Heavy Metals Bioaccumulation Pattern of Bivalve Geloina spp., and Crustaceans Penaeus marguensis and Scylla serrata from the Southern Central Java Ocean Margin, and Its Consumer's Safety

https://doi.org/10.22146/jifnp.35

Sri Noegrohati(1*)

(1) Gadjah Mada University
(*) Corresponding Author

Abstract


Aquatic organisms exposed to low lovel natural heavy metals pollutant tend to accumulate in their tissue by means of metabolic and biosorption processes. However, the influence of external environment to heavy metal bioavailability and internal organism characteristics to bioaccumulation processes remain uncertain. In this work, the influence of Cu, Zn, Cd and Hg bioavailability, feeding strategies and heavy metals homeostasis regulations or detoxification mechanisms to bioaccumulation pattern in aquatic bioindicators were studied.

Only Hg in Segara Anakan water samples was determined, while Cu, Zn and Cd were not detected. Sediment samples of Segara Anakan indicated higher heavy metals level than those of Serang river mouth, but only Hg concentration in sediment samples of Segara Anakan which is significantly higher than those of Serang river mouth, while Cd was not detected. The trend of heavy metals bioconcentration ratio of filter feeder Geloina spp and planktonic grazer Penaeus marguensis follows the desorption coefficient, i.e. Zn>Hg>Cu, but the bioconcentration trend in Scilla serrata, which is macrobenthos predator, is Hg>Zn>Cu.

The exposed Cu was not accumulated by Geloina spp., but accumulated at highest concentration in the exoskeleton of Penaeus marguensis and cartilage of Scilla serrata. Highest accumulation concentration of Zn and Hg were determined in meat, and lower concentrations were determined at other tissues. The extent of heavy metals bioaccumulation in Geloina spp. and Scilla serrata reflect the pollution of the surrounding environment, but the extent of heavy metal bioaccumulation in Penaeus marguensis were influenced more by its physiological status. Since the environmental exposure of Hg in Segara Anakan estuary was relatively high, pregnant women from this region should consider the potential hazard of Hg to their fetus when consuming aquatic organism of higher trophic level such as estuarine crabs.


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References

Aguilar, A., and Borell, A., 1996, Marine mammals and pollutants: An annotated bibliography, in: "Fundacio pel Desenvolupament Sostenible", ed., Rafica Dueto, Cornella, 251 p.

Birch L., Hanselmann, K. W., and Bachofen, R., 1996, Heavy metal conservation in Lake Cadagno sediments: Historical records of anthropogenic emissions in a meromictic alpine lake. Wat. Res. 30 (3) 679-687

Boyd, C. E., 1989, Water Quality Management and aeration in Shrimp Farming, Fisheries, and Allied Aquacultures Departmental, Series No.1, Alabama Agricultural Experiment Station, Auburn University, Alabama, USA

Bustamante, P., and Caurant, F., 2002, Metal speciation in cephalopods: implications for bioaccumulation in marine top predators, in CIESM, 2002, Metal and radionuclides bioaccumulation in marine organisms, CIESM Workshop Monographs n°19, 128 pages, Monaco www.ciesm.orc/publications/Ancona02.pdf

Creed, J. T. and T. D. Martin, 1997, Determination of trace elements in marine waters by stabilized temperature graphite furnace atomic absorption, EPA 22, National exposure research laboratory office of research and development, US EPA, Cincinnati, OH

Day, J. W. Jr, Hall, C. A. S., Kemp, W. M., and Yanez-Arancibia, A., 1989, Estuarine ecology, John Willey & Sons

Evans, D. W., Kathman, R. D., and Walker, W. W., 2000, Trophic accumulation and reputation of mercury by blue crabs (Callinectes sapidus) and pink shrimp (Penaeus duorarum), Mar. Environ. Res., 49: 419-434

Furness, R. W., 1993, Birds as monitors of pollutants, pp. 86-143, in: "Birds as monitors of environmental change,. eds Furness and Greenwood, Chapman & Hall, London.

