• Comparison of Surface Water and Groundwater Responses to Drought using the Standardized Precipitation Index (SPI)

  • Min-Ho Koo1*·Wonkyeom Kim2·Sung-Ho Song3

  • 1Department of Geoenvironmental Sciences, Kongju National University
    2Intellegeo Co. Ltd.
    3Rural Research Institute, Korea Rural Community Corporation

  • 표준강수지수(SPI)를 이용한 가뭄에 대한 지표수와 지하수 반응 비교

  • 구민호1*·김원겸2·송성호3

  • 1공주대학교 지질환경과학과
    2(주)인텔리지오
    3한국농어촌공사 농어촌연구원

  • This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References
  • 1. Ahn, S., Park, J., Jung, I., Na, S., and Kim, S., 2009, Hydrological drought assessment of agricultural reservoirs based on SWSI in Geum River Basin, J. Kor. Soc. Agric. Eng., 51(5), 35-49 (in Korean with English abstract).
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  • 2. Bloomfield, J.P., Marchant, B.P., 2103, Analysis of groundwater drought building on the standardised precipitation index approach, Hydrol. Earth Syst. Sci., 17, 4769-4787.
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  • 3. Kim, G. and Lee, S., 2012, Applicability of logistic regression model of groundwater level to drought forecast, J. Geol. Soc. Kor., 48(3), 275-284 (in Korean with English abstract).
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  • 4. Kim, G., Yun, H., and Kim, D. 2006, Relationship between standardized precipitation index and groundwater levels: A proposal for establishment of drought index wells, J. Soil Groundw. Environ., 11(3), 31-42 (in Korean with English abstract).
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  • 5. Koo, M., Kim, T., Kim, S., Chung, S., Kang, I., Lee, C., and Kim, Y., 2013, Estimating groundwater recharge using the water-table fluctuation method: effect of stream-aquifer interactions, J. Soil Groundw. Environ., 18(5), 65-76 (in Korean with English abstract).
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  • 6. Kumar, R., Musuuza, J.L., Van Loon, A.F., Teuling, A.J., Barthel, R, Broek, J.T., Mai, J., Samaniego, L., and Attinger, S., 2016, Multiscale evaluation of the Standardized Precipitation Index as a groundwater drought indicator, Hydrol. Earth Syst. Sci. 20, 1117-1136.
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  • 7. Kwon, H. and Kim, S., 2007, Methodology of drought assessment using national groundwater monitoring network data, J. Kor. Soc. Civi Eng., 27(2B), 193-199 (in Korean with English abstract).
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  • 8. Kwon, H., Park, H., Hong, D., and Kim, S., 2006, A study on semi-distributed hydrologic drought assessment modifying SWSI, J. Kor. Water Resour. Assoc., 39(8), 645-658 (in Korean with English abstract).
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  • 9. Leelaruban, N., Padmanabhan, G., and Oduor, P., 2017, Examining the relationship between drought indices and groundwater levels, Water 9(2), 82; doi:10.3390/w9020082.
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  • 10. Song, S., 2015, Effect of drought on the decrease of the amount of groundwater for agriculture, J. Kor. Soc. Agricultural Eng., 57(4), 25-30 (in Korean with English abstract).
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  • 11. Song, S., Lee, B., Choi, K., Kim, J., and Kim, G., 2014, Evaluation of drought effect on groundwater system using groundwater level data in jeju island, J. Environ. Sci. International., 23(4), 637-647 (in Korean with English abstract).
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This Article

  • 2022; 27(5): 1-9

    Published on Oct 31, 2022

  • 10.7857/JSGE.2022.27.5.001
  • Received on Sep 6, 2022
  • Revised on Sep 13, 2022
  • Accepted on Oct 6, 2022

Correspondence to

  • Min-Ho Koo

  • Department of Geoenvironmental Sciences, Kongju National University

  • E-mail: koo@kongju.ac.kr