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http://dx.doi.org/10.7745/KJSSF.2012.45.6.1058

Changes in Carbon Amount of Soil and Rice Plant as Influenced by the Cultivation of Different Green Manure Crops  

Cho, Hyeoun-Suk (National Institute of Crop Science, RDA)
Seong, Ki-Yeung (National Institute of Crop Science, RDA)
Park, Tae-Seon (National Institute of Crop Science, RDA)
Seo, Myung-Chul (National Institute of Crop Science, RDA)
Jeon, Weon-Tai (National Institute of Crop Science, RDA)
Yang, Woon-Ho (National Institute of Crop Science, RDA)
Kang, Hang-Won (National Institute of Crop Science, RDA)
Lee, Hye-Jin (National Institute of Crop Science, RDA)
Publication Information
Korean Journal of Soil Science and Fertilizer / v.45, no.6, 2012 , pp. 1058-1064 More about this Journal
Abstract
A green manure crop were used in many ways, such as for reducing chemical fertilizer, improving physical and chemical properties of soils, protecting soil loss, and creating landscape when it's grown in agricultural land. Experiments were conducted to find out carbon emitted with applying green manure crops in paddy field. Amounts of carbon absorbed in the green manure crops during the winter were 1.22 ton $ha^{-1}$ in hairy vetch, 1,24 ton $ha^{-1}$ in barley, and 1.54 ton $ha^{-1}$ in hairy vetch/barley. The soil carbon content was the highest at days before transplanting of rice and decreased after days after harvesting the plant. Soil carbon contents were higher with hairy vetch or barley treatment than with hairy vetch/barley treatment. The content of emitted methane ($CH_4$) was the highest at 7 days after transplanting rice plant, and was 17 ~ 25 times higher with green manure treatments than with chemical fertilizer application. The $CH_4$ emission was the highest with hairy vetch treatment and than followed by hairy vetch/barley and barley treatments. The content of carbon absorbed in rice plant increased during the cultivation period but was not different with the applications of different green manure crops. The yield amounts of rough rice and rice strow were 5 ~ 13% higher with the green manure treatments than the chemical fertilizer application. In particular, they were the highest with hairy vetch/barley treatment as 14.07 ton $ha^{-1}$.
Keywords
Green manure crop; Carbon absorption and emission; Rice plant; Paddy field;
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Times Cited By KSCI : 6  (Citation Analysis)
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1 Roh K.A., H.C Jeong, G.Y Kim, K.H. So, K. M. Shim, D. S. Lee, and Y.H. Kim, 2010, Estimation of carbon sequestion and methane emission with organic amendment application at agricultural soil in korea, Korean J. Soil. Fert., 156-157. [in Korean]
2 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.   DOI
3 Yagi, K., K. Minami. and Y. Ogawa, 1990, Effects of water percolation on methane emission from paddy field, NIAES Res. Rep. Div. Environ. Planning. 6:105-122.
4 Yamana, I. and K. Sato,1964, Decomposition of glucose and gas formation in flooded soil, Soil Sci. Plant Nutri. 10:27-133.
5 Yang C.H., J.H. Ryu, T.K. Kim, S.B. Lee, J.D. Kim, N.H. Baek, W.Y. Choi, and S. J. Kim, 2009, Effect of green manure crops incorporation with rice cultivation on soil fertility improvement in paddy field. Korean Soc. Soil Sci. Fert. 42(5):166-173. [in Korean]   과학기술학회마을
6 Kim M.T., J.H. Ku, W.T. Jeon, K.Y. Seong, C.Y. Park, J.H. Ryu, H.S. Cho, I.S. Oh, Y.H. Lee, J.K. Lee, M. Park, and U.G. Kang, 2011. Effect of barley green manure on rice growth and yield according to tillage date in spring, Korea. J. Crop Sci Vol. 56(2): 119-123. [in Korean]
7 http://www.kma.go.kr. 2012, Weather during 2010-2011 in KMA
8 http://www.naver.com. 2012, Photosynthesis in doopedia.
9 Jeon, W.T., K,Y. Seong, J.K. Lee, M.T. Kim, and H.S. Cho, 2009, Effects of seeding rate on hairy vetch (Viciavillosa)- Rye (Secalecereale) mixtures for green manure production in upland soil. Korea J. Crop Sci. Vol. 54(3):327-331. [in Korean]   과학기술학회마을
10 Jung K.Y., C.H. Lee, J.S. Lee, J.Y. Ko, Y.D. Choi, and E.S. Yun, 2010, Effects of rice-barley cropping systems on soil carbon concentration in rice paddy, Korean J. Environ. Agric., 222-223. [in Korean]
11 Neue, H.U. and R. Sass, 1994, Trace gas emissions from rice fields in: prinn R(ed). Global atmospheric-biospheric chemistry Plenum Press, New york. 119-1483.
12 Lee, K.B., D.B. Lee, and Y.W. Kim, 1997, Seasonal variation of soil entrapped methane and dissolved methane flux in a paddy soil, Korean J. Soil. Fert. Vol. 30(1):41-45. [in Korean]
13 Lim S.S., W.J Choi, and H.Y. kim, 2012, Fertilizer and organic inputs effects on $CO_{2}$ and $CH_{4}$ emission from a soil under changing water regimes, Korean J. Environ. Agric., Vol 31(2):104-112.   과학기술학회마을   DOI   ScienceOn
14 NIAST. 2000. Analytical methods of soil and plant. National Institute of Agricultural Science and Technology, RDA, Suwon, Korea.
15 Rural Development Administration (RDA). 2003. Standard measurement and analysis in agricultural research and development, RDA, Suwon, Korea.
16 Shin, Y.K. and K.S. Kim, 1994, Methods for measurement of methane and nitrous oxide emissions from agricultural fields, Korea J. Environ. Agric. Vol 13(3):359-372 [in Korean]   과학기술학회마을
17 Song B.H., K.A. Lee, W.T. Ieon, M.T. Kim, H.S. Cho, I.S. Oh, C.G. Kim, and U.G. Kang, 2010. Effects of green manure crops of legume and gramineae on growth responses and yields in rice cultivation with respect to environment friendly agriculture. J. Crop Sci. 55(2):144-150. [in Korean]   과학기술학회마을
18 So K.H., J. A. Park, G.Z. Lee, K.M. Shim, J.H. Ryu, and K.A. Roh , Estimation of carbon emission and application of LCA(life cycle assessment) from rice production system, 2010, Korean J. Soil. Fert. Vol. 43(5):716-721. [in Korean]   과학기술학회마을
19 Nouchi I, 1994, Mechanism of methane transport though rice plants CH4 and $N_{2}O$, 86-104.