Browse > Article
http://dx.doi.org/10.5389/KSAE.2018.60.3.113

Effects of the Brackish Water Desalination System on Soil Environment and Growth in Squash Greenhouse Cultivation Area  

Kim, Soo-Jin (Institute of Green Bio Science and Technology, Seoul National University)
Bae, Seung-jong (Institute of Green Bio Science and Technology, Seoul National University)
Jeong, Han-Suk (Dept. of Agricultural and biological Engineering, University of Illinois at Urbana-Champaign)
Kim, Hak-Kwan (Institute of Green Bio Science and Technology, Seoul National University)
Park, Seung-Woo (Institute of Green Bio Science and Technology, Seoul National University)
Publication Information
Journal of The Korean Society of Agricultural Engineers / v.60, no.3, 2018 , pp. 113-121 More about this Journal
Abstract
The objectives of the research were 1) to develop the low-cost and high efficient desalination system to treat brackish water having high salt contents for irrigation at greenhouses near coast, and 2) to monitor and assess the effects of the brackish water desalination system on soil environment and growth in squash greenhouse cultivation area. The monitoring site was one of the squash greenhouse cultivation farm at Choengam-ri, Jinsang-myun, Gwangyang-si, Jeonnam-Do Monitoring results for groundwater irrigation water quality, and salinity showed a remarkable difference between control and treatment group. The salinity of soil at treatment group was less than at control group. While, the system made possible to increase the squash quantity from 4.7 ea to 6.3 ea at each and the average weight of the harvested squash was increased from 277.2 g to 295.1 g. The applied brackish water desalination system may be appled to reclaim sea or brackish irrigated area as alternative water resources, although long-term monitoring is needed to get more representative results at different level of salinity.
Keywords
Desalination; brackish water; greenhouse cultivation area; squash;
Citations & Related Records
Times Cited By KSCI : 11  (Citation Analysis)
연도 인용수 순위
1 Singh, R. B., P. S. Minhas, C. P. S. Chauhan, and R. K. Gupta, 1992. Effect of high salinity and SAR waters on salinization, sodication and yields of pearl-millet and wheat. Agricultural Water Management 21: 93-105. doi:10.1016/0378-3774(92)90085-b.   DOI
2 Sonneveld, C., and W. Voogt, 2009. Plant nutrition of greenhouse crops, Springer.
3 Tedeschi, A., and R. Dell'Aquilla, 2005. Effects of irrigation with saline waters al different concentration, on soil physical and chemical characteristics. Agricultural Water Management 77: 308-322. doi:10.1016/j.agwat. 2004.09.036.   DOI
4 Grattan, S. R., L. Zeng, M. C. Shannon, and S. R. Roberts, 2002. Rice is more sensitive to salinity than previously thought. California Agriculture 56(6): 189-195. doi:10.3733/ ca.v056n06p189.   DOI
5 Ayers, R. S., and D. W. Westcot, 1985. Water quality for agriculture. FAO irrigation and drainage Paper 29, revised 1, Food and Agriculture Organization of the United Nations, Rome.
6 Byeon, I. S., and J. B. Chung, 2015. Desalinization effect of off-season crop cultivation in long-term oriental melon cultivated plastic film house soils. Korean Journal of Environmental Agriculture 34(4): 253-259 (in Korean).   DOI
7 Food and Agriculture Organization (FAO), 2013. Good Agricultural Practices for greenhouse vegetable crops. FAO plant production and protection paper 217, FAO, Rome.
