This experiment was conducted to evaluate the effect of carbonized rice hull (CRH) application on soil carbon storage and N2O emissions from upland soil. It was used at different rates of 0, 5, 10 and 20 Mg ha-1. During the Chinese cabbage cultivation, several soil chemical characteristics such as soil moisture, temperature and soil carbon were observed. Also, CO2 and N2O emissions were monitored. Soil organic matter contents slightly increased with carbonized rice hull applied in all the treatments. The soil carbon contents with application rate of 0, 5, 10 and 20 Mg ha-1 were 0, 1.3, 1.2 and 2.6 g kg-1, respectively. It was observed that soil carbon content was higher with increasing CRH application rate. Total nitrogen contents of soil applied with CRH relatively decreased with the course of time. However, NO3-N contents in the soil with CRH application rate of 5, 10 and 20 Mg ha-1 were 28.6, 25.7 and 21.5 mg kg-1 at the end of experiment, respectively. CO2 emission at the 5 Mg ha-1 application of CRH was higher about 18.9% than non-treatment, whereas those of 10 Mg ha-1 and 20 Mg ha-1 treatment were lower 14.4% and 11.8% compared to non-treatment, respectively. Also, it was shown that N2O emission reduced by 19.9, 28.3 and 54.0% when CRH was applied at 5, 10 and 20 Mg ha-1, respectively.

1 장인배, "인삼 논재배 시 식물성 유기물 시용 수준에 따른 인삼생육특성 및 생리장해 분석" 한국약용작물학회 22 (22): 140-146, 2014

2 윤봉기, "목탄분말 시용량이 양파 생육 및 토양 이화학성에 미치는 영향" 한국국제농업개발학회 16 (16): 162-167, 2004

3 박우균, "농업부문 바이오매스 자원 환산계수 및 잠재발생량 산정" 한국환경농학회 30 (30): 252-260, 2011

4 Chan Y.K., "Using poultry litter biochar as soil amendments" 46 : 437-444, 2008

5 Arrhenius, S., "Uber die Reaktionsgeschwindigkeit bei der Inversion von ohrzucker durch Sauren" 4 : 226-248, 1889

6 Mueller, T., "Turnover of carbon and nitrogen in a sandy loam soil following incorporation of chopped maize plants, barley straw, and blue grass in the field" 30 : 561-571, 1998

7 Batjes, N.H., "Total carbon and nitrogen in soils of the world" 47 : 151-163, 1996

8 Arnone, J.A. Ⅲ, "Stimulated N₂O flux from intact grassland monoliths after two growing seasons under elevated atmospheric CO₂" 116 : 331-335, 1998

9 Bouwman, A.F., "Soils and the greenhouse effect" John Wiley and Sons 61-127, 1990

10 Cho, S.J., "Soil science" Hyangmunsa 137-143, 1991

11 Yoo, S.-H., "Soil dictionary" Seoul National University Press 362-365, 2002

12 Lemke, R.L., "Nitrous oxide emissions from agricultural soils of the Boreal and Parkland regions of Alberta" 62 : 1096-1102, 1998

13 Davidson, E.A., "Microbial Production and Consumption of Greenhouse Gases: Methane, Nitrous Oxide and Halomethanes" American Soc. of Microbiol. 219-235, 1991

14 NAAS(National Academy of Agricultural Science), "Methods of Soil Chemical Analysis" Sam-Mi press 20-214, 2010

15 Stevens, R.J., "Measuring the contributions of nitrification and denitrification to the flux of nitrous oxide from soil" 29 : 139-151, 1997

16 Vant't Hoff, J. H., "Lectures on theoretical and physical chemistry" Edward Arnold 227-, 1898

17 Ascough P.L., "Investigation of growth responses in saprophytic fungi to charred biomass" 46 : 64-77, 2010

18 Kammann, C.I., "Influence of biochar on drought tolerance of Chenopodium quinoa Willd and on soil-plant relations" 345 : 195-210, 2011

