1 원철희, "토양유실 저감을 위한 지표피복재 적용" 한국물환경학회 27 (27): 848-854, 2011
2 신민환, "인공강우기에 의한 시험포장 토양유실량 모의 - 강우강도, 지표면 및 경사조건 변화 -" 한국물환경학회 25 (25): 785-791, 2009
3 최용범, "고랭지 밭 토양유실 방지를 위한 폴리머 소재(폴리아크릴아마이드 및 바이오폴리머)의 현장적용성 평가: 작물재배실험" 대한환경공학회 32 (32): 1024-1029, 2010
4 최봉수, "경사지 토양유실 방지를 위한 PAM(Polyacrylamide) 시제품의 효율성 비교평가: 실내 인공강우 실험" 한국환경농학회 28 (28): 249-257, 2009
5 Shainberg, I., "Water quality and PAM interactions in reducing surface sealing" 149 : 301-307, 1990
6 Sharpley, A. N., "The Management of Soil Phosphorous Availability and its Impact on Surface Water Quality, In Soil Processes and Water Quality. Advance in Soil Science" Lewis Publishers 1994
7 Lee, Y. S., "The Engineering and Environmental Properties for Utilization of Phosphogypsum as Embankment Materials" 17 (17): 331-339, 2001
8 KATS, "Test method for particle size distribution of soils"
9 KATS, "Test method for density of soil particles(in Korean)"
10 Lal, R., "Soil quality and soil erosion" Water conservation Society 1999
1 원철희, "토양유실 저감을 위한 지표피복재 적용" 한국물환경학회 27 (27): 848-854, 2011
2 신민환, "인공강우기에 의한 시험포장 토양유실량 모의 - 강우강도, 지표면 및 경사조건 변화 -" 한국물환경학회 25 (25): 785-791, 2009
3 최용범, "고랭지 밭 토양유실 방지를 위한 폴리머 소재(폴리아크릴아마이드 및 바이오폴리머)의 현장적용성 평가: 작물재배실험" 대한환경공학회 32 (32): 1024-1029, 2010
4 최봉수, "경사지 토양유실 방지를 위한 PAM(Polyacrylamide) 시제품의 효율성 비교평가: 실내 인공강우 실험" 한국환경농학회 28 (28): 249-257, 2009
5 Shainberg, I., "Water quality and PAM interactions in reducing surface sealing" 149 : 301-307, 1990
6 Sharpley, A. N., "The Management of Soil Phosphorous Availability and its Impact on Surface Water Quality, In Soil Processes and Water Quality. Advance in Soil Science" Lewis Publishers 1994
7 Lee, Y. S., "The Engineering and Environmental Properties for Utilization of Phosphogypsum as Embankment Materials" 17 (17): 331-339, 2001
8 KATS, "Test method for particle size distribution of soils"
9 KATS, "Test method for density of soil particles(in Korean)"
10 Lal, R., "Soil quality and soil erosion" Water conservation Society 1999
11 Yoon, J. H., "Soil Erosion of Tillage and the Plan for Reducingof Turbid-water occurrence" 15 : 55-58, 2003
12 이상수, "Polyacrylamide and gypsum amendments for erosion and runoff control on two soil series" SOIL WATER CONSERVATION SOC 65 (65): 233-242, 2010
13 Entry, J. A., "Poluacrylamide preparations for protection of waterquality threatened by agricultural runoff contaminants" 120 : 191-200, 2002
14 Choi, J. D., "Monitoring Study on Groundwater Quality of anAlluvial Plane in the North Han River Basin" 16 (16): 283-294, 2000
15 Jian Y., "Infiltration and Erosion in Soils Treated with Dry PAM and Gypsum" 67 : 630-636, 2003
16 Oster, J. D., "Gypsum usage in irrigated agriculture: a review" 3 : 73-89, 1982
17 Ministry of Environment Republic of Korea, "Goranengi Management Plan of Soyanggagdaem Watershed (in Korean)" 2007
18 Garcia-Orenes, F., "Effects of agricultural management on surface soil properties and soil-water losses in eastern Spain" 106 : 117-123, 2009
19 Flanagan, D. C., "Effect of water chemistry and soil amendments on a silt loam soil-Part I. Infiltration and Runoff" 40 : 1549-1554, 1997
20 Deery, D., "Effect of polyacrylamides and gypsum on turbidity of water" 52-53, 2002
21 Bajwa, M. S., "Effect of gypsum and sodic irrigation water on soil and crop yields in a rice-wheat rotation" 16 : 53-61, 1989
22 Keren, R., "Effect of dissolution rate on the efficiency of industrial and mined gypsum in improving infiltration of a sodic soil" 47 : 1001-1004, 1981
23 Choi, J. D., "Effect of Rural Watershed Management on the Discharge of NPS Pollutants to Streams" 1 (1): 91-107, 1997
24 Kwon, K. S., "Effect of PAM on Soil Erosion from AlpineAgricultural Fields" 11 : 91-98, 2000
25 Bjorneberg, D. L., "Controlling sprinkler irrigation runoff, erosion,and phosphorus loss with straw and polyacrylamide" 43 (43): 1545-1551, 2000
26 McElhiney, M., "An integrated approach for water quality: The PAM connection-West Stanislaus HUA. CA, In Proc.: Managing irrigation induced erosion and infiltration with polyacrylamide" University of Idaho 1996