DOI QR코드

DOI QR Code

농업용 저수지 및 관개지구를 고려한 농업유역 물순환율 개발

Development of Agricultural Water Circulation Rate Considering Agricultural Reservoir and Irrigation District

  • Kim, Seokhyeon (Department of Rural Systems Engineering, Seoul national University) ;
  • Song, Jung-Hun (Department of Agricultural and Biological Engineering & Tropical Research and Education Center, University of Florida) ;
  • Hwang, Soonho (Research Institute of Agriculture and Life sciences, College of Agriculture and Life Sciences, Seoul National University) ;
  • Kim, Hak-Gwan (Graduate School of International Agricultural Technology, Institutes of Green Bio Science and Technology, Seoul national University) ;
  • Kang, Moon Seong (Department of Rural Systems Engineering, Research Institute of Agriculture and Life sciences, Institute of Green Bio Science and Technology, Seoul national University)
  • 투고 : 2020.02.13
  • 심사 : 2020.03.20
  • 발행 : 2020.03.31

초록

The water circulation in agricultural watersheds changes with the operation of agricultural reservoirs, it is necessary to classify and evaluate them into upstream, agricultural reservoirs, irrigation districts, and downstream. Therefore, in this study, we developed the agricultural water circulation rate (AWCR) considering an agricultural reservoir and irrigation district by improving the water circulation rate of the Water environmental conservation Act. we applied it to Jinwi watershed using the module-based hydrologic analysis system to simulate the water circulation for agricultural reservoirs and irrigation areas. The model performance during the validation period was NSE of 0.762 for the downstream stream and 0.682 for the reservoir level. And the hydrograph separation model was applied to separate the direct and baseflow. As a result of this study, The AWCR of Jinwi watershed was 71.8% on average, which was higher than the water circulation rate estimated by the downstream hydrograph separation.

