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Alien Mediterranean mussels Mytilus galloprovincialis, Pacific oysters Crassostrea gigas and indigenous Cape mussels Choromytilus meridionalis were used as sentinel biomonitors of inorganic pollutants in Saldanha Bay, South Africa. Neutron activation analysis was used to determine the concentrations of 33 macro and microelements in the soft tissues of molluscs. The Mediterranean mussels significantly demonstrated the higher accumulation ability to S, Se and Br than the Pacific oysters, whereas the Pacific oysters - to Fe, Cu, Zn and As. The Cape mussels are more sensitive to Mn and As and the Mediterranean mussels were sensitive to Zn and Se.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
495--508
Opis fizyczny
Bibliogr. 35 poz., rys., tab.
Twórcy
autor
- Faculty of Military Science, Stellenbosch University, Victoria Street, Stellenbosch, South Africa, phone +27 21 808 9111, fax +27 21 808 3822
autor
- FLNP Sector NAA & Applied Research, Division of Nuclear Physics, Frank Laboratory of Neutron Physics, Joint Institute for Nuclear Research, Dubna, 141980, Russia
autor
- FLNP Sector NAA & Applied Research, Division of Nuclear Physics, Frank Laboratory of Neutron Physics, Joint Institute for Nuclear Research, Dubna, 141980, Russia
- Horia Hulubei National Institute for R&D in Physics and Nuclear Engineering, 30 Reactorului Str. MG-6, Bucharest - Magurele, Romania
autor
- FLNP Sector NAA & Applied Research, Division of Nuclear Physics, Frank Laboratory of Neutron Physics, Joint Institute for Nuclear Research, Dubna, 141980, Russia
autor
- FLNP Sector NAA & Applied Research, Division of Nuclear Physics, Frank Laboratory of Neutron Physics, Joint Institute for Nuclear Research, Dubna, 141980, Russia
Bibliografia
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- [3] Dallarés S, Carrasco N, Álvarez-Muñoz D, Rambla-Alegre M, Solé M. Multibiomarker biomonitoring approach using three bivalve species in the Ebro Delta (Catalonia, Spain). Environ Sci Pollut Res. 2018;25(36):36745-58. DOI: 10.1007/s11356-018-3614-6.
- [4] Goldberg ED. The mussel watch - A first step in global marine monitoring. Marine Pollut Bull. 1975;6(7):111. DOI: 10.1016/0025-326x(75)90271-4.
- [5] Sparks C, Odendaal J, Snyman R. An analysis of historical Mussel Watch Programme data from the west coast of the Cape Peninsula, Cape Town. Marine Pollut Bull. 2014;87(1-2):374-80. DOI: 10.1016/j.marpolbul.2014.07.047.
- [6] Buzzi NS, Marcovecchio JE. Heavy metal concentrations in sediments and in mussels from Argentinean coastal environments, South America. Environ Earth Sci. 2018;77(8):321. DOI: 10.1007/s12665-018-7496-1.
- [7] Clark BM, Massie V, Hutchings K, Brown E, Biccard A, Laird M, et al. The State of Saldanha Bay and Langebaan Lagoon 2017. Technical Report. Report No. AEC 1741/1 prepared by Anchor Environmental Consultants (Pty) Ltd for the Saldanha Bay Water Quality Forum Trust. Available from: http://www.anchorenvironmental.co.za/node/339.
- [8] Degger N. The application of passive artificial devices for monitoring of metallic and organic pollutants along the South African coastline. PhD Thesis. Johannesburg: University of Johannesburg; 2010. Available from: ujcontent.uj.ac.za.
- [9] Stankovic S, Jovic M. Health risks of heavy metals in the mediterranean mussels as seafood. Environ Chem Lett. 2011;10(2):119-30. DOI: 10.1007/s10311-011-0343-1.
- [10] Robinson TB, Peters K, Brooker B. Coastal invasions: the South African context. In: Biological Invasions in South Africa. Cham: Springer; 2020: 229-47. DOI: 10.1007/978-3-030-32394-3_9.
- [11] Zardi GI, McQuaid CD, Jacinto R, Lourenço CR, Serrão EA, Nicastro KR. Re-assessing the origins of the invasive mussel Mytilus galloprovincialis in southern Africa. Marine Freshwater Res. 2018;69(4):607-13. DOI: 10.1071/mf17132.
- [12] Firth DC. Temporal and inter-species variations in the proximate and contaminant compositions of farmed mussels, Choromytilus meridionalis and Mytilus galloprovincialis, from Saldanha Bay, South Africa. PhD Thesis. Stellenbosch: Stellenbosch University; 2018. Available from: http://scholar.sun.ac.za/handle/10019.1/103907.
- [13] Pavlov DF, Bezuidenhout J, Frontasyeva MV, Goryainova ZI. Differences in trace element content between non-indigenous farmed and invasive bivalve mollusks of the South African Coast. Am J Analyt Chem. 2015;6(11):886. DOI: 10.4236/ajac.2015.611084.
- [14] Bezuidenhout J, Dames N, Botha A, Frontasyeva MV, Goryainova ZI, Pavlov D. Trace elements in mediterranean mussels mytilus galloprovincialis from the South African west coast. Ecoll Chem Eng S. 2015;22(4):489-98. DOI: 10.1515/eces-2015-0028.
- [15] Pavlov SS, Dmitriev AY, Frontasyeva MV. Automation system for neutron activation analysis at the reactor IBR-2, Frank Laboratory of neutron physics, Joint Institute for Nuclear Research, Dubna, Russia. J Radioanal Nuclear Chem. 2016;309(1):27-38. DOI: 10.1007/s10967-016-4864-8.
