Cultivo de alevines de tilapia en sistema biofloc bajo diferentes relaciones carbono/nitrógeno

  • Katherine Patricia ZAPATA Lovera Universidad Nacional Agraria La Molina Departamento Académico de Acuicultura e Industrias Pesqueras
  • Luis Otavio BRITO Universidade Federal Rural de Pernambuco, Departamento de Pesca e Aquicultura
  • Priscilla Celes Maciel de LIMA Universidade Federal Rural de Pernambuco, Departamento de Pesca e Aquicultura http://orcid.org/0000-0002-1063-0853
  • Luis Alejandro VINATEA Arana Universidade Federal de Santa Catarina, Departamento de Aquicultura http://orcid.org/0000-0002-3893-4728
  • Alfredo Olivera GALVEZ Universidade Federal Rural de Pernambuco, Departamento de Pesca e Aquicultura http://orcid.org/0000-0001-5149-2605
  • Jessie Marina Vargas CÁRDENAS Universidad Nacional Agraria La Molina Departamento Académico de Acuicultura e Industrias Pesqueras http://orcid.org/0000-0001-6587-6650

Abstract

En la presente investigación se evaluó el efecto de la relación carbono/nitrógeno (C:N), la calidad del agua, la productividad y la composición proximal de alevines de Oreochromis niloticus durante 58 días de cultivo. El diseño experimental consistió de cuatro tratamientos: un sistema convencional (control) y tres sistemas biofloc (CN10, CN15 y CN20). Se utilizaron 12 unidades experimentales de 0.04 m3 con 30 peces (750 pez m-3) con peso promedio individual de 1.55 ± 0.01 g. Se constató la existencia de interacción entre los parámetros de calidad de agua del sistema biofloc y los parámetros productivos de los alevines de tilapia. El tratamiento CN10 presentó una baja producción de sólidos sedimentables: 38.61 ± 0.54 mL L-1 (p<0.05), hecho que contribuyó con el rápido crecimiento de los individuos (21.7 ± 2.18 g), alcanzando rendimientos finales promedios de 15.50 ± 0.81 kg m-3 (p<0.05). Es posible concluir que el cultivo de alevinos de O. niloticus en sistema biofloc, con una relación C:N de 10, presentó el mejor rendimiento de producción si comparado con los otros tratamientos (CN15 y CN20).

References

AOAC (Association of Analytical Communities) 2005 Official methods of analysis of association the official agricultural chemists. 18ª ed

APHA (American Public Health Association) 2005 Standard methods for the examinations of the water and wastewater. 12ª ed. Washington, EE.UU.560p.

ASADUZZAMAN, M.; RAHMAN, M.M.; AZIM,M.E.; ASHRAFUL ISLAM, M.; WAHAB, M.A.; VERDEGEM, M.C.J.; VERRETH, J.A.J. 2010 Effects of C/N ratio and substrate addition on natural food communities in freshwater prawn monoculture ponds. Aquaculture, 306(1-4): 127–136.

AVNIMELECH, Y. 2006 Bio-filters: the need for an new comprehensive approach. Aquacultural
engineering, 34(3): 172-178.

AVNIMELECH, Y. 2007 Feeding with microbial flocs by tilapia in minimal discharge bioflocs
technology ponds. Aquaculture, 264(1): 140-147.

AVNIMELECH, Y. 2009 Biofloc technology: A practical guide book. The World Aquaculture Society.
Baton Rouge. 182p.

AZIM, M; LITTLE, D. 2008 The biofloc technology (BFT) in indoor tanks: water quality, biofloc
composition, and growth and welfare of Nile tilapia (Oreochromis niloticus). Aquaculture,
283(1): 29-35.

AZIM, M; LITTLE, D; BRON, J. 2008 Microbial protein production in activated suspension
tanks manipulating C:N ratio in feed and the implications for fish culture. Bioresource
Technology, 99(9): 3590-3599.

BHUJEL, R.C. 2013 On-farm feed management practices for Nile tilapia (Oreochromis niloticus)
in Thailand. In: HASAN, M.R.; NEW, M.B.(eds). On-farm feeding and feed management in
aquaculture. FAO Fisheries and Aquaculture Technical Paper No. 583. FAO, Rome. p.159–189.

CALUMBY, J. A.; DOS SANTOS, M. M.; COELHO FILHO, P. A.; SOARES, E. C.; GENTELINI, A. L. 2014 Efeito da densidade no custo de produção de alevinos de tilápia em tanques-rede. Revista
Brasileira de Ciências Agrárias, 9(3): 459-464

COSTA, A; FRÓES, R. 2012 Produção de tilápias. Programa Rio Rural. Manual Técnico 31. 52p.
CRAB, R.; KOCHVA, M.; VERSTRAETE, W.; AVNIMELECH, Y. 2009 Bio-flocs technology application in over-wintering of tilapia. Aquacultural Engineering, 40(3): 105–112.

DE SCHRYVER, P; CRAB, R; DEFOIRDT, T; BOON, N; VERSTRAETE, W. 2008 The basics of bio-flocs
technology: the added value for Aquaculture.Aquaculture, 277(3): 125-137.

DOS SANTOS, E; ALMEIDA, M; MOTA, S;DANTAS, M; MEDEIROS, M. 2009 Crescimento e qualidade dos alevinos de tilápia do Nilo produzidos em esgoto doméstico tratado. Revista Ciência Agronômica, 40(2): 232-239.

EBELING, J; TIMMONS, M; BISOGNI, J. 2006 Engineering analysis of the stoichiometry of photoautotrophic, autotrophic, and heterotrophic removal of ammonia–nitrogen in aquaculture systems. Aquaculture, 257(1): 346-358.

