Bioavailability of inorganic and methylmercury to a marine deposit-feeding polychaete

Wang, W X; Stupakoff, I; Gagnon, C; Fisher, N S

doi:10.1021/es971034i

Title: Bioavailability of inorganic and methylmercury to a marine deposit-feeding polychaete

Journal Article · Tue Sep 01 00:00:00 EDT 1998 · Environmental Science and Technology

DOI:https://doi.org/10.1021/es971034i· OSTI ID:655398

Wang, W X; Stupakoff, I; Gagnon, C; Fisher, N S ^[1]

State Univ. of New York, Stony Brook, NY (United States). Marine Sciences Research Center

The authors measured the assimilation efficiencies (AEs) from various types of sediments and the uptake rate constants from the dissolved phase of inorganic mercury (Hg(II)) and methylmercury (CH{sub 3}Hg(II)) in the marine deposit-feeding polychaete Nereis succinea. AEs of Hg(II) ranged between 7 and 30% and were unaffected by sediment composition, whereas AEs of CH{sub 3}Hg(II) ranged between 43 and 83% and were strongly affected by sediment composition. Sediment grain size had no apparent effect on Hg(II) and Ch{sub 3}Hg(II) assimilation. AEs for Hg(II) associated with anoxic sediment were slightly lower than with oxic sediment, whereas CH{sub 3}Hg(II) displayed comparable AEs for both oxic and anoxic sediment. Dissolved uptake rate constants of CH{sub 3}Hg(II) were 2.2 times those of Hg(II). A bioenergetic-based kinetic model was used to separate the pathways (solute vs sediment) and sources [Hg(II) vs CH{sub 3}Hg(II)] of Hg accumulation in N. succinea. The model predicted that, under conditions typical of coastal sediment environments, CH{sub 3}Hg(II) accumulation contributes about 5--17% of total Hg accumulation in polychaetes. Most of the Hg(II) (>70%) accumulation is predicted to derive from sediment ingestion, whereas for CH{sub 3}Hg(II) the relative importance of dissolved vs sediment ingestion depends greatly on its partition coefficient for sediments. Uptake from the dissolved phase and sediment ingestion can be equally important for CH{sub 3}Hg(II) accumulation in N. succinea.

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OSTI ID:: 655398

Journal Information:: Environmental Science and Technology, Vol. 32, Issue 17; Other Information: PBD: 1 Sep 1998

Country of Publication:: United States

Language:: English

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Related Subjects

54 ENVIRONMENTAL SCIENCES
56 BIOLOGY AND MEDICINE
APPLIED STUDIES
BIOLOGICAL AVAILABILITY
MERCURY
METHYLMERCURY
SEAS
ANNELIDS
WATER POLLUTION
SEDIMENTS
BIOLOGICAL ACCUMULATION
BIOLOGICAL INDICATORS

Title: Bioavailability of inorganic and methylmercury to a marine deposit-feeding polychaete

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