Articles citing this paper
Heavy metals in cultivated oysters (Crassostrea commercialis = Saccostrea cucullata) from estuaries of New South Wales
NJ Mackay, RJ Williams, JL Kacprzac, MN Kazacos, AJ Collins and EH Auty
26(1) pp.31 - 46
71 articles found in Crossref database.
Selenium Occurrence, Distribution and Speciation in the CockleAnadara trapezia and the MulletMugil cephalus
Maher W.,
Deaker M.,
Jolley D.,
Krikowa F., Roberts B.
Applied Organometallic Chemistry. 1997 11(4). p.313
Uptake of some dissolved organic nutrients by the Sydney rock oyster Saccostrea commercialis
Nell J. A.,
Skeel M. E., Dunkley P.
Marine Biology. 1983 74(3). p.313
Selenium accumulation in the cockle Anadara trapezia
Jolley Dianne F.,
Maher William A., Kyd Jennelle
Environmental Pollution. 2004 132(2). p.203
Heavy metal content of oysters from the Lynher Estuary, U.K.
Bland S.,
Ackroyd D.R.,
Marsh J.G., Millward G.E.
Science of The Total Environment. 1982 22(3). p.235
Copper accumulation by two bivalve molluscs: Salinity effect is independent of cupric ion activity
Wright David A., Zamuda Craig D.
Marine Environmental Research. 1987 23(1). p.1
The discrepancy in concentration of metals (Cu, Pb and Zn) in oyster tissue (Saccostrea glomerata) and ambient bottom sediment (Sydney estuary, Australia)
Birch G.F.,
Melwani A.,
Lee J.-H., Apostolatos C.
Marine Pollution Bulletin. 2014 80(1-2). p.263
Structure and Function of South-east Australian Estuaries
Roy P.S,
Williams R.J,
Jones A.R,
Yassini I,
Gibbs P.J,
Coates B,
West R.J,
Scanes P.R,
Hudson J.P, Nichol S
Estuarine, Coastal and Shelf Science. 2001 53(3). p.351
Factors that influence the accumulation of copper and cadmium by transplanted eastern oysters (Crassostrea virginica) in the Patuxent River, Maryland
Abbe G.R.,
Riedel G.F., Sanders J.G.
Marine Environmental Research. 2000 49(4). p.377
Cadmium in the Environment (1986)
Dynamics of heavy-metal transfer between biotic (Cytheria chioneandCerastoderma edule) and abiotic (water and sediment) components in marine environment (Bay of Martil, Moroccan Mediterranean coast)
Blinda M.,
Sabhi Y.,
El Quessar S.,
Fekhaoui M., Aït Brahim L.
Chemistry and Ecology. 2005 21(4). p.279
Temporal and spatial variability in Zn, Cr, Cd and Fe concentrations in oyster tissues(crassostrea brasiliana lamarck, 1819)from Sepetiba Bay, Brazil
Lima N.R.W,
de Lacerda L.D.,
Pfeiffer W.C., Fiszman M.
Environmental Technology Letters. 1986 7(1-12). p.453
Combined effect of body size, season, and location on trace element levels in mussels (Mytilus edulis)
Popham J. D., D'Auria J. M.
Archives of Environmental Contamination and Toxicology. 1983 12(1). p.1
The rise and fall of oyster cultivation in the highly urbanized Georges River estuary, Sydney, Australia: A review of lessons learned
Reid D.J., Bone E.K.
Regional Studies in Marine Science. 2020 35 p.101246
A Review of the Nutritional Requirements of Bivalves and the Development of Alternative and Artificial Diets for Bivalve Aquaculture
Knauer Jens, Southgate Paul C.
Reviews in Fisheries Science. 1999 7(3-4). p.241
Balanus amphitrite (Cirripedia: Thoracica) ? A potential indicator of fluoride, copper, lead, chromium and mercury in North Adriatic lagoons
Barbaro A.,
Francescon A.,
Polo B., Bilio M.
