Interception of small particles by flocculent structures, sessile ciliates, and the basic layer of a wastewater biofilm.

We investigated attachment processes of hydrophobic and hydrophilic particles (diameter = 1 microm) to mature biofilms grown on clay marbles in a sequencing batch biofilm reactor. During a treatment cycle with filtered wastewater containing different fluorescent beads, the progression of particle density in various biofilm compartments (carrier biofilm, basic biofilm layer, biofilm flocs, and sessile ciliates) was determined by flow cytometry, confocal laser scanning microscopy and automated image analysis. Particles were almost completely removed from wastewater by typical processes of particle retention: up to 58% of particles attached to clay marbles, up to 15% were associated with suspended flocs, and up to 10% were ingested by sessile ciliates. Ingestion of particles by ciliates was exceptionally high immediately after wastewater addition (1,200 particles grazer(-1) x h(-1)) and continued until approximately 14% of the water had been cleared by ciliate filter feeding. Most probably, ciliate bioturbation increases particle sorption to the basic biofilm. Backwashing of the reactor detached pieces of biofilm and thus released approximately 50% of the particles into rinsing water. Clay marbles in the upper part of the reactor were more efficiently abraded than in the lower part. No indications for selective attachment of the applied hydrophobic and hydrophilic beads were found. As a consequence of interception patterns, organisms at elevated biofilm structures are probably major profiteers of wastewater particles; among them, ciliates may be of major importance because of their highly active digestive food vacuoles.

TO-PRO-3 is an optimal fluorescent dye for nuclear counterstaining in dual-colour FISH on paraffin sections.

Confocal laser scanning microscopy (CLSM) is an extensive but reliable tool for assessing the hybridisation signals in fluorescence in situ hybridisation (FISH). Most CLSMs are equipped with an argon-laser and a helium/neon-laser illumination system with excitation wavelengths of 488, 543 and 633 nm. A protocol for an optimal nuclear counterstaining in combination with dual-colour FISH for these laser illumination systems has not been established so far. Here, we determined the suitability of eleven dimeric and monomeric cyanine nucleic acid stains on paraffin sections of breast carcinoma specimens in combination with dual-colour FISH (Her-2/neu and centromere 17) for CLSM application. Strong staining of cell nuclei was observed for TO-PRO-3 and YO-PRO-3, YOYO-1 and propidium iodide (PI), but only TO-PRO-3 showed specific staining of nuclei without any staining of the cytoplasm. A specific emission in exclusively one distinct fluorescence channel was shown for TO-PRO-3 (633 nm excitation) as well as YOYO-1, BO-PRO-1 and Sytox Green (488 nm excitation), evaluated by a CLSM and confirmed by 3-D fluorescence spectra. High stability of fluorescence intensity was shown for the far-red dyes TO-PRO-3, YO-PRO-3, YOYO-3 and Syto-59 as well as YOYO-1 and PI. Only TO-PRO-3 was due to its high specificity and stability suitable for detection of an amplification of the Her-2/neu gene by dual-colour FISH and CLSM evaluation.

Grazing of Tetrahymena sp. on adhered bacteria in percolated columns monitored by in situ hybridization with fluorescent oligonucleotide probes.

Predation of attached Pseudomonas putida mt2 by the small ciliate Tetrahymena sp. was investigated with a percolated column system. Grazing rates were examined under static and dynamic conditions and were compared to grazing rates in batch systems containing suspended prey. The prey densities were 2 x 10(8) bacteria per ml of pore space and 2 x 10(8) bacteria per ml of suspension, respectively. Postingestion in situ hybridization of bacteria with fluorescent oligonucleotide probes was used to quantify ingestion. During 30 min, a grazing rate of 1,382 +/- 1,029 bacteria individual-1 h-1 was obtained with suspended prey; this was twice the grazing rate observed with attached bacteria under static conditions. Continuous percolation at a flow rate of 73 cm h-1 further decreased the grazing rate to about 25% of the grazing rate observed with suspended prey. A considerable proportion of the protozoans fed on neither suspended bacteria nor attached bacteria. The transport of ciliates through the columns was monitored at the same time that predation was monitored. Less than 20% of the protozoans passed through the columns without being retained. Most of these organisms ingested no bacteria, whereas the retained protozoans grazed more efficiently. Retardation of ciliate transport was greater in columns containing attached bacteria than in bacterium-free columns. We propose that the correlation between grazing activity and retardation of transport is a consequence of the interaction between active predators and attached bacteria.