This is an outdated version published on 2020-07-16. Read the most recent version.

Relationship between environmental variables and growth of Pteria colymbus (Mollusca Bivalvia: Pteriidae) at three cultivation depths

Authors

  • Luis Felipe Freites Instituto Oceanográfico de Venezuela, Universidad de Oriente, Cumaná https://orcid.org/0000-0002-6432-7366
  • Miguel Guevara Instituto Superior de Formación Docente Salomé Ureña (Isfodosu), Santo Domingo https://orcid.org/0000-0002-1830-3822
  • Adrián Márquez Escuela Superior Politécnica del Litoral (ESPOL), Centro Nacional de Acuicultura e Investigaciones Marinas (Cenaim), Guayaquil https://orcid.org/0000-0001-9122-6539
  • Jormil Revilla Escuela Superior Politécnica del Litoral (ESPOL), Centro Nacional de Acuicultura e Investigaciones Marinas (Cenaim), Guayaquil https://orcid.org/0000-0002-9278-1080
  • Mariela Narváez Instituto Oceanográfico de Venezuela, Universidad de Oriente, Cumaná https://orcid.org/0000-0002-5062-5178
  • César Lodeiros Grupo de Investigación en Biología y Cultivo de Moluscos, Escuela de Acuicultura y Pesquerías, Facultad de Ciencias Veterinarias, Universidad Técnica de Manabí, Bahía de Caráquez, Manabí https://orcid.org/0000-0001-9598-2235

DOI:

https://doi.org/10.25268/bimc.invemar.2020.49.1.771

Keywords:

biofouling, environment, depth, oyster, survival

Abstract

We studied the influence of environmental variables associated with three water depths (2, 6 and 10 m) on shell growth, soft tissues dry mass (STDM) and survival of the Caribbean winged oyster Pteria colymbus (Roding, 1798). Chlorophyll a (Chl-a), dissolved oxygen, particulate organic matter (POM) and temperature were studied at each depth. Oysters were placed in 135 plastic baskets with five individuals in each basket. Three baskets at each depth were chosen at monthly intervals for measurements of biometric parameters, biofouling, and survival. At the end of the study, dry mass of the individuals grown at 10 m was significantly lower (Kruskal-Wallis non-parametric test KW, P < 0.05) with the highest values of STDM corresponding to oysters cultivated at 2 m depth. The principal component analysis showed an inverse (temperature) and direct relationship (Chl-a and POM) with respect to the variance observed in the STDM. Taking into account the results obtained in the yields (growth/survival) of P. colymbus we recommend carrying out their culture at water depths between 2 and 6 m.

Dimensions

PlumX

Visitas

1094

Downloads

Download data is not yet available.

Author Biography

Luis Felipe Freites, Instituto Oceanográfico de Venezuela, Universidad de Oriente, Cumaná

Departamento de Biología Pesquera. Profesor titular.

References

Acosta, V., C. Lodeiros, A. Prieto, M. Glem e Y Natera. 2009. Efecto de la profundidad sobre el crecimiento de los mejillones Perna perna y Perna viridis (Bivalvia: Mytilidae) en cultivo suspendido en el golfo de Cariaco, Venezuela. Zoot. Trop., 27(3): 315-328.

Aji, L.P. 2011. An overview of the method, management, problem, and their solution in the pearl oyster (Pinctada margaritifera) culture. J. Coastal Develop., 14(3): 181-190.

Albuquerque, M.C.P., R. Alves, A. Zanandrea, J. Ferreira, C. Melo and A. Magalhães. 2012. Growth and survival of the pearl oyster Pteria hirundo (L., 1758) in an intermediate stage of culture in Santa Catarina, Brazil. Braz. J. Biol., 72: 175-180.

Bayne, B. and R. Newell. 1983. Physiological energetics of marine mollusc: 407-515. In: Salenium, A. and K. Wilbur (Eds.). The Mollusca. Academics Press. New York.

Beninger, P.G., A. Valdizan, P. Decottignies and B. Cognie. 2008. Impact of seston characteristics on qualitative particle selection sites and efficiencies in the pseudolamellibranch bivalve Crassostrea gigas. J. Exp. Mar. Biol. Ecol., 360: 9-14.