Marine Biology. 1978 46(3). p.247
Heavy metals in estuarine shellfish from Oregon
Caldwell Richard S., Buhler Donald R.
Archives of Environmental Contamination and Toxicology. 1983 12(1). p.15
Influence de facteurs ecologiques et biologiques sur la bioaccumulation d'elements metalliques chez de jeunes huitres (crassostrea gigas thunberg) au cours du pregrossissement en nourricerie
Amiard J.-C,
Metayer C,
Baud J.-P, Ribeyre F
Water Research. 1994 28(1). p.219
Mercury and cadmium content in green mussel,Mytilus viridis L. from onrust waters, Jakarta Bay
Hutagalung H. P.
Bulletin of Environmental Contamination and Toxicology. 1989 42(6). p.814
Metals in Coastal Environments of Latin America (1988)
The rock oyster Saccostrea glomerata as an indicator of trace metals in Hong Kong
Phillips D. J. H.
Marine Biology. 1979 53(4). p.353
Unusually high intake and fecal output of cadmium, and fecal output of other trace elements in New Zealand adults consuming dredge oysters
McKenzie-Parnell Joan M.,
Kjellstrom Tord E.,
Sharma Ram P., Robinson Marion F.
Environmental Research. 1988 46(1). p.1
A Ramsar-wetland in suburbia: wetland management in an urbanised, industrialised area
Kermode S. J.,
Heijnis H.,
Wong H.,
Zawadzki A.,
Gadd P., Permana A.
Marine and Freshwater Research. 2016 67(6). p.771
Temporal and spatial variations in iron concentrations of tropical bivalves during a dredging event
Brown Barbara E., Kumar Amal Jaya
Marine Pollution Bulletin. 1990 21(3). p.118
Use of sedimentary metals to predict metal concentrations in black mussel (Mytilus galloprovincialis) tissue and risk to human health (Sydney estuary, Australia)
Birch G. F., Apostolatos C.
Environmental Science and Pollution Research. 2013 20(8). p.5481
Distribution of heavy metals in prawns from Northern Territory, Australia
Peerzada N.,
Nojok M., Lee C.
Marine Pollution Bulletin. 1992 24(8). p.416
Metal-contaminated resuspended sediment particles are a minor metal-uptake route for the Sydney rock oyster (Saccostrea glomerata) — A mesocosm study, Sydney Harbour estuary, Australia
Lee J.-H.,
Birch G.F., Simpson S.L.
Marine Pollution Bulletin. 2016 104(1-2). p.190
Trace metals in bivalve molluscs from Thailand
Phillips David J.H., Muttarasin Kosol
Marine Environmental Research. 1985 15(3). p.215
Concentrations of heavy metals in oysters from the coastline of Northern Territory, Australia
Peerzada N.,
Padovan A., Guinea M.
Environmental Monitoring and Assessment. 1993 28(2). p.101
Molluscan Shellfish Safety (2014)
Heavy Metals Analysis of the Limpet Cellana Karachiensis (Winckworth 1930) from Two Rocky Shores of the Karachi Coasts of Pakistan
ZAFAR Fatima,
BAT Levent,
MEHMOOD Sidrah, HUSSEİN Syed
International Journal of Environment and Geoinformatics. 2020 7(1). p.80
Metal survey of the marine clam Pitar morrhuana collected near a Rhode Island (USA) electroplating plant
Eisler R.,
Barry M. M.,
Lapan R. L.,
Telek G.,
Davey E. W., Soper A. E.
Marine Biology. 1978 45(4). p.311
Metals and PCB concentrations in mussels from Long Island Sound
Greig Richard A., Sennefelder George
Bulletin of Environmental Contamination and Toxicology. 1985 35(1). p.331
Compendium of Trace Metals and Marine Biota (2010)
Determining natural `background' concentrations of trace metals in oysters from New South Wales, Australia
Scanes P.R, Roach A.C
Environmental Pollution. 1999 105(3). p.437
Does oyster size matter for modelling trace metal bioaccumulation?
