Global climate change, especially global warming is considered as threat to our future and posterity. Increasing concentrations of greenhouse gas such as carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) are the main causes of global warming. The Korean government has set a goal to cut the carbon emissions by 37% based on business-as-usual levels by 2030. According to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (IPCC), agricultural sector is an important source of greenhouse gas emissions. In this regard, it is common belief that reducing of such emission is of great significance to global climate change. In Korea, upland is one of the main sources of agricultural N2O emission. In order to analyze domestic research trends related to N2O emissions in the upland, 53 academic publications from 2009 to September 2019 were critically reviewed. The results were classified according to the research purposes. Reduction technologies of N2O emission account for approximately 28.3%. N2O characteristics and assessment for 24.5%, development of N2O emission factors for 22.6%, and N2O inventory assessment for 20.8% etc. Biochar, green manure, no tillage, and inhibitor were studied as a means of reducing N2O release. The optimum technologies to reduce N2O emission in Korea were discussed and proposed through the previous researches.

1 이선일, "휴경기간 녹비재배 농경지 토양에서 아산화질소 및 이산화탄소 배출특성" 한국농림기상학회 20 (20): 386-396, 2018

2 현승훈, "토양 온실가스 배출 예측 모델 분석 및 국내 농경지 적용성 평가" 응용생태공학회 2 (2): 185-190, 2015

3 김건엽, "콩과 고추재배지에서 양분 공급원별 N2O 배출량 평가" 한국환경생물학회 36 (36): 680-686, 2018

4 양상호, "콩 재배 화산회토양에서 질소시비 수준 및 강우, 온도 환경 변화에 따른 아산화질소 배출 특성" 한국토양비료학회 45 (45): 451-458, 2012

5 정현철, "최근 5년간 농업부문 온실가스 산정방법 개선과 그에 따른 배출량 차이 분석" 한국기후변화학회 8 (8): 347-355, 2017

6 김건엽, "우리나라 농경지에서 질소의 수계유출에 의한 아산화질소 간접배출량 평가" 한국토양비료학회 44 (44): 1232-1238, 2011

7 김건엽, "배추의 재배시기와 경운 유·무에 따른 아산화질소 배출 평가" 한국토양비료학회 44 (44): 1239-1244, 2011

8 김득수, "배추 밭에서의 N_2O, CH_4, CO_2 토양배출량 측정 및 특성 연구: 주요온실가스 배출량 측정 및 지표생태변화에 따른 특성 연구" 한국대기환경학회 27 (27): 313-325, 2011

9 정현철, "밭토양에서 챔버 위치와 작물체 유·무에 따른 아산화질소 배출량 차이 분석" 한국기후변화학회 7 (7): 427-432, 2016

10 이선일, "밭 토양에서 다양한 바이오차 시용에 따른 이산화탄소 및 아산화질소 감축효과" 유기성자원학회 26 (26): 11-18, 2018

11 김예솔, "바이오차르 토양 투입 관리 방안의 타당성 평가 : 농경 활용을 중심으로" 경희대학교 대학원 2014

12 양상호, "당근 재배 화산회토양에서 질소시비 수준 및 강우, 온도 환경 변화에 따른 N2O 배출 특성" 한국토양비료학회 45 (45): 459-465, 2012

13 현준기, "농경지 아산화질소 배출계수의 연간 변동 특성 분석" 한국기후변화학회 8 (8): 305-312, 2017

14 서영호, "녹비작물과 바이오숯의 고추 재배지 아산화질소 배출량 저감 효과" 한국토양비료학회 45 (45): 540-543, 2012

15 신민환, "기후변화에 따른 무 밭의 온실가스 배출량 모의" 한국농공학회 57 (57): 101-112, 2015

16 김건엽, "국내 봄배추 재배지의 아산화질소 배출계수 개발에 관한 연구" 한국농림기상학회 17 (17): 326-332, 2015

17 이선일, "과수원 토양의 탄화물 시용에 따른 아산화질소 발생량 감소와 토양탄소 증가효과" 한국환경농학회 36 (36): 73-79, 2017

