Rapid quantification of planktonic ciliates: comparison of improved live counting with other methods.

THE FOLLOWING EFFICIENT AND QUANTITATIVELY VALID METHOD TO FILTER CONCENTRATE AND COUNT LIVE PLANKTONIC CILIATES WAS DEVELOPED AND COMPARED WITH OTHER TREATMENTS: unconcentrated (raw) samples and centrifuged samples were counted live, and the effects of five different fixatives (HgCl(2), Lugol's iodine, formaldehyde, glutaraldehyde, and Champy-DaFano) on the counts were monitored. Samples originated from a eutrophic mountain lake (Lake Aydat, near Clermont-Ferrand, France). Overall, live filtered counts were similar to counts of raw samples, but they were significantly higher (2 to 2.3 fold, P < 0.05) by analysis of variance than counts from centrifuged samples. Nevertheless, some taxa, i.e., Halteria and Loxodes spp., were sensitive to filtration. The live filtered counts were also comparable to counts of raw HgCl(2)-fixed and settled samples. HgCl(2) and Lugol fixation consistently gave the highest total counts, while significantly lower counts were always obtained with Champy-DaFano-fixed samples. Losses due to fixation were insignificant for raw samples but were substantial and statistically significant in concentrated samples (15% after filtration and 71% after centrifugation, compared with counts from the corresponding live samples). Live counting of passively filter-concentrated ciliates has many advantages over other methods. It is two to four times quicker and more efficient. Ciliates are recognized with certainty, more species are identified, and enumeration of dead organisms (e.g., tintinnid loricas) is avoided. It should be recommended as a quantitatively valid alternative to classical methods for assessing planktonic ciliate populations.