Richards R.G., Chaloupka M.
Science of The Total Environment. 2008 389(2-3). p.539
Biodynamics of mercury in mussel tissues as a function of exposure pathway: natural vs microplastic routes
Rivera-Hernández José R.,
Fernández Beatriz,
Santos-Echeandia Juan,
Garrido Soledad,
Morante María,
Santos Pablo, Albentosa Marina
Science of The Total Environment. 2019 674 p.412
Bioaccumulation of heavy metals by bivalves from Limski Kanal (North Adriatic Sea). II. Copper distribution between oysters, Ostrea edulis, and ambient water
Martinčić D.,
Nürnberg H.W., Branica M.
Marine Chemistry. 1986 18(2-4). p.299
Cosmopolitan biomonitors of trace metals
Rainbow Philip S., Phillips David J.H.
Marine Pollution Bulletin. 1993 26(11). p.593
Metals and co-presence of other pollutants in mussels (Perna perna) around Algoa Bay: Human consumption safety concerns
Fourie Amarein J.,
Uren Ryan C.,
Marlin Danica, Bouwman Hindrik
Marine Pollution Bulletin. 2022 185 p.114345
The use of the oyster Saccostrea glomerata as a biomonitor of trace metal contamination: intra-sample, local scale and temporal variability and its implications for biomonitoring
Robinson Wayne A.,
Maher William A.,
Krikowa Frank,
Nell John A., Hand Rosalind
Journal of Environmental Monitoring. 2005 7(3). p.208
Sediment quality guidelines for copper and zinc for filter-feeding estuarine oysters?
Birch G.F., Hogg T.D.
Environmental Pollution. 2011 159(1). p.108
Crassostrea virginica as an indicator of lead pollution
Zaroogian G. E.,
Morrison G., Heltshe J. F.
Marine Biology. 1979 52(2). p.189
Metal concentration changes in growing Pacific oysters, Crassostrea gigas, cultivated in Tasmania, Australia
Thomson J. D.
Marine Biology. 1982 67(2). p.135
Marine Pollution (1979)
EFFECT OF AGE AND TISSUE WEIGHT ON THE CADMIUM CONCENTRATION IN PACIFIC OYSTERS (CRASSOSTREA GIGAS)
RASMUSSEN ROSALEE S.,
MORRISSEY MICHAEL T., CHENEY DAN
Journal of Shellfish Research. 2007 26(1). p.173
Heavy metal concentration in oysters from Darwin Harbour
Peerzada Naseem, Dickinson Christina
Marine Pollution Bulletin. 1988 19(4). p.182
The distribution of Pb, Zn, Cd and Cu within the pulmonate mollusc Helix aspersa m�ller
Coughtrey P. J., Martin M. H.
Oecologia. 1976 23(4). p.315
Metal concentrations in waters, sediments and biota of the far south-east coast of New South Wales, Australia, with an emphasis on Sn, Cu and Zn used as marine antifoulant agents
McVay I. R.,
Maher W. A.,
Krikowa F., Ubrhien R.
Environmental Geochemistry and Health. 2019 41(3). p.1351
Simple and multiple trace metal concentrations correlations for some commercial fish from the Arabian sea
Ashraf M., Jaffar M.
Marine Pollution Bulletin. 1991 22(2). p.89
A risk assessment approach to contaminants in Port Curtis, Queensland, Australia
Jones Mary-Anne,
Stauber Jenny,
Apte Simon,
Simpson Stuart,
Vicente-Beckett Vicky,
Johnson Rod, Duivenvoorden Leo
Marine Pollution Bulletin. 2005 51(1-4). p.448
‘Oyster watch’: Monitoring trace metal and organochlorine concentrations in Sydney's coastal waters
Scanes Peter
Marine Pollution Bulletin. 1996 33(7-12). p.226
Concentrations of copper, zinc and lead in the Sydney rock oyster, Saccostrea commercialis (Iredale and Roughley) from the Georges River, New South Wales
Brown K.R., McPherson R.G.