8 Hong, W. M., J. Y. Choi, W. H. Nam, M. S. Kang, and J. R. Jang, 2014. Soil moisture extraction characteristics of cucumber crop in protected cultivation. Journal of the Korean Society of Agricultural Engineers 56(2): 37-46 (in Korean).   DOI
9 Hong, W. M., J. Y. Choi, W. H. Nam, M. S. Kang, and J. R. Jang, 2014. Soil moisture extraction characteristics of cucumber crop in protected cultivation. Journal of the Korean Society of Agricultural Engineers 56(2): 37-46 (in Korean).   DOI
10 Jeon, J. H., H. S. Jeong, and H. K. Kim, 2015. Effects of saline irrigation water on lettuce and carrot growth in protected cultivation. Journal of the Korean Society of Agricultural Engineers 57(4): 113-120 (in Korean).   DOI
11 Jeong, H. S., J. H. Park, C. H. Chung, T. I. Jang, M. S. Kang, and S. W. Park, 2013. Effects of indirect wastewater reuse on water quality and soil environment in paddy fields. Journal of the Korean Society of Agricultural Engineers 55(3): 91-104 (in Korean).   DOI
12 Jeong, H. S., K. Suh, T. I. Jang, C. H. Seong, H. K. Kim, and S. W. Park, 2013. Economic analysis of wastewater reuse systems for agricultural irrigation using a system dynamics Approach. Journal of the Korean Society of Agricultural Engineers 55(2): 1-12 (in Korean).   DOI
13 Jung, H. W., S. J. Kim, J. S. Kim, J. K. Noh, K. W. Park, J. K. Son, K. S. Yoon, K. H. Lee, N. H. Lee, S. Y. Jung, J. D. Choi, and J. Y. Choi, 2006. Irrigation and drainage engineering, Dong myoung Sa, Seoul (in Korean).
14 Kim, D. S., 2004. Effects of the perforated underdrainage pipe installment on the salt removal in the plastic film house soul. MS Thesis. Kangwon National University (in Korean).
15 Kim, J. H., J. S. Lee, W. I. Jung, G. B. Jung, S. G. Yun, Y. T. Jung, and S. K. Kwun, 2002. Groundwater and soil environment of plastic film house fields around central part of Korea. Korean Journal of Environmental Agriculture 21(2): 109-116 (in Korean).   DOI
16 Kumar, A. N., S. Carsten, and L. B. Keith, 2007. Modelling seawater intrusion in the burdekin delta irrigation area, North queensland, Australia. Agricultural water management 89: 217-228. doi:10.1016/j.agwat. 2007.01.008.   DOI
17 MAFRA (Ministry of Agriculture, Food and Rural Affairs), 2017. Greenhouse and protected vegetable production statistics 2016. Ministry of Agriculture, Food and Rural Affairs, No. 11-1543000-000051-10. Sejong (in Korean).
18 Lee, K. Y., and K. S. Choi, 2009. Development of clean water supplying system for greenhouse cultivation and convenience water (I) - development of the FDA system -. Journal of the Korean Society of Agricultural Engineers 51(5): 95-100 (in Korean).   DOI
19 Lee, S. B., C. O. Hong, J. H. Oh, J. Gutierrez, and P. J. Kim, 2008. Effect of irrigation water salinization on salt accumulation of plastic film house soil around sumjin river estuary. Korean Journal of Environmental Agriculture 27(4): 349-355 (in Korean).   DOI
20 Lee. S. B., C. O. Hong, J. H. Oh, J. Gutierrez, and P. J. Kim, 2008. Effect of irrigation water salinization on salt accumulation of plastic film house soil around Sumjin River estuary. Korean Journal of Environmental Agriculture 27(4): 349-355 (in Korean).   DOI
21 Ok, Y. S., J. E. Yang, K. Y. Yoo, Y. B. Kim, D. Y. Chung, and Y. H. Park, 2005. Screening of adsorbent to reduce salt concentration in the plastic film house soil under continuous vegetable cultivation. Korean Journal of Environmental Agriculture 24(3): 253-260 (in Korean).   DOI
22 Park, S. H., 2003. Pretreatment of silica and humic acid in brackish water desalination using RO membrane. MS thesis. Ewha Womans University (in Korean).
23 Shannon, M. C., and C. M. Grieve, 1999. Tolerance of vegetable crops to salinity. Scientia Horticulturae 78: 5-38. doi:10.1016/s0304-4238(98)00189-7.
24 Park, S. W., H. S. Jeong, and H. K. Kim, 2015. Water treatment techniques for securing the quality of irrigation water: an overview of the state-of-the arts. Journal of the National Academy of Sciences, Republic of Korea (The Natural Sciences Division) 54(2): 83-108 (in Korean).
25 RDA (Rural Development Administration), 2013. Annual report 2012 monitoring project on agro-environmental quality. Rural Development Administration, No. 11-1390802-000749-01. Jeonju (in Korean).