RUSLE (Revised Universal Soil Loss Equation) is the empirical formular widely used to estimate rates of soil erosion caused by rainfall and associated overland flow. Among the factors considered in RUSLE, rainfall erosivity factor (R factor) is the major one derived by rainfall intensity and characteristics of rainfall event. There has been developed various methods to estimate R factor, such as energy based methods considering physical schemes of soil erosion and simple methods using the empirical relationship between soil erosion and annual total rainfall. This study is aimed to quantitatively evaluate the variation among the R factors estimated using different methods for South Korea. Station based observation (minutely rainfall data) were collected for 72 stations to investigate the characteristics of rainfall events over the country and similarity and differentness of R factors calculated by each method were compared in various ways. As results use of simple methods generally provided greater R factors comparing to those for energy based methods by 76 % on average and also overestimated the range of factors using different equations. The variation coefficient of annual R factors was calculated as 0.27 on average and the results significantly varied by the stations. Additionally the study demonstrated the rank of methods that would provide exclusive results comparing to others for each station. As it is difficult to find universal way to estimate R factors for specific regions, the efforts to validate and integrate various methods are required to improve the applicability and accuracy of soil erosion estimation.
Prediction and Analysis of Pre-Consolidation by Unconfined Compressive Strength
송창섭 Song Chang Seob , 김명환 Kim Myeong Hwan
58(6) 71-77, 2016
Prediction and Analysis of Pre-Consolidation by Unconfined Compressive Strength
송창섭 Song Chang Seob , 김명환 Kim Myeong Hwan
DOI: JKWST Vol.58(No.6) 71-77, 2016
This study was to evaluate the feasibility of pre-consolidation pressure distribution characteristic of western and southern coastal region, using correlation of unconfined compressive strength and preceding research equation. Pre-consolidation of western and southern region showed similar trends undrained shear strength and pre-consolidation pressure in proportion to unconfined compressive strength. Predicted results of U.S. NAVY. (1982) equation revealed a small error western 9.7 % and southern 0.4 %. Prediction correlation results of pre-consolidation using unconfined compressive strength revealed an error western 16.8 % and southern 0.7 %. It was reported that less than 20 percent of pre-consolidation pressure prediction result of Casagrande forecasting error. Estimates of pre-consolidation pressure are possible, before the standard consolidation test, because it was reported that less than 20 % of the forecasting errors of Casagrande.
Typical Classification of Rural Area Considering Settlement Environment by Decision Tree Method
The objective of this study is to classify the types of rural areas (138 siㆍgun) considering settlement environment by Decision Tree Method (CHAID). The CHAID method was used for decision tree algorithm and the seven dependant variables and 5 explanatory variables were selected, respectively. By decision tree method, rural areas were finally classified into six groups through three separate processes. City area, lower area in aging rate and higher area in farmland area ratio was analyzed to be relatively rich rather than other area in the case of settlement environment index. In the future, this study will be able to utilize as a reference to the planning of rural development projects.
Assessment of Environmental Flow Impacts for the Gosam Reservoir According to Climate Change
윤태형 Yoon Tae Hyung , 강호영 Kang Ho Young , 김종석 Kim Jong Suk , 문영일 Moon Young Il
58(6) 93-100, 2016
Assessment of Environmental Flow Impacts for the Gosam Reservoir According to Climate Change
윤태형 Yoon Tae Hyung , 강호영 Kang Ho Young , 김종석 Kim Jong Suk , 문영일 Moon Young Il
DOI: JKWST Vol.58(No.6) 93-100, 2016
This study conducted a quantitative assessment on the environmental flows associated with climate change in the Gosam Reservoir, Korea. The application of RCP 8.5 climate change scenario has found that the peak value of High Flow Pulses has increased by 36.0 % on average compared to historical data (2001 ~ 2010), which is likely to cause disadvantage on flood control and management but the increase in peak value is expected to make a positive impact on resolving the issue of green algal blooms, promoting vegetation in surrounding areas and encouraging spawning and providing habitats for native species by releasing a larger amount of landslides as well as organic matters than the past. However, the decreasing pattern of the peak value of High Flow Pulses is quite apparent with the trend of delay on the occurrence time of peak value, necessitating a long-term impact analysis. The peak value of Large Floods shows a clear sign of decrease against climate change scenario, which is expected to lead to changes in fish species caused by degraded quality of water and decreasing habitats. A quicker occurrence of Small Floods is also expected to make an impact on the growth cycle of aquatic plants, and the reduction in occurrence frequency of Extreme Low Flows is to contribute to increasing the population of and raising the survival rate of native fish, greatly improving the aquatic ecosystem. The results of this study are expected to be useful to establish the water environment and ecological system in adapting or responding to climate change.
