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http://dx.doi.org/10.5338/KJEA.2007.26.1.049

Fractional Recovery as Extractable Form of Nutrient in Composted Livestock Manure Application on Soil Distributed in jeju  

Hwang, Ki-Sung (Korea Horticultural soil management team, National horticultural research institute RDA)
Lee, In-Bog (Korea Horticultural soil management team, National horticultural research institute RDA)
Park, Jin-Myean (Korea Horticultural soil management team, National horticultural research institute RDA)
Yoo, Bong-Sick (Korea Horticultural soil management team, National horticultural research institute RDA)
Publication Information
Korean Journal of Environmental Agriculture / v.26, no.1, 2007 , pp. 49-54 More about this Journal
Abstract
This study was conducted to determine effects of composted livestock manure application on soil nutrient change. PVC pot $(30\times100cm)$ was filled with either volcanic ash soil (Gujwa series) or non-volcanic ash soil (Aewol series) and the 20 cm surface soils were applied with composted livestock manures of cattle pig and poultry at the rates of 0, 50, 100 and 150 ton/ha, respectively. After 210 days soils samples of phosphate, potassium, calcium, and magnesium affected by application of the compost. The applied composted were equivalent to the application of organic matter of $23\sim111$ ton/ha and nitrogen of $80\sim450$ ton/ha. Availability rate of phosphate after the application of composted livestock manures ranged from 1.6 to 91.7% according to the different composted. It was much higher in the non-volcanic ash soil than in the volcanic ash soil. Availability rate of potassium fractional recovery rate change ranged from 22 to 94% according to the different manures. It was larger in the composted Availability rate of calcium 38 to 93% and $9\sim90%$ in volcanic ash soil and non-volcanic ash soil, respectively, It was higher in the composted manures followed by cattle and composted pig manures. Availability rate magnesium ranged from 12 to 41% and $1\sim9%$ in volcanic ash soil and non-volcanic ash soil, respectively. The rate was higher in the composted poultry manure followed by pig and composted cattle manures.
Keywords
Livestock manure; Volcanic ash soil; Non-volcanic ash soil; Availability rate; Soil nutrient;
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  • Reference
1 RDA (2000) Method of soil and plant analysis. p. 103-146
2 Kweon S. I., Jung K. Y. and Park Y. K. (1994) Standard monogastic setup standard monogastic fertilizer ingredient Orgnic pollution. NIAS : 70-100
3 Kweon S. I., Jung K. Y. and Park Y. K. (1994) Standard unit of fertilizer component in organic wastes : National institute of agricultural science and technology examination report of research. p. 74-100
4 Yoon J. H., Jung B. G. and Kim Y. H. (1997) Study on evaluation method for efficiency of inorganic component in animal manure applied to upland soil national institute of agricultural science and technology examination report of research P: 662-659
5 RDA (2002) Method for quality test of fertilizer
6 Lee S. E. Park J. K. Yoon J. H. and Kim M. S. (1987) Studies on the chemical properties df soil under the vinyl-house cultivation res. report, RDA (PM & U) 29(1) : 161-171
7 RDA (1999) Disposal of animal excreta. p. 7-21
8 RDA (1999) Treatment Livestock manure/Sawdust. p. 7-21