McDonald P, Henderson A R, Heron S J E. The Biochemistry of Silage(2nd ed). Marlow, UK: Chalcombe Publications, 1991.
[2]
Barry T N, Di Menna M E, Webb P R, et al. Some observations on aerobic deterioration in untreated silages and in silages made with formaldehyde-containing additives. Journal of the Science of Food and Agriculture, 1980, 31: 133-146.
[3]
Jonsson A, Pahlow G. Systematic classification and biochemical characterization of yeasts growing in grass silage inoculated with Lactobacillus cultures. Animal Research Development, 1984, 20: 7-22.
[4]
Woolford M K. The detrimental effects of air on silage. Journal of Applied Bacteriology, 1990, 68: 101-116.
[5]
Kung L Jr, Sheperd A C, Smagala A M, et al. The effect of preservatives based on propionic acid on the fermentation and aerobic stability of corn silage and a total mixed ration. Journal of Dairy Science, 1998, 81: 1322-1330.
Wyss U, Honig H, Pahlow G. The influence of air stress and the effect of specific additives on the aerobic stability of wilted grass silage. Wirtschafteigene-Futter, 1991, 37: 129-141.
Oude Elferink S J W H, Krooneman J, Gottschal J C, et al. Anaerobic conversion of lactic acid to acetic acid and 1,2-propanediol by Lactobacillus buchneri. Applied and Environment Microbiology, 2001, 67: 125-132.
[12]
Nishino N, Wada H, Yoshida M, et al. Microbial counts, fermentation products and aerobic stability of whole crop corn and a total mixed ration ensiled with and without inoculation of Lactobacillus casei or Lactobacillus buchneri. Journal of Dairy Science, 2003, 87: 2563-2570.
[13]
Nishino N, Yoshida M, Shiota H, et al. Accumulation of 1,2-propanediol and enhancement of aerobic stability in whole crop maize silage inoculated with Lactobacillus buchneri. Journal of Applied Microbiology, 2003, 94: 800-807.
[14]
Muck R E. A lactic acid bacteria strain to improve aerobic stability of silages. Research Summaries. Madison: U S Dairy Forage Research Center, WI, 1996: 42-43.
[15]
Beck T. The quantitative and qualitative composition of the lactic acid population of silage. Landwirtsch Forsch, 1972, 27: 55-63.
[16]
Garzia L, Giovanna S. A survey of lactic acid bacteria in Italian silage. Journal of Applied Bacteriology, 1984, 56: 3373-3379.
[17]
Bucher E. Beitrge zur Mikrobiologie der Silagegrung und der Grfuttersta billitt. Ludwing-Maximilian-Universitt München, 1970.
Kung L Jr, Stokes M R. Analyzing silages for fermentation end product. 浏览
[23]
Ward R T. Fermentation analysis: use and interpretation. Proceedings of Tri-State Dairy Nutrition Conference. Wayne, 2000:117-136.
[24]
Kleinschmit D H, Kung L Jr. A meta-analysis of the effects of Lactobacillus buchneri on the fermentation and aerobic stability of corn and grass and small-grain silages. Journal of Dairy Science, 2006, 89: 4005-4013.
[25]
Driehuis F, Oude Elferink S J W H, Van Wikselaar P G. Fermentation characteristics and aerobic stability of grass silage inoculated with Lactobacillus buchneri with or without homofermentative lactic acid bacteria. Grass Forage Science, 2001, 56: 330-343.
[26]
Woolford M K. A review: The detrimental effects of air on silage. Journal of Applied Bacteriology, 1990, 68: 101-112.
[27]
Driehuis F, Oude Elferink S J W H, Spolestra S F. Anaerobic lactic acid degradation during ensilage of whole crop maize inoculated with Lactobacillus buchneri inhibits yeast growth and improves aerobic stability. Journal of Applied Bacteriology, 1999, 87: 583-594.
[28]
Driehuis F, Oude Elferink S J W H, Van Wikselaar P G. Lactobacillus buchneri improves the aerobic stability of laboratory and farm scale whole crop maize silage but does not affect feed intake and milk production of dairy cows. Proceeding of 12th International Silage Conference. Uppsala, Sweden: Swedish University of Agriculture Sciences, 1999: 264-265.
[29]
Ranjit N K, Kung L Jr. The effect of Lactobacillus buchneri, Lactobacillus plantarum, or a chemical preservative on the fermentation and aerobic stability of corn silage. Journal of Dairy Science, 2000, 83: 526-535.
[30]
Ranjit N K, Taylor C C, Mills J A, et al. Effect of Lactobacillus buchneri 40788 on the fermentation, aerobic stability and nutritive value of maize silage. Grass and Forage Science, 2002, 57: 73-81.