Blicher, M.E., S. Rysgaard and M.K. Sejr. 2010. Seasonal growth variation in Chlamys islandica (Bivalvia) from sub-Arctic Greenland is linked to food availability and temperature. Mar. Ecol. Prog. Ser., 407: 71-86.

Briceño, H.O. and J.N. Boyer. 2010. Climatic controls on phytoplankton biomass in a sub-tropical estuary, Florida Bay, USA. Estuar. Coasts, 33: 541-553.

Chatfield, C. and A. Collins. 1980. Introduction to multivariate analysis. Chapman and Hall, London.

Clarke, K. and R. Warwick. 2001. Change in marine communities: An approach to statistical analysis and interpretation. PRIMER-E Ltd., Plymouth. 82 p.

Cranford, P.J. and J. Grant. 1990. Particle clearance and absorption of phytoplankton and detritus by the sea scallop Placopecten magellanicus (Gemelin). J. Exp. Mar. Biol. Ecol., 137: 105-121.

Cranford, P.J. and P.S. Hill. 1999. Seasonal variation in food utilization by the suspension-feeding bivalve mollusks Mytilus edulis and Placopecten magellanicus. Mar. Ecol. Prog. Ser., 190: 223-239.

Díaz, J.M. y M. Puyana, 1994. Moluscos del Caribe colombiano. Un catálogo ilustrado. Colciencias Fundación Natura-INVEMAR. Presencia, Bogotá. 291 p.

Frechette, M. and G. Daigle. 2002. Growth, survival and fluctuating asymmetry of Iceland scallops in a test of density-dependent growth in a natural bed. J. Exp. Mar. Biol. Ecol., 270: 73-91.

Freites, L., A. Vélez y L. Hurtado. 1996. Crecimiento y producción secundaria de Euvola (Pecten) ziczac (L), en cultivo suspendido a tres profundidades. Bol. Inst. Oceanog. Venez., 35(1 y 2): 17-26.

Freites, L., C. Lodeiros, N. Narváez, G. Estrella and J.M.F. Babarro, 2003. Growth and survival of the scallop Lyropecten (=Nodipecten) nodosus (L., 1758) in suspended culture in the Cariaco Gulf (Venezuela), during a non-upwelling period. Aquacult. Res., 34: 709-718.

Freites, L., M. Rojas, A.W. Dale, A. Márquez, J. Revilla, C. Lodeiros and L. Tróccoli. 2017. Influence of environmental variables during seasonal upwelling on the growth of the winged oyster Pteria colymbus in a tropical ecosystem. Aquacult. Intern., 25: 1653-1666.

García, M., C. Lodeiros, L. Freites, H. Córdova and J. Babarro. 2016. Comparative performance of the mussels Perna perna and Perna viridis, cultivate at four different depths. Braz. J. Oceanog., 64(3): 249-262.

Gardner, J.P.A. and R.J. Thompson, 2001. Naturally low seston concentration and the net energy balance of the greenshell mussel (Perna canaliculus) at Island Bay, Cook Strait, New Zealand. NZ J. Mar. Freshwater Res., 35: 457-468.

Gaytan-Mondragon, I., C. Cáceres-Martínez and M. Tobias-Sánchez. 1993. Growth of the pearl oysters Pinctada mazatlanica and Pteria sterna in different culture structures at La Paz Bay, Baja California Sur, Mexico. J. World Aquacult. Soc., 24(4): 541-546.

Hawkins, A.J.S., J.G. Fang, P.L. Pascoe, J.H. Zhang, X.L. Zhang and M.Y. Zhu. 2001. Modelling short-term responsive adjustments in particle clearance rate among bivalve suspension-feeders: separate unimodal models of seston volume and composition in the scallop Chlamys farreri. J. Exp. Mar. Biol. Ecol., 261: 61-73.

Kanjanachatree, K., K. Piyathamrongrut and N. Inthonjaroen. 2003. Effects of sea depths and sizes of winged pearl oysters (Pteria penguin) on pearl culture. Songklanakarin J. Sci. Techn., 25(5): 659-671.

