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http://dx.doi.org/10.7740/kjcs.2020.65.4.436

Influence of Fertilization Treatment using Organic Amendment based on Soil Testing on Plant Growth and Nutrient Use Efficiency in Potato  

Lim, Jin-Soo (Heuksalim Soil Research Institute)
Lee, Bang-Hyun (Heuksalim Soil Research Institute)
Kang, Seung-Hee (Heuksalim Soil Research Institute)
Lee, Tae-Guen (Heuksalim Soil Research Institute)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.65, no.4, 2020 , pp. 436-446 More about this Journal
Abstract
In this study, we verified the effects of organic amendment application based on soil testing in potato cultivation. The application rate of organic amendments was determined based on the inorganicization rate of nitrogen, phosphoric acid, and potassium in the organic amendments. There was no significant difference in the length, stalk number, stalk diameter, and leaf color of potato plants under organic amendment application compared with those under chemical fertilization. The quantity of potato tubers and yield of marketable tubers under organic amendment application were higher than those under chemical fertilization. The top fresh weight and top-to-root ratio were the highest under organic amendment application, followed by those under chemical fertilization and the control. The inorganic nitrogen content in the leaves and stems of potato plants was the highest under chemical fertilization. There was no difference in the phosphoric acid content between the potatoes under chemical fertilization and those under organic amendment application. The potassium content in potatoes was higher under chemical fertilization than that under organic amendment application. While the change trend of inorganic nitrogen content in the roots was similar to that in the leaves and stems, the potatoes under organic amendment application, with the highest yield, showed the highest dry weight. The tuber weight showed a positive correlation with plant length, stalk number, and stalk diameter. The higher the weight of the tuber, the higher the weight of the marketable tuber, and the higher the top fresh weight, the higher the yield. Therefore, to increase yield, it is necessary to supply nutrients to improve the top fresh weight to the optimal level. There was no difference in the utilization efficiency of nitrogen and potassium between the potatoes under chemical fertilization and those under organic amendment application. The utilization efficiency of phosphoric acid was increased by 0.1% in potatoes under organic amendment application compared with that under other treatments. Regarding soil chemistry after harvest, the soils under organic amendment application showed a higher electrical conductivity and higher nitrogen and phosphoric acid content than those under other treatments. Therefore, the organic amendment method used in this study can be an alternative to chemical fertilization. It is also advantageous for the cultivation of subsequent crops in potato fields.
Keywords
fertilization; nutrient use efficiency; organic amendment; potato; soil testing;
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Times Cited By KSCI : 18  (Citation Analysis)
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1 Rural Development Administration (RDA). 2012. The standard of study reach analysis in agricultural science and technology.
2 Shin, J. H., S. M. Lee, and B. W. Lee. 2015. Estimation of N Mineralization potential and N mineralization rate of organic amendments in upland soil. Korean J. Soil Sci. Fert. 48(6) : 751-760.   DOI
3 Sohn, S. M., and D. H. Han. 2000. Assessment of environmentally sound function on the increasing of soil fertility by Korean organic farming. Korean J. Soil Sci. Fert. 33 : 193-204.
4 Song, Y. S., H. K. Kwak, B. Y. Yeon, J. H. Yeon, and H. J. Jun. 2003. Growth and yield response of Chinese cabbage and radish on application of potassium chloride fertilizer. Korean J. Soil Sci. Fert. 36(6) : 399-406.
5 Yun, H. B., Y. Lee, C. Y. Yu, J. E. Yang, Y. B. Lee, and K. S. Lee. 2007. Soil organic matter fractions in upland soil under successive application of animal manure composts. Korean J. Soil Sci. Fert. 40(5) : 400-404.
6 National Institute of Agricultural Science and Technology (NIAST). 2017. Fertilizer Application Recommendation for Crops.
7 Rural Development Administration (RDA). 2016. Agricultural Technology Manuals (potato).
8 Lee, C. S., G. J. Lee, K. Y. Shin, J. H. Ahn, J. T. Lee, and B. K. Hur. 2002. Effect of application added phosphorus and potassium for potato and Chinese cabbage in mounded highland soil. Korean J. Soil Sci. Fert. 35(6) : 372-380.
9 Korean Statistical Information Service (KOSIS). 2020. Available from: http://kosis.kr/statHtml/statHtml.do?orgId=101&tblId=DT_1ET0026&conn_path=I3. Accessed August 2, 2020.
