[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5333/KGFS.2017.37.3.216

Effect of Intercropped Corn and Soybean Silage on Nutritive Values, in vitro Ruminal Fermentation, and Milk Production of Holstein Dairy Cows

Kang, Juhui (Department of Animal Science, Kyungpook National University)
Song, Jaeyong (Department of Animal Science, Kyungpook National University)
Marbun, Tabita Dameria (Department of Animal Science, Kyungpook National University)
Kwon, Chan Ho (Department of Animal Science, Kyungpook National University)
Kim, Eun Joong (Department of Animal Science, Kyungpook National University)

Publication Information

Journal of The Korean Society of Grassland and Forage Science / v.37, no.3, 2017 , pp. 216-222 More about this Journal

Abstract

This study was conducted to examine the effect of corn (Zea mays L.) - soybean (Glycine max L.) silage prepared by intercropping method on the nutritive value of the silage, in vitro rumen fermentation characteristics, dry matter degradability, as well as milk yield and milk composition of dairy cows. In a couple of experiments intercropped corn-soybean silage (CSBS) was compared with corn silage (CS) and/or Italian ryegrass hay (IRG). Numerically, CSBS had higher crude protein, ether extract, and lactic acid contents compared to CS. In vitro rumen fermentation analysis demonstrated that up to a 24-h incubation period, both CS and CSBS showed higher total gas production, ammonia N concentration, and dry matter degradability compared to IRG (p<0.05). The investigation on animals was conducted in a commercial dairy farm located in Gyeongju, South Korea, employing 42 Holstein cows that were divided into 2 group treatments: CS and CSBS in a completely randomized design. Although no significant difference was observed in milk yield, animals fed on CSBS showed significantly higher milk protein (p<0.05) and milk fat content (p<0.01), compared to animals fed on CS. Taken together, our findings indicate that corn-soybean silage that is cultivated, harvested, and prepared through intercropping can improve the protein content of the silage, and can also enhance in vitro rumen fermentation, dry matter degradability, and performance of dairy cattle.

Keywords

Intercropping; Corn; Soybean; Milk production; Dairy cow;

Citations & Related Records

Times Cited By KSCI : 6 (Citation Analysis)

