Active bacteria (CTC+) in temperate lakes: temporal and cross-system variations

The temporal variation in the abundance and proportion of highlyrespiration-active bacteria in the eutrophic lakes Esrum andFrederiksborg Slotssø was determined with the redox dye5-cyano-2,3-ditolyl tetrazolium chloride (CTC). In addition,a comparative late summer study was undertaken across a gradientof nutrient enrichment in Danish lakes. The purpose was to investigatethe importance of substrate (chlorophyll) and temperature forthe control of CTC-active cells (CTC+). The abundance of CTC+cells was much lower and more variable than the total numberof cells counted after 4',6-diamidino-2-phenylindole (DAPI)staining. The proportion of CTC+ cells in Lake Esrum and FrederiksborgSlotssø was normally <5%, and between 2.5 and 20%in 14 other lakes. The abundance as well as the proportion ofCTC+ cells increased with chlorophyll in Lake Esrum and FrederiksborgSlotssø, and chlorophyll explained 43% of the variabilityin CTC+ abundance. In the comparative study, the abundance ofCTC+ cells increased along the chlorophyll gradient, which explained49% of the variability. The results showed that the abundanceand, to a lesser degree, the proportion of CTC+ bacteria werecontrolled by substrate supply. One consequence of the low abundanceof active bacteria is that in situ growth rates scaled to CTC+cells are 3- to 7-fold higher than those scaled to DAPI counts.It is suggested that studies on factors controlling bacterioplanktonactivity at the single-cell level should be investigated scaledto active cells.