Influence of N Fertilization Level, Rainfall and Temperature on the Emission of N2O in the Jeju Black Volcanic Ash Soil with Potato Cultivation |
Yang, Sang-Ho
(Jeju Special Self-governing Province Agricultural Research and Extension Services)
Kang, Ho-Jun (Jeju Special Self-governing Province Agricultural Research and Extension Services) Lee, Shin-Chan (Jeju Special Self-governing Province Agricultural Research and Extension Services) Oh, Han-Jun (Jeju Special Self-governing Province Agricultural Research and Extension Services) Kim, Gun-Yeob (National Academy of Agricultural Science, RDA) |
1 | Arone, J.A. and P.J. Bohlen. 1998. Stimulated flux from intact grassland monoliths after two growing seasons under elevated atmospheric . Oecologia. 116:331-335. DOI |
2 | Bouwman, A.F. 1990. Exchange of greenhouse gases between terrestrial ecosystems and the atmosphere. p. 61-127. In; A.F. Bouwman (ed.) Soils and the greenhouse affect. John Wiley and Sons. New York. |
3 | Davidson, E.A. 1991. Fluxes of nixes of nitrous oxide and nitric oxide from terrestrial ecosystems. In: Microbial Production and Consumption of Greenhouse Gases: Methane, Nitrous Oxide and Halomethanes (eds Rogers JE, Whitman WB), American Soc. of Microbiol., Washington, D.C. 219-235. |
4 | Denmead, O.T. 1979. Chamber systems for measuring nitrous oxide emission from soils in the field. Soil Soc. of America J. 43:89-95. DOI |
5 | Dobbie, K.E., I.P. Mctagart, and K.A. Smith. 1999. Nitrous oxide emissions from intensive agricultural systems: variations between crop and seasons; key driving variables; and mean emission factors. J. Geophys. Rcs. 104:26891-26899. DOI |
6 | Freney, J.R. 1997. Emission of nitrous oxide from soils used for agriculiture. Nutr. Cycl. Agroecosys. 49: 1-6. DOI |
7 | Frolking, S.E., A.R. Mosier, and D.S. Ojima. 1998. Comparison of emissions from soils at three temperate agricultural sites: simulations of year-round measurements by four models. Nutr. Cycl. Agroecosys. 52:77-105. DOI ScienceOn |
8 | Godde, M. and R. Conrad. 1999. Immediate and adaptational temperature effects on nitric oxide production and nitrous oxide release from nitrification and denitrification in tow soils. Biol. Fertil. Soils. 30:33-40. DOI |
9 | Hellebrand, H.J., V. Scholz, and J. Kern. 2008. Fertilizer induced nitrous oxide emissions during energy crop cultivation on loamy sand soils. Atmos. Environ. 42:8403-8411. DOI |
10 | Hou, A., H. Akiyama, Y. Nakajima, S. Sudo, and H. Tsuruta. 2000. Effects of urea form and soil moisture on emissions from Japanese Andosols. Chemosphere - Global Change Science. 2:321-327. DOI |
11 | Houghton, R.A. and D.L. Skole. 1990. Change in the global carbon cycle between 1700 and 1985. In: B.L. Turner. (ed.) The earth transformed by human action. Cambridge University Press. |
12 | IPCC. 1996. IPCC guideline for national greenhouse gas inventories. |
13 | IPCC. 2000. Good Practice Guideline and uncertainty management in national greenhouse gas inventories. |
14 | IPCC. 2006. IPCC guideline for national greenhouse gas inventories. |
15 | Mansson, K.F, and U. Falkengren-Grerup. 2003. The effect of nitrogen deposition on nitrification, carbon and nitrogen mineralisation and litter C:N ratios in oak (Quercus robur L.) forests. Forest ecol. Manag. 179:455-467. DOI |
16 | Iserman, K. 1994. Agriculture's share in the emissions of trace gases affecting the climate and some cause oriented proposals for reducing this share. Environ. 83, 95-111. |
17 | Kim, G.Y., K.H. So, H.C. Jeong, K.M. Shim, S.B. Lee, and D.B. Lee. 2010. Evaluation of emissions with changes of soil temperature, soil water content and mineral N in red pepper and soybean field. Korean J. Soil Sci. Fert. Vol. 43(6):880-885. 과학기술학회마을 |
18 | Lemke, R.L., R.C. Izaurralde, S.S. Malhi, M.A. Arshad, and M. Nyborg. 1998. Nitrous oxide emissions from agricultural soils of the Boreal and Parkland regions of Alberta. Soil Sci. Soc. Am. J. 62:1096-1102. DOI |
19 | Minami, K. 1997. Mitigation of nitrous oxide emissions from fertilized soils. In: Proceedings if IGAC Symposium, Nagoya, Japan. |
20 | Moiser, A., C. Kroeze, C. Nevision, O. Oenema, S. Seitzinger, and O. van Cleemput. 1998. Closing the global budget: nitro oxide emissionf through the agricultural nitrogen cycle. Nutr. Cycl. Agroecosys. 52:225-248. DOI ScienceOn |
21 | NIAST. 1988. Methods of soil chemical analysis. National Institute of Agricultural Science and Technology, RDA, Suwon, Korea. |
22 | Parton, W.J., A.R. Mosier, D.O. Ojima, D.W. Valentine, D.S. Schimel, K. Weier, and A.E. Kulmala. 1996. Generalized model for and production from nitrification and denitrification. Global Biochem. Cycles. 10:401-412. DOI |
23 | Xu, Z., H. Ouyang, G. Cao, Z. Pei, and C. Zhou. 2004. Nitrogen deposition and carbon sequestration in alpine meadows. Biogeochemistry. 71:353-369. DOI |
24 | Smith, K.A., I.P. McTaggart, and H. Tsuruta. 1997. Emissions of and NO associated with nitrogen fertilization in intensive agriculture and the potential for mitigation. Soil Use Managet. 13:296-304. DOI |
25 | Stevens, R.J., R.J. Laughlin, L.C. Burns, J.R.M. Arah, and R,C, Hood. 1997. Measuring the contributions of nitrification and dentrification to the flux of nitrous oxide from soil. Soil. Biol. Biochem. 29:139-151. DOI |
26 | Wagner-Riddle, C., G.W. Thurtell, G.E. Kidd, E.G. Beauchamp, and R. Sweetman. 1997. Estimates of nitrous oxide emissions from agricultural fields over 28 months. Can. J. Soil Sci. 77:135-144. DOI |