Title of article
Association of polychlorinated biphenyls (PCBs) with live algae and total lipids in rivers—a field-based approach
Author/Authors
Sharon A. FitzgeraldT، نويسنده , , Jeffrey J. Steuer، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2006
Pages
15
From page
60
To page
74
Abstract
The association of PCBs and live algal cells in rivers was studied at four locations during four seasons in two Wisconsin
rivers. Positive relations between particle-associated PCBs and both chlorophyll-a and algal carbon concentrations indicated
that live algal cells were a significant sorption phase for dissolved PCBs. Large Pennate diatoms (Navicula, Synedra,
Pinnularia, Diatoma, and Cocconeis), or more rarely, Euglenoids (Trachelomonas sp.), dominated most sample assemblages
on an algal carbon basis. These assemblages made up the highest percentage of total SOC during spring (average=50%) and
lowest during summer (average=15%). At the three impounded sites, most individual PCB congeners were relatively enriched
in samples characterized by: (1) high concentrations of algal carbon (as a percent of SOC), (2) algal assemblages dominated (or
co-dominated) by Euglenoids, and (3) high concentrations of total lipids. Despite relatively higher masses of sorbed PCBs in the
most lipid-rich samples, there was no robust correlation between total lipid content and particle-associated PCBs when
aggregating all samples from the study. A possible explanation is that PCBs are associated with other structural components in
live algae and (or) departure from chemical equilibrium in the river due to algal growth kinetics. A kinetic uptake model was
used to calculate the mass of PCBs associated with the total organic carbon content of live algae. Based on this model, PCBs
were enriched in algal cells during bloom seasons (spring and fall) compared to non-bloom seasons (summer and winter).
Further, although individual PCB congener partition coefficients (log) to live algal cells (range=5.3–6.4) overlapped to those for
detritus (range=3.6–7.4), PCBs tended to be enriched in detrital carbon pools during non-bloom conditions. The larger range of
estimated PCB partition coefficients for detritus likely reflects the more heterogeneous nature of this material compared to live
algal cells.
Keywords
Polychlorinated biphenyls , Live algae , detritus , Partition coefficients , rivers , Total lipids
Journal title
Science of the Total Environment
Serial Year
2006
Journal title
Science of the Total Environment
Record number
985550
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