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The Effect of Organic Manure on Dry Matter Yield, Feed Value and Stock Carrying Capacity of Sorghum${\times}$Sudangrass Hybrid in Arable Land  

Park, Sang-Soo (연세대학교 생명과학기술학부)
Noh, Jin-Hwan (연세대학교 생명과학기술학부)
Park, Jun-Hyuk (연세대학교)
Yoon, Ki-Yong (연세대학교)
Lee, Ju-Sam (연세대학교 생명과학기술학부)
Publication Information
Korean Journal of Organic Agriculture / v.20, no.1, 2012 , pp. 59-70 More about this Journal
Abstract
This experiments was conducted to investigate the influence on the growth of Sorghum ${\times}$ Sudangrass hybrid by use of various organic fertilizer and investigated their productivity, feed value and stock carrying capacity. In the results, the application of fermented poultry manure showed 93.6ton/ha, 19.6ton/ha, 1.12ton/ha, 11.31ton/ha of fresh yield, dry matter yield, crude protein (CP) yield and total digestible nutrients (TDN) yield but there were no significant differences with the application of poultry by-product compost (poultry manure with sawdust) and swine by-product compost (swine manure with sawdust). And the average value of $K_{CP}$ and $K_{TDN}$ showed the highest one as 9.45head/ha/yr in the application of fermented poultry manure. However, organic matter content of fermented poultry manure to the lower portion of 32.1% compared to other organic fertilizers could imagine that mineralization of fermented poultry manure was fairly advanced and plant used most of nitrogen in fermented poultry manure, so productivity of Sorghum ${\times}$ Sudangrass hybrid was shown more than other organic fertilizers. If other organic fertilizers use continuous, this difference can be considered to be reduced further. As a result, fermented poultry manure is better than other organic fertilizers in productivity, feed value and stock carrying capacity due to the higher content of mineralizable matters. In addition, mixing poultry manure with cow and swine manure is better choice because cow and swine manure will meet a low organic matter in poultry manure.
Keywords
Sorghum${\times}$Sudangrass hybrid; organic manure; dry matter yield; feed value; stock carrying capacity;
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1 농림수산식품부. 2010. 농림수산식품 주요통계.
2 농업과학기술원. 2000. 토양 및 식물체 분석법.
3 박준혁․박상수․노진환․윤기용․이주삼. 2011. 중부지역에서 유기조사료 생산을 위한 작부체계 확립. 한국유기농업학회지 19(3): 373-384.   과학기술학회마을
4 윤세형․김종근․정의수․성시홍. 2007. 중부지역에서 유기조사료 생산에 적합한 작부체계에 관한 연구. 한초지 27(4): 275-280.
5 이주삼. 2006. 자원 순환형 농업을 위한 유기경종(자원순환형 유기농업 표준 모델 개발). 농림부.
6 이주삼. 2009. 조사료 생산 및 이용확대를 위한 연구. 한국축산경영연구원.
7 임영철․윤세형․김원호․김종근․신재순․정민웅․서성․육완방. 2006. 논에서 수수${\times}$수단 그라스 교잡종 재배시 가축분뇨 이용이 생육특성, 수량, 사료가치 및 $NO_3-N$의 용탈에 미치는 영향. 한초지 26(4): 233-238.
8 조익환. 2003. 지역별 순환농업에서 가축분뇨의 시용이 Tall fescue의 잠재생산성에 미치는 영향. 한국유기농업학회지 1문(1): 69-83.
9 조익환. 2006. 유휴 논토양에서 가축분뇨의 시용이 Tall fescue의 잠재생산성에 미치는 영향. 한국유기농업학회지 14(1): 69-83.   과학기술학회마을
10 축산과학원. 2007. 한국가축사양표준(한우).
11 Anon. 1973. Rondup(R) herbicids formulation of isopropylamine salt of glyphosate (N-phosphonomethglycine). Postmergence herbicide. Monsanto Agric. Div., St, Louis. Missouri. Tech. Bull. Mon 0573-2-73.
12 A.O.A.C 1990. Official Methods of analysis(15th Ed.). Association of Official Analytical Chemists. Washington D.C.
13 Briggle, L. W. 1959. Growing Rye. U.S.D.A. Farmers' Bull. No. 2146.
14 Dilz, K., K. J. Postmus, and W. H. Prins. 1990. Residual effect of long term applications of farmyard manure to silage maize. Fertilizer Research 26: 249-252.   DOI   ScienceOn
15 Goering, H. K. and P. J. Van Soest. 1970. Forage fiber analysis. USDA Agric. handbook No. 379, Washington, D.C.
16 Holland. C., Kezar. W., W. P., Lazowski. E. J., Mahanna, W. C., and R. Reinhart. 1990. Pioneer Forage Manual : A Nutritional Guide, Pioneer Hi-Bred International, Inc. : pp. 1-55.
17 Joop H. A. M. Steenvoorden. 1989. Dairy manure management. Northeast Regional Agricultural Engineering Service. Ithaca, New York 14853. NRAES-31.
18 Linn, J. and N. Martin. 1989. Forage quality tests and interpretation. Univ. of Minnesota Ext. Serv. AG-FO-2637.
19 Loomis R. S. and D. J. Connor 1998. Crop ecology. p. 28.
20 Lund Z. F. and B. D. Doss. 1980. Residual effect of Dairy cattle manure on plant growth and soil properties. Agronomy Journal 72: 123-130.   DOI
21 Martin, J. H., W. H. Leonard, and D. L. Stamp. 1976. Principle of field crop production. Collier MacMillan Pub. London. Third ed.
22 SAS. 2002. Statistical Analysis System ver. 9.2. SAS Institute INC., Cary, NC. USA.
23 Wolf, J. and Van Keulen, H. 1989. Modelling long-term crop response to fertilizer and soil nitrogen. II. Comparison with field result. Plant and soil 120: 23-38.   DOI   ScienceOn