The universal soil loss equation (USLE), a model for estimating the potential soil loss, has been used not only in researchareas but also in establishing national policies in South Korea. Despite its wide applicability, USLE cannot adequatelyaddress the effect of seasonal variances. To overcome this limit, the ArcGIS-based Sediment Assessment Tool forEffective Erosion (ArcSATEEC) has been developed as an alternative model. Although the field-scale (< 100 m2)application of this model produced reliable estimation results, it is still challenging to validate accuracy of the modelestimation because it only estimates potential soil losses, not the actual sediment yield. Therefore, in this study, a methodfor estimating actual soil loss based on the ArcSATEEC model was suggested. The model was applied to eight watershedsin South Korea to estimate sediment yields. Correction factor was introduced for each watershed, and the estimatedsediment yield was compared with that of the estimated yield by LOAD ESTimator (LOADEST). Sediment yieldestimation for all watersheds exhibited reliable results, and the validity of the proposed correction factor was confirmed,suggesting the correction factor needs to be considered in estimating actual soil loss.

1 유나영, "현장조사를 통한 4대강 유역의 보전관리인자 산정 연구" 한국농공학회 60 (60): 37-44, 2018

2 김종건, "한국형 토양유실공식의 GIS 기반 모형에 의한 금강 유역에 대한 토양유실 우심지역 선정에 관한 연구" 한국지하수토양환경학회 22 (22): 29-36, 2017

3 송재민, "한국형 토양유실공식에 의한 토양유실량 현장예측" 한국지하수토양환경학회 24 (24): 31-41, 2019

4 성윤수, "월단위 토양유실가능추정치를 위한 지표피복인자의 산정 방안 연구" 한국농공학회 58 (58): 23-30, 2016

5 유나영, "월단위 토양유실가능성 추정을 위한 ArcGIS 기반의 모형 개발" 한국농공학회 59 (59): 21-30, 2017

6 정강호, "수치 정밀토양에 기초한 전국 토양유실량의 평가를 위한 USLE/RUSLE 인자의 산정" 한국토양비료학회 37 (37): 199-206, 2004

7 Herr, J. W., "WARMF: Model use, calibration, and validation" 55 (55): 1385-1394, 2012

8 Oh, J., "The role of retrospective weather forecasts in developing daily forecasts of nutrient loadings over the Southeast US" 18 (18): 2885-2898, 2014

9 Ratner, B., "The correlation coefficient: Its values range between +1/-1, or do they?" 17 (17): 139-142, 2009

10 Vanoni, V. A., "Sedimentation Engineering" American Society of Civil Engineers 1975

11 Williams, J. R., "Sediment-yield Prediction with Universal Equation using Runoff Energy Factor" US Department of Agriculture 244-252, 1975

12 Santos, J. C. N., "Sediment delivery ration in a small semi-arid watershed under conditions of low connectivity" 48 (48): 49-58, 2017

13 Williams, J. R., "Sediment Yield Prediction with Universal Equation using Runoff Energy Factor" U.S Department of Agriculture 1977

14 Williams, J. R., "Sediment Yield Prediction Based on Watershed Hydrology" 20 (20): 1100-1104, 1977

15 Wang, G., "SWAT modeling of water quantity and quality in the Tennessee river basin: spatiotemporal calibration and validation" 1-33, 2016

16 박윤식, "SATEEC 시스템을 이용한 면적/경사도에 의한 유달률 산정 방법에 따른 유사량 분석" 한국물환경학회 23 (23): 650-658, 2007

17 Jha, B., "Rating curve estimation of surface water quality data using LOADEST" 4 (4): 849-856, 2013

18 Wischmeier, W. H., "Predicting rainfall erosion losses: A Guide to Conservation Planning Handbook No.537" U. S. Department of Agriculture 1978

19 Wischmeier, W.H., "Predicting Rainfall Erosion Losses from Cropland East of the Rocky Mountains: A guide for selection of practices for soil and water conservation Handbook No.282" U.S. Department of Agriculture 1965

20 United States Department of Agriculture, "National Engineering Handbook: Sediment Source, Yileds, and Delivery Ratios" Soil Conservation Service 1972

21 Runkel, R. L., "Load Estimator (LOADEST): A Fortran Program for Estimating Constituent Loads in Streams and Rivers"

22 Moriasi, D. N., "Hydrologic and water quality models: performance measures and evaluation criteria" 58 (58): 1763-1785, 2015

23 Sun, C., "Historical trend of nitrogen and phosphorus loads from the upper Yangtze River basin and their responses to the Three Gorges Dam" 20 (20): 8871-8880, 2013

24 Folle, S., "Evaluation of best management practices (BMPs) in impaired watersheds using the SWAT model" Depart of Soil, Water and Climate, University of Minnesota 2007

25 Omani N., "Estimating Sediment and Nutrient Loads of Texas coastal watersheds with SWAT" Spatial Sciences Laboratory, Texas A&M University 2012

26 Wang, X., "EPIC and APEX: Model use, calibration, and validation" 55 (55): 1447-1462, 2012

27 Park, Y. S., "Development of new R, C and SDR modules for the SATEEC GIS system" 36 (36): 726-734, 2010

28 Kongju National University, "Development of Topsoil Erosion Model for Korea" Republic of Korea 2016

29 Skaggs, R., "DRAINMOD:Model use, calibration, and validation" 55 (55): 1509-1522, 2012

30 Duda, P. B., "BASINS/HSPF: Model use, calibration, and validation" 55 (55): 1523-1547, 2012

31 Risal, A., "Application of Web ERosivity Module (WERM) for estimation of annual and monthly R factor in Korea" 147 : 225-237, 2016

32 Park, Y. S., "A web-based model to estimate the impact of best management practices" 6 (6): 455-471, 2014

33 De Rosa P., "A GRASS tool for the Sediment Delivery Ratio mapping" 2016