• 한국토양비료학회지
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• 제39권3호
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• pp.173-183
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• 2006

서낙동강 유역에서 USLE모형을 이용하여 농경지의 작물생산량 및 농업용수 수질과 관련 있는 농경지의 토양침식량을 평가하였다. 모형인자의 data set은 구축에 드는 노력과 시간의 소모를 최소화하고자 정밀토양도, 인공위성 영상 및 DEM자료로부터 RS와 GIS를 이용하여 구축하였는데, 토양상별 K 인자를 정밀토양도에 적용하여 주제도를 작성하고, 인공위성 영상(Landsat TM)으로부터 토지 피복도를 작성하여 C 및 P 인자의 주제도를 작성하였으며, DEM으로부터 LS 인자 주제도를 작성하였다. R인자는 서낙동강 유역 내에 위치하는 김해농업기술센터의 AWS 자료를 이용하여 계산하였다. 농경지발생 토양침식량은 유역전체 발생량의 31.5%였고, 농경지 토양유실량의 97.5%는 밭토양에서 일어나는 것으로 나타났다. 이는 서낙동강 유역이 삼각주평야지대로 경사가 거의 없으나 밭토양의 30.4%는 severe 및 very severe의 침식정도에 분포하였기 때문이다. 또한 식생의 토지 피복 상태 및 강우량의 정도에 따라 작물재배기(5월~9월)와 비재배기(10월~4월)로 나누어 토양침식량을 평가한 결과, 작물재배기는 연간 토양유실위험도와 유사한 경향이었고, 작물비재배포기는 R 값이 작물재포기의 약 1/5에 불과하였음에도 산과 인접한 경사지 밭토양의 일부는 severe 및 very severe의 토양침식 등급을 나타내어서 토양침식 관리에 주의가 필요하였다.

• 한국수자원학회:학술대회논문집
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• 한국수자원학회 2020년도 학술발표회
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• pp.172-172
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• 2020

In recent years, soil erosion has come to be regarded as an essential environmental problem in human life. Soil erosion causes various on- and off-site problems such as ecosystem destruction, decreased agricultural productivity, increased riverbed deposition, and deterioration of water quality in streams. To solve these problems caused by soil erosion, it is necessary to quantify where, when, how much soil erosion occurs. Empirical erosion models such as the Universal Soil Loss Equation (USLE) family models have been widely used to make spatially distributed soil erosion vulnerability maps. Even if the models detect vulnerable sites relatively well by utilizing big data related to climate, geography, geology, land use, etc. within study domains, they do not adequately describe the physical process of soil erosion on the ground surface caused by rainfall or overland flow. In other words, such models remain powerful tools to distinguish erosion-prone areas at the macro scale but physics-based models are necessary to better analyze soil erosion and deposition and eroded particle transport. In this study, the physics-based Surface Soil Erosion Model (SSEM) was upgraded based on field survey information to produce sediment yield at the watershed scale. The modified model (hereafter MoSE) adopted new algorithms on rainfall kinematic energy and surface flow transport capacity to simulate soil erosion more reliably. For model validation, we applied the model to the Doam dam watershed in Gangwon-do and compared the simulation results with the USLE outputs. The results showed that the revised physics-based soil erosion model provided more improved and reliable simulation results than the USLE in terms of the spatial distribution of soil erosion and deposition.

• 한국지반환경공학회 논문집
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• 제18권1호
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• pp.37-47
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• 2017

The Mekong River plays an extremely important role in Southeast Asia. Flowing through six countries, including China, Myanmar, Thailand, Laos PDR, Cambodia, and Vietnam, it is a site of great biological and ecological diversity and the habitat of numerous species of fish. It also supports a very large population that lives along the river basin. Therefore, much attention has been focused on the giant Mekong River Basin, particularly, its soil erosion and sedimentation problems. In fact, many methods have been used to calculate and simulate these problems. However, in the case of the Mekong River Basin, the available data is limited because of the extreme size of the area (about $795,000km^2$) and lack of equipment systems in the countries through which the Mekong River flows. In this study, we applied the Universal Soil Loss Equation (USLE) model in a GIS (Geographic Information System) framework to calculate the amount of soil erosion and sediment load during the selected period, from 1951 to 2007. The result points out dangerous areas, such as the Upper Mekong River Basin and 3S Basin (containing the Sekong, Sesan, and Srepok Rivers) that are suffering the serious consequences of soil erosion problems. Moreover, the present model is also useful for supporting river basin management in the implementation of sustainable management practices in the Mekong River Basin and other basins.

