Analysis of Research Trends in Nitrous Oxide Emissions from Upland in Korea

Lee, Sun-Il; Lee, Chang Kyu; Kim, Gun-Yeob; Gwon, Hyo-Suk; Lee, Jong-Sik; Choi, Eun-Jung; Shin, JoungDu

doi:10.7745/kjssf.2019.52.4.307

Cited by 1 publication

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References 47 publications

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“…농업 활동 중에서도 대부분 질소 비료 투입에 의해 배출된다고 보고된 바 있다 (Parkin and Kaspar, 2006;Lee et al, 2019b). 아산화질소는 지구온난화 지수 (Global Warming Potential)가 이산화탄소에 비해 298배 높기 때문에 (Forster et al, 2007) (Hwang et al, 2017;Lee et al, 2018;Lee et al, 2019a).…”

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Impacts of Different Nitrogen Fertilization on Greenhouse Gas Emissions and Lettuce Productivity in Upland Soils during Cultivation

Lee

et al. 2020

Korean J. Soil. Sci. Fert.

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Nitrogen (N) fertilization improves crop growth and productivity, but can cause adverse environmental problems in particular nitrous oxide (N2O) emissions, requiring reasonable fertilization strategy for a better agroecosystem. Our goal was to understand how different N fertilizations influence greenhouse gas (GHG) emissions (CO2, CH4, and N2O) and global warming potential (GWP), soil properties, and productivity from lettuce (Lactuca sativa) cultivated fields [control (No fertilizer), urea ((NH2)2CO), ammonium sulfate ((NH4)2SO4), and compost (10 Mg ha -1)]. Inorganic N fertilizations significantly increased GWP as compared to the control, mainly increasing N2O emissions. However, CH4 and CO2 were not significantly different among all treatments, indicating N2O emissions were main contributors to be influenced by N fertilizations. Ammonium sulfate showed higher GWP than the urea. However, GWP was lowest in the control, but was not significantly different as compared to the compost. Lettuce yield was significantly enhanced by chemical N fertilizations, showing much greater biomass in ammonium sulfate than the urea. Lettuce yield with the compost was less than with chemical fertilizations, but significantly greater than control. GWP per productivity as an indicator for sustainability was lowest in compost treatment among all treatments mainly due to reduced GHG emissions by less mineralization. Conclusively, compost application could be a sustainable way to mitigate GHG emissions, maintaining soil quality and productivity in upland soils.

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Impacts of Different Nitrogen Fertilization on Greenhouse Gas Emissions and Lettuce Productivity in Upland Soils during Cultivation

Lee

et al. 2020

Korean J. Soil. Sci. Fert.

View full text Add to dashboard Cite

show abstract

Analysis of Research Trends in Nitrous Oxide Emissions from Upland in Korea

Cited by 1 publication

References 47 publications

Impacts of Different Nitrogen Fertilization on Greenhouse Gas Emissions and Lettuce Productivity in Upland Soils during Cultivation

Impacts of Different Nitrogen Fertilization on Greenhouse Gas Emissions and Lettuce Productivity in Upland Soils during Cultivation

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