19 Laird D, "Impact of biochar amendments on the quality of a typical Midwestern agricultural soil" 158 : 443-449, 2010

20 Novak J.M., "Impact of biochar amendment on fertility of a southeastern coastal palin soil" 174 : 105-112, 2009

21 Gödde, M., "Immediate and adaptational temperature effects on nitric oxide production and nitrous oxide release from nitrification and denitrification in two soils" 30 : 33-40, 1999

22 IPCC (Intergovernmental Panel on Climate Change), "IPCC Guidelines for National Greenhouse Gas Inventories, Volume 4. (Agriculture, Forestry and Other Land Use)" IGES 2006

23 Parton, W.J., "Generalized model for N₂and N₂O production from nitrification and denitrification" 10 : 401-412, 1996

24 RDA, "Fertilizer recommendation standards for various crops" Sanglok-sa 24-28, 2010

25 Nichols GJ, "Experiments in waterlogging and sedimentology of charcoal: Results and implications" 164 : 43-56, 2000

26 Firestone, M.K., "Exchange of Trace Gases between Terrestrial Ecosystems and the Atmosphere" Wiley 1989

27 Gale, E.S., "Estimation plant-available nitrogen release from manures, composts, and specialty products" 35 : 2321-2332, 2006

28 Yagi, K., "Emission of biogenic gas compounds from soil ecosystem and effect of global environment. 2. Methane emission from paddy fields" 62 (62): 556-562, 1991

29 Guanhui, L., "Elevated CO₂ and temperature impacts on different components of soil CO₂efflux in Douglas-fir terracosms" 5 : 157-168, 1999

30 Hou, A., "Effects of urea form and soil moisture on N₂O and NO emissions from Japanese Andosols" 2 : 321-327, 2000

31 Yanai, Y., "Effect of charcoal addition on N₂O emissions from soil resulting from resetting air-dried soil in short-term laboratory experiments" 53 : 181-188, 2007

32 Mo, Y.M, "Effect of Nitrogen Fertilization Level on the Emission of N₂O Gas in the Field grown with Chinese Cabbage" 330-330, 2013

33 Lal, R., "Crop residues and soil carbon" 2330-, 2008

34 IPCC (Intergovernmental Panel on Climate Change), "Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change" 104-, 2007

35 Frolking, S.E., "Comparison of N2O emissions from soils at three temperate agricultural sites: simulations of year-round measurements by four models" 52 : 77-105, 1998

36 IPCC(Intergovernmental Panel on Climate Change), "Climate Change 2014, Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change" IPCC 151-, 2014

37 Kim, S.H., "Chemical characteristics of biochar obtained from pyrolysis of agricultural waste in drum biochar apparatus" 330-330, 2013

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

39 Lal, R., "Carbon management in agricultural soils" 12 : 303-322, 2007

40 Sean D. C. Case, "Can biochar reduce soil greenhouse gas emissions from a Miscanthus bioenergy crop?" Wiley-Blackwell 6 (6): 76-89, 2014

41 Goldberg E.D., "Black carbon in the environment: Properties and distribution" John Wiley & Sons 1985

42 Lehmann J., "Biochar sequestration in terrestrial ecosystems - A review" 11 : 403-427, 2006

43 Laird D, "Biochar impact on nutrient leaching from a Midwestern agricultural soil" 158 : 436-442, 2010

44 Zwieten, L.V., "Biochar for Environmental Management" Earthscan 227-249, 2009

45 Gu, J., "Background nitrous oxide emissions from croplands in China in the year 2000" 320 : 307-320, 2000

46 Hossain M.K, "Agronomic properties of wastewater sludge biochar and bioavailability of metals in production of cherrytomato (Lycopersicon esculentum)" 78 : 1167-1171, 2010

47 Duxbury, J.M., "Agricultural ecosystem effects on trace gases and global climate change" ASA, CSSA and SSSA 1-18, 1993

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