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Factors affecting the flux of arsenic through the mussel Mytilus galloprovincialis

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Abstract

Radiotracer experiments were designed to study the effects of certain environmental and biological factors on arsenic accumulation and elimination processes in the Mediterranean mussel Mytilus galloprovincialis. Arsenic (as arsenate) uptake increased with increasing arsenic concentration in the water; however, the response was not proportional, indicating that accumulation was partially suppressed at higher external arsenic concentrations. In general, approximately 80% of the 74As taken up was associated with the soft parts, with small mussels concentrating 74As to a greater degree than larger individuals. The highest 74As concentrations were recorded in the byssus and the digestive gland. Increased temperature enhanced both arsenic uptake and loss. Mussels in sea water at 19‰ S accumulated approximately three times more 74As than those held at 38‰ S. Arsenic loss was much less affected by salinity, with only a tendency for greater arsenic retention noted at lower salinities. Studies carried out in the laboratory and in situ revealed that arsenic turnover was significantly more rapid in actively growing individuals living under natural conditions. Arsenic-74 loss from the in situ group was essentially biphasic, with biological half-times of approximately 3 and 32 days for the fast and slow compartments, respectively. The active secretion of arsenic in the byssal threads contributed to the total elimination of the element from the mussels.

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Authors and Affiliations

  1. International Laboratory of Marine Radioactivity, Musée Océanographique, Principality of Monaco

    M. Y. Ünlü & S. W. Fowler

  2. Cekmece Nuclear Research Center, Airport, P.O. Box 1, Istanbul, Turkey

    M. Y. Ünlü

Authors
  1. M. Y. Ünlü
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  2. S. W. Fowler
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Communicated by J.M. Pérès, Marseille

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Ünlü, M.Y., Fowler, S.W. Factors affecting the flux of arsenic through the mussel Mytilus galloprovincialis . Mar. Biol. 51, 209–219 (1979). https://doi.org/10.1007/BF00386800

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