Estimation of Irrigation Water Amounts for Farm Products based on Various Soil Physical Properties and Crops
이태화 Lee Taehwa , 신용철 Shin Yongchul
58(6) 1-8, 2016
Estimation of Irrigation Water Amounts for Farm Products based on Various Soil Physical Properties and Crops
이태화 Lee Taehwa , 신용철 Shin Yongchul
DOI: JKWST Vol.58(No.6) 1-8, 2016
Crop damages due to agricultural drought has been increased in recent years. In Korea, water resources are limited indicating that proper management plans against agricultural drought are required for better water-use efficiency in agriculture. In this study, irrigation intervals and amounts for various crops and soil physical properties (sandy and silt loams) were estimated using the IWMM model. Five different crops (soybean, radish, potato, barley and maize) at the Bangdong-ri site in Chuncheon were selected to test the IWMM model. IWMM assessed agricultural drought conditions using the soil moisture deficit index (SMDI), and irrigation intervals and amounts were determined based on the degree of agricultural drought (SMDI). Additionally, we tested the effects of surface irrigation and sprinkler irrigation methods and various irrigation intervals of 2, 3, 5 and 7 days. In our findings, the irrigation intervals of 5 and 7 days showed the minimum rrigation amounts than others. When we considered that the intervals of 3 or 5 days are usually preferred to fields, the interval of 5 days was determined in our study. The estimated irrigation amounts for different crops were shown as maize > radish > barley > soybean > potato, respectively. The irrigation amounts for maize and barley were highly affected by soil properties, but other crops have less differences. Also, small differences in irrigation amounts were shown between the surface and sprinkler irrigation methods. These might be due to the lack of consideration of water loss (e.g., evapotranspiration, infiltration, etc.) in IWMM indicating model structural uncertainties. Thus, possible water loss (e.g., evapotranspiration, infiltration) need to be considered in application to fields. Overall, IWMM performed well in determining the irrigation intervals and amounts based on the degree of agricultural drought conditions (SMDI). Thus, the IWMM model can be useful for efficient agricultural water resources management in regions at where available water resources are limited.
Application of EFDC Model to an Agricultural Reservoir for Assessing the Effect of Point Source Bypassing
김동민 Kim Dong Min , 박형석 Park Hyung Seok , 정세웅 Chung Se Woong
58(6) 9-21, 2016
Application of EFDC Model to an Agricultural Reservoir for Assessing the Effect of Point Source Bypassing
김동민 Kim Dong Min , 박형석 Park Hyung Seok , 정세웅 Chung Se Woong
DOI: JKWST Vol.58(No.6) 9-21, 2016
Agricultural reservoirs in Korea have been recognized as an emerging resource for recreational and cultural activities for residents. However, most of the reservoirs are eutrophic and showing high level of contamination with nuisance algal bloom and offensive odor during the summer. For better management and restoration of the reservoirs’ water quality, scientific modeling approaches could be used to diagnose the problems and evaluate the efficacy of alternative control measures. The objectives of this study were to validate the performance of a three-dimensional (3D) hydrodynamic and water quality model (Environmental Fluid Dynamics Code, EFDC) for a eutrophic agricultural reservoir and assess the effect of bypassing of the effluent from a wastewater treatment plant on the reservoir water quality. The 3D model successfully simulated the temporal variations of water temperature, DO, TOC, nitrogen and phosphorus species and Chl-a observed in 2014 and also captured their spatial heterogeneity in the reservoir. The simulation results indicated that the point source bypassing may reduce the T-N and T-P concentrations of the reservoir by 6.6 ~ 8.2 %, and 1.7 ~ 16.8 %, respectively. The bypassing, however, showed a marginal effect on the control of TOC due to the increased algal biomass associated with the increased water retention time after bypassing as well as the lower TOC level of the effluent compared to the ambient reservoir water.