키워드

참고문헌

  1. Chung, I. M., S. H. Hong, J. W. Lee, and M. G. Kim, 2017. Present status and future improvements in groundwater use near streams in the anseongcheon watershed, Korea. The Journal of Engineering geology 27(4): 383-392. doi:10.9720/kseg.2017.4.383.
  2. Eckhardt, K., 2005. How to construct recursive digital filters for baseflow separation. Hydrological Processes 19(2):507-515. doi:10.1002/hyp.5675.
  3. Environmental Geographic Information Service, Landuse data. https://egis.me.go.kr/main.do Accessed 26 Oct 2020.
  4. Gupta, H., V. S. Sorooshian, and P. O. Yapo, 1999. Status of automatic calibration for hydrologic models: Comparison with multilevel expert calibration. Journal of Hydrologic Engineering 4(2): 135-143. doi:10.1061/(ASCE)1084-0699(1999)4:2(135).
  5. Im, S. J., 2000. Modeling irrigation return flow from paddy fields on agricultural watershed. Ph.D. diss., Seoul National University.
  6. Jung, Y. H., 2018. Dam inflow evaluation using hydrograph analysis. Journal of the Korean Society of Agricultural Engineers 60(3): 95-105. doi:10.5389/KSAE.2018.60.3.095.
  7. Jung, J. H., and H. J. Oh, 2013. An application of integrated water cycle system in U-City. Journal of the Korea Academia-Industrial Corperation Society 14(12): 6597-6601. https://doi.org/10.5762/KAIS.2013.14.12.6597
  8. Kang, M. G., and S. W. Park, 2014. Modeling water flows in a serial irrigation reservoir system considering irrigation return flows and reservoir operations. Agricultural Water Management 143: 131-141. doi:10.1016/j.agwat.2014.07.003.
  9. Kang, M. S., S. W. Park, J. J. Lee, and K. H. Yoo, 2006. Applying SWAT for TMDL programs to a small watershed containing rice paddy fields. Agricultural Water Management 79(1): 72-92. doi:10.1016/j.agwat.2005.02.015.
  10. Kang, M. S., P. Srivastava, J. H. Song, J. H. Park, Y. G. Her, S. M. Kim, and I. H. Song, 2016. Development of a component-based modeling framework for agricultural water-resource management. Water 8(8): 351. doi:10.3390/w8080351.
  11. Kim, S. R., M. W. Jang, S. J. Kim, and S. J. Bae, 2017. Spatial and temporal analysis of drought using the storage data of agricultural reservoirs in chungnam province in 2015. Journal of the Korean Society of Agricultural Engineers 59(2): 29-36. doi:10.5389/KSAE.2017.59.2.029.
  12. Kim, H. K., M. S. Kang, E. J. Lee, and S. W. Park, 2011. Climate and land use changes impacts on hydrology in a rural small watershed. Journal of the Korean Society of Agricultural Engineers 53(6): 75-84. doi:10.5389/KSAE.2011.53.6.075.
  13. Korea Meteorological Administration, Domestic climate data. https://data.kma.go.kr/cmmn/main.do Accessed 26 Oct. 2018.
  14. Lim, K. J., B. A. Engel, Z. Tang, J. D. Choi, K. S. Kim, S. Muthukrishnan, and D. Tripathy, 2005. Automated web gis based hydrograph analysis tool, WHAT. Journal of the American Water Resources Association 41(6): 1408-1416. doi:10.1111/j.1752-1688.2005.tb03808.x.
  15. Moriasi, D. N., M. W. Gitau, N. Pai, and P. Daggupati, 2015. Hydrologic and water quality models: Performance measures and evaluation criteria. Transactions of the ASABE 58(6):1763-1785. doi:10.13031/trans.58.10715.
  16. Nash, J. E., and J. V. Sutcliffe, 1970. River flow forecasting through conceptual models part I - A discussion of principles. Journal of Hydrology 10(3): 282-290. doi:10.1016/0022-1694(70)90255-6.
  17. Park, J. C., and M. K. Kim, 2016. Development and validation of BROOK90-K for estimating irrigation return flows. Journal of the Korean Geomorphological Association 23(1): 87-101. doi:10.16968/JKGA.23.1.7.
  18. Song, J. H., J. H. Park, K. U. Kim, J. H. Ryu, S. M. Jun, J. T. Kim, T. I. Jang, I. H. Song, and M. S. Kang, 2016. Hydrologic modeling for agricultural reservoir watersheds using the COMFARM. Journal of the Korean Society of Agricultural Engineers 58(3): 71-80. doi:10.5389/KSAE.2016.58.3.071.
  19. Song, J. H., Y. G. Her, M. S. Jun, S. H. Hwang, J. H. Park, and M. S. Kang, 2019a. Lessons from assessing uncertainty in agricultural water supply estimation for sustainable rice production. Agronomy 9(10): 662. doi:10.3390/agronomy9100662.
  20. Song, J. H., Y. G. Her, K. Suh, M. S. Kang, and H. K. Kim, 2019b. Regionalization of a rainfall-runoff model: Limitations and potential. Water 11(11): 2257. doi:10.3390/w11112257.
  21. Song, J. H., Y. G. Her, J. H. Park, and M. S. Kang, 2019c. Exploring parsimonious daily rainfall-runoff model structure using the hyperbolic tangent function and tank model. Journal of Hydrology 574: 574-587. doi:10.1016/j.jhydrol.2019.04.054.
  22. Song, J. H., 2017. Hydrologic analysis system with multi-objective optimization for agricultural watersheds. Ph.D. diss., Seoul National University.
  23. Song, J. H., M. S. Kang, I. H. Song, S. H. Hwang, J. H. Park, and J. H. Ahn, 2013. Surface drainage simulation model for irrigation districts composed of paddy and protected cultivation. Journal of the Korean Society of Agricultural Engineers 55(3): 63-73. doi:10.538 9/KSAE.2013.55.3.063. https://doi.org/10.5389/KSAE.2013.55.3.063
  24. Song, J. H., I. H. Song, J. T. Kim, and M. S. Kang, 2015a. Simulation of agricultural water supply considering yearly variation of irrigation efficiency. Journal of Korea Water Resources Association 48(6): 425-438. doi:10.3741/JKWRA.2015.48.6.425.
  25. Song, J. H., I. H. Song, J. T. Kim, and M. S. Kang, 2015b. Characteristics of irrigation return flow in a reservoir irrigated district. Journal of the Korean Society of Agricultural Engineers 57(1): 69-78. doi:10.5389/KSAE.2015.57.1.069.
  26. Rural Agricultural Water Resource Information System, Water level data. https://rawris.ekr.or.kr/main.do Accessed 11 Nov. 2018.
  27. Water Resources Mangement Information System, Discharge data. http://wamis.go.kr Accessed 10 Nov 2019.
  28. Yoo, S. H., J. Y. Jin, and M. W. Jang, 2006. Estimation of paddy rice crop coefficients for FAO penman-monteith and modified penman method. Journal of the Korean Society of Agricultural Engineers 48(1): 13-23. doi:10.5389/KSAE.2006.48.1.013.
  29. Youcan F., B. Steven, and P. Christine, 2016. Potential of green infrastructure to restore predevelopment water budget of a semi-arid urban catchment. Journal of hydrology 542(542): 744-755. doi:10.1016/j.jhydrol.2016.09.044.