Kesarcodi-Watson A., Kaspar H., Lategan M. J. and Gibson L. (2008). Probiotics in
aquaculture: The need, principles and mechanisms of action and screening
processes. Aquaculture, 274: 1-14.
Knudsen D., Jutfelt F., Sundh H., Sundell K., Koppe W. and Frøkiaer H. (2008). Dietary soya
saponins increase gut permeability and play a key role in the onset of soyabean-
induced enteritis in Atlantic salmon (Salmo salar L.). British Journal of Nutrition,
100: 120-129.
Krogdahl Ä., Bakke-McKellep and Baeverfjord G. (2003). Effects of graded levels of
standard soybean meal on intestinal structure, mucosal enzyme activities, and
pancreatic response in Atlantic salmon (
Salmo salar
L). Aquaculture Nutrition, 9:
361-371.
Kumar R., Mukherjee S. C., Ranjan R. and Nayac S. K. (2008). Enhance innate immune
parameters in
Labeo rohita
(Ham.) following oral administration of
Bacillus subtilis
.
Fish Shellfish Immunology, 24: 168-172.
Le Gall M., Gallois M., Sève B., Louveau I., Holst J. J., Oswald I. P., Lallès J. P. and Guilloteau P.
(2009). Comparative effect of orally administered sodium butyrate before or after
weaning on growth and several indices of gastrointestinal biology of piglets. British
Journal of Nutrition, 102: 1285-1296.
Li K., Zheng T., Tian Y., Yuan F., Zhang G. and Hong H. (2007). Beneficial effects of
Bacillus
licheniformis
on the intestinal microflora and immunity of the white shrimp,
Litopenaeus vannamei
. Biotechnology Letters, 29: 525-530.
Lückstädt C. (2008). Effect of dietary potassium diformate on the growth and digestibility
of Atlantic salmon Salmo salar. Conference proceedings 13th International
Symposium on Fish Nutrition and Feeding
Malago J. J., Koninkx J. F. and Tooten P. C. (2005). Anti-inflammatory properties of heat
shock protein 70 and butyrate on Salmonella-induced interleukin-8 secretion in
enterocite-like Caco-2 cells. Clinical and Experimental Immunology, 141: 62-71.
Merrifield D. L., Dimitroglou A., Foey A., Davies S. J., Baker R. T. M., BØgwald J., Castex M.
and RingØ E. (2010). The current status and future focus of probiotic applications
for salmonids. Aquaculture, 302: 1-18
McIntosh D., Samocha T. M., Jones E. R., Lawrence A. L., McKee D. A., Horowitz S. and
Horowitz A. (2000). The effect of a commercial bacterial supplement on the high-
density culturing of
Litopenaeus vannamei
with a low-protein diet in an outdoor
tank system and no water exchange. Aquaculture Engineering, 21: 215-227.
Meunpol O., Lopinyosiri K. and Menasveta P. (2003). The effects of ozone and probiotics on
the survival of black tiger shrimp (
Penaeus monodon
). Aquaculture, 220: 437-448.
Moriarty D. J. W. (1997). The role of microorganisms in aquaculture ponds. Aquaculture,
151: 333-349.
Moriarty D. J. W. (1998). Control of luminous
Vibrio
species in penaeid aquaculture ponds.
Aquaculture; 164: 351-358.
Mountfort D. O., Campbell J. and Clements K. D. (2002). Hindgut Fermentation in Three
Species of Marine Herbivorous Fish. Applied Environmental Microbiology, 68: 1374–
1380.
Nayac S. K., Swain P. and Mukherjee S. C. (2008). Effect of dietary supplementation of
probiotic and vitamin C on the immune response of Indian major carp, Labeo rohita
(Ham.) Fish Shellfish Immunology, 24: 168-172.
Newaj-Fyzul A., Adesiyunz A. A., Mutani A., Ramsudhag B. J. and Austin B. (2007).
Bacillus
subtilis
AB1 controls
Aeromonas
infection in rainbow trout (
Onchorhynchus mykiss
).
Journal of Applied Microbiology, 103: 1699-1706.
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