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Improving Fermentation and Nutritive Quality of Napiergrass Silage by Mixing with Phasey Bean

  • Yunus, M. (Department of Animal Science, Agriculture Faculty, Syiah Kuala University) ;
  • Ohba, N. (Department of Animal Science, Division of Animal and Marine Bioresource Science Graduate School of Kyushu University) ;
  • Tobisa, M. (Department of Animal Science, Division of Animal and Marine Bioresource Science Graduate School of Kyushu University) ;
  • Nakano, Y. (Department of Animal Science, Division of Animal and Marine Bioresource Science Graduate School of Kyushu University) ;
  • Shimojo, M. (Department of Animal Science, Division of Animal and Marine Bioresource Science Graduate School of Kyushu University) ;
  • Furuse, M. (Department of Animal Science, Division of Animal and Marine Bioresource Science Graduate School of Kyushu University) ;
  • Masuda, Y. (Department of Animal Science, Division of Animal and Marine Bioresource Science Graduate School of Kyushu University)
  • Received : 2000.11.22
  • Accepted : 2001.02.23
  • Published : 2001.07.01

Abstract

To improve the low content of crude protein and low quality fermentation of napiergrass silage, ensiling with phasey bean was examined. Napiergrasses, (Pennisetum purpureum cv. Merkeron), hybrid napiergrass (Pennisetum purpureum${\times}$ Pennisetum typhoides) and phasey bean (Macroptilium lathyroides cv. Murray) were cultivated in Fukuoka, Japan. The first growth of napiergrasses and phasey bean were harvested at 90 days of age and chopped into about 1 cm lengths. The mixing levels of phasey bean with napiergrasses were 0, 25, 50 and 75; 700 g of plant materials were ensiled into a laboratory silo (1.0 litre. polyethylene container) and incubated for 30 days. After opening silos, pH, total nitrogen (TN), volatile basic nitrogen (VBN) and organic acids (lactic acid: LA, acetic acid: AA, butyric acid: BA) were determined. The experiment was a factorial design of $2{\times}4$ with 3 replicates. The data were analyzed statistically by two-way analysis of variance. Without inclusion of phasey bean, lower quality was observed for hybrid silage than for Merkeron silage. The inclusion of phasey bean at the rate of 25% increased DM and TN, and decreased pH value, VBN/TN, AA and BA in both Merkeron and hybrid napiergrass silages. The value of pH, TN, VBN/TN, AA and BA were not significantly different among 25, 50 and 75% mixing levels of phasey bean. LA production increased significantly with the increase in phasey bean mixing level in both hybrid and Merkeron silages. At all mixing levels of phasey bean, LA production did not show significant differences between Merkeron and hybrid silages.

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