Science of The Total Environment. 1992 126(1-2). p.27
Bioaccumulation of cadmium in marine organisms
Ray S.
Experientia. 1984 40(1). p.14
Marine Pollution (1979)
Toxicity evaluation of a complex metal mixture to the softshell clam Mya arenaria
Eisler R.
Marine Biology. 1977 43(3). p.265
The demographic consequences of growing older and bigger in oyster populations
Moore Jacob L.,
Lipcius Romuald N.,
Puckett Brandon, Schreiber Sebastian J.
Ecological Applications. 2016 26(7). p.2206
The impact of the banning of tributyltin-based antifouling paints on the Sydney rock oyster, Saccostrea commercialis
Batley G.E.,
Scammell M.S., Brockbank C.I.
Science of The Total Environment. 1992 122(3). p.301
Assessment of heavy metals contamination and its effects on oyster (Saccostrea cucullata) biometry parameters in the Asaluyeh port coasts, Persian Gulf, Iran
Delshab Hossein,
Farshchi Parvin,
Mohammadi Mehdi, Moattar Faramarz
International Journal of Environmental Studies. 2017 p.1
Copper accumulation in the bay scallop,Argopecten irradians
Zaroogian G. E., Johnson M.
Archives of Environmental Contamination and Toxicology. 1983 12(2). p.127
Reviews of Environmental Contamination and Toxicology (1991)
Heavy metals inMercenaria mercenaria and sediments from the New Bedford Harbor region of Buzzard's Bay, Massachusetts
Genest Paul E., Hatch Walter I.
Bulletin of Environmental Contamination and Toxicology. 1981 26(1). p.124
Mercury Uptake by Eastern Oysters (Crassostrea virginica) in Oyster Restoration Project of the New York Harbor
Kim M.,
Garcia A.,
Malinowski P., Park E. J.
International Journal of Environmental Science and Technology. 2017 14(10). p.2269
Combining the use of gradients and reference areas to study bioaccumulation in wild oysters in the Hunter River estuary, New South Wales, Australia
Lincoln-Smith Marcus P., Cooper Timothy F.
Marine Pollution Bulletin. 2004 48(9-10). p.873
Crassostrea virginica as an indicator of cadmium pollution
Zaroogian G. E.
Marine Biology. 1980 58(4). p.275
Heavy Metal Residues in Pacific Black DuckAnas Superciliosafrom Griffith, New South Wales
Olsen Penny D.
Emu - Austral Ornithology. 1984 84(1). p.44
Effect of size upon metal content of shellfish
Boyden C. R.
Journal of the Marine Biological Association of the United Kingdom. 1977 57(3). p.675
Trace metal contents of the pacific oyster (Crassostrea gigas) purchased from markets in Hong Kong
Cheung Y. H., Wong M. H.
Environmental Management. 1992 16(6). p.753
The effect of bis-tributyltin oxide (TBTO) and copper on the growth of juvenile Sydney rock oysters Saccostrea commercialis (Iredale and Roughley) and Pacific oysters Crassostrea gigas Thunberg
Nell John A., Chvojka Ramon
Science of The Total Environment. 1992 125 p.193
Heavy metals, TBT and DDT in the Sydney rock oyster (Saccostrea commercialis) sampled from the Hawkesbury River estuary, NSW, Australia
Hardiman Sean, Pearson Benjamin
Marine Pollution Bulletin. 1995 30(8). p.563
The uptake of lead, zinc, cadmium, and copper by the pulmonate mollusc, Helix aspersa muller, and its relevance to the monitoring of heavy metal contamination of the environment
Coughtrey P. J., Martin M. H.
Oecologia. 1977 27(1). p.65
Arsenic uptake and loss in the American oyster, Crassostrea virginica
Zaroogian G. E., Hoffman G. L.
Environmental Monitoring and Assessment. 1982 1(4). p.345
