Benthic communities and bioturbation history of estuarine and coastal systems: effects of hypoxia and anoxia

For this study, spatial and historical patterns in organism--sediment interactions and bioturbation were evaluated for three coastal and estuarine systems: Chesapeake Bay, Long Island Sound (USA) and parts of the Baltic Sea. Observed patterns are used to evaluate the hypothesis that degradation of b...

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Main Authors: Schaffner, L.C. (Virginia Inst. of Marine Science, Gloucester Point, VA (USA). Div. of Geological and Benthic Oceanography), Jonsson, P, Diaz, R.J, Rosenberg, R, Gapcynski, P
Format: Conference Proceeding
Language:English
Subjects:
AGUAS COSTERAS
AMBIENTE BENTICO
AMBIENTE DE AGUA SALOBRE
Animal and plant ecology
Animal, plant and microbial ecology
ANOXIA
ANOXIE
BENTHIC ENVIRONMENT
Biological and medical sciences
Brackish
BRACKISHWATER ENVIRONMENT
COASTAL WATERS
EAUX COTIERES
EUTROFIZACION
EUTROPHICATION
EUTROPHISATION
Fundamental and applied biological sciences. Psychology
Marine
MILIEU BENTHIQUE
MILIEU SAUMATRE
Sea water ecosystems
Synecology
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Summary:For this study, spatial and historical patterns in organism--sediment interactions and bioturbation were evaluated for three coastal and estuarine systems: Chesapeake Bay, Long Island Sound (USA) and parts of the Baltic Sea. Observed patterns are used to evaluate the hypothesis that degradation of benthic community functioning can be attributed to increasing eutrophication in these systems. For all areas studied, gradients in bioturbation in near-surface sediments (0-20 cm) were coincident with apparent gradients in oxygen stress. In areas not influenced by severe oxygen stress, large infaunal organisms and bioturbated sediments predominated. The observed patterns of bioturbation in each system contrast with patterns expected on the basis of physical sediment reworking due to wave and tidal action (i.e. increasing dominance of bioturbation with increasing water depth). Long sediment cores from each area suggest that laminated sediments are a natural phenomenon in some areas, especially deeper channels or basins, but that conditions favoring bioturbation have fluctuated through time in some shallower regions.
ISSN:0048-9697
1879-1026
DOI:10.1016/B978-0-444-89990-3.50087-0