10 Kwon, J. B., J. R. Kwon, Y. S. Shin, C. R. Kim, and B. S. Choi. 1996. Effect of organic matters on horticultural characteristics and yield of potato (Solanum tuberosum L.) in greenhouse. J. Korean Soc. Hort. Sci. 37(6) : 758-760.
11 Lee C. S., Y. S. Song, J. Y. Lee, H. K. Kwak, Y. D. Park, and D. S. Kim. 1993. Newly recommended rates of N P K fertilizers based on soil testing for some upland crops. Korean J. Soil Sci. Fert. 26(2) : 111-120.
12 Lee, J. T., G. J. Lee, J. S. Ryu, Y. S. Zhang, S. W. Hwang, and C. S. Park. 2010. Inorganic nutrient uptake pattern of vegetable crops in highland. Korean J. Soil Sci. Fert. 43(5) : 616-623.
13 Lee, J. T., G. J. Lee, Y. S. Zhang, S. W. Hwang, S. J. Im, C. B. Kim, and Y. H. Mun. 2006. Status of fertilizer application and soil management for major vegetable crops in farmer's fields of alpine area. Korean J. Soil Sci. Fert. 39(6) : 357-365.
14 Lee, S. B., C. H. Lee, C. O. Hong, S. Y. Kim, Y. B. Lee, and P. J. Kim. 2009. Effect of organic residue incorporation on salt activity in greenhouse soil. Korean J. Environ Agri. 28(4) : 397-402.   DOI
15 Lee, Y. J., J. C. Jeong, Y. H. Yoon, S. Y. Hong, S. J. Kim, Y. I. Jin, J. H. Nam, and O. K. Kwon. 2012. Evaluation of quality characteristics and definition of utilization category in Korean potato (Solanum tuberosum L.) cultivars. Korean J. Crop Sci. 57(3) : 271-279.   DOI
16 Heuktoram. 2019. Available from: http://soil.rda.go.kr/.
17 Cho, J. L, N. H. An, H. S. Nam, and S. M. Lee. 2018. Effects of green manures and complemental fertilization on growth and nitrogen use efficiency of Chinese cabbages cultivated in organic systems. Korean J. Organic Agri. 26(4) : 731-743.   DOI
18 Chung, W. B., S. J. Jeong, K. Y. Kim, and P. S. Hwang. 2000. Effect on growth and yield of mulching materials and fertilizer application level in potato. Res. Works Graduate School. 25 : 295-302.
19 Gale, E.S., D.M. Sullivan, C.G. Cogger, A.I. Bary, D.D. Hemphill, and E.A. Myhre. 2006. Estimation plant-available nitrogen release from manures, composts, and specialty products. J. Environ. Qual. 35 : 2321-2332.   DOI
20 Hong, S. D., K. I. Kim, H. T. Park, and S. S. Kang. 2001. Relationship between leaf chlorophyll reading value and soil N-supplying capability for tomato in green house. Korean J. Soil Sci. Fert. 34(2) : 85-91.
21 Im, J. S., J. H. Cho, K. S. Cho, D. C. Chang, Y. I. Jin, H. S. Yu, and J. N. Lee. 2016. Effect of ridging system and mulch types on growth, yield, and profitability of potato (Solanum tuberosum L.) in spring cropping. Korean J. Environ Agri. 35(3) : 202-210.   DOI
22 Jang, H. L., J. Y. Hong, N. J. Kim, M. H. Kim, S.R. Shin, and K.Y. Yoon. 2011. Comparison of nutrient components and physicochemical properties of general and colored potato. Korean J. Hort. Sci. Technol. 29(2) : 144-150.
23 Jeong, J. C., D. C. Chang, Y. H. Yun, C. S. Park, and S. Y. Kim. 2005. Recommendable model of nitrogen fertilization for high processing quality of summer crop potato (Solanum tuberosum L.) in highland area of Korea. Korean J. Hort. Sci. Technol. 23(1) : 38-43.
24 Ministry of Agriculture, Food and Rural Affairs (MAFRA). 2019. Statistics Yearbook.
25 Jeong, J. C., Y. H. Yun, D. C. Chang, C. S. Park, and S. Y. Kim. 2003. Processing quality of potato (Solanum tuberosum L.) tubers as influenced by soil and climatic conditions. Korean J. Environ Agri. 22(4) : 261-265.   DOI
26 Lee Y., H. S. Choi, S. M. Lee, J. A. Jung, and Y. I. Kuk. 2012. Effects of organic materials on changes in soil nutrient concentrations and nutrient uptake efficiency in Sorghum-Sudangrass hybrid (Sorghum bicolor (L.) Moench). J.Bio-Environ Control. 21(2) : 108-113.