- [16] Frontasyeva MV. Neutron activation analysis in the life sciences. Phys Particles Nuclei. 2011;42(2):332-78. DOI: 10.1134/s1063779611020043.
- [17] Hecke TV. Power study of Anova versus Kruskal-Wallis test. J Statistics Manage Systems. 2012;15(2-3):241-7. DOI: 10.1080/09720510.2012.10701623.
- [18] Donrovich SW, Douda K, Plechingerová V, Rylková K, Horký P, Slavík O. Invasive Chinese pond mussel Sinanodonta woodiana threatens native mussel reproduction by inducing cross-resistance of host fish. Aquatic Conservation: Marine Freshwater Ecosystems. 2017;27(6):1325-33. DOI: 10.1002/aqc.2759.
- [19] Watling HR, Watling RJ. Trace metals in Choromytilus meridionalis. Marine Pollut Bull. 1976;7(5):91-4. DOI: 10.1016/0025-326x(76)90149-1.
- [20] Eisler R. Molluscs. Compendium of Trace Metals and Marine Biota. 1st ed. Amsterdam: Elsevier; 2010: 143-397. DOI: 10.1016/b978-0-444-53439-2.00006-0.
- [21] Dekov VM, Darakchieva VY, Billström K, Garbe-Schönberg CD, Kamenov GD, Gallinari M, et al. Element enrichment and provenance of the detrital component in Holocene sediments from the western Black Sea. Oceanologia. 2020;62(2):139-63. DOI: 10.1016/j.oceano.2019.10.001.
- [22] Smrzka D, Zwicker J, Bach W, Feng D, Himmler T, Chen D, et al. The behavior of trace elements in seawater, sedimentary pore water, and their incorporation into carbonate minerals: A review. Facies. 2019;65(4):41. DOI: 10.1007/s10347-019-0581-4.
- [23] Cabrita MT, Brito P, Caçador I, Duarte B. Impacts of phytoplankton blooms on trace metal recycling and bioavailability during dredging events in the Sado estuary (Portugal). Marine Environ Res. 2020;153:104837. DOI: 10.1016/j.marenvres.2019.104837.
- [24] Wang F, Zhou Y, Wang P, Xu S, Liu P. Potential role of scallops Argopecten irradians in deposition of particulate nutrient and trace elements in a eutrophic estuary, northern China. Aquaculture Environ Interactions. 2018;10:135-47. DOI: 10.3354/aei00258.
- [25] Sami M, K Ibrahim N, A Mohammad D. Impact of the size of commercial bivalves on bioaccumulation and depuration of heavy metals. Egypt J Aquatic Biol Fisheries. 2020;24(7-SI):553-73. DOI: 10.21608/ejabf.2020.122312.
- [26] Azizi G, Akodad M, Baghour M, Layachi M, Moumen A. The use of Mytilus spp. mussels as bioindicators of heavy metal pollution in the coastal environment. A review. J Mater Environ Sci. 2018;9(4):1170-81. Available from: https://www.jmaterenvironsci.com/Journal/vol9-4.html.
- [27] Maanan M. Heavy metal concentrations in marine molluscs from the Moroccan coastal region. Environ Pollut. 2008;153(1):176-83. DOI: 10.1016/j.envpol.2007.07.024.
- [28] Afandi MF, Widowati I, Ambariyanto A. Zinc content in water, sediment, and soft tissue of green mussel Perna viridis in Demak, Indonesia. Aquaculture, Aquarium, Conservation Legislation. 2019;1 AACL Bioflux 2(1):201-8. Available from: http://www.bioflux.com.ro/aacl.
- [29] Tenjing SY, Narasimhaiah N, Hemachandra, Ciabotti C. Seasonal concentrations of heavy metals and environmental parameters with reference to the Indian largest wedge clam, Donax scortum (Linnaeus, 1758). Indian J Geo Marine Sci. 2020:49(10):1627-1635. Available from: http://nopr.niscair.res.in/handle/123456789/55638.
- [30] Przytarska JE, Sokołowski A, Wołowicz M, Hummel H, Jansen J. Comparison of trace metal bioavailabilities in European coastal waters using mussels from Mytilus edulis complex as biomonitors. Environ Monitoring Assess. 2010;166(1-4):461-76. DOI: 10.1007/s10661-009-1015-5.
- [31] Emanuel MP, Pillay D, van der Merwe M, Branch GM. Interactive effects of pH and temperature on native and alien mussels from the west coast of South Africa. Afr J Marine Sci. 2020;42(1):1-2. DOI: 10.2989/1814232x.2019.1699162.
- [32] Branch GM, Steffani CN. Can we predict the effects of alien species? A case-history of the invasion of South Africa by Mytilus galloprovincialis (Lamarck). J Experimental Marine Biol Ecol. 2004;300(1-2):189-215. DOI: 10.1016/j.jembe.2003.12.007.
- [33] van Erkom Schurink C, Griffiths CL. A comparison of reproductive cycles and reproductive output in four southern African mussel species. Marine Ecol Progress Ser. 1991:123-34. DOI: 10.3354/meps076123.
- [34] Skein L, Alexander M, Robinson T. Contrasting invasion patterns in intertidal and subtidal mussel communities. Afr Zoology. 2018;53(1):47-52. DOI: 10.1080/15627020.2018.1448720.
- [35] Lindberg C, Griffiths CL, Anderson RJ. Colonisation of South African kelp-bed canopies by the alien mussel Mytilus galloprovincialis: extent and implications of a novel bioinvasion. Afr J Marine Sci. 2020;42(2):167-76. DOI: 10.2989/1814232x.2020.1754908.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a2de81ac-a9a8-49b5-819a-451d0208bd65