18 김건엽, "고추재배에서 지구온난화잠재력 (Global Warming Potential)을 고려한 토성별 온실가스 발생량 종합평가" 한국토양비료학회 43 (43): 886-891, 2010

19 김건엽, "고추와 콩 재배에서 토양온도, 토양수분과 무기태질소 변화에 따른 아산화질소 배출 평가" 한국토양비료학회 43 (43): 880-885, 2010

20 주옥정, "고추와 배추 재배지에서 요소분해효소 억제제 함유 원예용 비료 시용에따른 아산화질소 배출 저감 효과" 한국환경농학회 37 (37): 235-242, 2018

21 김성은, "고구마 재배 밭토양에서 가축분퇴비의 시용량이아산화질소 발생에 미치는 영향" 한국환경농학회 37 (37): 172-178, 2018

22 양상호, "감자 재배 화산회토양에서 질소시비 수준, 강우 및 온도 환경 변화에 따른 아산화질소 배출 특성" 한국토양비료학회 45 (45): 544-550, 2012

23 IPCC, "The scientific basis. Contribution of working group I to the fourth assessment report of the intergovernmental panel on climate change" Cambridge university press 2007

24 김성은, "The Influence of Composted Animal Manure Application on Nitrous Oxide Emission from Upland Soil" 한국토양비료학회 50 (50): 530-537, 2017

25 Alam, M. A., "Source partitioning and emission factor of nitrous oxide during warm and cold cropping seasons from an upland soil in South Korea" 662 : 591-599, 2019

26 Skiba U. M., "Some key environmental variables controlling nitrous oxide emissions from agricultural and semi-natural soils in Scotland" 32 : 3311-3320, 1998

27 Alam, M. A., "Reevaluation of nitrous oxide emission factor in temperate upland soil" Gyeongsang National University 2017

28 Davidson E. A., "Processes of regulating soil emissions of NO and N2O in a seasonally dry tropical forest" 74 : 130-139, 1993

29 "Paris agreement"

30 Kim, G. W., "Nitrous oxide emissions from soils amended by cover-crops and under plastic film mulching: fluxes, emission factors and yield-scaled emissions" 152 : 377-388, 2017

31 홍창오, "Nitrous oxide emission from upland soil amended with different animal manures" 한국응용생명화학회 62 : 1-8, 2019

32 Greenhouse gas inventory and research center, "National greenhouse gas inventory report of Korea" Greenhouse gas inventory and research center of Korea 2018

33 Jian-gang H., "N2O emissions under different moisture and temperature regimes" 78 : 284-287, 2007

34 Renault P., "Modeling oxygen diffusion in aggregated soils : II. Anaerobiosis in topsoil layers" 58 : 1023-1030, 1994

35 유길호, "Measurement of Nitrous Oxide Emissions on the Cultivation of Soybean by No-Tillage and Conventional-Tillage in Upland Soil" 한국토양비료학회 48 (48): 610-617, 2015

36 Lal R., "Management to mitigate and adapt to climate change" 66 : 276-285, 2011

37 "Kyoto protocol to the united nations framework convention on climate change"

38 Jennifer, P. C., "Impact of plastic film mulching on increasing greenhouse gas emissions in temperate upland soil during maize cultivation" 91 : 48-57, 2015

39 Reay D. S., "Global agriculture and nitrous oxide emissions" 2 : 410-416, 2012

40 Firestone M. K., "Exchange of trace gases between terrestrial ecosystems and the atmosphere" Wiley 1989

41 Kim, G. Y., "Emission and evaluation of green house gas (CO2, CH4, N2O) in paddy and upland fields" Chungbuk National University 2009

42 Lee, Y., "Effects of biochar application on N2O emissions in agricultural field of Korea" Kyunghee University 2017

43 박우균, "Effects of Biomass Application on Soil Carbon Storage and Mitigation of GHGs Emission in Upland" 한국토양비료학회 48 (48): 340-350, 2015

44 유진, "Effect of no-tillage and conventional tillage practices on the nitrous oxide (N2O) emissions in an upland soil: soil N2O emission as affected by the fertilizer applications" 한국응용생명화학회 59 (59): 787-797, 2016

