Table 2 shows that the concentratio

Table 2 shows that the concentration of copper in the biomass is significantly increased after incubation. No increases were detected in the concentration of copper (immobilisation) in the mortmass or of lead in either the biomass or mortmass. Other metals (zinc and cadmium) were also not immobilised in these samples (data not shown in the table).

These results are comparable with data from similar experiments conducted on other biological objects. Previous studies reported an increase in the metal content after incubation of another biogenic material in aquatic medium containing added metals (for example, (Ostroumov and Kolesov, 2010, Johnson et al., 2011 and Ostroumov, 2011)).

Note that we did not observe immobilisation of all chemical elements that were present in the incubation medium at elevated concentrations; three elements were immobilised and four were not. These significant differences in the behaviour of metals upon exposure to biomass show that we do not yet understand the rules by which they interact with the biomass and mortmass of plant organisms (for example, algae G. sulphuraria).

The results of this experiment support the concept that a diverse array of living organisms participate in the detoxification system of the biosphere (Ostroumov et al., in press). These results also detail previously formulated concepts of ecologically important self-purification processes in aquatic ecosystems (Ostroumov, 2012). New facts on the immobilisation of copper with the biomass of aquatic organisms contribute to solving the issues of chemical–biotic interactions (Ostroumov, 1990, Ostroumov, 2000, Ostroumov, 2004a, Ostroumov, 2004b, Ostroumov and Samoilenko, 1990, Ostroumov et al., 1997, Ostroumov and Fedorov, 1999, Ostroumov and Widdows, 2004 and Solomonova and Ostroumov, 2007), an area of study initiated and stimulated by V.I. Vernadsky (Vernadsky, 1924, Vernadsky, 1926, Vernadsky, 1998a, Vernadsky, 1998b and Vernadsky, 2006). Interestingly, recent work reveals another important aspect of the biosorption of heavy metals with biomass: under certain conditions, biosorption leads to the biological formation of metal nanoparticles, as observed for certain types of microorganisms (Tyupa, 2014).