ELEMENTAL COMPOSITION, CORRELATIONS, AND RATIOS WITHIN A POPULATION OF STAURASTRUM PLANCTONICUM (ZYGNEMATALES): AN X‐RAY MICROANALYTICAL STUDY 1

Individual cells of Staurastrum planctonicum (Teil.) within a mixed freshwater phytoplankton sample were analyzed by scanning electron microscope X‐ray microanalysis to determine their elemental composition. X‐ray emission spectra routinely showed clear peaks of P, S, and Cl, plus monovalent (Na, K, and divalent (Mg, Ca) cations. Si and Cu were also present in lower quantities. Concentrations of individual elements (expressed as mmol.kg −1 dry weight) varied widely among cells, with values over the sample population approximating to a normal distribution. Although intracellular anion and cation levels varied considerably, significant correlations occurred between concentrations of monovalent and divalent cations (mean ratio 1.4), major diffusible anions and cations (mean ratio 1,2), and total levels of electropositive and electronegative elements (mean ratio 1.2). The monovalent cations of K and Na occurred at a mean ratio of 1.2 and were not significantly correlated. Concentrations of individual elements (except Si) showed clear positive correlations within the analyses, with 12 highly significant (99% probability) correlations out of 36 possible combinations. Principal factor analysis showed that elemental correlations were determined by two major factors, with two resulting groups of elements—(Na, S, Cl, Ca, Cu) and (Mg, P, K). Statistical relationships between elements followed a clear correlation pattern, which retained its characteristics even when elemental concentrations were expressed per unit P rather than per unit dry weight. Elemental concentrations were closely similar in matching, but not nonmatching, smicells. The statistical pattern of elemental associations noted in Staurastrum parallels that seen in X‐ray micro‐analytical studies of other algae but differs in detail. This pattern of statistical associations has biological implications in terms of cell compartmentation, characterization of different cell types, and cell interactions with their environment.