45 김건엽, "Effect of Soil Water Potential on Methane and Nitrous Oxide Emissions in Upland Soil during Red Pepper Cultivation" 한국응용생명화학회 57 (57): 15-22, 2014

46 강세원, "Effect of Sesame Straw Biochar Application on Soil Physics and Nitrous Oxide Emission in Upland Soil" 한국토양비료학회 49 (49): 259-264, 2016

47 박준홍, "Effect of Mixed Treatment of Urea Fertilizer and Zeolite on Nitrous Oxide and Ammonia Emission in Upland Soil" 한국토양비료학회 47 (47): 368-373, 2014

48 박우균, "Effect of Carbonized Rice Hull Application on Increasing Soil Carbon Storage and Mitigating Greenhouse Gas Emissions during Chinese Cabbage Cultivation" 한국토양비료학회 49 (49): 181-193, 2016

49 Lee, J.E., "Development of N2O emission factors for red pepper, soybean, cabbage, and maize cultivation under different nitrogen fertilization rates in the flat upland soils in chungcheongnam-do" Chungnam National University 2014

50 김건엽, "Developing N2O Emission Factor in Red Pepper Fields to Quantify N2O Emission of Agricultural Field" 한국토양비료학회 47 (47): 598-603, 2014

51 IPCC, "Climate change, synthesis report. Contribution of working groups I, II and III to the fifth assessment report of the intergovernmental panel on climate change" 2014

52 박우균, "Characteristics of Greenhouse Gas Emission in the Upland Soil Applied with Agricultural Biomass" 한국토양비료학회 47 (47): 381-389, 2014

53 박성진, "Calculation of GHGs Emission from LULUCF-Cropland Sector in South Korea" 한국토양비료학회 49 (49): 826-831, 2016

54 이종은, "Assessment on Nitrous Oxide (N2O) Emissions different Nitrogen Application Rates during the Red Pepper Cultivation in Flat Upland" 한국토양비료학회 47 (47): 59-65, 2014

55 정현철, "Assessment of Nitrous Oxide (N2O) Emissions from Farmland in 2011 with IPCC Guideline Methodology" 한국토양비료학회 46 (46): 570-574, 2013

56 김건엽, "Assessment of N2O Emission Factor of Autumn Chinese Cabbage Fields at Three Different Geographical Location in South Korea" 한국토양비료학회 48 (48): 163-169, 2015

57 김건엽, "Assessment of Integrated N2O Emission Factor for Korea Upland Soils Cultivated with Red Pepper, Soy Bean, Spring Cabbage, Autumn Cabbage and Potato" 한국토양비료학회 49 (49): 720-730, 2016

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59 Na, U. S., "A study of GHG's flux measurement and analysis from upland field, fresh wetland and tidal flat" Kunsan National University 2012

60 Jeong, H. C., "A comparison of the changes of greenhouse gas emissions to the develop country-specific emission factors and scaling factors in agricultural sector" 5 : 349-357, 2014

61 정현철, "2020년 이후 농업부문 온실가스 배출량 전망과 감축잠재량 분석" 한국기후변화학회 6 (6): 233-241, 2015

62 정현철, "2009년 우리나라 농경지 토양에서의 N_2O 배출량 평가" 한국토양비료학회 44 (44): 1207-1213, 2011

63 박성진, "2006 IPCC 지침을 적용한 농경지 온실가스 배출량 분석" 한국기후변화학회 9 (9): 445-452, 2018

64 정현철, "2006 IPCC 가이드라인을 적용한 지자체별 경종부문 온실가스 배출량 평가" 한국토양비료학회 45 (45): 842-847, 2012

65 정현철, "1996년과 2006년 IPCC 가이드라인별 경종부문 온실가스 배출량 평가" 한국토양비료학회 44 (44): 1214-1219, 2011

66 최은정, "1990년부터 2013년까지 농업 분야 국가 온실가스 배출량 평가 - 경종부문 중심으로 -" 한국기후변화학회 7 (7): 443-450, 2016