EKASARI, J.; RIVANDI, D.R.; FIRDAUSI, A.P.; SURAWIDJAJA, E.H.; ZAIRIN JR., M.; PETER BOSSIER; DE SCHRYVER, P. 2015 Biofloc technology positively affects Nile tilapia (Oreochromis niloticus) larvae performance. Aquaculture, 441(1): 72–77.

EL-SAYED, A-F.M. 2006. Tilapia culture. Oxfordshire:CABI Publishing. 277 p.

EMERENCIANO, M.; GAXIOLA, G.; CUZON, G.2013 Biofloc Technology (BFT): A Review for Aquaculture Application and Animal Food Industry. In: MATOVIC, M.D. (Ed.). Biomass
Now - Cultivation and Utilization. InTech, Manhattan. p.301-328.

FAO. FAO yearbook. 2016 Fishery and Aquaculture Statistics. 2014. Rome, Italy. 105p.

FELFÖLDY L., SZABO E.; TOTHL L. 1987 A biológiai vizminösités. Vizügyi Hodrobiológia Vizdok,
Budapest, Hungary. 258p.

GOLTERMAN H.J.; CLYNO R.S.; OHNSTAD M.A. 1978 Methods for physical and chemical analysis
of freshwaters. Oxford. Blackwell Scientific Publications, London, England. 213p.

KOROLEFF F. 1976 Determination of nutrients. In: K. GRASSHOFF (Ed.). Methods of seawater analysis. Verlag Chemie Weinhein, New York. p.117-187.

LIM, C; YILDIRIM, M; LI, M; WELKER, T; KLESIUS, P. 2009 Influence of dietary levels of lipid and vitamin E on growth and resistance of Nile tilapia to Streptococcus iniae challenge. Aquaculture, 298(1): 76-82.

LING, J.; CHEN, S. 2005 Impact of organic carbon on nitrification performance of different biofilters. Aquacultural Engineering, 33(2): 150–162.

LONG, L; YANG, J; LI, Y; GUAN, C; WU, F. 2015 Effect of biofloc technology on growth, digestive
enzyme activity, hematology, and immune response of genetically improved farmed tilapia
(Oreochromis niloticus). Aquaculture, 448(1): 135-141.

LUO, G; GAO, Q; WANG, C; LIU, W; SUN, D; LI, L; TAN, H. 2014 Growth, digestive activity, welfare,
and partial cost-effectiveness of genetically improved farmed tilapia (Oreochromis niloticus)
cultured in a recirculating aquaculture system and an indoor biofloc system. Aquaculture, 422-
423(1): 1-7.

MACKERETH F.J.H.; HERON J. Y TALLING J.F. 1978 Water analysis: some revised methods for limnologists. Oxford. Blackwell Scientific Publications, London, England. 120p.

MAGONDU, E. W.; VERDEGEM, M. C. J.; NYAKEYA, K.; MOKAYA, M. 2015 Production of aerobic, anaerobic and anoxic bioflocs from tilapia sludge. International Journal of Fisheries and Aquatic Studies, 2(5): 347-352.

MAGONDU, E.W.; CHARO-KARISA, H.; VERDEGEM, M.C.J. 2013 Effect of C/N ratio levels and stocking density of Labeo victorianus on pond environmental quality using maize flour as a carbon source. Aquaculture, 410–411(1): 157–163.

MARTÍNEZ-CÓRDOVA L.R; EMERENCIANO M.; MIRANDA-BAEZA A.; MARTÍNEZ-PORCHAS
A. 2015 Microbial-based systems for aquaculture of fish and shrimp: an updated review. Reviews
in Aquaculture, 7(2): 131-148.

PÉREZ-FUENTES, J; HERNÁNDEZ, M; PÉREZ, C; FOGEL, I. 2016 C: N ratios affect nitrogen removal
and production of Nile tilapia Oreochromis niloticus raised in a biofloc system under high density cultivation. Aquaculture, 452(1): 247-251.

TRUNG, D. V.; DIU, N. T.; HAO, N. T.; GLENCROSS, B. 2011. Development of a nutritional model to
define the energy and protein requirements of tilapia, Oreochromis niloticus. Aquaculture, 320(1):
69-75.

WANG, G.; YU, E.; XIE, J.; YU, D.; LI, Z.; LUO, W.; QIU, L.; ZHENG, Z. 2015 Effect of C/N ratio on water quality in zero-water exchange tanks and the biofloc supplementation in feed on the growth performance of crucian carp, Carassius auratus. Aquaculture, 443(1): 98–104.

WEBSTER, C.D.; LIM, C.E. 2002 (Ed.). Nutrient Requirements and Feeding of Finfish for quaculture. CABI Publishing, Oxford. 448p.

WEI, Y.; LIAO, S.A.; WANG, A.L. 2016 The effect of different carbon sources on the nutritional
composition, microbial community and structure of bioflocs. Aquaculture, 465(1): 88–93.

XU, W. J.; MORRIS T.C; SAMOCHA T.M. 2016. Effects of C/N ratio on biofloc development,water quality, and performance of Litopenaeus vannamei juveniles in a biofloc-based, highdensity, zero-exchange, outdoor tank system. Aquaculture, 453(1): 169–175.
Published
2017-09-25
How to Cite
LOVERA, Katherine Patricia ZAPATA et al. Cultivo de alevines de tilapia en sistema biofloc bajo diferentes relaciones carbono/nitrógeno. Boletim do Instituto de Pesca, [S.l.], v. 43, n. 3, p. 399–407, sep. 2017. ISSN 1678-2305. Available at: <https://www.pesca.sp.gov.br/boletim/index.php/bip/article/view/1214>. Date accessed: 25 may 2022. doi: https://doi.org/10.20950/1678-2305.2017v43n3p399.