Baseline water quality and macrophyte assemblages in Pampean streams: a regional approach.

Streams of the pampas region (central Argentina) are characterized by the lack of riparian forests and by low current velocities, and receive a large amount of industrial and domestic effluents. Intensive agriculture in the region has greatly increased during the last years; nevertheless, regional studies to determine baseline conditions are not available. Here, we characterized pampean streams considering physico-chemical water features and the composition of macrophyte communities, and we established if the regions proposed by an early hydrological regionalization show differentiated water chemistry and macrophyte assemblages. Forty-one streams were sampled in autumn, spring and summer. Streams were characterized by alkaline waters, with high conductivities and dissolved oxygen concentrations, and they can be classified as eutrophic. A good discrimination among regions was achieved based on streamwater features in all seasons; variables that most contribute to the discrimination were related to pH, eutrophication, and conservative ions. Regional differences may be due to variations in water availability, parent material, and land use practices. The aquatic plant communities reflected the eutrophic state of waters, but macrophyte composition was not useful to differentiate among regions because it is not affected by differences in water chemistry. Macrophyte species grouped according to their growth form and assemblage distribution were related to chemical variables (as conductivity and nitrate) and possibly to flow conditions.

Capsular polysaccharides secreted by building façade colonisers: characterisation and adsorption to surfaces.

Exopolymers secreted by algal and cyanobacterial strains isolated from building façades were imaged by microscopy techniques. They were extracted and characterised to investigate their possible contribution to interactions with solid surfaces. The polymers were polysaccharides, with anionic and hydrophobic properties varying between the various strains. Capsular polysaccharides extracted from a strain of Klebsormidium flaccidum adsorbed in higher amounts on hydrophobic than on hydrophilic surfaces. These results tend to confirm the hypothesis that exopolymers are important in the colonisation process of microorganisms to surfaces.

Factors involved in the colonisation of building façades by algae and cyanobacteria in France.

Algae and cyanobacteria are colonisers of building façades. A multivariate analysis of data gathered during a sampling campaign around France proved that precipitation, hygrometry, thermal amplitude, distance from the sea and proximity to vegetation were environmental parameters influencing this colonisation. Other influencing factors could be attributed to the nature of the façade coating, mineral substrata being more frequently colonised, and to the architecture, favouring in some cases the formation of damp conditions and thus the colonisation of the building envelope.

The assessment of water quality in the Lower Luján River (Buenos Aires, Argentina): phytoplankton and algal bioassays.

The monitoring of river phytoplankton and several hydrological, physical and chemical variables, in combination with bioassays using Selenastrum capricornutum Printz, allowed the characterisation of three distinct reaches of the Lower River Luján. The upstream stretch, characterised by the lowest depth and discharge, registered the highest nutrient, dissolved heavy metal and chlorophyll a concentrations in accordance with low phytoplankton diversity and the occurrence of several species typical of organically polluted lowland rivers. A downstream improvement, concomitant to increasing river discharge, is revealed by a progressive decrease of organic pollution parameters even though algal toxicity is registered through bioassays. The water input from the Parana River through the G. Arias Channel plays an important role in the regulation of the limnology of the Lower Luján River. As a result of marked increasing discharge, depth and width, there is a decrease in nutrient concentration and phytoplankton density and an increase in dissolved oxygen concentration. Likewise, algal growth rates in the bioassays showed less toxic effect.