1 research outputs found
Modeling the Impacts of Multiple Environmental Stress Factors on Estuarine Copepod Populations
Many studies have focused on natural
stress factors that shape
the spatial and temporal distribution of calanoid copepods, but bioassays
have shown that copepods are also sensitive to a broad range of contaminants.
Although both anthropogenic and natural stress factors are obviously
at play in natural copepod communities, most studies consider only
one or the other. In the present investigation, we modeled the combined
impact of both anthropogenic and natural stress factors on copepod
populations. The model was applied to estimate <i>Eurytemora
affinis</i> densities in the contaminated Scheldt estuary and
the relatively uncontaminated Darß-Zingst estuary in relation
to temperature, salinity, chlorophyll <i>a</i>, and sediment
concentrations of cadmium, copper, and zinc. The results indicated
that temperature was largely responsible for seasonal fluctuations
of <i>E. affinis</i> densities. Our model results further
suggested that exposure to zinc and copper was largely responsible
for the reduced population densities in the contaminated estuary.
The model provides a consistent framework for integrating and quantifying
the impacts of multiple anthropogenic and natural stress factors on
copepod populations. It facilitates the extrapolation of laboratory
experiments to ecologically relevant end points pertaining to population
viability