Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus.

It is well documented that marine oysters are net bioaccumulators of trace metals and they can be employed as biomonitors of time-integrated measurements of bioavailable metal fractions over their lifetime. In this study, the Malaysian mangrove flat tree oyster Isognomon alatus collected from the es...

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Main Authors: Yap, Chee Kong, Azmizan, A. R., Hanif, M. S.
Format: Article
Language:English
English
Published: Springer Link 2011
Online Access:http://psasir.upm.edu.my/id/eprint/24824/1/Biomonitoring%20of%20trace%20metals%20%28Fe%2C%20Cu%20and%20Ni%29%20in%20the%20mangrove%20area%20of%20Peninsular%20Malaysia%2C%20using%20different%20soft%20tissues%20of%20flat-tree%20oyster%20Isognomon%20alatus..pdf
http://psasir.upm.edu.my/id/eprint/24824/
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spelling my.upm.eprints.248242015-10-27T03:41:11Z http://psasir.upm.edu.my/id/eprint/24824/ Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus. Yap, Chee Kong Azmizan, A. R. Hanif, M. S. It is well documented that marine oysters are net bioaccumulators of trace metals and they can be employed as biomonitors of time-integrated measurements of bioavailable metal fractions over their lifetime. In this study, the Malaysian mangrove flat tree oyster Isognomon alatus collected from the estuaries of Lukut River (five sites), Sepang Besar River (one site), and one metal-polluted site at Kg. Pasir Puteh were dissected into muscle, mantle plus gills, byssus, and remaining soft tissues. All the four different soft tissues were analyzed for Fe, Cu, and Ni. Significant spatial differences in the accumulated metal concentrations of the oysters were found between sampling sites, and these could be attributed to anthropogenic inputs including discharges of shrimp ponds (Lukut), animal husbandry (Sepang Besar), sewage, shipping, and industrial effluents (Kg. Pasir Puteh). For Fe, the tissue distribution followed: byssus > mantle plus gill >muscle > remaining soft tissues, while for Cu and Ni, both followed byssus > remaining soft tissues > mantle plus gill > muscle. This indicated that byssus could act as an excretion route for the metals. Based on a correlation analysis between oyster tissues and sediments, selected tissues of I. alatus were shown to be good biomonitors of Ni and Cu contamination, while high regulative capacity of Fe in the oyster tissues could hardly reflect the actual Fe levels in the surroundings. However, the clustering patterns based on metal levels in the four different soft tissues were not in agreement with those based on the geochemical fractions of sediment data. This phenomenon which was due to the metal contamination might not necessarily create high bioavailabilities of metals to the biomonitor I. alatus, which might involve differences in uptake, excretion, and sequestration of metals. Similarly to the Mussel Watch approach, this study points to the very potential use of the different soft tissues of I. alatus as biomonitors for regular biomonitoring in the mangrove area of Peninsular Malaysia. Springer Link 2011-06 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/24824/1/Biomonitoring%20of%20trace%20metals%20%28Fe%2C%20Cu%20and%20Ni%29%20in%20the%20mangrove%20area%20of%20Peninsular%20Malaysia%2C%20using%20different%20soft%20tissues%20of%20flat-tree%20oyster%20Isognomon%20alatus..pdf Yap, Chee Kong and Azmizan, A. R. and Hanif, M. S. (2011) Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus. Water, Air and Soil Pollution, 218 (1). pp. 19-36. ISSN 0049-6979 http://link.springer.com/ 10.1007/s11270-010-0621-8 English
institution Universiti Putra Malaysia
building UPM Library
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continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
English
description It is well documented that marine oysters are net bioaccumulators of trace metals and they can be employed as biomonitors of time-integrated measurements of bioavailable metal fractions over their lifetime. In this study, the Malaysian mangrove flat tree oyster Isognomon alatus collected from the estuaries of Lukut River (five sites), Sepang Besar River (one site), and one metal-polluted site at Kg. Pasir Puteh were dissected into muscle, mantle plus gills, byssus, and remaining soft tissues. All the four different soft tissues were analyzed for Fe, Cu, and Ni. Significant spatial differences in the accumulated metal concentrations of the oysters were found between sampling sites, and these could be attributed to anthropogenic inputs including discharges of shrimp ponds (Lukut), animal husbandry (Sepang Besar), sewage, shipping, and industrial effluents (Kg. Pasir Puteh). For Fe, the tissue distribution followed: byssus > mantle plus gill >muscle > remaining soft tissues, while for Cu and Ni, both followed byssus > remaining soft tissues > mantle plus gill > muscle. This indicated that byssus could act as an excretion route for the metals. Based on a correlation analysis between oyster tissues and sediments, selected tissues of I. alatus were shown to be good biomonitors of Ni and Cu contamination, while high regulative capacity of Fe in the oyster tissues could hardly reflect the actual Fe levels in the surroundings. However, the clustering patterns based on metal levels in the four different soft tissues were not in agreement with those based on the geochemical fractions of sediment data. This phenomenon which was due to the metal contamination might not necessarily create high bioavailabilities of metals to the biomonitor I. alatus, which might involve differences in uptake, excretion, and sequestration of metals. Similarly to the Mussel Watch approach, this study points to the very potential use of the different soft tissues of I. alatus as biomonitors for regular biomonitoring in the mangrove area of Peninsular Malaysia.
format Article
author Yap, Chee Kong
Azmizan, A. R.
Hanif, M. S.
spellingShingle Yap, Chee Kong
Azmizan, A. R.
Hanif, M. S.
Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus.
author_facet Yap, Chee Kong
Azmizan, A. R.
Hanif, M. S.
author_sort Yap, Chee Kong
title Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus.
title_short Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus.
title_full Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus.
title_fullStr Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus.
title_full_unstemmed Biomonitoring of trace metals (Fe, Cu and Ni) in the mangrove area of Peninsular Malaysia, using different soft tissues of flat-tree oyster Isognomon alatus.
title_sort biomonitoring of trace metals (fe, cu and ni) in the mangrove area of peninsular malaysia, using different soft tissues of flat-tree oyster isognomon alatus.
publisher Springer Link
publishDate 2011
url http://psasir.upm.edu.my/id/eprint/24824/1/Biomonitoring%20of%20trace%20metals%20%28Fe%2C%20Cu%20and%20Ni%29%20in%20the%20mangrove%20area%20of%20Peninsular%20Malaysia%2C%20using%20different%20soft%20tissues%20of%20flat-tree%20oyster%20Isognomon%20alatus..pdf
http://psasir.upm.edu.my/id/eprint/24824/
http://link.springer.com/
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