A Study to Develop Monthly Cover Management Factor Database for Monthly Soil Loss Estimation
성윤수 Sung Yun Soo , 정영훈 Jung Yunghun , 임경재 Lim Kyoung Jae , 김종건 Kim Jonggun , 김기성 Kim Ki-sung , 박승기 Park Seung Ki , 신민환 Shin Min Hwan , 금동혁 Kum Dong Hyuk , 박윤식 Park Youn Shik
58(6) 23-30, 2016
A Study to Develop Monthly Cover Management Factor Database for Monthly Soil Loss Estimation
성윤수 Sung Yun Soo , 정영훈 Jung Yunghun , 임경재 Lim Kyoung Jae , 김종건 Kim Jonggun , 김기성 Kim Ki-sung , 박승기 Park Seung Ki , 신민환 Shin Min Hwan , 금동혁 Kum Dong Hyuk , 박윤식 Park Youn Shik
DOI: JKWST Vol.58(No.6) 23-30, 2016
Soil loss is an accompanying phenomenon of hydrologic cycle in watersheds. Both rainfall drops and runoff lead to soil particle detachment, the detached soil particles are transported into streams by runoff. Here, a sediment-laden water problem can be issued if soil particles are severely detached and transported into stream in the watershed. There is a need to estimate or simulate soil erosion in watersheds so that an adequate plan to manage soil erosion can be established. Universal Soil Loss Equation (USLE), therefore, was developed and modified by many researchers for their watersheds, moreover the simple model, USLE, has been employed in many hydrologic models for soil erosion simulations. While the USLE has been applied even in South-Korea, the model is often regarded as being limited in applications for the watersheds in South-Korea since monthly conditions against soil erosion on soil surface are not capable to represent. Thus, the monthly USLE factors against soil erosion, soil erodibility and crop management factors, were established for four major watersheds, which are Daecheong-dam, Soyang-dam, Juam-dam, and Imha-dam watersheds. The monthly factors were established by recent fifteen years from 2000 to 2015. Five crops were selected for the monthly crop management factor establishments. Soil loss estimations with the modified factors were compared to conventional approach that is average annual estimations. The differences ranged from 9.3 % (Juam-dam watershed) to 28.1 % (Daecheong-dam watershed), since the conventional approaches were not capable of seasonally and regionally different conditions.
Assessing Nonpoint Sources Pollution Affected by Regulating Gate and Liquid Manure Application in Small Agricultural Watershed
송재도 Song Jae-do , 장태일 Jang Taeil , 손재권 Son Jae-kwon
58(6) 31-38, 2016
Assessing Nonpoint Sources Pollution Affected by Regulating Gate and Liquid Manure Application in Small Agricultural Watershed
송재도 Song Jae-do , 장태일 Jang Taeil , 손재권 Son Jae-kwon
DOI: JKWST Vol.58(No.6) 31-38, 2016
The purpose of this study was to assess nonpoint sources (NPS) pollution affected by liquid manure and regulating gate in a small agricultural watershed. The study area, which is a wide plain farmland, was operating by the Buyong regulating gate in order to maintain irrigation water level during irrigation period. Consequentially, runoff only occurs through the gate at each event in rainy season for avoiding farmland inundation. In addition, the usage ratio of liquid manure in the study area has been increased greatly since 2014. Discharge loads at the Hwaingsan bridge subwatershed were 1.2 times for T-N, 4-10 times for T-P, and 3-8 times for TOC compared with the Soyang watershed (control) during study period. The reason was that NPS pollutants from upper Gpeun and Sangri bridge subwatersheds, which are widely spraying with livestock liquid manure, were stack at this subwaterehd because of regulating gate in non-rainy seasons. A number of agricultural watersheds in Saemangeum watershed are affected by regulating gate and vigorous livestock activities so that substantial management schemes under controling regulating gate are needed for minimizing livestock related NPS.
