Characterication of metals in hemolymph and tissues of the Antarctic bivalve Laternula elliptica

A high input of lithogenic sediment from glaciers was assumed to be responsible for high Fe and Mn contents in the Antarctic soft shell clam Laternula elliptica at King George Island. Indeed, withdrawal experiments indicated a strong influence of environmental Fe concentrations on Fe contents in biv...

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Bibliographic Details
Main Authors: Poigner, Harald, Monien, Patrick, Monien, Donata, Kriews, Michael, Brumsack, Hans-Jürgen, Wilhelms-Dick, Dorothee, Abele, Doris
Format: Dataset
Language:English
Published: PANGAEA 2013
Subjects:
Aluminium
gills tissue
Barium
haemolymph fluid and hemocytes
Biological sample
BIOS
Cadmium
digestive gland tissue
Calcium
gill tissue
mantle tissue
Carlini/Jubany Station
Chromium
Cobalt
Copper
DATE/TIME
Depth
bathymetric
sediment/rock
Dry weight
valves
Fresh weight
complete
Hemocystes
ICP-OES
Inductively coupled plasma - optical emission spectrometry
IMCOAST/IMCONet
Impact of climate induced glacier melt on marine coastal systems
Antarctica
Inductively coupled plasma - mass spectrometry (ICP-MS)
Iron
Antarc*
Antarctic
King George Island
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.776600
https://doi.org/10.1594/PANGAEA.776600
Description
Summary:A high input of lithogenic sediment from glaciers was assumed to be responsible for high Fe and Mn contents in the Antarctic soft shell clam Laternula elliptica at King George Island. Indeed, withdrawal experiments indicated a strong influence of environmental Fe concentrations on Fe contents in bivalve hemolymph, but no significant differences in hemolymph and tissue concentrations were found among two sites of high and lower input of lithogenic debris. Comparing Fe and Mn concentrations of porewater, bottom water, and hemolymph from sampling sites, Mn appears to be assimilated as dissolved species, whereas Fe apparently precipitates as ferrihydrite within the oxic sediment or bottom water layer prior to assimilation by the bivalve. Hence, we attribute the high variability of Fe and Mn accumulation in tissues of L. elliptica around Antarctica to differences in the geochemical environment of the sediment and the resulting Fe and Mn flux across the benthic boundary.

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