Faecal bacteria in Perna perna (Linnaeus, 1758) (Mollusca: Bivalvia) for biomonitoring coastal waters and seafood quality

Martinez, Diego Igawa; Oliveira, Ana Júlia Fernandes Cardoso de

Abstracts

Urban development in coastal areas is intense and leads to the increase of sewage outfall and other negative impacts as consequences. Thus, stringent regulations establishing limits to the microbiological contamination of water and seafood are needed. The objective of this study is to evaluate the usefulness of Enterococci and Thermotolerant Coliform densities in the flesh of mussels Perna perna as an alternative tool for monitoring the microbiological quality of coastal waters. The study also considers allometric relations applied to clearance rates to understand rates of bacterial concentration. Bacterial loads obtained in mussels' flesh were from 50 to 4,300 times greater than in the water sampled in the vicinity of the mussels and some were considered inappropriate for consumption even when the water presented no restrictions. The mean clearance rate obtained for Enterococci retention was 317.7 ml h-1 and this rate (CR) is related to the mussels' size (L) by the equation CR = 28.3229L1.6421. The results showed that bacterial densities in the mussels' tissues may reflect chronic contamination of the environment and that clearance rates are important for taking the best decision in situations where, for example, it is desired to introduce mussels for aquaculture and the evaluation of the water concerned is required.

Perna perna; fecal bacteria; Enterococci; Thermotolerant Coliforms; clearance; biomonitoring

O desenvolvimento urbano em áreas costeiras é intenso e o aumento das descargas de esgoto é uma das conseqüências. Assim, leis específicas que regulem limites para a contaminação microbiológica das águas e de alimentos de origem marinha são necessárias. O objetivo deste estudo é avaliar a utilização de Enterococos e coliformes termotolerantes na carne de mexilhões Perna perna como alternativa para o monitoramento da qualidade microbiológica de águas costeiras. O estudo também considera relações alométricas aplicadas às taxas de "clearance" para entender a concentração de bactérias pelo molusco. As densidades bacterianas obtidas no molusco foram de 50 a 4300 vezes maiores do que nas amostras de água coletadas próximas dos moluscos e alguns foram considerados impróprios para consumo, mesmo quando as águas não mostraram restrições. A taxa de "clearance" média obtida para retenção de Enterococos foi 317.7 ml h-1 e essas taxas (CR) puderam ser relacionadas com o tamanho dos mexilhões (L) pela equação CR = 28.3229L1.6421. Os resultados mostram que as densidades bacterianas nos tecidos dos mexilhões podem refletir a contaminação crônica do ambiente e que as taxas de "clearance" devem ser consideradas para a tomada de decisão em situações onde, por exemplo, se deseja implantar mexilhões para cultivo.

Perna perna; bactérias fecais; Enterococos; Coliformes Termotolerantes; clearance; biomonitoramento