Global Environment Monitoring System/Food Contamination Monitoring and Assessment Programme, 2003, GEMS/Food regional diets: regional per capita consumption of raw and semi-processed agricultural commodities, GEMS/Food, FOOD SAFETY ISSUES, Rev. ed

Joint FAO/WHO Expert Committee on Food Additives, 2003, Sixty-first meeting, Rome, 10-19 June 2003, JEFCA/61/SC

Ju, S., and Harvey, H. R., 2002, Effects of Temperature and Heavy Metals on Extractable Lipofuscin in the Blue Crab, Callinectes sapidus, Journal of the Korean Society of Oceanography, Vol. 37, No. 4, JKSO-37-44.pdf

Langston, W. J. and Spence, S. K., 1995. Biological factors involved in metal concentrations observed in aquatic organisms. In: Tessier and Turner eds., Metal Speciation and Bioavailability in Aquatic Systems, John Willey & Sons, New York. pp. 407-478

Lee, B. G., Grimscom, S. B., Lee J. S., Choi, H. J., Koh, C. H., Luoma, S. N., and Fisher, N. S., 2000, Influences of dietary uptake and reactive sulfides on metal bioavailability from aquatic sediments, Science 287: 282-284

Luoma, S. N., 2002, Processes affecting trophic transfer and resultant effects on metals: implications for monitoring metal pollution in the sea, in CIESM, 2002, Metal and radionuclides bioaccumulation in marine organisms, CIESM Workshop Monographs n°19, 128 pages, Monaco <www.ciesm.org/ublications/Ancona02.pdf>

Martin, J. M. and Windom, H. L., 1991, Present and future roles of Ocean Margin in Regulating Marine Biogeochemical Cycles of Trace Elements, in "Ocean Margin Processes in Global Change", ed. RFC Mantoura, J. M. Martin and R. Wollast, physically, Chemical and earth Sciences Research Report, John Willey & Sons

Noegrohati, S., 2005, b, Sorption-desorption Characteristics of Heavy Metals and their Availability from the Sediments of Segara Anakan Estuary, Indo. J. Chem., Vol 5, No. 3, 236-244

Noegrohati, S., 2006, c, Bioaccumulation Dynamics of Heavy Metals in Oreochromis Nilotycus: Predicted through a bioaccumulation model constructed based Biotic Ligand Model (BLM)

Otchere, F. A., 2003, Heavy metals concentrations burden in the bivalves (Andara (Senilia) senilis, Crassostrea tulipa and Perna perna) from lagoons in Ghana: Model to describe mechanisms of accumulation/excretion, African Journal of Biotechnology Vol. 2(9), pp. 280-287 Available online at http://www.academicjournals/org/AJB

Othcere, F. A., Joiris, C., and Holsbeek, L., 2003, Mercury in the bivalves Andara (Senilis) senilis, Perna perna and Crassostrea tulipa from Ghana,. Sci. Total Environ. 304:369-375

Reinfelder J. R., Wang W. X., Luoma, S. N., and Fisher N. S., 1997. Assimilation efficiencies and turnover rates of trace elements in marine bivalves: a comparison of oyster, clams, and mussels. Marine Biology, 129: 443:452.

Riedel, G. F., Abbe G. R. and Sanders, J. G., 1998, Temporal and Spatial Variations of Trace Metal Concentrations in Oysters from the Patuxent River, Maryland, Estuaries Vol.21, No. 3, p. 423-434

Soto, M., Marigomez, I., and Cancio, I., 2005, Biological aspects of metal accumulation and storage, downloaded from zoxcauri

Tessier, a., and Campbell, P. G. C., 1990, Partitioning of trace metals in sediments and its relationship to their accumulation in benthic organisms, in "Metal Speciation in the Environment": eds JAC Broekaert, S Grucer and F Adams, Springer, Berlin, pp. 545-569

Texas Commission on Environmental Quality, 2003, Chapter 7: Tissue Sample COllection, Guidelines for Tissue Sampling in Texas, Texas Parks and Wildlife Department (TPWD), rg_415_chapter7_223594.pdf



DOI: https://doi.org/10.22146/jifnp.35

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Indonesian Food and Nutrition Progress (print ISSN 0854-6177, online ISSN 2597-9388) is published by the Indonesian Association of Food Technologist in collaboration with Department of Food and Agricultural Product Technology, Faculty of Agricultural Technology, Universitas Gadjah Mada.

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