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Effects of Water Management Methods on CH4 and N2O Emission From Rice Paddy Field
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 Title & Authors
Effects of Water Management Methods on CH4 and N2O Emission From Rice Paddy Field
Kim, Gun-Yeob; Lee, Jong-Sik; Jeong, Hyun-Cheol; Choi, Eun-Jung; Sonn, Yeon-Kyu; Kim, Pil-Joo;
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 Abstract
The effects of water-saving irrigation on the emissions of greenhouse gases and the prokaryotic communities in rice paddy soils were investigated through a field experiment. In the Water-Saving (WS) irrigation, the water layer was kept at 2~3 cm while it was kept at 6 cm in the Continuousiy Flooding (CF) irrigation. A plot was treated with Intermittently Drainage (ID) that is drained as fine cracks on the floor were seen after transplanting. GHGs emission amounts from WS plots were reduced by 78.1% compared to that from CF plot and by 70.7% compared to that from ID plot, meaning that WS could help contribute to mitigation of the greenhouse gas accumulation in the atmosphere.
 Keywords
Water management methods;Paddy;GHGs emission;
 Language
Korean
 Cited by
 References
1.
Cai, Z., G. Xing, G. Shen, H. Xu, X. Yan, H. Tsuruta, K. Yagi, and K. Minami. 1999. Measurements of $CH_4\;and\;N_2O$ emissions from rice paddies in Fengqiu, China. Soil Sci. Plant Nutr., 45(1):1-13. crossref(new window)

2.
Freney, J.R., O.T. Denmead, I. Watanabe, and E.T. Craswell. 1981. Ammonia and nitrous oxide losses following application of ammonium sulphate to flooded rice. Australian Journal of Agricultural Rerearch 32:37-45. crossref(new window)

3.
IPCC. 1996. Revised IPCC guideline for national greenhouse gas inventories: Reference Manual, revised in 1996, IPCC.

4.
Kim, G.Y., S.I. Park, B.H. Song, and Y.K. Shin. 2002. Emission characteristics of methane and nitrous oxide by management of water and nutrient in rice paddy soil. Korean J. Environ. Agri. 21:136-143. crossref(new window)

5.
Kim, G. Y., S. B. Lee, J. S. Lee, E. J. Choi, J. H. Ryu, W. J. Park, and J. D. Choi. 2012. Mitigation of greenhouse gases by water management of SRI (System of Rice Intensification) in rice paddy fields. Korean J. Soil Sci. Fert. 45(6):1173-1178. crossref(new window)

6.
Lindau, C.W., P.K. Bollich, R.D. Delaune, and V.J. Law. 1991. Effect of urea fertilizer and environmental on $CH_4$ emissions from a Louisiana USA rice field. Plant and Soil, 136:195-203. crossref(new window)

7.
Minami, K. 1987. Emission of nitrous oxide($N_2O$) from agro-ecosystems. Japan Agricultural Research Quarterly. 21:22-27.

8.
Ogawa, Y. and K. Minami 1988. Effect of nitrogen enrichment in irrigation water on nitrogen balance in paddies. Paddy soil Fert. 497-509.

9.
Partrick, W.H.Jr. and C.N. Reddy. 1977. Chemical changes in rice soils. In IRRI symposium on soils and rice. International Rice Research Institute, Los Banos, Laguna, Philippines. 361-379.

10.
Ponnamperuma, F.N. 1972. The chemistry of submerged soils. Adv. Agron. 24:29-96. crossref(new window)

11.
Rath, A.K., B. Swain, B. Ramakrishnan, D. Panda, T.K. Adhya, V.R. Rao, and N. Sethunathan. 1999. Influence of fertilizer management and water regime on methane emission from rice fields. Agriculture, Ecosystems and Environment 76:99-107. crossref(new window)

12.
RDA. 2006. Fertilizer recommendation standards for various crops. Gwangmun-dang. p. 57-58 (In Korean).

13.
Sass, R.L., F.M. Fisher, P.A. Harcombe, and F.T. Turner. 1990. Methane production and emission in a Texas rice field. Global Biogeochemical Cycles 4:47-68. crossref(new window)

14.
Shin, Y.K., Y.S. Lee, S.H. Yun, and M.E. Park. 1995. A simplified closed static chamber method for measuring methane flux in paddy soils. Korean J. Soil Sci. Fert. 28(2):183-190.

15.
Smith, C.J., and W.H.Jr. Patrick. 1983. Nitrous oxide emission as affected by alternate anaerobic and aerobic conditions from soil suspensions enriched with ammonium sulfate. Soil Biology & Biochemistry. 15:693-697. crossref(new window)

16.
Takai, Y., Koyama, and T. Kamura. 1956. Microbial metabolism in reduction process of paddy soil (Part 1), Soil and Plant Food, 2:63-66. crossref(new window)

17.
Wang, Z.P., R.D. Delaune, P.H. Masscheleyn, and Jr.W.H. Patrick. 1993. Soil redox and pH effects on methane production in a flooded rice soil. Soil Soc. Am. J. 57:382-385. crossref(new window)

18.
Yagi, K. 1991. Emission of biogenic gas compounds from soil ecosystem and effect of global environment. 2. Methane emission from paddy fields. Soil and Fert. Japan. 62(5):556-562.

19.
Yagi, K., H. Tsuruta, K. Minami, P. Chairoj, and W. Cholitkal. 1994. Methane emission from japanese and Thai paddy fields. In: K. Minami et al.,(eds), $CH_4\;and\;N_2O$: Global emission and controls from rice fields and other agricultural and industrial sources. Yokendo Publishers, NAIES series 2, Tokyo, pp. 41-53.

20.
Yang, S.S. and H.L. Chang. 1998. Effect of environmental conditions on methane production and emission from paddy soil. Agriculture, Ecosystems and Environment 69:69-80. crossref(new window)