Reference
Cited By KSCI

1	Hwangbo, S. and Jo, I.H. 2014. Effects of mixed sowing with legumes and applying cattle manure on productivity, feed values and stock carrying capacity of whole crop wheat in Gyeongbuk regions. Journal of the Korean Society of Grassland and Forage Science. 34:52-59. DOI
2	IBM Corporation. 2013. IBM SPSS Statistics for Windows, Version 22.0. IBM Corporation. Armonk, NY.
3	Klopfenstein, T.J., Erickson, G.E. and Bremer, V.R. 2008. Use of distillers by-products in the beef cattle feeding industry. Journal of Animal Science. 86:1223-1231. DOI
4	Lee, H.-W. and Park, H.-S. 2002. Nitrogen fixation of legumes and cropping system for organic forage production. Korean Journal of Organic Agriculture. 10:49-63.
5	Lee, S.M. 2015. Effects of drainage depths on agronomic characteristics, yield and feed value of silage corn hybrid in paddy field of lowland. Journal of the Korean Society of Grassland and Forage Science. 35:137-144. DOI
6	Lee, S.M., Ryu, Y.W. and Jeon, B.T. 1997. Effect of seeding dates on growth characteristics and dry matter yield at interropping cultivation of sorghum x sudangrass hybrid and soybean. Journal of Korean Grassland Science. 17:177-186.
7	Martin, R.C., Voldeng, H.D. and Smith, D.L. 1990. Intercropping corn and soybean for silage in a cool-temperature region: Yield, protein and economic effects. Field Crops Research. 23:295-310. DOI
8	McDonald, P., Edwards, R.A., Greenhalgh, J.F.D. and Morgan, C.A. 1995. Animal Nutrition, Fifth Edition. Longman Ltd. Essex, UK.
9	McDougall, E.I. 1948. Studies on ruminant saliva. 1. The composition and output of sheep's saliva. Biochemical Journal. 43:99-109. DOI
10	Moorby, J.M., Ellis, N.M. and Davies, D.R. 2016. Assessment of dietary ratios of red clover and corn silages on milk production and milk quality in dairy cows. Journal of Dairy Science. 99:7982-7992. DOI
11	Park, H.-S., Kim, J.-H., Choi, K.-C. and Kim, H.-S. 2016. Mathematical transformation influencing accuracy of near infrared spectroscopy (NIRS) calibrations for the prediction of chemical composition and fermentation parameters in corn silage. Journal of the Korean Society of Grassland and Forage Science. 36:50-57. DOI
12	Phelan, P., Moloney, A.P., McGeough, E.J., Humphreys, J., Bertilsson, J., O'Riordan, E.G. and O'Kiely, P. 2015. Forage legumes for grazing and conserving in ruminant production systems. Critical Reviews in Plant Sciences. 34:281-326. DOI
13	Son, B.Y., Baek, S.B., Kim, J.T., Lee, J.S., Hwang, J.J., Kim, S.L., Jung, G.H., Kwon, Y.U., Huh, C.S. and Park, J.Y. 2014. Growth characteristics and productivity of new single cross maize hybrid for grain, 'Singwangok'. Journal of the Korean Society of Grassland and Forage Science. 34:21-25. DOI
14	Chaney, A.L. and Marbach, E.P. 1962. Modified reagents for determination of urea and ammonia. Clinical Chemistry. 8:130-132.
15	Tilley, J.M.A. and Terry, R.A. 1963. A two-stage technique for the in vitro digestion of forage crops. Grass and Forage Science. 18.
16	Yang, B.-M., Heo, J.-M., Park, K.W., Lee, H.-S. and Lee, S.-K. 2016. Effects of glycine soja supplementation on the quality of corn silage. Weed & Turfgrass Science. 5:241-246. DOI
17	AOAC. 1995. Official methods of analysis (16th Ed.). Association of Official Analytical Chemists. Washington, DC. USA.
18	Baxter, H.D., Montgomery, M.J. and Owen, J.R. 1984. Comparison of soybean-grain sorghum silage with corn silage for lactating cows. Journal of Dairy Science. 67:88-96. DOI
19	Budakli, C.E. 2016. Nutritive values of soybean silages ensiled with maize at different rates. Legume Research. 39:810-813.
20	Cabrita, A.R.J., Dewhurst, R.J., Melo, D.S.P., Moorby, J.M. and Fonseca, A.J.M. 2011. Effects of dietary protein concentration and balance of absorbable amino acids on productive responses of dairy cows fed corn silage-based diets. Journal of Dairy Science. 94:4647-4656. DOI
21	Erdal, S., Pamukcu, M., Curek, M., Kocaturk, M. and Dogu, O.Y. 2016. Silage yield and quality of row intercropped maize and soybean in a crop rotation following winter wheat. Archives of Agronomy and Soil Science. 62:1487-1495. DOI
22	Goering, H.K. and Van Soest, P.J. 1970. Forage fiber analysis, Agriculture Handbook No. 379. U.S. Department of Agriculture. Washington, D. C.
23	Erwin, E.S., Marco, G.J. and Emery, E.M. 1961. Volatile fatty acid analyses of blood and rumen fluid by gas chromatography. Journal of Dairy Science. 44:1768-1771. DOI
24	Esmail, S.H.M. 1991. Benefits of intercrops as feed sources for livestock. Rangelands. 13:193-195.
25	Felix, T.L., Loerch, S.C. and Fluharty, F.L. 2014. Protein supplementation for growing cattle fed a corn silage-based diet. The Professional Animal Scientist. 30:327-332. DOI
26	Htet, M.N.S., Soomro, R.N. and Bo, H.J. 2016. Effect of different planting structure of maize and soybean intercropping on fodder production and silage quality. Current Agriculture Research Journal. 4:125-130. DOI