[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7745/KJSSF.2016.49.2.115

Comparison of the Surface Chemical Properties of Plastic Film House, Upland, and Orchard Soils in Gyeongbuk Province

Park, Sang-Jo (Gyeongbuk Agricultural Research & Extension Services)
Park, Jun-Hong (Gyeongbuk Agricultural Research & Extension Services)
Kim, Chan-Yong (Gyeongbuk Agricultural Research & Extension Services)
Seo, Young-Jin (Gyeongbuk Agricultural Research & Extension Services)
Kwon, Oh-Heun (Gyeongbuk Agricultural Research & Extension Services)
Won, Jong-Gun (Gyeongbuk Agricultural Research & Extension Services)
Lee, Suk-Hee (Gyeongbuk Agricultural Research & Extension Services)

Publication Information

Korean Journal of Soil Science and Fertilizer / v.49, no.2, 2016 , pp. 115-124 More about this Journal

Abstract

The objectives of this study were to evaluate the soil fertility about plastic film house, upland, and orchard in Gyeongbuk Province, Korea. The surface chemical properties of soil samples were investigated every 4 year from 2000 year at upland, 2001 year at orchard, and 2002 year at plastic film house. During 12 year's monitoring, mean soil pH was increased by 0.7 and 0.8 pH unit from pH 5.7 in upland and orchard, respectively, 0.5 pH unit from pH 6.5 in plastic film house. About 50% of all the field samples occupied within the recommended pH range (pH 6-7). Although soil organic matter (SOM) was gradually increased by about $10g\;kg^{-1}$ for 12 years, 40% of orchard, 49% of plastic film house, and 77% of upland soil samples were still below the 3% SOM. The mean concentration of available phosphate for 12 years in upland, orchard, and plastic film house were 530, 600, and $760mg\;kg^{-1}$ , respectively. The relative frequencies exceeding the recommended available phosphate range ( $300-550mg\;kg^{-1}$ ) were 43%, 53%, and 66% at upland, orchard, and plastic film house soils, respectively. $NH_4OAc$ exchangeable $K^+$ of upland, orchard, and plastic film house in the last soil test were 0.8, 0.9, and $1.6cmol_c\;kg^{-1}$ , respectively. The relative frequencies above the recommended K level were 56% and 70% of orchard and plastic film house soil samples, respectively. The levels of crop nutrients except exchangeable Ca and Mg in upland soil were tended to increase gradually in the three fields. Exchangeable Mg, EC, available phosphate, organic matter and soil pH could be used as principle components to differentiate the chemical properties of three land fields. This analysis revealed that the soil fertility was affected by cropping method and field management, although additional research is needed to assess the importance of management on soil chemical properties and many fields indicate an opportunity for improvement in fertilizer management.

Keywords

Soil chemicals; Plastic film house; Upland; Orchard;

Citations & Related Records

Times Cited By KSCI : 6 (Citation Analysis)

