 citation statements)

References 35 publications

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“…The agricultural maize peatland soil studied here was a much larger source of soil GHG emissions than other maize agroecosystems. While agricultural peat soils are highly productive, average annual GHG emissions were 3.6–33.3 times greater on an area‐scaled basis and 3–15.6 times greater on yield‐scaled basis relative to other agricultural maize emissions estimates (Table S5; Chai et al, 2019; Jin et al, 2014; Johnson et al, 2012; Linquist et al, 2012).…”

Section: Discussionmentioning

confidence: 95%

Hot moments drive extreme nitrous oxide and methane emissions from agricultural peatlands

Anthony

Silver

2021

Global Change Biology

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As peatland soils are drained and exposed to the atmosphere, high rates of aerobic decomposition lead to substantial CO 2 respiration rates relative to other ecosystems (Hemes et al., 2019; Tiemeyer et al., 2016;Veber et al., 2017). The high rates of peat decomposition along with emissions of other important greenhouse gases (GHGs) like methane (CH 4 ) and nitrous oxide (N 2 O) can result in large net GHG emissions from these agricultural ecosystems (Oertel et al.,

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Section: Discussionmentioning

confidence: 95%

Hot moments drive extreme nitrous oxide and methane emissions from agricultural peatlands

Anthony

Silver

2021

Global Change Biology

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“…The EU climate and energy targets [36] might have an indirect impact on the replacement of mineral fertilizers by animal manure in some regions. Indeed, one of these targets is a 40% decrease in GHG emissions, relative to 1990, and one of the main contributors for GHG emissions is the mineral fertilizers industry [37]. Decreased application of N obtained through the high-energy intensive Haber-Bosch process will drastically reduce the carbon footprint of the agriculture sector.…”

Section: Legal Framework To Use Manure In the Eumentioning

confidence: 99%

Horticulture and Orchards as New Markets for Manure Valorisation with Less Environmental Impacts

2021

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Animal manure management is a real challenge to minimize environmental impacts and ensure that this valuable material is efficiently used in a circular economy context. One of the main limitations for larger use of animal manure as fertilizer is the availability of land to receive it in an area close to the farm. Indeed, animal manure is traditionally used for cereals and animal feed growth, but the soil area occupied with these crops might not be enough to receive all the manure produced and/or part of this soil might have nutrient contents, namely phosphorous, that do not permit further application of manure. Hence, extra land used for other agricultural activities might be an option. The main objective of the present review was to analyse the constraints and solutions to increase the use of manure in horticulture and orchards. Emphasis was given to the legal framework for manure utilization in the EU that might stimulate or restrain such a solution. The main characteristics of manure that might limit or stimulate manure reuse were also described, and the potential of some treatments to valorise manure was analysed. Several examples of alternative uses of manure in horticulture and orchards were examined, and the society and farmers’ acceptance of the proposed solution was addressed.

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“…These efforts can be supported with financial incentives, by regulation and monitoring, education/training/demonstration centers, and provision of agricultural inputs with lower emissions (like fertilizers). While the manufacture of synthetic nitrogen fertilizers produces a significant source of greenhouse gas emissions, its application is also an important factor contributing to direct N 2 O emissions from agricultural soils (Chai et al, 2019). Increased N 2 O stimulates microbes in the soil to convert nitrogen to nitrous oxide at a faster rate than normal.…”

Section: Agriculturementioning

confidence: 99%

California Greenhouse Gas Emissions Reduction Targets (2030 and 2050): Trends, Projections and Analysis

Wambuguh¹

2020

ESHS

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Fossil fuels are the primary sources of energy powering economic development globally. Increased fossil fuel consumption produces Greenhouse Gas Emissions (GHG) which build in the atmosphere and trap heat irradiated from the Earth. The increased concentration of these gases causes global warming and extensive climate disruptions. This study examined GHG emissions data from 2000-2017 to evaluate whether California will meet GHG emissions reduction target of 40% below 1990 levels by 2030 as mandated by California’s Executive Order B-30-15. California’s ability to reduce GHG emissions to 80% below 1990 levels by 2050 (Executive Order S-3-05) was also evaluated. Results indicate that transportation, electric power, industrial and commercial/residential) GHG emissions reductions declined by small magnitudes in the 18-year period (0.17% to 2.49%). In agriculture, refrigerant and recycling/waste agencies, emissions reductions increased in the 18-year period (0.08% to 0.8%). For 2030 and 2050 emissions reductions targets, no emissions category sector will achieve the targeted reduction. The highest emissions reduction amounts discrepancies between observed and expected were in transportation, industrial and commercial/residential sectors (2030); and in transportation, industrial and agricultural facilities (2050). An analysis of current trends and technological developments in each emissions sector is presented to guide and structure future emissions target reductions.

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Greenhouse gas emissions from synthetic nitrogen manufacture and fertilization for main upland crops in China

Cited by 82 publications

References 35 publications

Hot moments drive extreme nitrous oxide and methane emissions from agricultural peatlands

Hot moments drive extreme nitrous oxide and methane emissions from agricultural peatlands

Horticulture and Orchards as New Markets for Manure Valorisation with Less Environmental Impacts

California Greenhouse Gas Emissions Reduction Targets (2030 and 2050): Trends, Projections and Analysis

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