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http://dx.doi.org/10.5338/KJEA.2014.33.4.298

Nitrogen Dynamics in the Soils Incorporated with Single and Mixture Application of Hairy vetch and Barley  

Lim, Woo Sup (Department of Life Science and Environmental Biochemistry, Pusan National University)
Lee, Hyun Ho (Department of Life Science and Environmental Biochemistry, Pusan National University)
Hong, Chang Oh (Department of Life Science and Environmental Biochemistry, Pusan National University)
Publication Information
Korean Journal of Environmental Agriculture / v.33, no.4, 2014 , pp. 298-305 More about this Journal
Abstract
BACKGROUND: The utilization of green manures as alternatives to reduce the use of chemical fertilizers is considered a good agricultural practice. Effect of incorporation of green manure to soil on change of inorganic nitrogen (N) is well literatured. However, there have been few studies on examining entire dynamic of N including inorganic N and N gases in soil incorporated with green manure. The objective of this study was to examine the changes of inorganic N and N gases with single and mixture applications of hairy vetch and barley in the soil. METHODS AND RESULTS: Hairy vetch(H) and barley (B) were applied at the mixture ratio of B:H=0:0, B:H=100:0, B:H=0:100, and B:H=50:50 in soil. The soil-green manure mixtures were incubated in the dark at $25^{\circ}C$ for 17 weeks under aerobic conditions. Cumulative emission of $NH_3$ and $N_2O$ from soils amended with mixture of barley and hairy vetch(B:H=50:50) were less than those from amended with mono hairy vetch(B:H=0:100). Incorporation of single hairy vetch or mixture of barley and hair vetch application could significantly increased concentration of plant available N ($NH_4{^+}$) in early stage of plant growth and plant available N ($NO_3{^-}$) in later stage. However, high concentration of $NO_3{^-}$ in soil could cause adverse environmental impact through $NO_3{^-}$ leaching from soil. CONCLUSION: Conclusively, it might be a good soil management practice to incorporate mixture of barely and hairy vetch in the view point of increase in plant available N concentration and decrease in N losses through volatilization, denitrification, and leaching.
Keywords
Barley; Hairy vetch; Incorporation; Nitrogen dynamic;
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Times Cited By KSCI : 3  (Citation Analysis)
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1 Randall, G.W., Huggins, D.R., Russelle, M.P., Fuchs, D.J., Nelson, W.W., Anderson, J.L., 1997. Nitrate losses through subsurface tile drainage in Conservation Reserve Program, alfalfa, and row crop systems, Journal of Environmental Quality 26, 1240-1247.
2 Scherer-Lorenzen, M., Palmborg, C., Prinz, A., Schulze, E.-D., 2003. The role of plant diversity and composition for nitrate leaching in grasslands, Ecology 84, 1539-1552.   DOI   ScienceOn
3 Searle, P.L., 1984. The Berthelot or Indophenol reaction and its use in the analytical chemistry of nitrogen, Analyst 109, 549-568.   DOI
4 Seo, J.H., Lee, H.J., Hur, I.B., Kim, S.J., Kim, C.K., Jo, H.S., 2000. Comparisons of Chemical Composition and Forage Yield Among Winter Green Manure Crops,. J. Korean Grassl. Sci. 20, 193-198.   과학기술학회마을
5 Sung, J.K., Lee, S.M., Jung, J.A., Kim, J.M., Lee, Y.H., Choi, D.H., Kim, T.W., Song, B.H., 2008. Effects of green manure crops, Hairy vetch and Rye, on N supply, Red pepper growth and yields, Korean J. Soil Sci. Fert. 41, 247-253.
6 Tejada, M., Gonzalez, J.L., Garci'a-Marti'nez, A.M., Parrado, J., 2008. Effects of different green manures on soil biological properties and maize yield, Bioresource Technology 99, 1758-1767.   DOI   ScienceOn
7 Toomsaw, B., Cadisch, G., Srichantawong, M., Thongsodsaeng, C., Giller, K.E., Limpinuntann, V., 2000. Biological N2 fixation and residual N benefit of pre-rice leguminous crops and green manures, Netherlands Journal of Agricultural Science 48, 19-29.
8 Toth, J.D., Fox, R.H., 1998. Nitrate losses from a corn-alfalfa rotation: lysimeter measurement of nitrate leaching, Journal of Environmental Quality 27, 1027-1033.