[31]
Kung L Jr, Taylor C C, Lynch M, et al. The effect of treating alfalfa with Lactobacillus buchneri 40788 on silage fermentation, aerobic stability, and nutritive value for lactating dairy cows. Journal of Dairy Science, 2003, 86: 336-343.
[32]
Weinberg Z G, Ashbell G, Hen Y. The effect of Lactobacillus buchneri and L. plantarum, applied at ensiling, on the ensiling fermentation and aerobic stability of wheat and sorghum silages. Journal of Industrial Microbiology, 1999, 23: 218-222.
[33]
Taylor C C, Ranjit N J, Mills J A, et al. The effect of treating whole-plant barley with Lactobacillus buchneri 40788 on silage fermentation, aerobic stability, and nutritive value for dairy cows. Journal of Dairy Science, 2002, 85: 1793-1800.
[34]
Kung L Jr, Ranjit N K. The effect of Lactobacillus buchneri and other additives on the fermentation and aerobic stability of barley silage. Journal of Dairy Science, 2001, 84: 1149-1155.
[35]
Kendall C, Combs D K, Hoffman P C. Performance of cattle fed high moisture shelled corn inoculated with Lactobacillus buchneri. Journal of Dairy Science, 2002, 85(Suppl.1): 385.
[36]
Taylor C C, Kung L Jr. The effect of Lactobacillus buchneri 40788 on the fermentation and aerobiic stability of high moisture corn in laboratory silos. Journal of Dairy Science, 2002, 85: 1526-1532.
Woolford M K. Microbiological screening of the straight chain fatty acids (C1-C12) as potential silage additives. Journal of the Science of Food and Agriculture, 1975, 26: 219-228.
[39]
Yildirim M. Purification of buchnericin LB produced by Lactobacillus buchneri LB. Turskish Journal of Biology, 2001, 25: 59-65.
[40]
Nishino N, Yoshida M, Shiota H, et al. Evaluation of Lactobacillus buchneri derived from by-products ensiling as an inoculum for whole crop maize silage. Proceeding of 13th International Silage Conference. Ayr, UK: Scottish Agricultural College, 2003: 146-147.
[41]
Krooneman J, Faber F, Alderkamp A C, et al. Lactobacillus diolivorans sp. Nov., a 1,2-propanediol- degrading bacterium isolated from aerobically stable maize silage. International Journal of Systematic and Evolutionary Microbiology, 2002, 52: 639-646.
[42]
Pahlow G, Muck R E, Driehuis F, et al. Microbiology of Ensiling. Madison, WI, USA: Soil Science Society of America, Inc. Publications, 2003.
[43]
Anil M H, Mbanya J N, Symonds H W, et al. Responses in the voluntary intake of hay or silage by lactating cows to intraruminal infusions of sodium acetate or sodium propionate, the tonicity of rumen fluid or rumen distension. British Journal of Nutrition, 1993, 69: 699-712.
[44]
Weinberg Z G, Ashbell G, Hen Y, et al. Ensiling whole crop wheat and corn in large containers with Lactobacillus plantarum and Lactobacillus buchneri. Journal of Industrial Microbiology and Biotechnology, 2002, 28(1): 7-11.
[45]
Hu W, Schmidt R J, McDonell E E, et al. The effect of Lactobacillus buchneri 40788 or Lactobacillus plantarum MTD-1 on the fermentation and aerobic stability of corn silages ensiled at two dry matter contents. Journal of Dairy Science, 2009, 92: 3907-3914.
[46]
Schmidt R J, Emara M G, Kung L Jr. The use of a quantitative real-time polymerase chain reaction assay for identification and enumeration of Lactobacillus buchneri in silage. Journal of Applied Microbiology, 2008, 105: 920-929.
[47]
Mari L J, Schmidt R J, Nussio L G, et al. An evaluation of the effectiveness of Lactobacillus buchneri 40788 to improve the aerobic stability of corn silage in farm silos. Journal of Dairy Science, 2008, 91(Suppl.1): 31.
[48]
Taylor C C, Kung L Jr. Lactobacillus buchneri and enzymes improves the aerobic stability of high moisture corn. Journal of Dairy Science, 2000, 83 (Suppl.1): 111.
[49]
Ebling T L. The effect of adding Lactobacillus buchneri 40788 (LB), enzymes (ENZ), or ENZ and LB on the fermentation and aerobic stability of highmoisture corn in lab silos. Journal of Dairy Science, 2002, 85(Suppl.1): 383.