• 한국농공학회:학술대회논문집
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• 한국농공학회 2001년도 학술발표회 발표논문집
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• pp.45-50
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• 2001

The purpose of this study was to estimate of soil loss form hillslope using WEPP(Water Erosion Prediction Project) model. WEPP model was developed for predicting soil erosion and deposition, fundamentally based on soil erosion prediction technology. The model for predicting sediment yields from single storms was applied to a tested watershed. Surface runoff is calculated by kinematic wave equation and infiltration is based on the Green and Ampt equation. Governing equations for sediment continuity, detachment, deposition, shear stress in rills, and transport capacity are presented. Tested watershed has an area of 0.6ha, where the runoff and sediment data were collected. The relative error between predicted and measured runoff was $-16.6{\sim}2.2%$, peak runoff was $-15.6{\sim}2.2%$ and soil loss was $-23.9{\sim}356.5%$.

• 한국측량학회지
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• 제24권1호
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• pp.89-97
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• 2006

토양침식은 지구상에 존재하는 자원의 기반을 위협하는 중요한 환경문제로 대두되고 있다. 본 연구에서는 토양 침식모형중 GIS와의 연계가 가능하고 중규모유역에서 범용적으로 활용가능한 RUSLE 침식모형을 선정하여 모형에 입력되는 인자들을 GSIS 공간분석기법을 활용하여 추출하였다. 먼저 댐 유역의 토양침식량 평가를 위해 토양도, DEM, 토지피복도와 같은 GIS 자료와 2003년 태풍매미 강우사상을 적용하고, 상하류 유역특성을 고려한 토양침식의 변화를 분석하고자 토양침식인자, 지형인자 그리고 식생피복인자를 분석한 결과, 상류유역에서는 산림의 높은 비율로 인해 토양침식인자와 지형인자의 평균값이 하류유역에 비해 높게 나타났고, 반면 하류유역에서는 완만한 경사의 농경지의 영향으로 식생피복인자의 평균값이 높게 나타남을 알 수 있었다. 그리고, 상하류 유역특성을 고려한 토양침식량 평가 결과, 상류유역의 단위토양침식량이 하류유역보다 약 4.3배 높게 나타남을 알 수 있었다. 따라서 토양침식 저감을 위한 유역대책 수립시 상류유역을 중점 대상지역으로 선정하는 것이 효과 적임을 알 수 있었다.

• 한국물환경학회지
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• 제26권3호
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• pp.497-506
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• 2010

Severe muddy water problem has been the hot issue in Korea. Because of increased nonpoint source pollutions at Kangwon province, best soil erosion management system is required to reduce inflow of nonpoint source pollutions into the waterbodies. The USLE-based SATEEC system have been developed and enhanced for soil erosion and sediment yield estimation. However, the SATEEC cannot estimate soil depositions depending on topography in the watershed, while the USPED estimates soil erosion and deposition using sediment transport capacity of the surface runoff. In this study, the SATEEC and USPED were used to determine soil erosion hot spot subbasins. For this, 54 subbasins were delineated. In general, soil erosion hot spot subbasins were identified similarly with SATEEC and USPED. However, depending on erosion and deposition patterns in each subbasin. USPED estimated soil erosion hot spot subbasins didn't match those estimated with SATEEC. For some subbasins, much deposition was expected than erosion. This indicates that SATEEC estimated soil erosion values may be overestimated for these subbasins. Thus, care should be taken when understanding soil erosion status in the watershed based on USLE-based SATEEC results. In addition, the USPED results could be used to identify the site-specific soil erosion best management practices. If the USPED and USLE-based SATEEC are combined, it would help determining soil erosion hot spot subwatersheds in economic and environmental perspectives.

• 한국농공학회논문집
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• 제59권1호
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• pp.21-30
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• 2017

Soil erosion has been issued in many countries since it causes negative impacts on ecosystem at the receiving water bodies. Therefore best management practices to resolve the problem in a watershed have been developed and implemented. As a prior process, there is a need to define soil erosion level and to identify the area of concern regarding soil erosion so that the practices are effective as they are designed. Universal Soil Loss Equation (USLE) were developed to estimate potential soil erosion and many Geographic Information System (GIS) models employ USLE to estimate soil erosion. Sediment Assessment Tool for Effective Erosion Control (SATEEC) is one of the models, the model provided several opportunities to consider various watershed peculiarities such as breaking of slope length, monthly variation of rainfall, crop growth at agricultural fields, etc. SATEEC is useful to estimate soil erosion, however the model can be implemented with ArcView software that is no longer used or hard to use currently. Therefore SATEEC based on ArcView was rebuild for the ArcGIS software with all modules provided at the previous version. The rebuilt SATEEC, ArcSATEEC, was programmed in ArcPy and works as ArcGIS Toolset and allows considering monthly variations of rainfall and crop growth at any watershed in South-Korea. ArcSATEEC was applied in Daecheong-dam watershed in this study, monthly soil erosion was estimated with monthly rainfall and crop growth variation. Annual soil erosion was computed by summing monthly soil erosion and was compared to the conventional approach to estimate annual soil erosion. The annual soil erosion estimated by the conventional approach and by summing monthly approach did not display much differences, however, ArcSATEEC was capable to provide monthly variation of soil erosion.

