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Confocal Scanning Laser Microscopy
(CSLM) of a
sagittal
section of a three-species biofilm P. aeruginosa, P. fluorescens,
and K. pneumoniae grown on a glass slide. The variety of structures
and thicknesses is
characteristic of biofilm formation.
Courtesy, P. Stoodley, D. deBeer and ASM MicrobeLibrary. |
Practical Implications
Bacterial biofilms are remarkably heterogeneous in virtually all
parameters that can be measured accurately and reproducibly. These
heterogeneities: structural, physiological, ecological, electrical, etc.,
have been implicated as the cause of many phenomena characteristic of the
attached mode of growth and frequently less intensive or nonexistent in
planktonic cultures.
One of the costly consequences of microbial colonization on metal
surfaces is Microbially Influenced Corrosion (MIC).
The presence of
microorganisms modifies deposition and dissolution rates of minerals, and
by this mechanism, influences the electrochemical properties of the metals
or alloys. Pitting corrosion results from this activity.
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Microscopic view of microbially
influenced pitting corrosion on stainless steel. Courtesy,
W. Dickinson & Z. Lewandowski |
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