Hammer K A, Carson C F, Riley T V. Antimicrobial activity of essential oils and other plant extracts[J]. J Appli Microbio, 1999, 86:985-990.
[3]
Dorman H J D, Deans S G. Antimicrobial agents from plants:antibacterial activity of plant volatile oils[J]. J Appl Bacteriol, 20130, 88: 308 -316.
[4]
Butine T J, Leedle J A. Enumeration of selected anaerobic bacterial groups in cecal and colonic contents of growing-finishing pigs[J]. Appl Environ Microbiol, 1989, 55 : 1112-1116.
[5]
陈天寿.微生物培养基的制造与运用[M].北京:中国农业出版社,1999.
[6]
Rotto E R, Yokoyama M, Hengemuehle S, et al. Ammonia, volatile fatty acids, phenolics, and odor offensiveness in manure from growing pigs fed diets reduced in protein concentration[J]. J Anim Sci, 2003, 81 : 1754- 1763.
[7]
Smith D R, Moore P A, Haggard B E, et al. Effect of aluminum chloride and dietary phytase on relative ammonia losses from swine manure[J]. J Anim Sci, 2004, 82: 605-611.
[8]
Zahn J A, Hatfield J L, Do Y S, et al. Characterization of volatile emissions and wastes from a swine production facility[J]. J Environ Qual, 1997, 26 : 1687-1696.
[9]
Mackie R I, Stroot P G, Varcl V H. Biochemical identification and biological origin of key odor components in livestock waste[J]. J Anim Sci, 1998, 76 : 1331-1342.
[10]
Zhu J, Jacobson L D. Correlating microbes to major odorous compounds in swine manure[J]. J Environ Qual, 1999, 28:737-744.
[11]
Zahn J A, DiSpirito A A, Do Y S, et al. Correlation of human olfactory responses to airborne concentrations of malodorous volatile organic compounds emitted from swine effluent[J], J Environ Qual, 2001, 30: 624-634.
[12]
Morse D J C, Mutter R. Anaerobic digester survey of California dairy producers[J]. J Dairy Sci, 1996, 79: 149-153.