9 Allison, F.E., 1966. The fate of nitrogen applied to soils, Advances in Agronomy 18, 219-58.   DOI
10 Allison, L.E., 1965. Organic carbon, in: Black, C.A. (Eds), Methods of soil analysis, Am Soc Agron Inc. Publ. Madison, WI, USA, pp. 1367-1376.
11 Bremner, J.M., 1965. Total nitrogen, in: Black, C.A. (Eds), Methods of Soil Analysis, Am Soc Agron Inc. Publ. Madison, WI, USA, pp. 1149-1178.
12 Ben-Dor, E., Banin, A., 1989. Determination of organic matter content in arid-zone soils using a simple "loss - on-ignition" method, Commun. Soil. Sci. Plant Anal. 20, 1675-1695.   DOI   ScienceOn
13 Cicek, H., Thiessen Martens, J.R., Bamford, K.C., EntzM, H., 2014. Effects of grazing two green manure crop types in organic farmingsystems: N supply and productivity of following grain crops, Agriculture Ecosystems and Environment 190, 27-36.   DOI
14 Djurhuus, J., Olsen, P., 1997. Nitrate leaching after cut grass/clover leys as affected by time of ploughing, Soil Use and Management 13, 61-67.   DOI
15 Herrera, W.T., Garrity, D.P., Vejpas, C., 1997. Management of Sesbania rostrata green manure crops grown prior to rainfed lowland rice on sandy soils, Field Crops Research 49, 259-268.   DOI
16 Kim, J.G., Chung, E.S., Yoon, S.H., Seo, S., Seo, J.H., Park, G.J., Kim, C.K., 2002. Studies on the Quality and Productivity Improvement by Mixed Sowing of Oat-Hairy vetch, J. Korean Grassl. Sci. 22, 31-36.   과학기술학회마을   DOI
17 Korsaeth, A., Henriksen, T.M., Bakken, L.R., 2002. Temporal changes in mineralization and immobilization of N during degradation of plant material: implications for the plant N supply and nitrogen losses, Soil Biology & Biochemistry 34, 789-799.   DOI
18 Kuo, S., Sainju, U.M., 1998. Nitrogen mineralization and availability of mixed leguminous and non-leguminous cover crop residues in soil, Biol. Fert. Soils 26, 346-353.   DOI   ScienceOn
19 Wolf, B., 1944. Determination of nitrate, nitrite, and ammonium nitrogen. Rapid photometric determination in soil and plant extract, Ind. Eng. Chem. Anal. Ed. 16, 446-447.   DOI
20 Kundler, P., 1970. Utilization, fixation, and loss of fertiliser nitrogen. Albrecht-Thaer-Arch. 14, 191-210.
21 Lee, I.B., Kang, S.B., Park, J.M., Lim, J.H., 2008. Effect of soil incorporation of Graminaceousand Leguminous manures on Tomato (Lycoperisconesculentum Mill.) growth and soil nutrient balances, Korean J. Environ. Agric. 27, 343-348.   DOI
22 Ndayegamiye, A., Cote', D., 1989. Effect of long-term pig slurry and solid cattle manure application on soil chemical and biological properties, Canadian Journal of Soil Science 69, 39-47.   DOI
23 Marschner, H., 1995. Mineral Nutrition of Higher Plants, 71-83, 2nd ed. Academic Press, USA. Mohanty,
24 Subba Rao, A., Menzies, N.W., 2011. Modelling N mineralization from green manure and farmyard manure from a laboratory incubation study, Ecological Modelling 222, 719-726.   DOI   ScienceOn
25 Parham, J.A., Deng, S.P., Raun, W.R., 2003. Long-term cattle manure application in soil Part II: effect on soil microbial populations and community structure, Biol. Fertil. Soils 38, 209-215.   DOI   ScienceOn
26 Piotrowska, A., Wilczewski, E., 2012. Effects of catch crops cultivated for green manure and mineral nitrogen fertilization on soil enzyme activities and chemical properties, Geoderma 189-190, 72-80.   DOI
27 Plaza, C., Hernandez, D., Garcia-Gil, J.C., Polo, A., 2004. Microbial activity in pig slurry-amended soils under semiarid conditions, Soil Biol. Biochem. 36, 1577-1585.   DOI   ScienceOn
28 Shipley, P.R., Meisinger, J.J., Cecker, A.M., 1992. Conserving residual corn fertilizer nitrogen with winter cover crops, Agron. J. 84, 869-876.   DOI