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  • 1
    Electronic Resource
    Electronic Resource
    Sublethal effects of cadmium on arm regeneration in the burrowing brittlestar, Microphiopholis gracillima (1996)
    Springer
    Ecotoxicology 5 (1996), S. 115-133 
    Details
    ISSN: 1573-3017
    Keywords: sediment toxicity ; cadmium ; ophiuroidea ; regeneration ; sublethal effects
    Source: Springer Online Journal Archives 1860-2000
    Topics: Energy, Environment Protection, Nuclear Power Engineering
    Notes: To assess the sublethal effects of sediment-bound cadmium on arm regeneration of Microphiopholis gracillima, a burrowing brittlestar, experiments were conducted to quantify the tissue and morphology of regenerating arms, the uptake of cadmium in various tissues and the effect M. gracillima had on the cadmium pools in muddy sediments. Regenerated arms of cadmium-exposed M. gracillima are thinner, with proportionally less soft and skeletal tissue and a greater number of developing ossicles than animals held in sediment without cadmium. Microphiopholis gracillima decreased pore water cadmium concentrations in muddy sediments. Uptake of cadmium in tissues dominated by the calcium carbonate endoskeleton was proportional to the measured sediment cadmium concentration, while concentrations in whole regenerating arms were more closely related to the pore water concentration. Both calcium and cadmium are accumulated in the early stages of arm regeneration with an apparent interaction which interferes with ossicle construction. Sediment-bound cadmium has a negative effect on the organism's recovery from sublethal tissue loss and, ultimately, its long-term survival.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00119050
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    Paper (German National Licenses)
    Fulltext
  • 2
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    Oceanographic processes and the preservation of sedimentary structure in Eckernförde Bay, Baltic Sea (1998)
    Elsevier
    In:  Continental Shelf Research, 18 (14-15). pp. 1689-1714.
    Details
    Publication Date: 2020-07-28
    Description: The sedimentary structure preserved within the seabed of Eckernförde Bay was investigated together with the oceanographic processes influencing that structure. A series of four cruises were undertaken during winter to summer conditions. An instrumented tetrapod was deployed to monitor boundary-layer processes controlling sediment transport. Coring devices recovered sediment to examine the benthic biological community, to measure rates of sedimentological processes, and to document sedimentary structure. During fair-weather conditions, the dominant mechanism for supplying sediment to Eckern-förde Bay is import from the Baltic Sea associated with internal waves. Earlier work has documented the erosion of shallow deposits during storms and the transport of this material to deeper sites in the Bay. Bottom shear stresses exerted in the Central Basin during all conditions are below critical stresses, which makes the Bay an excellent sediment trap. Sediment from both distant and local origins is reworked in the Central Basin of Eckernförde Bay by a pioneering community of benthic organisms, which is maintained by seasonal hypoxia/anoxia. The population is characterized by few species, small body sizes, young ages, and limited depth of mixing (∼1 cm). However, the community effectively pelletizes most of the sediment reaching the seabed. The very restricted thickness for the surface mixed layer (∼1 cm) and the substantial sediment accumulation rates (mean of 0.39 cm yr-1 for the Central Basin) give sediment a short exposure to modern oceanographic processes before being buried. These conditions allow for partial preservation of sediment deposited as storm layers, thus forming laminations of unpelletized sediment. These laminations separate thick beds of pelletized sediment deposited during fair weather or as thin storm layers (i.e., 〈1 cm thick). In general, the oceanographic processes in Eckernförde Bay allow for preservation of a high-resolution record of environmental processes. For example, changes recorded for the past half century indicate that slower sediment accumulation rates previously characterized some portions of the study area.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.1016/S0278-4343(98)00054-5
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    OceanRep: Article in a Scientific Journal - peer-reviewed
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