Advanced SearchSearch Tips
Effect of Irrigation Water Salinization on Salt Accumulation of Plastic Film House Soil around Sumjin River Estuary
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Effect of Irrigation Water Salinization on Salt Accumulation of Plastic Film House Soil around Sumjin River Estuary
Lee, Seul-Bi; Hong, Chang-Oh; Oh, Ju-Hwan; Gutierrez, Jessie; Kim, Pil-Joo;
  PDF(new window)
The causes of salt accumulation in soils of plastic film houses nearby Sumjin river estuary in Mokdo-ri(), Hadong, Gyeongnam, Korea were investigated in 2006. With chemical properties soils and water analyzed and fertilization status monitored, the study showed that mean salt concentration of soil was much higher at EC than the Korean average (EC ) in 2000s for plastic film house's soil with exchangeable Na and water-soluble Cl , and then might result to salt damage in sensitive crop plants. Salt concentration of ground water used as main irrigation water source contained very high EC with corresponding value of . Particularly, increase of EC value was directly proportional with the increased pumping of ground water used as a water-covering system in order to protect the temperature inside plastic film houses from the early winter season. High Na and Cl portion of ions in water might had contributed to the specific ion damage in the crops. Secondly, heavy inputs of chemicals and composts significantly increased the accumulated salts in soil. Conclusively, salt accumulation might had been accelerated by use of salted-groundwater irrigation and heavy fertilization rate. To minimize this problem, ensuring good quality of irrigation water is essential as well as reducing fertilization level.
Sumjin river;salinization;salt accumulation;salted water irrigation;plastic film house;
 Cited by
25시간 연속관측을 통한 섬진강 하구에서 시공간적 해양환경 변화 조절 요인,박미옥;김성수;김성길;권지남;이석모;이용우;

한국해양환경ㆍ에너지학회지, 2012. vol.15. 4, pp.314-322 crossref(new window)
충남지역 시설 딸기재배 토양 비옥도 특성,최문태;이진일;윤여욱;이종은;이봉춘;양의석;이영한;

한국토양비료학회지, 2010. vol.43. 2, pp.160-165
Factors Controlling Temporal-Spatial Variations of Marine Environment in the Seomjin River Estuary Through 25-hour Continuous Monitoring, Journal of Korean Society for Marine Environmental Engineering, 2012, 15, 4, 314  crossref(new windwow)
Effects of Irrigation with Saline Water on Crop Growth and Yield in Greenhouse Cultivation, Water, 2016, 8, 4, 127  crossref(new windwow)
Monitoring nutrient accumulation and leaching in plastic greenhouse cultivation, Agricultural Water Management, 2014, 146, 11  crossref(new windwow)
Effects of Saline Irrigation Water on Lettuce and Carrot Growth in Protected Cultivation, Journal of The Korean Society of Agricultural Engineers, 2015, 57, 4, 113  crossref(new windwow)
농림부. 2007. 농림통계연보, 경지이용, pp 42-43

하호성, 이용복, 강위금. 1997. 남부지역 시설재배지 토양의 염류도 특성. 30(4): 345-350

Kumar, A. N., Carsten, S., Keith, L.B. 2007. Modelling seawater intrusion in the Burdekin Delta Irrigation Area, North Queensland, Australia. Agricultural water management. 89: 217-228 crossref(new window)

초당대학교 환경기술연구소. 2005. 광양(III) 공업용수도 사업에 따른 섬진강 환경 영향 조사 보고서

농업과학기술원. 2000. 토양 및 식물체 분석법

Sposito, G., and Mattigod, S.V. 1977. On the chemical foundation of the sodium adsorption ratio. Soil Sci.Soc.Am.J. 41, 323-329 crossref(new window)

농업과학기술원. 2006. 작물별 시비처방기준. pp 250

U.S. Salinity Laboratory Staff. 1954. Diagnosis and improvement of saline and alkali soil. U.S. Government Printing Office. Washington. D.C. USDA Handbook 60. pp 160

Bohn, L. Hinrich, Brian L. McNeal, George A. O'Connor. 1979. Soil Chemistry. A Wiley-Interscience Publication. pp 149-151, 172-181, 223-225, 284-286

Follett. Roy Hunter, Larry S. Murphy and Roy L. Donahue. 1981. Fertilizers and soil amendments. Prentice-Hall. Inc. pp 45-48

이상은,박준규,윤정희,김만수.1987.비닐하우스 토양 화학적 특성에 관한 연구 농사논문집. 29(1):166-171

정구복, 유인수, 김복영. 1994. 중북지역 시설원예지 토양의 토성,염농도 및 화학성분의 조성.한국토양비료학회지 27(1):33-40

Bennett, W.F. 1993. Nutrient deficiencies & Toxicities in Crop Plants. The American Phytopatological Society, Minesota. pp 202

김계훈 외 13명 공저. 2006. 제4장 토양화학. 알칼리토양과 염류토양. 토양학. pp 216-217

Australian and New Zealand Guidelines for Fresh and Marine Water Quality. 2000

이상훈. 2000. 농업용수수질기준 개선 방안에 관한 연구. 사업기술연구소논문집. 15: 379-385

Bharat R. Sharma, P.S. Minhas. 2005. Strategies for managing saline/alkali waters for sustainable agricultural production in South Asia. Agricultural Water Management 78: 136-151 crossref(new window)

Hiroshiro, Y., Jinno, K., Berndtsson, R. 2006. Hydrochemical properties of a salinity affected coastal aquifer in western Japan. Hydrologic Process. 20(6): 1425-1435 crossref(new window)

Sethi, L.N., Panda, S.N., Nayak, M.K. 2006. Optimal crop planning and water resources allocation in a coastal groundwater basin, Orissa, India. Agricultural Water Management. 83: 221-232 crossref(new window)