Advanced SearchSearch Tips
Model Development for Estimating Total Soil Contents of Pb and Cd Using Chemical Properties and Extractable Contents in Paddy Soil
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Model Development for Estimating Total Soil Contents of Pb and Cd Using Chemical Properties and Extractable Contents in Paddy Soil
Go, Woo-Ri; Lee, Ji-Ho; Lee, Eun-Yong; Lim, Seong-Mook; Yoo, Ji-Hyock; Kim, Ji-Young; Kim, Kye-Hoon; Im, Geon-Jae; Kim, Won-Il;
  PDF(new window)
Predictive model for estimating total contents of cadmium (Cd) and lead (Pb) was developed by stepwise multiple-regression analysis using chemical properties and extractable contents of metal in paddy soil adjacent to abandoned mines in 2009 and 2010. Soil properties, e.g. pH, electrical conductivity (EC), organic matter (OM), available phosphorus (), and exchangeable cations (i.e. Ca, Na, K, Mg) were measured. Total contents of Cd and Pb as well as extractable contents of metals were analyzed by ICP-OES. Results showed that the total and extractable contents were estimated to be 3.55 and in Cd and 83.38 and in Pb on the average. From stepwise analysis, it was found that the contents of extractable Cd, Zn, Cu, as well as exchangeable Na were significantly influenced on estimation of the total contents of Cd in soil. Moreover, it also showed that the contents of extractable Pb, Zn, and Cu significantly affected estimation of the total contents of Pb in soil. More significant relationship between estimated and measured value in total contents of Pb was observed than those of Cd (
Abandoned mines;Cadmium;Extractable contents;Lead;Paddy soil;Soil properties;Total contents;
 Cited by
논토양의 이화학적 특성 및 침출성 중금속 함량을 이용한 비소의 전함량 예측,이정미;고우리;;류지혁;김지영;김두호;김원일;

한국토양비료학회지, 2012. vol.45. 6, pp.920-924 crossref(new window)
Model Development for Estimating Total Arsenic Contents with Chemical Properties and Extractable Heavy Metal Contents in Paddy Soils, Korean Journal of Soil Science and Fertilizer, 2012, 45, 6, 920  crossref(new windwow)
Andreu, V., and E. Gimeno-Garcia, 1999. Evolution of heavy metals in marsh areas under rice farming. Environ. Pollut. 104:271-282. crossref(new window)

Bachmann, G. 1993. Soil values in German soil protection paper, presented at the conference: "Developing cleanup standards for contaminated soil, sediment and ground water: how clean is clean?" Wat. Environ. Fed., Washington D.C.

CCME (Canadian Council of Ministers of the Environment). 2002. Canadian soil quality guidelines for the protection of environmental and human health.

Han, H.S. 2009. Correlation between heavy metal contents in paddy soil and rice nearby abandoned smelting factory. Master. Thesis, The University of Seoul, Seoul, Korea.

Jung, G.B., W.I. Kim, J.S. Lee, J.D. Shin, J.H. Kim, and S.G. Yun. 2005. Availability of heavy metals in soils with different characteristics and controversial points for analytical methods of soil contamination in Korea. Korean J. Environ. Agric. 19(2):128-133.

Jung, M.C., M.Y. Jung, and Y.W. Choi. 2004. Environmental assessment of heavy metals around abandoned metalliferous mine in Korea. Econ. Environ. Geol. 37:21-33.

Kim, W.I., J.J. Kim, J.H. Yoo, J.Y. Kim, J.H. Lee, M.K. Paik, R.Y. Kim, and G.J. Im. 2010. Arsenic Fractionation and Bioavailability in Paddy Soils Near Closed Mines in Korea. Korean J. Soil Sci. Fert. 43(6):917-922.

Kim, W.I., J.E. Yang, G.B. Jung, B.J. Park, S.W. Park, J.K. Kim, O.K. Kwon, and G.H Ryu. 2007. Bioavalability and safety issues of hevy metals in paddy soil-rice continuum in Korea. Food & fertilizer technology center extension bulletin 597.

Lee, J.S., Y.N. Kim, and K.H. Kim. 2010. Suitability assessment for agriculture of soils adjacent to abandoned mining areas using different human risk assessment models. Korean J. Soil Sci. Fert. 43(5):552-561.

Ministry of Environment. 2003. Soil Environmental Conservation Act.

Oh, C.W., Y.H. Yu, P.K. Lee, and Y.U. Lee. 2003. The controversial points and a remedy on evaluation of heavy metal contamination in standard method for examination of soil in Korea. J. of KoSSGE. 6:63-83.

RDA (Rural Development Administration). National Institute Agricultural Science and Technology. 2000. Analytical method of soil and plant.

US EPA. 1996. Microwave assisted acid dissolution of sediments, sludges, soils and oils. 2nd ed. US EPA Office of Soild Water and Emergency Response, Washington, D.C.