Abstract
This paper describes the partitioning of iron, manganese, zinc, copper, cadmium, cobalt, nickel and lead between the soft tissues and the shells of the gastropod mollusc Patella aspera. Specimens of the limpet P. aspera were collected from a clean coastal marine site (CMS) and from an estuarine contaminated site (ECS) on the south coast of Portugal. Fe and Zn concentrations were significantly lower on both populations and less variable in the shells than in the soft tissues. In contrast Mn concentrations were higher in the shells than in the soft tissues at ECS. The partitioning factor (PF), defined as the ratio between the mean metal concentrations in soft tissues and in the shells, was maximum for iron and minimum for manganese. Between the soft tissues and the shells, only manganese at ECS recorded a significant relationship between metal concentrations, suggesting that the mechanism that controls the accumulation of this essential metal in both tissues was different from the others. From the obtained data, in biomonitoring sewage contamination studies, shells of P. aspera can be considered as a good indicator for Mn while the soft tissues for Zn. As copper, cadmium, nickel and cobalt concentrations were much higher in the soft tissues than in the shells (<0.1 μg g −1), this indicates that the shells were not a good indicator for these metals because they do not reflect the environmental bioavailability as do the soft tissues.
Highlights
The usefulness of molluscs as sentinel organisms in metal biomonitoring studies is widely recognized (Rainbow, 1990, 1992, 1993, 1997; Rainbow and Phillips, 1993; Langston and Spence, 1995; Brown and Depledge, 1998)
The objective of this work was to contribute to the knowledge of the partitioning of iron, manganese, zinc, copper, cadmium, cobalt, nickel and lead concentrations between the soft tissues and shells within the available size of the gastropod Patella aspera taken from a clean, coastal marine site and from a contrasting site, an estuarine contaminated environment, relating it to environmental metal bioavailability and to establish the potential of both tissues to be considered a good indicator for metal contamination
The metal concentrations in the soft tissues decreased according to the sequence: Fe>>Zn>Mn>CufCd>NifCo>Pb
Summary
The usefulness of molluscs as sentinel organisms in metal biomonitoring studies is widely recognized (Rainbow, 1990, 1992, 1993, 1997; Rainbow and Phillips, 1993; Langston and Spence, 1995; Brown and Depledge, 1998). Metals in the soft tissues of marine mollusc has been studied intensively there are only a few data available concerning metals in the shells (Carriker et al, 1980, 1991; Brix and Lyngby, 1985; Bourgoin, 1990; Lingard et al, 1992; Foster and Chacko, 1995; Watson et al, 1995; Prakash et al, 1996; Foster et al, 1997; Price and Pearce, 1997; Giusti et al, 1999; Richardson et al, 2001) Most of these works have been directed either to the soft tissues or to the shells but very few have concurrently addressed trace metal concentrations in both tissues. Due to this fact some authors when considering the metal concentrations in the soft tissues of marine molluscs, to avoid seasonal variations, prefer to correlate them with shell weight, using metal/shell weight indices (Soto et al, 1995, 1997)
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