Identity, abundance and ecophysiology of filamentous Chloroflexi species present in activated sludge treatment plants

Caroline Kragelund, Caterina Levantesi, Arjan Borger, Karin Thelen, Dick Eikelboom, Valter Tandoi, Yunhong Kong, Jaap vd Waarde, Janneke Krooneman, Simona Rossetti, Trine Rolighed Thomsen, Per Halkjær Nielsen

Research output: Contribution to journalArticleAcademicpeer-review


Filamentous Chloroflexi species are often present in activated sludge wastewater treatment plants in relatively low numbers, although bulking incidences caused by Chloroflexi filaments have been observed. A new species-specific gene probe for FISH was designed and using phylum-, subdivision-, morphotype 1851- and species-specific gene probes, the abundance of Chloroflexi filaments were monitored in samples from 126 industrial wastewater treatment plants from five European countries. Chloroflexi filaments were present in 50% of the samples, although in low quantities. In most treatment plants the filaments could only be identified with phylum or subdivision probes, indicating the presence of great undescribed biodiversity. The ecophysiology of various Chloroflexi filaments was investigated by a suite of in situ methods. The experiments revealed that Chloroflexi constituted a specialized group of filamentous bacteria only active under aerobic conditions consuming primarily carbohydrates. Many exo-enzymes were excreted, e.g. chitinase, glucuronidase and galactosidase, suggesting growth on complex polysaccharides. The surface of Chloroflexi filaments appeared to be hydrophilic compared to other filaments present. These results are generally supported by physiological studies of two new isolates. Based on the results obtained in this study, the potential role of filamentous Chloroflexi species in activated sludge is discussed.
Original languageEnglish
Pages (from-to)671-682
Number of pages12
JournalFEMS Microbiology Ecology
Issue number3
Publication statusPublished - 1 Mar 2007
Externally publishedYes


  • chloroflexi
  • ecophysiology
  • filamentous bacteria
  • activated sludge


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