This study concerns the partitioning of metals, primarily Cd, Cu, Fe and Zn in the
tissues of the common cockle, Cerastoderma edule, from estuaries in the SW of
England and the blood cockle, Anadara granosa, from estuaries of Thailand. Cockle
and sediment samples were collected, at contaminated and uncontaminated sites, in the
Plym, Tamar and Avon estuaries and at seven estuary mouths in the Gulf of Thailand
(including the Chao Phraya). The objective was to quantify the total and available
concentrations in the sediments and to measure the concentrations of the various
molecular weight fractions of the metals associated with the body, gills, gut and foot of
the two cockle types. In addition, the study aimed to identify and distinguish the major
differences in metal handling strategies by these two organisms about which little is
known. The fractions, included high molecular weight (HMW) compounds,
metallothionein-like proteins (MTLP) and very low molecular weight compounds
(VLMW). The MTLP concentrations were measured using polarography and the
distributions of Cd, Zn, Cu and Fe among various cytosolic ligands, including MTLP,
were determined by atomic absorption spectroscopy following separation by Sephadex
G-75 size-exclusion chromatography.
Concentrations of MTLP in body, gills, gut and foot of C edule were lower than in A.
granosa and the highest MTLP level was found in the gut of A. granosa in the Chao
Phraya. Generally, metal partitioning in both cockles involved the HMW pool, with the
exception being for Zn binding to the VLMW pool in C. edule and Cd partitioning
being mostly associated with the MTLP in A granosa. For the first time, the nature of
Fe partitioning between the HMW, MTLP and VLMW pools in all organs of A granosa
are reported. In most cases the concentrations of metals in the sediments were higher in
the Devon estuaries as compared to those in the Gulf of Thailand. However, no
significant relationships between metals in sediments and metals in cockles were
observed and the induction of high MTLP concentrations in A. granosa could be due to
contaminants other than the metals measured here. The results are discussed in the
context of the use of MTLP and metal binding as indicators of environmental quality is
discussed.
Date of Award | 2007 |
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Original language | English |
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Awarding Institution | |
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Metal binding in sediments and cockles from tropical and temperate estuaries
Kavinseksan, C. (Author). 2007
Student thesis: PhD