Brett M.T., Benjamin M.M., 2008, A Review and Reassessment of Lake Phosphorus Retention
and the Nutrient Loading Concept, Freshwater Biology, Vol. 53, pp. 194-211
Chapra S.C., 1975, Comment on an Empirical Method of Estimating the Retention of Phosphorus
in Lakes, Water Resources Research, Vol. 11, No. 6, pp. 1033-1034
Dillon P.J., Kirchner W.B., 1975, Reply to Comment by S.C. Chapra, Water Resources
Research, Vol. 11, pp. 1035-1036
Dillon P.J., Rigler F.H., 1976, A Test of Nutrient Budget Model Predicting the Phosphorus
Concentration in Lake Water, Journal of the Fisheries Research Board of Canada, Vol.
33, pp. 1742-1750
Forsberg C., Ryding S.O., 1980, Eutrophication Parameters and Trophic State Indices
in 30 Swedish Waste-Receiving Lakes, Archiv für Hydrologie, Vol. 89, pp. 189-207
Han River Flood Control Office (HRFCO), 2017, http://www.wamis.go.kr (accessed Oct.
2017), Water Resources Management Information Syatem (WAMIS)
Hejzlar J., Šámalová K., Boers P., Kronvang B., 2006, Modelling Phosphorus Retention
in Lakes and Reservoirs, Water, Air, and Soil Pollution: Focus, Vol. 6, pp. 487-494
Heo W.M., Kim B., Ahn T.S., Lee K.J., 1992, Phosphorus Loadings from Watershed and
Fishfarms into Lake Soyang and the Phosphorus Budget, [Korean Literature], Korean
Journal of Limnology, Vol. 25, No. 4, pp. 207-214
Higgins J.M., Kim B.R., 1981, Phosphorus Retention Models for Tennessee Valley Authority
Reservoirs, Water Resources Research, Vol. 17, pp. 571-576
Kalff J., 2001, Limnology, Prentice-Hall, Inc, pp. 1-592
Kennedy R.H., Walker W.W., 1990, Reservoir Nutrient Dynamics, Reservoir Limnology:
Ecological Perspectives, Wiley-Interscience, pp. 246
Kirchner W.B., Dillon P.J., 1975, An Empirical Method of Estimating the Retention
of Phosphorus in Lakes, Water Resource Resarch, Vol. 11, No. 1, pp. 182-183
Kong D.S., 1992, [Korean Literature], Limnological and Ecological Characteristics
of Lake Paldang, Ph.D thesis, Korea University, pp. 1-421
Kong D.S., 1997, Limnological and Ecological Characteristics of a River-Reservoir
(Paldang), Korea, Korean Journal of Limnology, Vol. 30, pp. 524-535
Kong D.S., 2014, Water Quality Modeling of the Eutrophic Transition Zone in a River-Type
Reservoir Paldang, [Korean Literature], Journal of Korean Society on Water Environment,
Vol. 30, pp. 429-440
Kong D.S., 2017, Simple Material Budget Modeling for the Paldang Reservoir in the
Spring Season, [Korean Literature], Journal of Korean Society on Water Environment,
Vol. 33, No. 6, pp. 696-714
Kong D. S., Chung I. Y., Kim S. S., Yang H. J., Kim S. M., Lee H. J., Park J. H.,
Kang T. G., Kim B. I., Park H. K., Byeon M. S., Chung M. S., Kim S. H., 2007, [Korean
Literature], Multidimensional Analysis on Material Transport in Lake Paldang (I),
National Institute of Environmental Research, NIER No. 2007-59-915
Kong D. S., Jung D. I., Lee H. J., Kim S. H., Kim S. S., Par H. K., Mun H. S., Park
J. H., Kim S. M., Kang T. G., Chung I. Y., Byeon M. S., Kang P. G., Shin K. S., Seo
J. M., Jang S. H., 2005, [Korean Literature], Investigation on Loading and Water Quality
Variation in Namhangang Drainage Basin, National Institute of Environmental Research,
NIER No. 2005-34-779
Kong D.S., Yoon I.B., Ryu J.K., 1995, Hydrological Characteristics and Water Budget
of Lake Paldang, [Korean Literature], Korean Journal of Limnology, Vol. 29, No. 1,
pp. 51-64
Larsen D.P., Mercier H.T., 1976, Phosphorus Retention Capacity of Lakes, Journal of
the Fisheries Research Board of Canada, Vol. 33, pp. 1742-1750
Larsen D.P., Schults D.W., Malueg K.W., 1981, Summer Internal Phosphorus Supplies
in Shagawa Lake, Minesota, Limnology and Oceanography, Vol. 26, pp. 740-753
Ministry of Environment (ME), 2017, http://water.nier.go.kr/waterMeasurement/selectWater.do
(accessed Oct. 2017), Water Environment Information System (WEIS)
National Institute of Environmental Research (NIER), 1988, NIER No. 88-15-140. [Korean
Literature], A Comprehensive Study on Water Quality of Pal-dang Reservoir
Park H.K., Lee H.J., Kim E.K., Jung D.I., 2005, Characteristics of Algal Abundance
and Statistical Analysis of Environmental Factors in Lake Paldang, [Korean Literature],
Journal of Korean Society on Water Environment, Vol. 21, No. 6, pp. 584-594
Saji N., 2008, Development of a Guide to Lake and Reservoir Zone Determination, MS
thesis, Virginia Polytechnic Institute and State University, pp. 1-270
Vollenweider R.A., 1969, Möglichkeiten und Grenzen Elementarer Modelle der Stoffbilanz
von Seen, Archiv für Hydrologie, Vol. 66, pp. 1-36
Vollenweider R.A., 1975, Input-Output models with Special Reference to the Phosphorus
Loading Concept in Limnology, Schweizerische Zeitschrift für Hydrologie, Vol. 37,
pp. 53-84
Vollenweider R.A., 1976, Advances in Defining Critical Loading Levels for Phosphorus
in Lake Eutrophication, Memorie dell’'Istituto Italiano di Idrobiologia, Vol. 33,
pp. 53-83
Vollenweider R.A., Kerekes J., 1982, Eutrophication of Waters. Monitoring, Assessment
and Control, OECD Cooperative Programme on Monitoring of Inland Waters, OECD, pp.
154
Walker W.W., Kühner J., 1978, An Empirical Analysis of Factors Controlling Eutrophication
in Midwestern Impoundments, Environmental Effects of Hydraulic Engineering Works,
Tennessee Valley Authority
Wetzel R. G, 2001, Limnology - Lake and River Ecosystems, Academic Press, pp. 1-1006
Yoon S.K., 2006, [Korean Literature], Effect of Algal Growth in Transitional Zone
on Water Quality of the Lacustrine Zone in Lake Paldang, Ms. Thesis, Hanyang University,
pp. 1-88
Yoon S.K., Kong D.S., Bae A.K., 2010, Simple Material Budget Modeling for a River-Type
Reservoir, Journal of Korean Society on Water Environment, Vol. 26, No. 3, pp. 420-431