Biology Reference
In-Depth Information
Basurco, B. and Lovatelli, A. (2005). The aquaculture situation in the Mediterranean Sea
predictions for the future. [Online: http://www.iasonnet.gr/past_conf/abstracts/
Basurco.pdf ].
Bender, J., Lee, R., Sheppard, M., Brinkley, K., Phillips, P., Yeboah, Y. and Wah, R.C. (2004). A
waste effl uent treatment system based on microbial mats for black sea bass Centropristis
striata recycled-water mariculture. Aquacult. Eng. 31: 73-82.
Bratvold, D., Browdy, C.L. and Hopkins, J.S. (1997). Microbial ecology of shrimp ponds:
toward zero discharge. Oral presentation—World Aquaculture '97. Seattle, WA, USA.
Chen, C.-C. and Chen, S.-N. (2001). Water Quality Management with Bacillus spp. in the
High-Density Culture of Red-Parrot Fish Cichlasoma citrinellum Ă— C. Synspilum . N. Am. J.
Aquacult. 63: 66-73.
Chen, S., Stechey, D. and Malone, R.F. (1994). Suspended solids control in recirculating
aquaculture systems. In: Aquaculture Water Reuse Systems: Engineering Design and
Management. Development in Aquaculture and Fisheries Sciences. M.B.Timmons and T.
M. Losordo (eds). Elsevier, Amsterdam, The Netherlands pp. 61-100
Cho, C.Y., Hynes, J.D., Wood, K.R. and Yoshida, H.K. (1994). Development of high-nutrient-
dense, low-pollution diets and prediction of aquaculture wastes using biological
approaches. Aquaculture 124: 293-305.
Ervik, A., Samuelsen, O.B., Juell, J.E. and Sveier, H. (1994). Reduced environmental impact
of antibacterial agents applied in fi sh farms using the liftup feed collector system or a
hydroacoustic feed detector. Dis. Aquat. Org . 19: 101-104.
Faid, M., Karani, H., Elmarrakchi, A. and Achkari-Begdouri, A. (1994). A biotechnological
process for the valorisation of fi sh waste. Biores. Technol. 49: 237-241.
FAO (2002). FAOSTAT, Aquaculture Production Quantities 1970-1999, FAO, Rome, Italy.
Fu, W., Sun, L., Zhang, X. and Zhang, W. (2006). Potential of the marine sponge Hymeniacidon
perleve as a bioremediator of pathogenic bacteria in integrated aquaculture ecosystems.
Biotechnol. Bioeng. 93: 1112-1122.
Gatlin, D.M. III, Li, P., Wang, X., Burr, G.S., Castille, F. and Lawrence, A.L. (2006). Potential
application of prebiotics in aquaculture. Proceedings of the VIII International Symposium
on Aquaculture Nutrition, 15-17 November, 2006, Mexico, I.E.C. Suarez, D.R. Marie,
M.T. Salazar, M.G.N. Lopez, D.A.V. Cavazos and A.C.P.C.A.G.Ortega, pp. 371-376 [Online:
http://w3.dsi.uanl.mx/publicaciones/maricultura/viii/pdf/22Gatlin.pdf ].
Gowen, R.J. (1991). Aquaculture and the environment. In: The Environment. N. DePauw and
J. Joyce (eds). Aquaculture European Aquaculture Society Special Publications No. 16,
Ghent, Belgium.
Guerrero, R., Piqueras, Z.M. and Berlanga, Z.M. (2002). Microbial mats and the search for
minimal ecosystems. Int. Microbiol. 5, 177-188.
Hammoumi, A., Faid, M., El Yachioui, M. and Amarouch, H. (1998). Characterisation
of fermented fi sh waste used in feeding trials with broilers. Process Biochem. 33(4):
423-427.
http://nai.arc.nasa.gov/students/this_month/index.cfm (accessed 2008, January, 29)
http://www.bio.vu.nl/thb/users/vdberg/berg-mat.html (accessed 2008, January, 29)
http://www.microtack.com/html/microorganism.htm (accessed 2008, January, 29)
http://www.teicrete.gr/LEI/LAB/downloads/industrial_waste.pdf (accessed 2008, January,
29)
Hwang, S.-C., Lin, C.-S., Chen, I.-M., Chen, J.-M., Liu, L.-Y. and Dodds W.K. (2004). Removal
of multiple nitrogenous wastes by Aspergillus niger in a continuous fi xed-slab reactor.
Biores. Technol. 93: 131-138.
Hwang, S.-C., Lin, C.-S., Chen, I-M. and Wuc, J.S. (2007). Removal of nitrogenous substances
by Aspergillus niger in a continuous stirred tank reactor (CSTR) system. Aquacult. Eng.
36: 177-183.
Jones, A.B., Dennison, W.C. and Preston, N.P. (2001). Integrated treatment of shrimp effl uent
by sedimentation, oyster fi ltration and macroalgal absorption: a laboratory scale study.
Aquaculture 193: 155-178.
Search WWH ::




Custom Search