Biology Reference
In-Depth Information
Agriculture and Aquaculture, Volume 2. R.C. Ray (ed). Science Publishers Inc., Enfi eld,
New Hampshire, USA pp. 225-260.
Cattaneo-Vietti, R., Benatti, U., Cerrano, C., Giovine, M.,Tazioli, S. and Bavestrello, G. (2003).
A marine biological underwater depuration system (MUDS) to process waste waters.
Biomol. Eng. 20: 291-298.
Caumette, P., Matheron, P., Raymond, U. and Relexans, J.C. (1994). Microbial mats in the
hyper-saline ponds of Mediterranean salterns. FEMS Microbiol. Ecol. 13: 273-286.
D'amelio, E.D., Cohen, Y. and Des Marais, D. (1989). Comparative functional ultra structure
of two hyper saline submerged cyanobacterial mats. In: Microbial Mats. Y. Cohen and E.
Rosemberg (eds). American Society for Microbiology, Washington, USA pp. 97-/113.
Djurle, C. (2003). Development of a model for simulation of biological sulphate reduction
with hydrogen as energy source, modeling of bacterial competition using AQUASIM.
FAO Fisheries and Aquaculture Department. (2009). The State of World Fisheries and
Aquaculture 2008, FAO, Rome, Italy.
Focht, D.D. and Verstraete, W. (1977). Biochemical ecology of nitrifi cation and denitrifi cation.
Adv. Microb. Ecol. 1: 135-211.
Garrido, J.M., Guerrero, L., Méndez, R. and Lema, J.M. (1998). Nitrifi cation of waste waters
from fi sh-meal factories. Water SA. 24: 245-250.
Gebauer, R. and Eikebrokk, B. (2006). Mesophilic anaerobic treatment of sludge from salmon
smolt hatching Bioresour. Technol. 97: 2389-2401.
Haung, H.J. (2003). Important tools to the success of shrimp aquaculture—Aeration and the
applications of tea seed cake and probiotics. Aquacult. Int. February 13-16.
Huang, L., Sheng, J., Chen, J. and Li, N. (2008). Direct fermentation of fi shmeal wastewater
and starch wastewater to lactic acid by
Rhizopus oryzae
. Second International Conference
on Bioinformatics and Biomedical Engineering, ICBBE 2008, Article no. 4536014,
pp. 3219-3222
Hussenot, J., Lefebvre, S. and Brossard, N. (1998). Open-air treatment of wastewater from
land-based marine fi sh farms in extensive and intensive systems: Current technology and
future perspectives. Aquat. Living Resour. 11: 297-304.
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.
Kinne, P.N., Samocha, T.M., Jones, E.R. and Browdy, C.L.(2001). Characterization of intensive
shrimp pond effl uent and preliminary studies on biofi ltration. N. Am. J. Aquacult. 63:
25-33.
Lanari, D. and Franci, C. (1998). Biogas production from solid wastes removed from fi sh farm
effl uents. Aquat. Living Resour. 11: 289-295.
Lim, J., Kim, T. and Hwang, S. (2003). Treatment of fi sh-processing wastewater by co-culture
of
Candida rugopelliculosa
and
Brachionus plicatilis
. Water Res. 37: 2228-2232.
Martin, A.M. (1999). A low-energy process for the conversion of fi sheries waste biomass.
Renewable Energy 16: 1102-1105.
Mattson, J., and Linden, O. (1983). Benthic microfauna succession under mussels,
Mytilis
edulis
, cultured on hanging long lines. Sarsia 68: 97-102.
Montet, D. and Ray, R.C. (2009). Aquaculture and Microbiology and Biotechnology, Volume
1. D. Montet and R.C. Ray (eds). Science Publishers Inc., Enfi eld, New Hampshire, USA.
Moriarty, D.J.W. (1998). Control of luminous
Vibrio
species in penaeid aquaculture ponds.
Aquaculture 164: 351-358.
Moriarty, D.J.W., Decamp, O. and Lavens, P. (2005). Probiotics in aquaculture. AQUA Culture
Asia Pacifi c Magazine Sept/Oct pp. 14-16.
Paniagua-Michel, J. and Garcia, O. (2003).
Ex-situ
bioremediation of shrimp culture effl uent
using constructed microbial mats. Aqua. Eng. 28: 131-139.
Patent No. 828/DEL/2000 (2000). National Centre for Aquatic Animal Health, Cochin
University of Science and Technology, Cochin, India.
