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NTIS 바로가기韓國土壤肥料學會誌 = Korean journal of soil science & fertilizer, v.43 no.4, 2010년, pp.453 - 457
임상선 (전남대학교 농업생명과학대학 지역바이오시스템공학과) , 이상모 (서울대학교 농생명과학공동기기원) , 이승헌 (한국농어촌공사 농어촌연구원) , 최우정 (전남대학교 농업생명과학대학 지역바이오시스템공학과)
화학비료, 가축분뇨 및 퇴비 등 주요 질소원의 질소동위원소비 (
To investigate the difference in N isotope ratio (
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Bateman. A.S. and S.D. Kelly. 2007. Fertilizer nitrogen isotope signatures. Isot. Environ. Healt. S. 43 :237-247.
Bateman. A.S., S.D. Kelly. and T.D. Jickells. 2005. Nitrogen isotope relationships between crops and fertilizer: implication for using nitrogen isotope analysis as an indicator of agricultural regime. J. Agr. Food Chem. 53:5760-5765.
Bremner, J.M. 1996. Nitrogen-total. p. 1085-1121. In D.L. Sparks et al. (ed.) Methods of Soil Analysis. Part 3. Chemical Methods, American Society for Agronomy, Madison, Wisconsin, USA.
Broadbent, F.E., R.S. Rauschkolb. K,A. Lewis, and G.Y. Chang. 1980. Nilrogen.15 enrichment of soils and soil-derived nitrate. J. Environ. Qual. 2:363-365.
Chang. S.X. and W.J. Choi. 2009. Application of the stable nitrogen isotope technique in studying ecosystem processes. p. 148-171. In: Lectures in Modern Ecology (IV): Theory and Applications. Higher Education Press, Bejing,China.
Choi, W.J. 2002. Natural $^{15}N$ abundances and source identification of nitrogen in soil-plant-groundwater system as affected by chemical fertilizer and composted manure. Ph.D. Thesis, Seoul National University. Suwon, Korea.
Choi, W. J., H.M. Ro. and E.A. Hobbie. 2003. Patterns of natural 15N in soils and plants from chemically and organically fertilized uplands. Soil Biol. Biochem. 35:1493-1500.
Choi. W.J., M.A. Arshad. S.X. Chang, and T.H. Kim. 2006. Grain $^{15}N$ of crops applied with organic and chemical fertilizers in a four-year rotation. Plant Soil. 284:165-174.
Choi. W.J., S.M, Lee. H.M. Ro, K.C. Kim, and S.H. Yoo. 2002 Natural $^{15}N$ abundances of maize and soil amended with urea and composted pig manure. Plant Soil. 245:223-232.
Choi, W.J., G.H. Han. S.M. Lee, G.T. Lee, K.S. Yoon. S.M. Choi, and H.M. Ro. 2007. Impacl of land-use types on nitrate concentration and $^{15}N$ in unconfined groundwater in rural areas of Korea. Agricul. Ecosyst. Environ. 120:259-268.
Feast, N.A., K.M. Hiscock, P.F. Dennis. and J.N. Andrews. 1998. Nitrogen isotope hydrochemistry and denitrification within the Chalk aquifer system of north Norfolk, UK. J. Hydrol. 211:233-252.
Flipse, Jr. W.J. and F.T. Bonner. 1985. Nitrogen-isotope ratios of nitrate in ground water under fertilized fields, Long Island, New York. Ground water. 23:59-67.
Freyer. H.D. and A.I.M. Aly, 1974. Nilrogcn-15 variations in fertilizer nitrogen. J. Environ. Quality. 3:405-406.
Gormly, J.R. and R.F. Spalding. 1979. Sources and concentrations of nitrate-nitrogen in ground water of the Central Platte Region. Nebraska. Ground Water.3 :291-301.
Hao. X., C. Chang, and F.J. Larney. 2004. Carbon. nitrogen balances and greenhouse gas emission during feedlot manure composting. J. Environ. Qual. 33 :37-44.
Hauck, R.D. 1982. Nitrogen-isotope ratio analysis. p. 735-779. In: AL. Page et al. (ed.) Methods of Soil Analysis. Part 2: Chemical and Microbiological Properties, American Society of Agronomy and Soil Science Society of America, Madison, Wisconsin, USA.
Heaton, T.H.E. 1984. Sourccs of nitrate in phreatic groundwater in the western Kalihari. J. Hydrol. 67:249-259.
Karamanos,R.E. and D.A. Rennie. 1980. Variations in natural nitrogen-15 abundances as an aid in tracing fertilizer nitrogen transformations. Soil Sci. Soc. Am. J. 44:57-62.
Karamanos, R.E. and D.A. Rennie. 1981a. The isotope composition of residual fertilizer nitrogen in soil column. Soil Sci. Soc. Am. J. 45 :316-321.
Karamanos, R.E. and D.A. Rennie. 1981b. Changes and significance in natural $^{15}N$ abundance in residual nitrogen fertilizer studies. Can. J. Soil Sci. 61 :553-559.
Kerley, S.J. and S.C. Jarvis. 1996.Preliminary studies on the Impact of excreted N on cycling and uptake of N in pasture systems using natural abundance stable isotope discrimination. Plant Soil. 178:287-294.
Kim, J.Y., W.J. Choi, S.S. Lim, J.H. Kwak, S.X. Chang. H.Y. Kim, K.S. Yoon, and H.M. Ro. 2008. Changes in nitrogen isotopic compositions during composting of cattle feedlot manure: effects of bedding material type. Bioresour. Technol. 99:5452-5458.
Kohl, D.H., G.B. Shcarer. and B. Commoner. 1973. Variation of $^{15}N$ in com and soil following application of fertilizer nitrogen. Soil Sci. Soc. Am. Proc. 37:888-892.
Komor, S.C. and Jr. H.W. Anderson. 1993. Nitrogen isotope as indicator of nitrate sources in Minnesota sand-plain aquifers. Ground water. 31 : 260-270.
Kreitler, C.W. 1975. Determining the source of nitrate in ground water by nitrogen isotope studies. Report of Investigations No 83. Bureau of Economic Geology. University of Texas, Austin. Texas. USA.
Kreitler. C. W. 1977. Nitrogen isotopes of soil and ground water nitrate, Lockhart and Taylor alluvial fans, central Texas. Geol. Soc. Am. 96:1058-1059.
Kreitler. C.W, 1979. Nitrogen-isotope ratio studies of soils and ground water ntrate from alluvial fan aquifers in Texas. J. Hydrol. 42:147-170.
Kreitler. C.W, S.E. Ragone, and B.G. Katz. 1978. N15/N14 ratios of ground-water nitrate, Long Island, New York. Ground Water. 16:404-409.
Larney, F.J., D.M. Sullivan. K.E. Buckley, and B. Eghball. 2006. The role of composting in recycling manure nutrients. Can. J. Soil Sci. 86:597-611
Mariotti, A. and R. Letolle. 1977. Application of nitrogen-isotope studies to hydrology and hydrogeology: analysis of the peculiar case of the Melarchez Basin (Seinc-et.Marne, France). J. Hydrol. 33: 157-172.
Meints, V.W., L.V. Boone, and L.T. Kurtz. 1975. Natural $^{15}N$ abundance in Soil, leaves and gains as influenced by long-term additions of fertilizer N at several rates. J. Environ. Qual. 4:486-490.
Shearer. G.B. and J.O. Legg. 1975. Variations in the natural abundance of $^{15}N$ wheal plants in relation to fertilizer nitrogen application. Soil Sci. Soc. Am. Proc. 39:896-901.
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