Reference
Cited By KSCI

1	Abreu Jr., C.H., T. Muraoka, and A.F. Lavorante. 2003. Relationship between acidity and chemical properties of Brazilian soils. Sci. Agric. 60:337-343. DOI
2	Jagadamma, S., R. Lal, R.G. Hoeft, E.D. Nafziger, and E.A. Adee. 2008. Nitrogen fertilization and cropping system impacts on soil properties and their relationship to crop yield in the central corn belt, USA. Soil Till. Res. 98:120-129. DOI
3	Jung, P.K., K.C. Eom, S.K. Ha, Y.S. Zhang, and S.O. Hur. 2009. Assessments of the nutrient losses in the sloped farm land. Korean J. Soil Sci. Fert. 42:47-50.
4	Kang, S.S., A.S. Roh., S.C. Choi, Y.S. Kim, H.J. Kim, M.T. Choi, B.K. Ahn, H.W. Kim, H.K. Kim, J.H. Park, Y.H. Lee, S.H. Yang, J.S. Ryu, Y.S. Jang, M.S. Kim, Y.K. Sonn, C.H. Lee, S.G. Ha, D.B. Lee, and Y.H. Kim. 2012. Status and change in chemical properties of paddy soil in Korea. Korean J. Soil Sci. Fert. 45:968-972. DOI
5	Kang, S.S., A.S. Roh., S.C. Choi, Y.S. Kim, H.J. Kim, M.T. Choi, B.G. Ahn, H.K. Kim, S.J. Park, Y.H. Lee, S.H. Yang, J.S. Ryu, Y.G. Sohn, M.S. Kim, M.S. Kong, C.H. Lee, D.B. Lee, and Y.H. Kim. 2013. Status and change in chemical properties of polytunnel soil in Korea from 2000 to 2012. Korean J. Soil Sci. Fert. 46:641-646. DOI
6	Kang, S.S., A.S. Roh., B.S. Yoon, H.J. Kim, M.T. Choi, B.G. Ahn, H.K. Kim, S.J. Park, Y.H. Lee, S.H. Yang, J.S. Ryu, Y.G. Sohn, M.S. Kim, M.S. Kong, C.H. Lee, T.K. Oh, D.B. Lee, and Y.H. Kim. 2014. Status and change in chemical properties of upland in Korea from 2001 to 2013. Korean J. Soil Sci. Fert. 2014. 6, 616-616. (Abstr.). In: Proceedings of the 20th World Congress of Soil Science. p. 616.
7	Kang, S.S., A.S. Roh., B.S. Yoon, H.J. Kim, M.T. Choi, B.G. Ahn, S.K. Kim, S.J. Park, Y.H. Lee, S.H. Yang, J.S. Ryu, M.S Kong, M.J. Chae, H.I. Jung, Y.K Sonn, D.B. Lee, and Y.H. Kim. 2015. Status and change in chemical properties of orchard soil in Korea. In: Proceedings of 12th International Conference of ESAFS. p. 32-33. (Abstr.)
8	Kim, M.S., W.I. Kim, J.S. Lee, G.J. Lee, G.L. Jo, M.S. Ahn, S.C. Choi, H.J. Kim, Y.S. Kim, M.T. Choi, Y.H. Moon, B.K. Ahn, H.W. Kim, Y.J. Seo, Y.H. Lee, J.J. Hwang, Y.H. Kim, and S.K. Ha. 2010. Long-term monitoring study of soil chemical contents and quality in paddy fields. Korean J. Soil Sci. Fert. 43:930-936.
9	Kong, M.S., S.S. Kang, M.J. Chae, H. Jung, Y.G. Sonn, D.B. Lee, and Y.H. Kim. 2015. Changes of chemical properties in upland soils in Korea. Korean J. Soil Sci. Fert. 48:588-592. DOI
10	Lee, Y.J., D.H. Choi, S.H. Kim, S.M. Lee, Y.H. Lee, B.M. Lee, and T.W. Kim. 2004. Long-term changes in soil chemical properties in organic arable farming systems in Korea. Korean J. Soil Sci. Fert. 37:228-234.
11	NAAS (National Academy of Agricultural Science). 2010a. Fertilization standard of crop. Rural Development Administration. Korea.
12	NAAS (National Academy of Agricultural Science). 2010b. Method of soil chemical analysis. Rural Development Administration. Korea.
13	Novara, A., L. Gristina, F. Guaitoli, A. Santoro, and A. Cerda. 2013. Managing soil nitrate with cover crops and buffer strips in Sicilian vineyards. Solid Earth 4:255-262. DOI
14	Sharpley, A.N., R.W. McDowell, and P.J.A. Kleinman. 2004. Amounts, forms, and solubility of phosphorus in soils receiving manure. Soil Sci. Soc. Am. J. 68:2048-2057. DOI
15	Ye, R. and A.L. Wright. 2010. Multivariate analysis of chemical and microbial properties in histosols as influenced by land-use types. Soil Till. Res. 110:94-100. DOI
16	Verma, S. and P.K. Sharma. 2008. Long-term effects of organics, fertilizers and cropping systems on soil physical productivity evaluated using a single value index (NLWR). Soil Till. Res. 98:1-10. DOI
17	Virto, I., M.J. Imaz, O.I. Fernandez-Ugalde, I. Urrutia, A. Entrique, and P. Bescansa. 2012. Soil quality evaluation following the implementation of permanent cover crops in semi-arid vineyards. Organic matter, physical and biological soil properties. Span. J. Agric. Res. 10:1121-1132. DOI
18	Whalen, J.K. and C. Chang. 2001. Phosphorus accumulation in cultivated soils from long-term annual applications of cattle feedlot manure. J. Environ. Qual. 30:229-237.
19	Zhou, Z.Z. Gan, Z. Shangguan, and F. Zhang. 2013. Effects of long-term repeated mineral and organic fertilizer applications on soil organic and total nitrogen in a semi-arid cropland. Europ. J. Agronomy 45:20-26. DOI