APHA- American Public Health Association. Standard methods for the examination of water and wastewater. 21th Edition. APHA, AWWA, WEF. , 2005. 1120 p.
BERRY, P. F.; SCHLEYER, M. H. The brown mussel Perna perna on the Natal coast, South Africa: utilization of available food and energy budget. Mar. Ecol. Progr. Ser., v. 13, p. 201 – 210, 1983.
CABELLI, V. J. Health effects criteria for marine recreational waters. Research Triangule Park, USEPA. EPA-600/1-80-031, 1983. 98 p.
CETESB. Relatório de qualidade das águas litorâneas do Estado de São Paulo: balneabilidade das praias 2005 São Paulo: 2006.
CHARLES F.; AMOROUX, J. M.; GRÉMARE, A. Comparative study of the utilization of bacteria and microalgae by the suspension feeding bivalve: Callista chione J. mar. biol. Ass. U. K., v. 79, p. 577 – 584, 1999.
COLLINS, A.; STAPLETON, M.; WHITMARSH, D. Fishery-pollution interactions: A modelling approach to explore the nature and incidence of economic damages. Mar. Pollut. Bull., v. 36, p. 211 – 221, Mar. 1998.
DE DONNO, A.; LIACI, D.; BAGORDO, F.; LUGOLI, F.; GABUTTI, G. Mytilus galloprovincialis as a bioindicator of microbiological pollution of coastal waters: A study conducted in the Salento Peninsula (Italy). J. coast. Res., v. 24, p. 216 – 221, 2008.
DWIGHT, R. H.; SEMENZA, J. C.; BAKER, D. B.; OLSON, B. H. Association of urban runoff with coastal water quality in Orange County, California. Wat. environ. Res., v. 74, n. 1, p. 82 – 90, 2002.
GUILLON-COTARD, I.; AUGIER, H.; CONSOLE, J. J.; ESMIEU, O. Study of microbiological pollution of a pleasure boat harbour using mussels as bioindicators. Mar. environ. Res., v. 45, n. 3, p. 239 – 247, 1998.
HOBBIE, J. E.; DALEY, R. J.; JASPER, S. Use of nuclepore filters for counting bacteria by fluorescence microscopy. Appl. environ. Microbiol., v. 33, n. 5, p. 1225 – 1228, 1977.
JORGE, L. C.; GARCIA, L. M.; MARTINS, V. B.; KOSAWA, A.; PAULS, E. Interações dos processos sócio-ambientais nas bacias das enseadas de Icaraí e São Francisco, Niterói (RJ). 2. Organismos aquáticos como bioindicadores da qualidade ambiental com enfoque no mexilhão Perna perna (Linnaeus, 1798), em Niterói-RJ. Mundo & Vida, v. 3, n. 2, p. 108-116, 2002.
LUCAS, M. I.; NEWELL, R. C.; SHUMWAY, S. E.; SEIDERER, L. J.; BALLY, R. Particle clearance and yield in relation to bacterioplankton and suspended particulate availability in estuarine and open coast populations of the mussel Mytilus edulis Mar. Ecol. Progr. Ser., v. 36, p. 215 – 224, 1987.
MARINO, A.; LOMBARDO, L.; FIORENTINO, C.; ORLANDELLA, B.; MONTICELLI, L.; NOSTRO, A.; ALONZO, V. Uptake of Escherichia coli, Vibrio cholerae non-O1 and Enterococcus durans by, and depuration of mussels (Mytilus galloprovincialis). Intern. J. Food Microbiol., v. 99, p 281 – 286, 2005.
OLIVEIRA, A. J. F. C.; HOLNAGELL, H. C.; MESQUITA, H. S. L.; FONTES, R. C. F. Physical, chemical and microbiological characterization of intertidal sediments of Pereque Beach, Guarujá (SP), Brazil. Mar. Pollut. Bull., v. 54, p. 921-927, 2007.
OLIVEIRA, A. J. F. C.; PINHATA, J. M. W. Antimicrobial resistance and species composition of Enterococcus spp. isolated from waters and sands of marine recreational beaches in Southeastern Brazil. Wat. Res., v. 42, p. 2242-2250, 2008.
RESGALLA JR., C.; BRASIL, E. S.; SALOMÃO, L. C. Physiological rates in different classes of sizes of Perna perna (Linnaeus, 1758) submitted to experimental laboratory conditions. Braz. J. Biol., v. 66, p. 325 – 336, 2006.
SINTON, L.W.; HALL, C. H.; LYNCH, P. A.; DAVIES-COLLEY, R. J. Sunlight inactivation of fecal indicator bacteria and bacteriophages from waste stabilization pond effluent in fresh and saline waters. Appl. environ. Microbiol., v. 68, n. 3, p. 1122-1131, 2002.
SOLÉ, M.; PORTE, C.; BARCELO, D.; ALBAIGES, J. Bivalves residue analysis for the assessment of coastal pollution in the Ebro Delta (NW Mediterranean). Mar. Pollut. Bull., v. 40, p. 746 – 753, 2000.
SOLIC, M.; KRSTULOVIC, N.; JOZIC, S.; CURAC, D. The rate of concentration of faecal coliforms in shellfish under different environmental conditions. Environment Int., v. 25, n. 8, p. 991-1000, May 1999.
TURANTAS, F. Incidence of faecal streptococci as an indicator of sanitation in ice-cream and frozen vegetables. Int. J. Food Sci. Technol., v. 37, p. 239-243, 2002.
WHO. Guidelines for safe recreational waters – Water Environments V. 1: Coastal and Fresh-Waters. WHO/EOS/98.14. Geneva: 1998. 208 p.
WILSON, I. G.; MOORE, J. E. Presence of Salmonella spp. and Campylobacter spp. in shellfish. Epidemiol. Infection, v. 116, p. 147 – 153, 1996.

Publication Dates

Publication in this collection
31 Aug 2010
Date of issue
June 2010

History

Accepted
25 Aug 2009
Reviewed
23 June 2009
Received
26 Feb 2006

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] APHA- American Public Health Association. Standard methods for the examination of water and wastewater. 21th Edition. APHA, AWWA, WEF. , 2005. 1120 p.

[2] BERRY, P. F.; SCHLEYER, M. H. The brown mussel Perna perna on the Natal coast, South Africa: utilization of available food and energy budget. Mar. Ecol. Progr. Ser., v. 13, p. 201 – 210, 1983.

[3] CABELLI, V. J. Health effects criteria for marine recreational waters. Research Triangule Park, USEPA. EPA-600/1-80-031, 1983. 98 p.

[4] CETESB. Relatório de qualidade das águas litorâneas do Estado de São Paulo: balneabilidade das praias 2005 São Paulo: 2006.

[5] CHARLES F.; AMOROUX, J. M.; GRÉMARE, A. Comparative study of the utilization of bacteria and microalgae by the suspension feeding bivalve: Callista chione J. mar. biol. Ass. U. K., v. 79, p. 577 – 584, 1999.

[6] COLLINS, A.; STAPLETON, M.; WHITMARSH, D. Fishery-pollution interactions: A modelling approach to explore the nature and incidence of economic damages. Mar. Pollut. Bull., v. 36, p. 211 – 221, Mar. 1998.