Kasai, A. and A. Nakata, 2005. Utilization of terrestrial organic matter by the bivalve Corbicula japonica estimated from stable isotope analysis. Fish. Sci., 71: 151-158.

Lee, A.M., A. Williams and P.C. Southgate. 2008. Modelling and comparison of growth of the silverlip pearl oyster Pinctada maxima (Mollusca: Pteriidae) cultured in West Papua, Indonesia. Mar. Freshwater Res., 59: 22-31.

Lodeiros C., B. Marín y A. Prieto. 1999a. Catálogo de moluscos de las costas nororientales de Venezuela. Clase Bivalvia. Apudons, Caracas. 103 p.

Lodeiros, C. and J.H. Himmelman. 2000. Identification of factors affecting growth and survival of the tropical scallop Euvola (Pecten) ziczac in the golfo de Cariaco, Venezuela. Aquaculture, 182: 91-114.

Lodeiros, C., D. Pico, A. Prieto, N. Narváez and A. Guerra. 2002. Growth and survival of the pearl oyster Pinctada imbricata (Roding 1758) in suspended and bottom culture in the golfo de Cariaco, Venezuela. Aquacult. Intern., 10: 327-339.

Lodeiros, C., J. Rengel and J.H. Himmelman. 1999b. Growth of Pteria colymbus (Roding, 1798) in the golfo de Cariaco, Venezuela. J. Shellfish Res., 18: 155-158.

Lodeiros, C., J. Rengel, L. Freites, F. Morales, and J.H. Himmelman. 1998. Growth and survival of the tropical scallop Lyropecten (Nodipecten) nodosus maintained in suspended culture at three depths. Aquaculture, 165: 41-50.

Malavé, C., L. Freites, C. Lodeiros, J. Mendoza, L. Tróccoli and A.W. Dale. 2012. Annual recruitment, predation rates, and biocontrol of Linatella caudata (MOLLUSCA: GASTROPODA) in suspended enclosure culture of the pearl oyster Pinctada imbricata. Aquaculture, 354-355: 75-83.

Márquez, B., C. Lodeiros, M. Jiménez y J.H. Himmelman. 2000. Disponibilidad de juveniles por captación natural de la ostra Pteria colymbus (Bivalvia: Pteriidae) en el golfo de Cariaco, Venezuela. Rev. Biol. Trop., 48(1): 151-158.

Mengual, M., C. Lodeiros y A. Márquez. 2011. Crecimiento y supervivencia de la ostra alada Pteria colymbus (Röding 1798), en estructuras tubulares en la Bahía de Mochima, estado Sucre, Venezuela. Zootec. Trop., 29(2): 219-229.

Müller-Karger, F., G.T. Taylor, Y. Astor, R.C. Thunnell, M.I. Scranton, R. Varela, L. Tróccoli, L. Lorenzoni, E. Montes, K.A. Fanning and C. Benitez-Nelson. 2013. The Cariaco Basin Ocean Time-Series. LOICZ Inprint, 1: 3-17.

Müller-Karger, F., R. Aparicio and R. Castro. 1994. Mesoscale processes affecting phytoplankton abundance in the southern Caribbean Sea. Cont. Shelf Res., 14(2-3): 199-221.

Navarro, J.M. and R.J. Thompson. 1995. Seasonal fluctuations in the size spectra, biochemical composition and nutritive value of the seston available to a suspension-feeding bivalve in a subarctic environment. Mar. Ecol. Prog. Ser., 125: 95-106.

Pilditch, C.A. and J. Grant. 1999. Effect of temperature fluctuations and food supply on the growth and metabolism of juvenile sea scallops (Placopecten magellanicus). Mar. Biol.,134: 235-248.

Prieto, A., O. Ramos, D. Arrieche, J. Villalba y C. Lodeiros. 2001. Producción secundaria e índice de condición en Arca zebra (Molusca: Bivalvia) del golfo de Cariaco, Venezuela. Rev. Biol. Trop., 49: 599-608.

Román, G., M.J. Campos, C.P. Acosta and J. Cano. 1999. Growth of the queen scallop (Aequipecten opercularis) in suspended culture: influence of density and depth. Aquaculture, 178: 43-62.

