Effect of no-tillage and green manure practices on the nitrous oxide emission from cropland

Lee, Sun-Il; Kim, Gun-Yeob; Lee, Jong Sik; Choi, Eun Jung

doi:10.11626/kjeb.2019.37.3.309

Cited by 3 publications

(3 citation statements)

References 17 publications

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“…Taking N 2 O as example, the amount of N 2 O emitted by global cultivated land is about 6.4×10 12 g N, accounting for one fourth of the global total N 2 O emissions [4] . Agricultural management measures, such as irrigation, fertilization, mulching and ploughing, are proved to have an impact on N 2 O and NO emissions [5][6][7][8] .…”

Section: Introductionmentioning

confidence: 99%

NxO emissions in response to the irrigation lower limits under different irrigation modes in a lettuce field

Hou,

Xiao,

Zhu

et al. 2023

International Journal of Agricultural and Biological Engineering

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Irrigation has a significant impact on N x O (N 2 O and NO) emissions from cultivated land, yet the N 2 O or NO emission among the irrigation lower limits under different irrigation modes has not been well compared. In an irrigated lettuce field, three DR (drip irrigation) lower limits were designed, including 75% (DR1), 65% (DR2) and 55% (DR3) field capacity, and one FI (furrow irrigation) lower limit (65% field capacity). The N 2 O and NO emission fluxes and soil nitrogen (N) forms were determined, and the linear correlation between these indicators was analyzed. Results showed that under the same irrigation regime, the N 2 O and NO emissions from furrow irrigation treatment increased by 36.8% and 45.2% respectively compared to that from drip irrigation treatment. The cumulative N 2 O and NO emissions under DR3 were 30.2% and 28.6% higher than under DR1, respectively. Moreover, DR1 was also the lowest among the four treatments in soil -N concentration. The N 2 O and NO emission fluxes were more correlated to soil -N (r=0.88 and 0.76) or -N (r=0.90 and 0.80) concentration than soil -N and soluble organic N, indicating that N 2 O and NO were mainly produced by the soil nitrification process. When the irrigation regime was the same, N 2 O and NO emissions were lower with drip irrigation than with furrow irrigation. Besides, drip irrigation with small quota but high frequency reduced N 2 O and NO emission compared to that with large quota but low frequency.

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Section: Introductionmentioning

confidence: 99%

NxO emissions in response to the irrigation lower limits under different irrigation modes in a lettuce field

Hou,

Xiao,

Zhu

et al. 2023

International Journal of Agricultural and Biological Engineering

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“…현재까지 연구되고 있는 영농 관리 기술로써 농경지 무경운 기술 (Lee et al, 2010(Lee et al, , 2019Kim et al, 2012;Feng et al, 2018), 휴경기 녹비작물 재배 및 환원 (Lee et al, 2019;Arif et al, 2021), 관개 관리 등 여러 기술들이 연구되어왔 다 (Pandey et al, 2014;Lee et al, 2020a;Gwon et al, 2021). 이와 같은 전통적인 영농 관리 기술과 함께 근래에 바이 오차를 활용한 온실가스 감축 기술도 주목받고 있다 (Woo, 2013;Lee et al, 2020bLee et al, , 2021b.…”

Section: Introductionunclassified

Effect of Biochar on Nitrous Oxide Emissions under Anaerobic and Aerobic Conditions in Cropland of East Asia: A Meta-Analysis

Lee¹,

Choi²,

Gwon³

et al. 2022

Korean J. Soil. Sci. Fert.

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“…전 세계적으로 질소수지 연구에서 질소 비료가 중요한 역 할을 하며, 아산화질소가 지구 온난화에 미치는 영향이 이산 화탄소 보다 310배 높기 때문에 농경지 토양 유래 아산화질 소 배출량 산정에 관한 많은 선행연구가 있었다 [14][15][16][17][18][19][20][21]. 국내 에서는 정확한 온실가스 배출량 산정과 신뢰도를 높이기 위 해 아산화질소 국가 고유 배출계수 7종을 개발한 바 있고 [22][23][24][25], 가축분 퇴비, 질소시비 수준, 토양환경, 무경운, 녹비 재배 등을 통한 저감기술 개발을 위한 선행연구들이 있었다 [26][27][28][29][30][31][32][33]. 아산화질소 배출량 직접측정 선행연구의 95% 이상 이 챔버법을 사용하였으며, 챔버법은 배출표면을 덮은 챔버로 부터 해당기체의 짧은 시간 동안의 농도변화를 측정하는 닫 힌 챔버법을 주로 사용하였다 [26]…”

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Measurement Uncertainty of Nitrous Oxide Concentrations from a Upland Soil Measured by an Automated Open Closed Chamber Method

Ju¹,

Kang²,

Lim³

2020

Korean Journal of Environmental Agriculture

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BACKGROUND: The closed chamber method is the most commonly used for measuring greenhouse gas emissions from upland fields. This method has the advantages of being simple, easily available and economical. However, uncertainty estimation is essential for accurate assessment of greenhouse gas emissions and verification of emission reductions. The nitrous oxide emissions from upland field is very important for the nitrogen budget in the agriculture sectors. Although assessment of uncertainty components affecting nitrous oxide emission from upland field is necessary to take account of dispersion characteristics, research on these uncertainty components is very rare to date. This study aims at elucidation of influencing factors on measurement uncertainty of nitrous oxide concentrations measured by an automated open closed chamber method from upland field. METHODS AND RESULTS: The nitrous oxide sampling system is located in the upland field in Gyeonggi-do Agricultural Research and Extension Services (37°13′22″ N, 127° 02′22″E). The primary measurement uncertainty components influencing nitrous oxide concentrations (influencing factors) investigated in this research are repeatability, reproducibility and calibration in the aspects of nitrous oxide sampling and analytical instrumentation. The magnitudes of the relative standard uncertainty of each influencing factor are quantified and compared. CONCLUSION: Results of this study show what influencing factors are more important in determination of nitrous oxide concentrations measured using the automated open closed chambers located in the monitoring site. Quantifying the

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Effect of no-tillage and green manure practices on the nitrous oxide emission from cropland

Cited by 3 publications

References 17 publications

NxO emissions in response to the irrigation lower limits under different irrigation modes in a lettuce field

NxO emissions in response to the irrigation lower limits under different irrigation modes in a lettuce field

Effect of Biochar on Nitrous Oxide Emissions under Anaerobic and Aerobic Conditions in Cropland of East Asia: A Meta-Analysis

Measurement Uncertainty of Nitrous Oxide Concentrations from a Upland Soil Measured by an Automated Open Closed Chamber Method

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