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Evaluation of Soil Loss According to Surface Covering and Tillage Methods in Corn Cultivation
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 Title & Authors
Evaluation of Soil Loss According to Surface Covering and Tillage Methods in Corn Cultivation
Lee, Jeong-Tae; Lee, Gye-Jun; Ryu, Jong-Soo; Kim, Jeom-Soon; Han, Kyung-Hwa; Park, Seok-Ho;
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 Abstract
Corn was mainly cultivated in slope land during summer season when heavy rain falls so that soil loss occurs severely. Especially, soil disturbance and exposure of topsoil by conventional tillage intensifies soil loss by heavy rain. The aim of this study was to develop surface covering and tillage methods for reducing soil loss in corn cultivation. The experiment was conducted in 17% sloped lysimeter with 8 treatments including strip tillage after surface covering with rye residue, strip tillage after residue covering of several crops and sod culture, black polyethylene film covering after conventional tillage and control. Amount of runoff water and eroded soil, and corn growth were investigated. Amounts of runoff water in all plots except black polyethylene plot ranged from 152 to 375 , accounting for 13~32% of 1,158 in control. Amount of eroded soil decreased by 94 to 99% (3 to 89 kg ) in plots of strip tillage after covering with crop residues compared to control with 1,739 kg . Corn yields in plots of strip tillage after covering with crop residues ranged from 6.0 to 6.9 Mg , while that of control was 6.5 Mg . The results suggest that strip tillage methods after surface covering with crop residues are very effective on soil conservation of slope land in corn cultivation.
 Keywords
Corn;Covering method;Runoff water;Soil loss;Strip tillage;
 Language
Korean
 Cited by
1.
Effect of Legume Cover Crops and Nitrogen Fertilization Rates on Yield and Nitrogen Use Efficiency of Waxy Corn (Zea mays L.) in No-Tillage System,;;;;;;

한국토양비료학회지, 2016. vol.49. 5, pp.531-540 crossref(new window)
1.
Effect of Legume Cover Crops and Nitrogen Fertilization Rates on Yield and Nitrogen Use Efficiency of Waxy Corn (Zea mays L.) in No-Tillage System, Korean Journal of Soil Science and Fertilizer, 2016, 49, 5, 531  crossref(new windwow)
 References
1.
Baver, L.D., W.H. Gardner, and W.R. Gardner. 1972. Soil physics. Hohn Willey and Sons Inc.

2.
Cruse, R.M. 2002. Strip tillage effects on crop production and soil erosion. Iowa State University.

3.
Duran, Z.V.H. and P.C.R. Rodriguez. 2008. Soil-erosion and runoff prevention by plant covers, Review. Agron. Sustainable Dev. 28:143-149.

4.
Duran, Z.V.H., P.C.R. Rodriguez, P.F.J. Martin, J. de Graaff. M.J.R. Francia, and D.C. Flanagan. 2011. Environmental impact of introducing plant covers in the taluses of terraces: Implications for mitigating agricultural soil erosion and runoff. Catena 84:79-88. crossref(new window)

5.
FAO. 2000. Manual on integrated soil management and conservation practices. FAO Land and Water Bulletin 8 ISSN pp. 1024-6073.

6.
Foster, G.R., D.K. McCool, K.G. Renard, and W.C. Moldenhauser. 1981. Conversion of the universal soil loss equation to SI units. J. Soil Water Conserv. 36(6):355-359.

7.
Hur, S.O., K.H. Jung, S.K. Ha, H.K. Kwak, and J.K. Kim. 2005. Mathematical description of soil loss by runoff at inclined upland of maize cultivation. Korean J. Soil Sci. Fert. 38(2):66-71.

8.
Jung, K.H., W.T. Kim, S.O. HUR, S.K. Ha, P.K. Jung, and Y.S. Jung. 2004. USLE/RUSLE factors for national scale soil loss estimation based on the digital detailed soil map. Korean J. Soil Sci. Fert. 37(4):199-206.

9.
Jung, P.K, M.H. Koh, and K.T. Um. 1989. Evaluation of soil erosion management practices on sloped farm. land. Res. Rept. RDA (S&F) 31(4):16-22.

10.
Kim, J.T. and S.W. Park. 1994. Runoff and soil losses from sloping lands with different cropping practices. J. Korean Soc. Agric. Eng. 36(1):73-82.

11.
Laflen, J.M. and W.C. Moldenhauer. 1979. Soil and water loss from corn-Corn rotations. Soil Sci. Am. J. 43:1213-1215. crossref(new window)

12.
Lee, H.H., S.K. Ha, S.O. Hur, G.H. Jung, C.W. Park, and G.H. Kim. 2007. Characteristics of soil water runoff and canopy cover subfactor in sloped land with different soil texture. Korean J. Soil Sci. Fert. 40(2):131-135.

13.
Lee, J.T., G.J. Lee, C.S. Park, S.W. Hwang, and Y.R. Yeoung. 2005. Effect of hairy vetch (Vicia villosa Roth) sod culture on decreasing soil loss and providing nitrogen for Chinese cabbage in highland. Korean J. Soil Sci. Fert. 38(5):294-300.

14.
Lee, J.T., G.J. Lee, J.S. Ryu, S.W. Hwang, S.Y. Park, Y.S. Zhang, and Y.S. Jeong. 2011. Application of reduce tillage with a strip tiller and its effect on soil erosion reduction in Chinese cabbage cultivation. Korean J. Soil Sci. Fert. 44(6):970-976. crossref(new window)

15.
Lee, J.T., G.J. Lee, J.S. Ryu, J.S. Kim, S.W. Hwang, and Y.S. Zhang. 2012. Evaluation of surface covering methods for reducing soil loss of highland slope in soybean cultivation. Korean J. Soil Sci. Fert. 45(5):725-732. crossref(new window)

16.
Luna, J. and M. Stabel. 2003. Using strip tillage in vegetable production systems in western oregon. Oregon State University Extension Service.

17.
NIAST (National Institute of Agricultural Science and Technology). 2000. Methods of soil and crop plant analysis. National Institute of Agricultural Science and Technology, Suwon, Korea.

18.
NIAST (National Institute of Agricultural Science and Technology). 2006. Fertilizer Application Recommendation for Crops. p. 87-130. National Institute of Agricultural Science and Technology, Suwon, Korea.

19.
Park, S.H., D.H. Lee, H.J. Kim, C.S. Lee, S.C. Cho, and T.Y. Kwak. 2002. Development of dry paddy seeder of strip tillage. J. Biosyst. Eng. 27(1):25-32 (In Korean). crossref(new window)

20.
Peterson, d. 2004. Strip-Till: The best of both worlds. University of Illinois extension, College of agricultural, Consumer and Environmental Sciences.

21.
RDA (Rural Development Administration). 2003. Investigation and standard for agricultural experiment. p. 323-334. RDA, Suwon, Korea.

22.
Seo, J.H., J.Y. Park, and D.Y. Song. 2005. Effect of hairy vetch on prevention of soil erosion and reduction of nitrogen fertilization in sloped upland. Korean J. Soil Sci. Fert. 38(3):134-141.

23.
Wainwright, J., A.J. Parsons, and A.D. Abronbams. 2000. Plot scale studies of vegetation, overland flow and erosion interactions: Case studies from Arizona and New Mexico. Hydrol. Process 14:2921-2943. crossref(new window)

24.
Wischmeier, W.H. and D.D. Smith. 1978. Predicting rainfall erosion losses: A guide to conservation planning. p. 58. Agricultural Handbook No. 537, USDA, Washington D.C., USA.