Biofilm Showing Cell Clusters, Slime Matrix, and Water Channels
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Zbigniew Lewandowski, Dirk deBeer, Frank Roe, Paul Stoodley
This image is a biofilm consisting of cell clusters, discrete aggregates of microbial cells in a slime matrix, separated by interstitial voids or water channels. |
Bacterial Biofilm Growing on Sand Grains
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Al Cunningham, Warren Sharp, Paul Stoodley, Shannon Bakich
This image is a bacterial biofilm of Klebsiella pneumoniae growing on sand grains in a porous medium reactor. |
Confocal Image of Biofilm Cluster
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Paul Stoodley
Biofilm cluster composed of microbial cells in a slime matrix (not stained). |
Liquid Flow Through Pore Channels of a Porous Medium Colonized with Biofilm
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Zbigniew Lewandowski, Paul Stoodley, Dirk deBeer
Liquid flow through pore channels in a porous medium
(glass beads) colonized with biofilm composed of
Pseudomonas aeruginosa, Pseudomonas fluorescens,
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Time Exposure of a Fluorescent Particle Moving Through a Biofilm
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Dirk deBeer, Paul Stoodley, Zbigniew Lewandowski
Time exposure (2.3-s intervals) of a single fluorescent
latex particle (0.28-µm diameter) moving through a
biofilm water channel. |
Cellular Nucleic Acid and Extracellular Polysaccharide Staining of
Biofilms
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Dirk deBeer, Rohini Srinivasan, Ricardo Murga, Phil Stewart
Images showing cellular nucleic acid and extracellular polysaccharide staining (EPS) of biofilm cross-sections. |
Visualization of Local Microbial Growth Rate Variations Within a
Biofilm
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Ching-Tsan Huang, Eric Wentland, Gordon McFeters, Phil Stewart
This image shows acridine orange staining of a frozen
cross section of single-species (Klebsiella
pneumoniae) biofilm. |
Mixed Bacterial Population on Surface of Soil Crumb or Aggregate
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Peter Harris
The image shows a mixed bacterial population that has developed
on the surface of a soil crumb or aggregate. |
Biofilm of Bioluminescent Bacteria
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Charles Phiefer
These images are of the marine bacterium Vibrio harveyi. |
Classical Model of Corrosion by Sulfate-Reducing Bacteria (SRB)
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by W. Allan Hamilton
This illustration of the classical model of corrosion by sulfate-reducing bacteria portrays interdependent vertical stratifications of physicochemical conditions and microbial nutrient succession. |
Food-borne Pathogens On Surfaces Found in the Food Processing
Industry
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Amy Lee Wong
Figure 1 is a SEM of L. monocytogenes Scott A on stainless steel. Figure 2 shows a naturally occurring biofilm developed over 3 weeks on stainless steel. |
Expression of Phosphate Starvation Gene in a Pseudomonas
aeruginosa
Biofilm
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Ching-Tsan Huang, Karen Xu, Gordon McFeters, Philip Stewart
A biofilm of Pseudomonas aeuruginosa was grown on
a stainless steel coupon by feeding high phosphate
medium (1 mM) for 4 days. |
Alpine Aquatic Biofilm Series
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Gordon McFeters
Biofilms form in the summer on surfaces within pristine aquatic systems such as the one shown here in the northern Rocky Mountains in Montana. |
Association of Microorganisms with Roots in the Rhizosphere
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Gunter Trolldenier
Roots of Red Clover with Adhering Bacteria. |
Differential Biofilm Architecture
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Robert Palmer
These images show x-y series (image stacks) and x-z planes (cross sections) through biofilms of Pseudomonas aeruginosa. |
Human Dental Plaque Showing Iodophilic Polysaccharide Synthesis
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by John Ruby, Vincent Gerencser
Figure 1 shows human dental plaque exposed to 5%
sucrose in situ for 5 min, after which Gram's iodine
(0.33% iodine in 0.66% KI) was applied. Figure 2 represents a x1,000 magnification view of hu |
Dental Plaque
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Henny van der Mei, M Quirynen, H. Busscher
This image demonstrates dental plaque stained by neutral red on an original tooth surface on a human volunteer after nine days of no oral hygiene. |
Biofilm Formation in Dental Equipment
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Jean Barbeau
These specimens comprise sections of tubing from 30-year-old dental equipment. The tubing is heavily colonized by bacteria which contaminate the water used to perform intraoral procedures. |
Dental Plaque II
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by H. Busscher, Henny van der Mei, W. Jongebloed, Rolf Bos
A scanning electron micrograph of coadhering oral
microorganisms in dental plaque, showing so-called corncob
structures. |
In vivo Production of a Biofilm on a Voice Prosthesis
MicrobeLibrary Visual: Image
Prior to 1/1/2002 by Henny van der Mei, E.P.J.M. Everaert, H. Busscher
This photograph (Fig. 1) shows differential biofilm formation on an indwelling silicone rubber voice prothesis.
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