ѹαм


мȸ

  • ȸ
    • üȸȲ
    • ۰Ͻ ȸ
    • ȸ
  • ȸ
  • ȸڰ
  • ȸ

  • Ȯ
  • μϱ

üȸȲ

HomeмȸȸüȸȲ

ȸ

ȣ ȸ Դϴ.

üμϱ μϱ

  • ⺻
  • з»
  • »
  • ƻ
  • ֿ
  • ֿ俬
  • ֿ䱹Ȱ
ǥм Vol No PP
ۯి Ǵ Mn (D)12 47-51 1962
ժ װ μ ϼ ڷ¿ 2 41-67 1962
ժ ڪ μ ϼ ڷ¿ 3 268-271 1963
Ѧ ͪߩ ѱȭȸ 7(s) 09 14 1966
߫ Ѣ 춰 ԫ ߫ ῡ ġ -P-32 ĵ Ͽ- â 60ֳ 197-203 1966
ԥ () -Ѣ 춿 ̰ ߫ ġ - (B) 17 01 06 1966
ԥ ߫ Ŀ μ ϼ -ȸ 6Ⱓ ̿- ѱȸ 1(1) 13-26 1968
P32 彿 ־ ߫ μ ϼ (1) -ԥ ܬ ߫ ҿ Ͽ- ڷ¿ 8(1) 91-96 1968
P32 tracer ߫ μ ϼ(I) û 11(3) 35-42 1968
The Efficiency of Various Nitrogen Sources and Their Effect on the Utilization of Superphosphate -As Seoul Univ. J.(B) 19 10 18 1968
Flow Cell System for Miscible Displacement Experiments Water Res. Res 7 211-213 1971
Miscible Displacement Experiments with Flow Cell Scintillation Counting System Seoul Univ. J. Series B 2 67-77 1973
ڪ ѱȸ 6(1) 61-65 1973
⥿ ġ ѱȸ 6 107-113 1973
ڪ ѿ μ ϼ - 彿 Cl-, NH4+ HPO42- - м (ڿ) 13 261-269 1974
Ͽ콺 Ү μϿ ѱȸ 7(4) 227-234 1974
δ⩿ Ͽ콺 ѱȸ 8(2) 53-60 1975
Գ ϰ ѱȸ 8(2) 121-133 1975
Գ й η ѱȸ 8(2) 135-152 1975
ͧ 1 ߤ ѱȸ 9(1) 01 08 1976
߫ 信 μ ϼ (I) - ܬ ߫ ̽- ѱȸ 9(4) 251-256 1976
ڱ ߫彿 ߫ ġ ѱȭȸ 20(1) 88-94 1977
Į ѱȸ 10(3) 189-201 1977
Ѧ߫ ߫ ۰ μ ϼ ѱȸ 10(4) 211-217 1977
巿 ڪ ޿ μ ϼ ѱȸ 11(2) 61-66 1978
ԥ Ш߫ Ѣ ܬ ѱȸ 11(2) 85-95 1978
ߣ Ŀ μ ϼ ѱȸ 12(4) 169-178 1979
ԥ Cytozyme ? ѱȭȸ 23(4) 246-250 1980
ߣ 彰 ڷ ī м 19 255-266 1980
彿 ó ?Ш߫ ܬ ѱȸ 13 57-63 1980
ѱȭȸ 24(1) 74-83 1981
ʦ ڪ ⦿ ġ ѱȸ 14(2) 64-69 1981
ԥ Ш߫ ? ѱȸ 15(2) 95-100 1982
߫ ϸϾ ˰ ̿ г ѱȸ 15(2) 110-116 1982
ߧ ̿ г ġ ѱȸ 15(2) 117-127 1982
Evapotranspiration of Soybean- Barley Cropping as a Function of Evaporation and Available Soil Water J. Kor. Soc. Soil Sci. Fert. 15(4) 213-220 1982
ߣ ڷ μ ѱȯȸ 2(1) 18-23 1983
ϼ ѱȸ 16(1) 14-19 1983
Ư ƿ 1 73-104 1983
뿡 ġ Potential ѱȸ 16(2) 98-105 1983
Pressure-Plate Extractor Ү ܨκ ͪߩ ѱȸ 17(1) 07 11 1984
Գ ϼ I. ܬ ܨ ѱȸ 17(1) 01 06 1984
Գ ϼ II. Ҵۿ й ܨ ѱȸ 17(2) 161-165 1984
Գ ϼ III. й 彿 ˷̴ ѱȸ 17(2) 167-172 1984
ԥ ġ ѱȸ 17(3) 242-252 1984
ῡ  Ѣ ġ ѱȸ 17(3) 274-282 1984
ӱμ ߧ ߾ ϼ 9(1) 39-51 1984
Changes in Chemical Properties of Volcanic Ash Soil under Cultivation in Korea FFTC Book Series 27 117-133 1984
