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Bacterial Aggregates Formation After Addition of Glucose in Lake Baikal Water 원문보기

The journal of microbiology, v.42 no.4, 2004년, pp.357 - 360  

Spiglazov Lev P. (Limnological Institute, Russian Academy of Science) ,  Drucker Valentin V. (Limnological Institute, Russian Academy of Science) ,  Ahn Tae Seok (Department of Environmental Science, Kangwon National University)

Abstract AI-Helper 아이콘AI-Helper

For determining the process of bacterial aggregation, glucose was added into water from Lake Baikal which had been stored for seven months. In the presence of a higher concentration of glucose, the abun­dance of single bacteria and aggregates were higher, but the biovolumes of both bacteria were sim...

주제어

#Bacterial aggregates   #Bacterial biovolume   #Glucose addition   #Lake Baikal   #Lake snow  

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제안 방법

  • We expected that such an approach would allow us to come to an understanding of the self-organizing process of aggregation in a closed system, as well as in an open ecosystem. On the basis of this initiative, an investigation of the two cases was carried out to assess the dimensional spectra of elements of microbial communities. The first one examined natural water which had been sustained in an isolated state for an extended period.
  • The purpose of this work is to reveal, under laboratory experiment, the difference between the dimensional structures of the elements of a microbial community in two contrary states: in terms of a relative state of rest, and in terms of a state of active functioning, in order to establish the general trend of changes of dimensional spectra. We expected that such an approach would allow us to come to an understanding of the self-organizing process of aggregation in a closed system, as well as in an open ecosystem.
  • This water was used to define the stable dimensional structure of microcolonies. The second and third samples were amended with the daily addition of glucose for 4 days and 11 days, respectively.
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참고문헌 (17)

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  3. Bianchi, M., D. Marty, J.L. Teysiee, and S.W. Fowler. 1992. Strictly aerobic and anaerobic bacteria associated with sinking particulate matter and zooplankton fecal pellets. Mar. Ecol. Prog. Ser. 88, 55-60 

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  5. Grossart, H.P. and M. Simon. 1998. Bacterial colonization and microbial decomposition of limnetic organic aggregates (lake snow). Aquat. Microb. Ecol. 15, 127-140 

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  8. Juergens, K. and H. Guede. 1994. The potetial importance of grazing-resistant bacteria in planktonic systems. Mar. Ecol. Prog. Ser. 112, 169-188 

  9. Karner, M. and G.J. Herndl. 1992. Extracelluar enzymatic activity and secondary production in free- living and marine snow associated bacteria. Mar. Biol. 113, 341-347 

  10. Kuznetsov, S.I. and G.A. Dubinina. 1989. Methods of aquatic microorganisms study. p. 288, Science, Moscow 

  11. Marshall, P.A., G.L. Loeb, M.M. Cowan, and M. Fletcher. 1989. Response of microbial adhesives and biofilm matrix polymers to chemical treatment as determined by interference reflection microscopy and light section microscopy. Appl. Environ. Microbiol. 55, 2827-2831 

  12. Riemann, L., G.F. Steward, and F. Azam. 2000. Dynamics of bacterial community composition and activity during a mesocosm diatom bloom. Appl. Environ. Microbiol. 66, 578-587 

  13. Spiglazov L.P. 1999. Dimensional spectrum of abundance and biomass of elements of bacterioplankton in pelagic area of Lake Baikal. Siber. Ecol. J. 6, 625-630 

  14. Schweitzer, B., I. Huber, R. Amann, W. Ludwig, and M. Simon. Alpha- and beta- Proteobacteria control the consumption and release of amino acid on lake aggregates. Appl. Environ. Microbiol. 67, 632-645 

  15. Tuner, J.T. 2002. Zooplankton fecal pellets, marine snow and sinking phytoplankton blooms. Aquat. Microb. Ecol. 27, 57-102 

  16. Vandevivere, P. and D.L. Kirchman. 1993. Attachment stimulates exopolysaccharide synthesis by a bacterium. Appl. Environ. Microbiol. 59, 3280-3286 

  17. Weiss, P.B. Schweitzer, R. Amann, and M. Simon. 1996. Identification in situ and dynamics of bacteria on limnetic organic aggregates (lake snow). Appl. Environ. Microbiol. 62, 1998-2005 

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