Characteristics of Sedimentation and Self-weight Consolidation of Dredged clay Focusing on Fines Content and Falling Height
김진영 Kim Jin-young , 김혜린 Kim Hye-rin , 장정민 Jang Jung-min , 이성열 Lee Sung-yeol , 정운기 Jeong Wun-gie , 진영식 Jin Young-sik , 정효진 Jeong Hyo-jin , 백원진 Kang Kwon-soo , 강권수 Baek Won-jin , 고남영 Goh Nam-young
58(6) 39-45, 2016
Characteristics of Sedimentation and Self-weight Consolidation of Dredged clay Focusing on Fines Content and Falling Height
김진영 Kim Jin-young , 김혜린 Kim Hye-rin , 장정민 Jang Jung-min , 이성열 Lee Sung-yeol , 정운기 Jeong Wun-gie , 진영식 Jin Young-sik , 정효진 Jeong Hyo-jin , 백원진 Kang Kwon-soo , 강권수 Baek Won-jin , 고남영 Goh Nam-young
DOI: JKWST Vol.58(No.6) 39-45, 2016
In this paper, analyzes the characteristics of self-weight consolidation on the dredged clay according to the fines content and falling height. Research was performed with the dredged clay sampled by Sae-mangeum field site. Classification of fines content was performed by sieve analysis test. After adjusting the fine content, self-weight consolidation tests were carried out focussing on the variation of fines content and falling heights. From the test results of the self-weight consolidation test, samples with high fines content had reached sedimentation completion more later than ones with less fine content samples. In other words, the start of self-weight consolidation was slowing down with increasing of fines content. Also, from the test results of calculating the coefficient of sedimentation consolidation, the coefficient value were increased with the fines content increases. In addition, the change of sedimentation ratio and volume ratio showed more higher changed value as the fine content increases. Thus, it is important to consider the fines content when estimate the settlement time of dredged soil in field dredge work.
Vegetation and Water Purification Characteristics of Lapilli-Bio Block
박성용 Park Sungyong , 남부현 Nam Boohyun , 김정면 Kim Jungmeyon , 최기봉 Choi Kibong , 연규석 Yeon Kyuseok , 김용성 Kim Yongseong
58(6) 47-54, 2016
Vegetation and Water Purification Characteristics of Lapilli-Bio Block
박성용 Park Sungyong , 남부현 Nam Boohyun , 김정면 Kim Jungmeyon , 최기봉 Choi Kibong , 연규석 Yeon Kyuseok , 김용성 Kim Yongseong
DOI: JKWST Vol.58(No.6) 47-54, 2016
This study is a basic research on the functional performance review for the use of environmentally friendly construction materials as lapilli-bio block. The neutralization processed Mt. Backdusan and Mt. Hallasan lapilli-bio block were identified vegetation characteristics and water purification properties. As a result, the adsorption of root was more favorable, depending on the material properties of many voids Lapilli. And if the neutralization processed lapilli-bio blocks maintain a long-term immersion conditions in contaminated water was found to be expected from the improvement effect of SS, T-N and T-P. However, field trials and continuous studies are expected to be identified by the use of lapilli-bio block.