ڷ I. ׾ ī, - ѱȯȸ 4(1) 25-30 1985
ڷ II. ి ڷ ѱȯȸ 4(1) 31-36 1985
Ү ī, ѿ ϼ. . Ү ī, 󷿡 ġ Ѧڪ ѱȭȸ 28(2) 68-75 1985
ߣ ܫ ī, , ܬ ѱȯȸ 4(2) 71-77 1985
͹ Ѣ μ ϼ ó (..) 27(2) 71-74 1985
Ү ī, ѿ ϼ. II. Ү ī, ѿ ġ Ѧڪ ѱȭȸ 28(2) 76-81 1985
Gibbsite Ѧڪ pH ܨ SO42- 󷿡 ġ ѱȸ 19(2) 107-113 1986
ߣ ꮿ ۡϴ ۡɰ ͽ ϼ٥ ϼ (I) 11(1) 65-76 1986
Movement of Nutrients through Soils in Irrigation Water FFTC Technical, Bulletin 101 01 08 1987
Φ£ Ͼ ׵ ܨ μ ϼ ѱȸ 21(1) 03 10 1988
Ѩ Ѣܬ ۡߤ ټ ѱȸ 21(4) 386-408 1988
ѿ ϼ ó () 31 201-206 1988
ϡͣ Ө ڪ ܨ ϼ. I. ڪ ܨ ѱȸ 22(3) 163-172 1989
ϡ ͣ Ө ڪ ܨ ϼ. II. ܨ- ѱȸ 22(4) 257-264 1989
ߣ ꮿ ۡϴ ۡɰ ͽ ϼ٥ ϼ (II) п 14(1) 17-25 1989
ߣ ꮿ ۡϴ ۡɰ ͽ ϼ٥ ϼ (III) 14(1) 27-33 1989
ġ (K-sorb) ȿ ѱȸ 23(3) 173-179 1990
ȭ Ư ѱȸ 23(4) 275-280 1990
Գ Andic μ ϼ. 1. ۰ ߣ ϼ٥ ѱȸ 24(2) 86-94 1991
δ⩿ ѿ μ ϼ. 1. δῡ ѱȸ 24(2) 102-108 1991
Ⱑ ߫ ġ . I. , ܨ ѱȸ 24(2) 109-115 1991
δ⩿ ѿ μ ϼ 2. Cl P ѱȸ 24(3) 159-164 1991
(Urea) Ө Ѧ ܨ ѱȸ 24(3) 171-176 1991
ƿ ֺ 翡 ߱ݼ ֿ ġ ѱȸ 24(3) 183-191 1991
Գ Andic ϼ. II. ѱȸ 24(4) 241-247 1991
Ⱑ ߫ ġ . II. ߫ Ѧ ߫ ѱȸ 24(4) 248-253 1991
Ө pH ߫, Ѧڪ ̿ Է ȭ ѱȸ 24(4) 254-259 1991
ֵ ڿ -ֵ з Ư - ֵ 8 42-58 1991
ڪ ῡ ϼ ó () 34(2) 56-70 1992
꼺 ȯ ȣĹȣȸ 6 07 16 1992
Dycyandiamide(DCD) ͳ ߧѥڪ Ѧ ۯ 𤿡 ġ ѱȸ 26(1) 43-48 1993
Ѩ Ѩ ܨ ѱȸ 26(2) 121-126 1993
߫ Ѱ ѱȯȸ 12(3) 281-297 1993
׾ ῡ μ ϼ г 35(2) 280-290 1993
ϼ η༿ г 35(2) 303-315 1993
寿 ߫ ڪ (I) Pyrite Jarosite ѱȸ 26(3) 204-214 1993
ѱ̻Ȱȸ 4(2) 139-154 1993
ʫ , ۣ ۡ ϼ I. Լ ȭ ѱȯȸ 13(2) 216-222 1994
NO3-N ̿ II. NO3-N ̿ ѱȸ 27(1) 15-20 1994
NO3-N ̿ II. 彰 pH ܨ ۰ ѱȸ 27(1) 21-26 1994
ʫ , ۣ ۡ ϼ II. , ۣ, ѱȯȸ 13(2) 223-230 1994
Գ Andic ϼ III. Allophane ѱȸ 27(3) 149-157 1994
寿 ߫ ڪ II. ڪ ѱȸ 27(3) 168-178 1994
δ⩿ ѿ μ ϼ III. 쿡 ѱȸ 27(3) 232-237 1994
翡 (N-15) ̿ ǥÿ ҷκ ϴ ൿ ѱȭȸ 37(4) 277-286 1994
쿡 Ca, Mg K ѱȸ 7(4) 255-262 1994
׾ڪ ῡ μ ϼ г 36(2) 301-309 1994
ڪ ῡ μ ϼ г 36(2) 310-320 1994
寿 ֵ ߫ ׾ ѱȸ 28(1) 01 10 1995
ȯ Ȱ -ǺҸ ȯģȭ å ߽- ѱ̰ȹȸ 1(2) 103-121 1995
˷̴ ȭ ٰ ̿ ȯ 迡 λ ̵ ȯȸ 17(10) 993-1003 1995
Distribution of Cs-137 and K-40 in Korean Soils J. Korean Soc. Soil Sci. Fert.28(1) 33-40 1995
忡 ħ Urea-N, NH4-N NO3-N ȭ ѱȸ 28(2) 160-164 1995
