Browse > Article
http://dx.doi.org/10.5322/JES.2011.20.3.301

Observational Study to Estimate the Emission of Methene at Upo-swamp  

Lee, Jung-A (College of Environment, Keimyung University)
Kim, Hae-Dong (College of Environment, Keimyung University)
Lee, Bu-Yong (Department of Environmental Science, Daegu Catholic University)
Publication Information
Journal of Environmental Science International / v.20, no.3, 2011 , pp. 301-308 More about this Journal
Abstract
The temporal variations of methene emission and its relation to air temperature were investigated in Upo-swamp during June 2007 through July 2008. To perform this study, the methene emission and air temperature were observed using the buoy-type chamber and automatic weather observation system(AWS), respectively. The methene emissions were much during summertime(June~August). The maximum value(about 73.4 mg/$m^2$/hr) appeared at August. The emission diminished by degrees after August. The methene emissions were fewer from September to May of the following year. The peak value(73.4 mg/$m^2$/hr) of the methene emission is very much compared to that of rice pappy field known as about 28.7 mg/$m^2$/hr.
Keywords
Methene emission; Buoy-type chamber; AWS;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Harazawa, H., Nishioka, H., 2003, 地球溫暖化と日本-自然.人への影響豫測, 古今書院, 460-463.
2 Hardy, T., 2003, Climate Change - Cause, Effects, and Solutions, 1st ed., John Wiley & Sons Ltd., England, 211-247.
3 Kim, J., Verma, S. B., 1992, Soil surface $CO_2$ flux in a Minnesota peatland, Biochemistry, 18, 37-51.
4 Lal, R., 2004, Review; Soil carbon sequestration to mitigate climate change, Geoderma, 123, 1-22.   DOI
5 Minami, K., Yagi, K., 1988, Method for Measuring Methane Flux for Rice Paddies, Japan., J. Soil Sci. Plant Nutr., 59, 458-463.
6 National Institute of Agro-Environmental Sciences, Rep. Div. Environ. Planning, Tsukuba, Japan, 7, 143-158.
7 Shin, Y. K., Kim, K. S., 1994, Methods for measurement of methane and nitrous oxide emissions from agricultural fields, Korean Journal of Environmental Agriculture, 13, 359-372.   과학기술학회마을
8 Shin, Y. K., Lee, Y. S., Yun, S. H., Park, M. E., 1995, A simplified closed static chamber method for measuring methane flux in paddy soils, J. Korean Soc. Soil Sci. Fert., 28, 183-190.
9 Sullivan, B. W., 2008, Thinning reduces soil carbon dioxide but not methane flux from southwestern USA ponderosa pine forests, Forest Ecology and Management, 255, 4047-4055.   DOI
10 Wang, Z. P., Han, X. C., Li, L. H., 2006, Methane emission patches in riparian marshes of the inner Mongolia, Atmospheric Environment, 40, 5528-5532.   DOI
11 Yagi, K., Tsuruta, H., Minami, K., 1991, Manual of $CH_4$ and $N_2O$ flux measuring. Res.
12 강동환, 2008, 습지보전과 기후변화, 제4회 지속가능발전 강원 대회 발표 자료집, 293-302.
13 김상운, 2007, 창녕군의 자연 늪 현황 및 관리방안 -우포늪을 중심으로-, 석사학위논문, 경남대학교.
14 서경애, 2003, 하.폐수처리시설에서의 온실기체 배출량 평가연구-Methane을 중심으로, 석사학위논문, 환경공학과, 동신대학교.
15 손명원, 전영권, 2003, 낙동강 하류 연안 자연습지의 자연 지리적 특성, 한국지역지리학회지, 9, 66-76
16 이자연, 김보라, 박소영, 성기준, 2010, 인공습지 조성 후 습지미생물활성도 변화에 관한 연구, 한국환경과학회지, 19, 17-26.   과학기술학회마을   DOI
17 足立芳寬, 松野泰也, 諟醐市朗, 躘口博明, 2005, 環境システム工學, 東京大學出版會, 29-42.
18 Fang, C., Moncrieff, J. B., 2001, The dependence of soil CO2 flux on temperature, Soil Biology & Biochemistry, 33, 155-165.   DOI
19 陽抒行, 1997, 農業から發生する溫室效果氣體の制御技術 - Mathane および 亞酸化窒素 -, Japanese Study Grop for Climate Impact and Application Newsletter, 13, 52-57.