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http://dx.doi.org/10.5389/KSAE.2005.47.7.057

HSPF-Paddy Development for Simulating Pollutant Loadings from Paddy Fields  

Jeon, Ji-Hong (Research Division, Korea Environment Institute)
Yoon, Chun G. (Environmental Science Department, Konkuk Univ.)
Jung, Kwang-Wook (Environmental Science Department, Konkuk Univ.)
Jang, Jae-Ho (Environmental Science Department, Konkuk Univ.)
Publication Information
Journal of The Korean Society of Agricultural Engineers / v.47, no.7, 2005 , pp. 57-66 More about this Journal
Abstract
The Hydrological Simulation Program - FORTRAN (HSPF) was modified to simulate nonpoint pollutant loadings from paddy fields using a field experimental data collected during 2001-2002. The concept of a 'dike height' was added in a modified HSPF code, named HSPF-Paddy, to consider the function of retaining water by a weir at the field outlet. The effect of fertilization on the variances of nutrients on the soil surface and shallow soil layer was described mathematically with a Dirac delta function (or first-order kinetics). As confirmed through model verification, the HSPF-Paddy modifications were shown to represent the function of retaining water, varied ponded water, and surface runoff by forced drain during both rainy and non-rainy seasons and reasonably predicted the water balance and nutrients behavior in paddy fields. It is a distributed watershed model which, with the paddy modifications, can now simulate nonpoint pollutant loadings where paddy fields are dominant, and it can be used to evaluate the effects of paddy fields on the water quality at a basin scale, and assess the impacts of proposed BMPs applied to paddy fields.
Keywords
HSPF; Watershed model; Paddy fields; Nitrogen; Phosphorus; Fertilizer; Nonpoint source pollution;
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1 Chowdary, V. M., Rao, N. H., and Sarma, P. B. S., 2004. A coupled soil water and nitrogen balance model for flooded rice fields in India. Agriculture, Ecosystems and Environment 103, 425-441   DOI   ScienceOn
2 Donigian, A. S. and Love, J. T., 2003. Sediment calibration procedures and guidelines for watershed modeling. WEF Specialty Conference Proceedings on CD-ROM. November 16-19, 2003. Chicago, Illinois. WEF TMDL 2003
3 Hukkeri, S. B. and Sharma, A. K, 1980. Water-use efficiency of transplanted and direct sown rice under different water management practices. Indian Journal of Agricultural Science 50, 240-243
4 Mishra, A., Ghorai, A. K, and Singh, S. R., 1998. Rainwater, soil and nutrient conservation in rainfed rice lands in Eastern India. Agricultural Water Management 38, 45-57   DOI   ScienceOn
5 Zhang, Y., Lin, X., and Werner, W., 2003. The effect of soil flooding on the transformation of Fe oxides and the adsorption/ desorption behavior of phosphate. Journal of Plant Nutrient and Soil Science 166, 68-75   DOI   ScienceOn
6 Kirk, G. J. D., Yu, T R, and Choudhury, F. A., 1990. Phosphorus chemistry in relation to water regime. In: Phosphorus Requirements for Sustainable Agriculture in Asia and Oceania. International Rice Research Institute, Los Banos, Philippines, pp. 211-223
7 Chen, S. K., Liu, C. W., and Huang, H. C., 2002. Analysis of water movement in paddy rice field (I) experimental studies. Journal of Hydrology 268 (1-4), 259-271   DOI   ScienceOn
8 Eom, K. C., 2001. Environmentally beneficial function of rice culture and paddy soil, pp. 28-35. In: Rice culture in Asia. International Commission on Irrigation and Drainage, and Korean National Committee on Irrigation and Drainage, Korea
9 Allen, R. G., Periera, L. S., Rates, D., and Smith, M., 1998. Crop evapotranspiration:guidelines for computing crop requirements, Irrigation and Drainage Paper No. 56. FAO, Rome, Italy, p. 330
10 Kawara O., Katsuya, H., and Kunimatsu, T, 1996, A study on pollutant loads from the forest and rice paddy fields. Water Science and Technology 33, 159-165
11 Takamura, Y., Tabuchi, T., Suzuki, S., Cho, T., Ueno, T., and Kubota, H., 1977. Study on material balance in paddy filed (2). Nitrogen and phosphorus balance and drainage in ill-drained paddy fields at Tonegawa watershed. Japanese Journal of Soil Science and Plant Nutrient 48 (9, 10), 431-436
12 Donigian, A. S. Jr., Chinnaswamy, R V., and Jobes, T. H., 1997. Conceptual design of multipurpose detention facilities for flood protection and nonpoint source pollution control, AQUA TERRA Consultants, Mountain View, CA, p. 151
13 Love, J. T.. Donigian, A. S., Jr., 2002. The Connecticut watershed model - Model development, calibration, and validation. WEF-2002 Specialty Conference Proceedings on CD-ROM. February 23-27, 2002. Ft. Lauderdale, FL, WEF-Watershed 2002
14 De Datta, S. K., Abilay, W. P., and Kalwar, G. N., 1973. Water stress effects in flooded tropical rice. In: Water management in Philippine irrigation system: research and operations. International Rice Research Institute, Los Banos, Phillippines, pp. 19-36
15 Chung, S. O., Kim, H. S., and Kim, J. S., 2003. Model development for nutrient loading from paddy field. Agricultural Water Management 62, 1-17   DOI   ScienceOn
16 Wu, R. S., Chang, J. S., and Lin, K. M., 2001. A simulation model for investigation the effects of rice paddy fields on the runoff system. Mathematical and Computer Modelling 33, 649-658   DOI   ScienceOn
17 Albek, M., Ogutveren, U. B., and Albek, E., 2004. Hydrological modeling of Seydi Suyu watershed (Turkey) with HSPF. Journal of Hydrology. 285, 260-271   DOI   ScienceOn
18 Bicknell, B. R, Imhoff, J. C., Kittle, J. L., Jr., Jobes, T. H., and Donigian, A. S., Jr., 2001. Hydrological simulation program - FORTRAN. User's Manual for Release 12. U.S. EPA Ecosystem Research Division, Athens, GA. & U. S. Geological Survey, Office of Surface Water, Reston, VA
19 Khepar, S. D., Yadav, A. K, Sondhi, S. K, and Siag, M., 2000. Water balance model for paddy fields under intermittent irrigation practices. Irrigation Science 19, 199-208   DOI   ScienceOn
20 Chanasyk, D. S., Mapfurno, E., and Willms, W., 2003. Quantification and simulation of surface runoff from fescue grassland watersheds. Agricultural Water Management 59, 137-153   DOI   ScienceOn
21 Yoon C. G., Ham, J. H., and Jeon, J. H., 2003. Mass balance analysis in Korean paddy rice culture. Paddy and Water Environment 1, 99-106   DOI   ScienceOn
22 Wang, K., Zhang, Z., Zhu, Y., Wang, G., Shi, D., and Christie, P., 2001. Surface water phosphorus dynamics in rice fields receiving fertilizer and manure phosphorus. Chernesphere 42, 209-214
23 Willet, I. R. and Higgins M. L., 1978. Phos phorus sorption by reduced and reoxidized rice soils. Austrian Journal of Soil Research 16, 319-326   DOI
24 Chapra, S. C ,1997. Surface water-quality modeling. McGraw-Hill, New York, pp. 47-87