ֵ ǥ 翡 Alachlor Chlorothalonil ̵ ѱȯȸ 14(2) 135-143 1995
Research and Education for Sustainable Agriculture in Korea Seoul Nat'l Univ. J. Agric. Sci. 20(2) 173-190 1995
߱ݼӿ Cd, Zn, Cu, Pb ħ 񱳿 ȭ ѱȸ 28(3) 207-217 1995
д ܹ ġ ѱ̰ȹȸ 2(1) 69-78 1996
п ߫ ѱȸ 29(4) 353-359 1996
Ѧڪ ó Trichloroethylene ġ ѱȯȸ 1(1) 11 17 1996
б ֺ ī, , ƿ Է ѱȸ 29(4) 424-431 1996
б õ ߱ݼ ȭ Ư ѱȸ 29(4) 432-438 1996
ǿ ǥ鿡 ÿ ൿ ġ methanol ѱȸ 30(2) 99-107 1997
̿뿡 Ϸ ѱȸ 39(3) 112-127 1997
ϼ ̵ 系 ȯ 39(1) 01 08 1997
寿 ߫ ׼ ܬ Jarosite ѱȸ 10(1) 45-49 1997
ϼ ȭ ȭ ѱȸ 31(2) 189-196 1998
õ Ű ܵ Դܺ dz ѱȸ 31(4) 315-323 1998
Speciation of Cd, Cu and Zn in Sewage Sludge-Treated Soils Incubated under Aerobic and Anaerobic Con Agric. Chem. Biotechnol. 42(2) 85-91 1999
An Investigation of the Sources of Nitrate Contamination in the Kyonggi Province Groundwater by Isot J. Korean Soc. Soil Sci. Fert. 32(1) 47-56 1999
翡 ۹ ȿ Է ȭ ѱȸ 32(3) 261-267 1999
Distribution of Cd, Cu and Zn in a Sewage Sludge-Treated Calcareous Soil Agric.Chem. Biotechnol. 42(3) 134-139 1999
Temporal Variations in Isotope Ratios and Concentrations of Nitrate-nitrogen in Groundwater as Affec Agric.Chem. Biotechnol. 42(4) 186-190 1999
Monitroring of water content and electrical conductivity in paddy soil profile by time domain reflec J. Korean Soc. Soil Sci. Fert. 32(4) 365-374 1999
ҽú ⼺ Է ġ ѱȸ 40(6) 711-714 1999
A numerical solution of transport of mono- and tri- valent cations during steady water flow in a bin Agricultural Chemistry and Biotechnology 43(1) 18-24 2000
Transport of Urea in Waterlogged Soil Column : Experimental Evidence and Modeling Approach Using WAV Agricultural Chemistry and Biotechnology 43(1) 25-30 2000
۹ 3 ѱȭȸ 43(2) 116-123 2000
Urea transformation and nitrogen loss in waterlogged soil column Agricultural Chemistry and Biotechnology 43(2) 86-93 2000
Preferential flow as tested by breakthrough curves of Cl- and Cu2+ from saturated undisturbed soil c J. Korean Soc. Soil Sci. Fert. 33(2) 71-78 2000
ȣ ô 󵵺 ۹ ѱȯȸ 19(4) 358-363 2000
ȣ ô ࿡ ʱ Ļ ȭ ѱȯȸ 19(4) 364-369 2000
߼ ⸦ ̿ ӵ Լ ȭ ѱ󸲱ȸ 2 156-166 2000
