• 한국농공학회지
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• 제40권2호
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• pp.159-170
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• 1998

This study was initiated to investigate the applicability of the dredged soil from agricultural reservoirs on the crop cultivation. Four reservoirs were selected for this experiment, and properties of the dredged soils were analyzed physically and chemically. Soil textures were sandy loam(SL), silty loam(SiL), gravelly loam(GL), graveHy silty loam(GSiL), respectively. General chemical components, organic matter contents, main cations, heavy metals, etc. showed no adverse effects on crop growth. Tomato, cucumber, radish, Chinese cabbage were cultivated during 8 months period, in the soil treated with fertilizer and compost(Tmt.1), fertilizer(Tmt.2), compost(Tmt.3) and none (Tmt.4). Data for plant height, root zone depth and crop yield were collected and analyzed, and the yield for most crops showed increase as Tmt.1 >Tmt.2>Tmt.3>Tmt.4 by fertilizing methods, and as GL>GSiL>SL>SiL by soil textures. From the results, the crop cultivation using dredged soil was considered to be effective, due to its soil texture, organic matter content and fertilization.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2009년도 춘계 학술발표회
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• pp.299-307
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• 2009

New lake dike in Saemanguem area is 125km length and require a great amount of fill materials, but it's difficult to get the amount of materials and develop a quarry because of environment conservation. Therefore, the solution is to use the dredged soil in project area as the fill materials not to develop quarry. However, characteristic of dredged soil as a silty fined sand is very weak at seepage, sliding, erosion of dike due to infiltration of rainfall, wind etc. So, lake dike using dredged soil must be constructed safely against the unstable problem of dredged sand. The objective of research is to make safe lake dike using dereged soil on construction of Saemangeum new lake dike. So, we analyzed the characteristic of dredged soil and suggested a standard section of lake dike.

• 한국농공학회지
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• 제32권1호
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• pp.55-71
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• 1990

The purpose of this study is to find out the basic data for irrigation plans of red pepper and radish during the growing period, such as total amount of evapotranspiration, coefficent of evapotranspiration at each growth stage, the peak stage of evapotranspiration, the maximum ten day evapotranspiration , optimum irrigation point, total readily available moisture and intervals of irrigation date. The plots of experiment were arranged with split plot design which were composed of two factors, irrigation point for main plot and soil texture for split plot, and three levels ; irrigation point with pH1.7-2.0, pF2.1-2.4 and pF2.5-2.8, at soil texture of sandy soil, sandy loam and silty clay for both red pepper and radish, with two replications. The results obtained are summarized as follows. 1.1/10 exceedance probability values of maximum total pan evaporation during growing period for red peppr and radish were shown as 663.6 mm and 251.8 mm. respectively, and those of maximum ten day pan evaporation for red pepper and radish, 67.1 mm and 46.9 mm, respectively. 2.The time that annual maximum of ten day pan evaporation can he occurred, exists at any stage between the middle of May and the late of August for red pepper, and at any stage between the late of August and the late September for radish. 3.The magnitude of evapotranspiration and its coefficient for red pepper was occurred large in order of pF1.7-2.0 pF2.1-2.4 and pF2.5~2.8 in aspect of irrigation point and the difference in the magnitude of evapotranspiration and of its coefficient between levels of irrigation point was difficult to be found out due to the relative increase in water consumption resulted from large flourishing growth at the irrigation point in lower water content for radish. In aspect of soil texture they were appeared large in order of sandy loam, silty clay and sandy soil for both red pepper and radish. 4.The magnitude of leaf area index was shown large in order of pF2.1-2.4, pF2.5-2.8, and pFl.7-2.0, for red pepper and of pF2.5-2.8, pF2.1-2.4, pFl.7-2.0 for radish in aspect of irrigation point, and large in order of sandy loam, silty clay, sandy soil for both red pepper and radish in aspect of soil texture 5.1/10 exceedance probability value of evapotranspiration and its coefficient during the growing period for red pepper were shown as 683.5 mm and 1.03, respectively, while those of radish, 250.3 mm and 0, 99. respectively. 6.The time that the maximum evapotranspiration of red pepper can be occurred is in the middle of August around the date of ninetieth to hundredth after transplanting, and the time for radish is presumed to be in the late of September, around the date of thirtieth to fourtieth after sowing. At that time, 1/10 exceedance probability value of ten day evapotranspiration and its coefficient for red pepper is assumed to be 81.8 mm and 1.22, respectively, while those of radish, 49, 7 mm and 1, 06, respectively. 7.Optimum irrigation point for red pepper on the basis of the yield of raw matter is assumed to be pFl.7-2.0 for sandy soil, pF2.5-2.8 for sandy loam, and pF2.1-2.4 for silty clay. while that for radish is appeared to be pF2.5-2.8 in any soil texture used. 8.The soil moisture extraction patterns of red pepper and radish have shown that maximum extraction rates exist at 7 cm deep layer at the beginning stage of growth in any soil texture and that extraction rates of 21 cm to 35 cm deep layer are increased as getting closer to the late stage of growth. And especially the extraction rates have shown tendency to be greatest at 21cm deep layer from the most flourishing stage of growth for red pepper and at the last stage of growth for radish. 9.The total readily available moisture on the basic of the optimum irrigation point become 3.77-8.66 mm for sandy soil, 28.39-34.67 mm for sandy loam and 18.40-25.70 mm for silty clay for red pepper of each soil texture used but that of radish that has shown the optimum irrigation point of pF2.5-2.8 in any soil texture used. 12.49-15.27 mm for sandy soil, 23.03-28.13 mm for sandy loam, and 22.56~27.57 mm for silty clay. 10.On the basis of each optimum irrigation point. the intervals of irrigation date at the growth stage of maximum consumptive use of red pepper become l.4 days for sandy soil, 3.8 days for sandy loam and 2.6 days for silty clay, while those of radish, about 7.2 days.

