B. Garban et al., The role of phytoplankton in pollutant transfer processes in rivers. Example of River Marne (France), BIOGEOCHEMI, 44(1), 1999, pp. 1-27
The impact of the spring phytoplanktonic blooms on the partition of nutrien
ts and metals between the dissolved and particulate phases was studied over
two years in the river Marne, upstream of its confluence with the river Se
ine. Particular attention was devoted to copper and manganese, determined i
n the dissolved phase (< 0.22 mu m), subdivided into the colloidal phase an
d the 'truly dissolved' phase (<10 KDaltons) obtained by tangential ultrafi
ltration. During the algal growth peaks, a sharp reduction of nutrients was
observed in the dissolved phase: in 1994, consumption of 70% of silica, 50
% of ammonium and 40% of soluble phosphorus present before the phytoplankto
nic bloom.
The water concentration peaks of suspended matter (SM) and of particulate m
etals, phosphorus and carbon coincide with those of chlorophyll. The highly
significant correlations between pH and chlorophyll (r = 0.92, P < 0.001),
pH and SM (r = 0.97, P < 0.001) and chlorophyll and SM (r = 0.93, P < 0.00
1) confirmed the phytoplanktonic nature of SM and the determining role of p
H in the partition of metals, its increase being responsible for the coprec
ipitation of metal. As a corollary to the increase in the particulate phase
, a decrease of 55% was observed for copper and manganese in the 'truly dis
solved' phase compared to the concentrations outside bloom periods.
The importance of the colloidal fraction was also shown. During the strong
algal growth periods, the proportion of 'colloidal metal' in the dissolved
phase (< 0.22 mu m) reached 60% and the increase in the colloidal fraction
was 4 times stronger for copper than for manganese. While manganese seemed
to be more associated with macroparticles, copper was more associated with
fine colloidal biological particles intrinsic to the phytoplankton.