Ѱ ϼ ͸ ѱȯȸ 16(3) 283-294 2000
ϼ ÿ ȭм ȭ ġ ѱȸ 33(6) 463-471 2000
Increase in 15N of nitrate through kinetic isotope fractionation associated with denitrification in Agric.Chem. Biotechnol. 44(3) 135-139 2001
߱ 渲 鼺 ? ȭм λ Ư ѱȭȸ 44 92-96 2001
հ ϰ ȿ ѱȸ 43(5) 63-69 2001
ô 翡 1:5 ħ ̿ ȭħ ѱȭȸ 44 206-207 2001
ÿ 翡 żս ѱȸ 34(3) 158-164 2001
Corn uptake and microbial immobilization of 15N-labeled urea-N in soil as affected by composted pig Plant and Soil 235 01 09 2001
Natural 15N abundances of corn treated with urea or composted pig manure in a pot experiment. ѱȸ 34 284-291 2001
Changes in inorganic phosphorus fractions in P accumulated plastic film house soils under cropping c J. Korean Soc. Soil Sci. Fert. 34(4) 255-264 2001
Distribution of inorganic N from fertigated and broad-applied 15N-urea along drip irrigation domain. J. Korean Soc. Soil Sci. Fert. 34(4) 292-301 2001
õ ܵ Ÿ ѱȸ 35(2) 93-104 2002
Natural 15N abundances of maize and soil amended with urea and composted pig manure. Plant and Soil 245 223-232 2002
Evaluation of nitrate contamination sources of unconfined groundwater in the North Han River basin o Geosciences Journal 6 47-55 2002
Calculation of bulk and solution electrical conductivity of soil using time domain reflectometry mea Korean Journal of Soil Science and Fertilizer 36(1) 01 07 2003
Finete Defference Model of Unsaturated Soil Water Flow Using Chebyshev Polynomials of Soil Hydrauric Korean Journal of Soil Science and Fertilizer 36(4) 181-192 2003
ġ ̿ ô ѱȸ 36(2) 57-65 2003
Distribution of heavy metals in soils of Shihwa tidal freshwater marshes Korean Journal of ecology 26(1) 65-70 2003
Degradation of ethoprophos in three physicochemically different soils treated with composted manure Bulletin of Environmental Contamination and Toxicology 70 520-526 2003
Urea-nitrogen transformation and compost-nitrogen mineralization in three different soils as affecte Biol Fertil. Soils 39 193-199 2004
ô о ̿ȹ ô 2 68-91 2004
Phosphorus adsorption and removal by sediments of a constructed marsh in Korea Ecological Engineering 27 109-117 2006
Ϻ