27 Lim, J. S., B. H. Lee, and S. H. Kang. 2019. Estimation of nitrogen mineralization of organic amendments affected by nitrogen content in upland soil conditions. Korean J. Environ Agri. 38(4) : 262-268.   DOI
28 Lim J. S., B. H. Lee, S. H. Kang, and T. G. Lee. 2020. Influence of fertilization treatment using organic amendment based on soil testing on plant growth and nutrient use efficiency in cabbage. Korean J. Environ Agri. 39(2) : 95-105.   DOI
29 Lim, S. U. 2006. Fertilizer studies. Ilsinsa publisher. pp. 150-208.
30 Nam, J. J., N. J. Cho, K. Y. Jung, and S. H. Lee. 1998. Conversion factor for determinating carbon contents from organic matter contents in composts by ignition method. Korean J. Soil Sci. Fert. 31(4) : 380-383.
31 National Agricultural Products Quality Management Service (NAPQMS). 2020. Eco-Certification Management Information System. http://enviagro.go.kr/
32 Kim, H. J., S. Y. Kim, K. Y. Shin, and S. J. Yang. 1997. Effects of planting density and nitrogen fertilizer level on the occurrence of hollow heart and internal brown spot of processing potato tubers. J. Korean Soc. Hort. Sci. 38(2) : 107-110.
33 Ok, J. H., J. L. Cho, B. M. Lee, N. H. An, J. H. Shin, and Y. Lee. 2016. Effects of oil cake banding application on growth and nutrient use efficiency in Maize. Korean J. Organic Agri. 24(4) : 907-917.   DOI
34 Park, K. C., T. R. Kwon, K. S. Jang, and Y. S. Kim. 2008. Shortterm effects of cultivars and compost on soil microbial activities and diversities in red pepper field. Korean J. Environ Agric. 27(2) : 139-144.   DOI
35 Park, S. J., M. S. Kwon, K. Y. Shin, and Y. A. Rha. 2014. Comparison of nutritional components and physicochemical properties of small colored potatoes and small regular potatoes. Korean J. Culin. Res. 20(3) :80-89.
36 Kang, B. K., Y. M. Park, and Y. K. Kang. 2001. Nutrient uptake and leaching under different fertilizer treatment for corn and potato growth in volcanic ash soil. Korean J. Crop Sci. 46(3) : 253-259.
37 Kim, C. G., H. C. Ok, J. C. Jeong, O. S. Hur, J. H. Seo, K. H. Jeong, and S. J. Kim. 2012. Effects of altitude and planting time on tuber bulking of potato. Korean J. Crop Sci. 57(4) : 418-423.   DOI
38 Kim, K. C., B. K. Ahn, D. Y. Ko, J. Kim, and S. S. Jeong. 2014. Effects of expeller cake fertilizer on soil properties and tah tasai Chinese cabbage yield on organic greenhouse farm. Korean J. Environ Agric. 33 : 149-154.   DOI
39 Kim, M. H., J. C. Shin, and B. W. Lee. 2005. Applicability of vegetation index and SPAD reading to nondestructive diagnosis of rice growth and nitrogen nutrition status. Korean J. Crop Sci. 50(6) : 369-377.
40 Kim, M. S., S. C. Kim, S. J. Park, and C. H. Lee. 2019. Evaluation of replacement ratio of organic fertilizers for basal application of nitrogen fertilizer in pot cultivation of rice. J. of KORRA. 27(1) : 5-14.
41 Kim, S. C., B. G. Ko, S. J. Park, M. S. Kim, S. H. Kim, and C. H. Lee. 2018. Estimation of optimum organic fertilizer application under fertilizer recommendation system. Korean J. Soil Sci. Fert. 51 : 296-305.   DOI
42 Kim, S. Y. 2002. Prospects and status on quality of potato. Korean J. Crop Sci. 47(S) : 135-139.
43 Kim, Y. X., S. M. Kim, S. N. Kim, H. R. Kim, S. C. Kim, J. B. Hwang, and Y. M. Choi. 2016. Food composition of raw and boiled potatoes. Korean J. Food Cook Sci. 32(4) : 517-523.   DOI