[7] DE DONNO, A.; LIACI, D.; BAGORDO, F.; LUGOLI, F.; GABUTTI, G. Mytilus galloprovincialis as a bioindicator of microbiological pollution of coastal waters: A study conducted in the Salento Peninsula (Italy). J. coast. Res., v. 24, p. 216 – 221, 2008.

[8] DWIGHT, R. H.; SEMENZA, J. C.; BAKER, D. B.; OLSON, B. H. Association of urban runoff with coastal water quality in Orange County, California. Wat. environ. Res., v. 74, n. 1, p. 82 – 90, 2002.

[9] GUILLON-COTARD, I.; AUGIER, H.; CONSOLE, J. J.; ESMIEU, O. Study of microbiological pollution of a pleasure boat harbour using mussels as bioindicators. Mar. environ. Res., v. 45, n. 3, p. 239 – 247, 1998.

[10] HOBBIE, J. E.; DALEY, R. J.; JASPER, S. Use of nuclepore filters for counting bacteria by fluorescence microscopy. Appl. environ. Microbiol., v. 33, n. 5, p. 1225 – 1228, 1977.

[11] JORGE, L. C.; GARCIA, L. M.; MARTINS, V. B.; KOSAWA, A.; PAULS, E. Interações dos processos sócio-ambientais nas bacias das enseadas de Icaraí e São Francisco, Niterói (RJ). 2. Organismos aquáticos como bioindicadores da qualidade ambiental com enfoque no mexilhão Perna perna (Linnaeus, 1798), em Niterói-RJ. Mundo & Vida, v. 3, n. 2, p. 108-116, 2002.

[12] LUCAS, M. I.; NEWELL, R. C.; SHUMWAY, S. E.; SEIDERER, L. J.; BALLY, R. Particle clearance and yield in relation to bacterioplankton and suspended particulate availability in estuarine and open coast populations of the mussel Mytilus edulis Mar. Ecol. Progr. Ser., v. 36, p. 215 – 224, 1987.

[13] MARINO, A.; LOMBARDO, L.; FIORENTINO, C.; ORLANDELLA, B.; MONTICELLI, L.; NOSTRO, A.; ALONZO, V. Uptake of Escherichia coli, Vibrio cholerae non-O1 and Enterococcus durans by, and depuration of mussels (Mytilus galloprovincialis). Intern. J. Food Microbiol., v. 99, p 281 – 286, 2005.

[14] OLIVEIRA, A. J. F. C.; HOLNAGELL, H. C.; MESQUITA, H. S. L.; FONTES, R. C. F. Physical, chemical and microbiological characterization of intertidal sediments of Pereque Beach, Guarujá (SP), Brazil. Mar. Pollut. Bull., v. 54, p. 921-927, 2007.

[15] OLIVEIRA, A. J. F. C.; PINHATA, J. M. W. Antimicrobial resistance and species composition of Enterococcus spp. isolated from waters and sands of marine recreational beaches in Southeastern Brazil. Wat. Res., v. 42, p. 2242-2250, 2008.

[16] RESGALLA JR., C.; BRASIL, E. S.; SALOMÃO, L. C. Physiological rates in different classes of sizes of Perna perna (Linnaeus, 1758) submitted to experimental laboratory conditions. Braz. J. Biol., v. 66, p. 325 – 336, 2006.

[17] SINTON, L.W.; HALL, C. H.; LYNCH, P. A.; DAVIES-COLLEY, R. J. Sunlight inactivation of fecal indicator bacteria and bacteriophages from waste stabilization pond effluent in fresh and saline waters. Appl. environ. Microbiol., v. 68, n. 3, p. 1122-1131, 2002.

[18] SOLÉ, M.; PORTE, C.; BARCELO, D.; ALBAIGES, J. Bivalves residue analysis for the assessment of coastal pollution in the Ebro Delta (NW Mediterranean). Mar. Pollut. Bull., v. 40, p. 746 – 753, 2000.

[19] SOLIC, M.; KRSTULOVIC, N.; JOZIC, S.; CURAC, D. The rate of concentration of faecal coliforms in shellfish under different environmental conditions. Environment Int., v. 25, n. 8, p. 991-1000, May 1999.

[20] TURANTAS, F. Incidence of faecal streptococci as an indicator of sanitation in ice-cream and frozen vegetables. Int. J. Food Sci. Technol., v. 37, p. 239-243, 2002.

[21] WHO. Guidelines for safe recreational waters – Water Environments V. 1: Coastal and Fresh-Waters. WHO/EOS/98.14. Geneva: 1998. 208 p.

[22] WILSON, I. G.; MOORE, J. E. Presence of Salmonella spp. and Campylobacter spp. in shellfish. Epidemiol. Infection, v. 116, p. 147 – 153, 1996.

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Faecal bacteria in Perna perna (Linnaeus, 1758) (Mollusca: Bivalvia) for biomonitoring coastal waters and seafood quality

Abstracts

Publication Dates

History