• 한국토양비료학회지
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• 제42권Spc호
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• pp.47-50
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• 2009

본 연구는 경사지 밭 토양에서의 양분유실로 인한 지표수와 지하수 오염의 주요 요인인 인산과 질소에 대하여 평가하였다. 유실된 토양 중에서 흡착된 인산은 용해되어 천천히 조류들의 영양원으로 이용되고, 물에 용해된 질소와 인산은 부영양화의 주요 요인으로 조류들에 의하여 즉시 영양원으로 이용된다. 질소의 유실은 유실된 총량의 약 90%가 유출수와 침투수에 의하여 유실되고, 인산의 유실은 유실된 총량의 약 60% - 67%가 유실된 토양 입자에 흡착되어 유실되었다. 대체적으로 환경적으로 합리적인 토양 및 물 관리에 의한 적절한 토지이용, 시비관리 및 토양 보전농법은 토양 및 양분유실을 감소시킬 수 있고, 지표수와 지하수의 수질을 개선할 수 있다.

• 환경영향평가
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• 제11권4호
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• pp.271-280
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• 2002

The purpose of this study is to explore the hydrological impacts and soil loss variation due to the land use change of Namak New Town development area. The analysis of hydrological effects and soil loss variation has been carried out using GIS in this study. In order to estimate the peak runoff volume, the Rational Method which is the most popular technique to predict runoff amounts is used. To estimate the soil loss in the study area, Universal Soil Loss Equation(USLE), which is one of the most comprehensive and useful technique to predict soil erosion is adopted. The result of this study has shown that the peak runoff volume and the total soil loss increase according to the land use change. The peak runoff volume and the total soil loss have been increased about 2 times and about 48 times more than that of pre development. The increasing of the peak runoff volume can be effective erosion, flooding and so on. A careful city planning is the first essential step to minimize the environmental impacts and to construct the ecological city.

• 한국토양비료학회지
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• 제43권6호
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• pp.828-836
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• 2010

본 연구에서는 1:25,000 정밀토양도 등 가용한 공간자료를 이용하여 작성된 토양유실도를 이용하여 한강 상류지역 10개 중권역 108 소유역에 대하여 토양유실량 평가하고 토지이용별 토양유실 위험지역을 분석하였다. 대상유역 총 토양유실량은 895만 Mg $yr^{-1}$으로 예측되었으며, 면적당 평균 토양유실량은 6.1 Mg $ha^{-1}yr^{-1}$ 이었다. 중소유역 단위로 살펴보면 남한강지역이 북한강 지역의 유실량 뿐만 아니라 면적당 유실량이 더 많았다. 이는 북한강 권역의 경우 화강암 및 화강편마암이 주요모재인 반면에 남한강 권역의 경우 토양모재가 퇴적암지대를 많이 포함있어 토양침식성 인자 (K factor)와 경사인자 (LS factor)가 상대적으로 높고, 남한강 지역의 경우 농경지 토양이 상대적으로 많이 분포하고 있기 때문으로 판단된다. 대상유역의 토지이용별 연평균 토양유실량을 분석한 결과 산림/초지 > 밭 ${\gg}$ 도심/대지 ${\gg}$ 논 > 과수의 순로분석 대상유역 중 10.7%를 차지하고 있는 농경지에서 유실되는 토양의 추정량은 41.3%이였으며, 이중 6.2% 면적을 차지하는 밭이 40.6%으로 44.2%의 산림/초지와 비슷한 수준이었다. 한강상류지역 토양유실 위험성 평가시 분포형 토양침식지도와 항공사진을 비교한 결과 토양유실에 대한 공간인 정보를 확실하게 보여주고 있으며, 토양침식위험성은 남한강권역의 남한강 상류 (1001), 평창강 (1002), 충주댐 (1003) 권역에서 각각 토양침식위험성이 "보통" 이상으로 높은 지역이 각각 8.7%, 7.9%, 7.8%로 평균인 5.9%보다 높았으며, 이에 대한 보전방안이 강구될 필요가 있고 판단된다.