• 한국작물학회지
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• 제38권3호
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• pp.290-295
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• 1993

수도 무경기 기계이앙 재배시 수도수량과 토양특성 변화를 구명하기 위하여 무경운을 포함한 논토양 특성에 맞는 최소경운 방법을 확립코자 미사 질식토, 사양토, 미사질양토의 3개 포장에서 경운방법을 달리하여 화성벼를 재배하면서 수도 수량과 토양특성을 조사, 분석한 결과는 다음과 같다. 1. 무경기구의 수온과 지온은 제 일 낮았으나 처리간에 온도차이는 크지 않았다. 2. 토성별 평균감수심은 사양토에서 가장 많았고 미사질식토에서 가장 적었는데 무경윤구의 감수심이 다른 처리구보다 1.4～2.2mm/일 많았다. 3. 수확기때 수도체의 무기함량은 무경기시 다른 처리구에 비하여 미사질식토에서는 $Na_2$O 함량을 제외하고는 가장 높았다. 4. 무경운구의 수양감수는 경운기 경운+로타리구에 비하여 사양토에서 18%, 미사질식토에서 7%, 미사질양토에서 1%감수되었다.

• 한국토양비료학회지
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• 제44권1호
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• pp.22-28
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• 2011

With the increasing cultivation of acid-loving plants such as blueberries, the artificial acidification of soils is frequently required. This research was conducted to determine the application rates of elemental sulfur (S) required in the soil acidification for blueberry cultivation. Laboratory incubation experiment was conducted to acidify three arable soils (pH 6-7) of different texture to pH 4.5-5.0 by the addition of varying amounts of elemental S. All rates of elemental S addition reduced soil pH, although the efficacy of acidification was related to the application rate and soil characteristics. pH reduction was slow in sandy loam soil, and the final equilibrium pH was obtained after 60, 43, and 30 days of incubation in sandy loam, loam, and silty clay, respectively. Although the final pHs obtained after 93 days of incubation were not significantly different among the three soils, the equilibrium pH was relatively higher in soil of higher clay content in the application rates of 1.5-2.0 g S $kg^{-1}$ soil. The estimated amounts of elemental S required in lowering pH to 4.5-5.0 were 0.59-1.01, 0.67-1.03, and 0.53-0.88 g S $kg^{-1}$ for sandy loam, loam, and silty clay, respectively. The lowest estimated amount of elemental S in the acidification of silty clay soil was attributable to the low organic matter content. For clay soils containing optimum level of organic matter, the application rates of elemental S should be much higher than those values estimated in this research. Soil acidification did not significantly increase the available concentrations of Ca, Mg and K. Extractable Cu and Zn was not greatly affected by the acidification, but extractable Fe, Mn, and Al in the acidified soils were higher than those found in non-acidified soils. Such increases in solubility are attributable to the dissolution of oxides and hydroxides of the elements.

• 한국토양비료학회지
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• 제22권4호
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• pp.280-284
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• 1989

서남해안(西南海岸)에 분포(分布)되어 있는 간척가능지(干拓可能地) 442,000ha에 대(對)한 토성별(土性別) 분포현황(分布現況)과 물리화학적(物理化學的) 특성(特性)을 조사(調査) 분석(分析)하고 토양(土壤) 성숙(成熟)에 따라 일어나는 상상(像想) 침하량(沈下量)에 대(對)하여 연구(硏究)한 결과(結果)를 요약(要約)하면 다음과 같다. 1. 기존간척지(旣存干拓地) 257,000ha의 토성별(土性別) 분포면적(分布面積)은 미사식양질(微砂埴壤質) 53.0%, 미사사양질(微砂砂壤質) 36.0%, 사질(砂質) 6.0%, 사양질(砂壤質) 5.0% 이다. 2. 간척가능지(干拓可能地) 442,000ha의 토성별(土性別) 분포면적(分布面積)은 미사식양질(微砂埴壤質) 51.0%, 사질(砂質) 20.0%, 사양질(砂壤質) 15.0%, 징사식양질(徵砂埴壤質) 14.0%이며 지역별(地域別) 분포(分布)는 경기(京機)와 전남(全南)은 미사질계토양(微砂質系土壤), 전북(全北)은 조립질토양(粗粒質土壤), 충남지역(忠南地域)은 각종토성(各種土性)이 고르게 분포(分布)되어 있다. 3. 간척가능지토양(干拓可能地土壤)은 염도(鹽度)(EC) 46~51mmhos/cm, E.S.P 25~60%, pH 7.5~8.0으로 U.S.Salinity Lab의 염류토양(鹽類土壤) 분류(分類)로 함염(含鹽)Alkali토와(土) 유사(類似)하다. 4. 간척가능지(干拓可能地)를 농경지(農耕地)로 개발(開發)할때 예상(豫想)되는 침하량(沈下量)은 미사질양토(微砂質壤土) 18.0%, 치사질식양토(徵砂質埴壤土) 21.0%이다.