Saxby, S.A. 2002. A review of food availability, seawater characteristics, and bivalve growth performance at coastal culture sites in temperate and warm temperate regions of the world. Fish. Res. Rep. (W. Australia), 132: 1-42.

Sims, N.A., 1994. Growth of wild and cultured black-lip pearl oysters, Pinctada margaritifera (L.) (Bivalvia, Pteriidae). Aquaculture, 122: 181-191.

Smitasiri, R.R., J. Kajitwimat and P. Tantichodok. 1994. Growth of a winged oyster Pteria penguin suspended at different depths. Phuket Mar. Biol. Cent. Spec. Publ., 13: 213-216.

Sokal, R.R. and F.J. Rohlf. 1979. Biometría. Principios y métodos estadísticos en la investigación biológica. Blume, Madrid. 832 p.

Strickland, J. and T. Parsons. 1972. A practical handbook of seawater analysis. Bull. Fish. Res. Board Canada, 167, 310 p.

Thompson, R. and B. MacDonald. 1991. Physiological integrations and energy partitioning. In: An international compendium of scallops’ biology and culture. Shumway, S. and P. Sandifer (Eds.). Workshops World Aquac. Soc., Baton Rouge, 14(1): 28-35.

Tomaru, Y., Y. Kumatabara, Z. Kawabata and S. Nakona. 2002. Effect of water temperature and chlorophyll abundance on the shell growth of Japanese pearl oyster, Pinctada fucata martensii, in suspended culture at different depths and sites. Aquaculture Res., 33: 109-116.

Urban, H.J. 2001. Reproductive strategies in tropical bivalves (Pteria colymbus, Pinctada imbricata and Pinna carnea): Temporal coupling of gonad production and spat abundance related to environmental variability. J. Shellfish Res., 20: 1127-1134.

Urban, H.J. and J.M. Riascos. 2001. Estimating gonado-somatic indices in bivalves with fused gonads. J Shellfish Res., 21(1): 249-253.

Velasco, L.A. and J. Barros. 2010. Spat collection and experimental culture of the Atlantic pearl oyster, Pinctada imbricata (Bivalvia: Pteriidae), under suspended conditions in the Caribbean. J. World Aquacult. Soc., 41: 281-297.

Villarroel, E., E. Buitrago and C. Lodeiros. 2004. Identification of environmental factors affecting growth and survival of the tropical oyster Crassostrea rhizophorae in suspended culture in the golfo de Cariaco, Venezuela. Rev. Cient. Facult. Cienc. Veterin., Univ. Zulia, 14: 28-35.

Yukihira, H., J.S. Lucas and D.W. Klumpp, 2006. The pearl oysters, Pinctada maxima and P. margaritifera, respond in different ways to culture in dissimilar environments. Aquaculture. 252: 208-224.

Yukihira, H., J.S. Lucas and D.W. Klumpp. 2000. Comparative effects of temperature on suspension-feeding and energy budgets of the pearl oysters Pinctada margaritifera and P. maxima. Mar. Ecol. Prog. Ser., 195: 79-188.

Zhang, J.H., J.G. Fang and X.M. Liang. 2010. Variations in retention efficiency of bivalves to different concentrations and organic content of suspended particles. Chin. J. Oceanol. Limn., 28: 10-17.

Zhou Y. and J. Pan. 1999. Species, distribution, and damage of Cymatium in seawater pearl oyster culture zones of Hainan Island. Trop. Oceanog., 18(1): 83-89.

Published

2020-07-16

Versions

How to Cite

1.
Freites LF, Guevara M, Márquez A, Revilla J, Narváez M, Lodeiros C. Relationship between environmental variables and growth of Pteria colymbus (Mollusca Bivalvia: Pteriidae) at three cultivation depths. Bol. Investig. Mar. Costeras [Internet]. 2020 Jul. 16 [cited 2024 Nov. 22];49(1):9-26. Available from: http://boletin.invemar.org.co/ojs/index.php/boletin/article/view/857
سرور مجازی ایران Decentralized Exchange

Issue

Section

Research Articles
فروشگاه اینترنتی