Falling snow acts as an efficient scavenger of contaminants from the atmosphere and, accumulating on the ground surface, behaves as a temporary storage reservoir; during snowaging and metamorphosis, contaminants may concentrate and be subject to pulsed release during intense snow melt events. In high-mountain areas, firn and ice play a similar role. The consequent concentration peaks in surfacewaters can pose a risk to high-altitude ecosystems, since snow and ice melt often coincide with periods of intense biological activity. In such situations, the role of dynamic models can be crucialwhen assessing environmental behavior of contaminants and their accumulation patterns in aquatic organisms. In the present work, a dynamic fatemodeling approach was combined to a hydrological module capable of estimating water discharge and snow/ice melt contributions on an hourly basis, starting from hourly air temperatures. The model was applied to the case study of the Frodolfo glacierfed stream (Italian Alps), for which concentrations of a number of persistent organic pollutants (POPs), such as polychlorinated biphenyl (PCBs) and p,p′-dichlorodiphenyldichloroethylene (p,p′-DDE) in stream water and four macroinvertebrate groups were available. Considering the uncertainties in input data, results showed a satisfying agreement for both water and organism concentrations. This study showed the model adequacy for the estimation of pollutant concentrations in surface waters and bioaccumulation in aquatic organisms, as well as its possible role in assessing the consequences of climate change on the cycle of POPs.

Evaluating the temporal variability of concentrations of POPs in a glacier-fed stream food chain using a combined modeling approach

MORSELLI, MELISSA;Semplice, Matteo;VILLA, SARA;DI GUARDO, ANTONIO
2014-01-01

Abstract

Falling snow acts as an efficient scavenger of contaminants from the atmosphere and, accumulating on the ground surface, behaves as a temporary storage reservoir; during snowaging and metamorphosis, contaminants may concentrate and be subject to pulsed release during intense snow melt events. In high-mountain areas, firn and ice play a similar role. The consequent concentration peaks in surfacewaters can pose a risk to high-altitude ecosystems, since snow and ice melt often coincide with periods of intense biological activity. In such situations, the role of dynamic models can be crucialwhen assessing environmental behavior of contaminants and their accumulation patterns in aquatic organisms. In the present work, a dynamic fatemodeling approach was combined to a hydrological module capable of estimating water discharge and snow/ice melt contributions on an hourly basis, starting from hourly air temperatures. The model was applied to the case study of the Frodolfo glacierfed stream (Italian Alps), for which concentrations of a number of persistent organic pollutants (POPs), such as polychlorinated biphenyl (PCBs) and p,p′-dichlorodiphenyldichloroethylene (p,p′-DDE) in stream water and four macroinvertebrate groups were available. Considering the uncertainties in input data, results showed a satisfying agreement for both water and organism concentrations. This study showed the model adequacy for the estimation of pollutant concentrations in surface waters and bioaccumulation in aquatic organisms, as well as its possible role in assessing the consequences of climate change on the cycle of POPs.
2014
www.elsevier.com/locate/scitotenv
DDE; EcoDyna model; Exposure; Macroinvertebrates; PCBs; Snow; Ice Cover; Pesticides; Polychlorinated Biphenyls; Rivers; Water Pollutants, Chemical; Water Pollution, Chemical; Environmental Monitoring; Food Chain; Models, Chemical; Environmental Chemistry; Pollution; Waste Management and Disposal; Environmental Engineering
Morselli, Melissa; Semplice, Matteo; Villa, Sara; DI GUARDO, Antonio
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2028046
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