• 산업기술연구
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• 제24권A호
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• pp.251-261
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• 2004

A series of column test with a silty marine soil mixed with Jumunjin Standard Sand were performed to investigate the characteristics of settling and consolidation of non-plastic dredged soils. Column tests were carried out by using the separable column to measure the grain size distribution of consolidated layer. Column tests were performed with changing the mixing ratio of Jumunjin Standard Sand to the silty marine soil, initial water content of slurry and initial height of slurry. Height of interface of slurry was monitored during tests and grain size distribution tests were carried out after finishing tests. Influencing factors on the particle segregation, eventually to the characteristics of settling and consolidation of non-plastic soil, were analyzed on the thesis of test results. As results of column tests, the mixing ratio of sand to the silty marine soil and the initial water content of slurry were known to affect the characteristics of settling and consolidation resulted in significant particle segregation of slurry. Initial height of slurry was found not to affect seriously to particle segregation.

• 한국토양비료학회지
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• 제30권1호
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• pp.51-55
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• 1997

Three soils, sandy loam, loam and silty clay loam, were selected and three inches soil cores with 4 bulk density(BD) levels were made by compressing the soils wetted with 3 levels water. Mechanical and water characteristics were measured and analyzed the mechanical resistance limiting water, available water and least-limiting water range. Mechanical resistance limiting water(MRLW) were appeared at higher bulk density than $1.6Mg/m^3$ in sandy loam, and $1.4Mg/m^3$ in loam and silty clay loam. The least-limiting water ranges were sharply decreased at the bulk density $1.6Mg/m^3$ in sandy loam and loam, $1.4Mg/m^3$ in silty clay loam. There were big deferences between available water contents and least limiting water ranges in finer texture and higher bulk density soils.

• 생물환경조절학회지
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• 제13권3호
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• pp.156-161
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• 2004

시설참외 재배지 연작장해 경감을 위한 객토시 토성이 생육과 과실의 품질 및 수량에 미치는 영향을 조사하였다. 객토시 기존 작토층에 함유된 유ㆍ무기물질들은 교반으로 감소되었고, 토양수분 장력은 점토함량이 낮은 사양토가 양토와 미사질식토 보다 감소폭이 크게 나타났으나 토양경도의 증가폭은 낮았다. 초기 생육은 사양토에서 초장과 엽면적 그리고 지상ㆍ지하부 생체중과 건물중이 모두 높은 경향을 보였으나 엽록소함량은 낮았다. 과실은 사양토에서 크고 무거웠으며 단도와 색은 미사질식토에서 높게 나타났다. 상품과와 비상품과 수량은 사양토에서 가장 많았으며 또한 발효과 발생률도 높게 나타났다. 저장기간이 경과할수록 모든 토성에서 경도와 과중은 서서히 감소되었으나 당도는 저장 후 5일까지 증가한 후 감소되었다. 따라서 시설참외 재배지 객토시 과실의 품질과 수량에 영향을 미치는 토성이 고려되어야 하겠다.

• 한국농공학회논문집
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• 제48권4호
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• pp.67-74
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• 2006

This study was carried out to investigate the liquefaction behaviour of saturated silty sand under monotonic loading conditions. The undrained soil tests were conducted using a modified triaxial cell and specimens were prepared using the moisture tamping method. Undrained triaxial compression tests were performed at different confining pressures, void ratios and overconsolidation ratios and the samples were sheared to axial strains of about 20% to obtain monotonic loading conditions. It is shown that increasing confining pressures, void ratios and overconsoildation ratios increases the deviator stress, but it has no effect on increasing the dilatant tendencies. It is shown that complete static liquefaction was observed regardless of increases in the confining pressure, void ratio and overconsolidation ratio. Therefore, the confining pressure, void ratio and overconsoildation ratio does not provide significant effects on the liquefaction resistance of the silty sand. The presence of fines in the soil was shown to greatly increase the potential for static liquefaction and creates a particle structure with high compressibility for all cases.