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Related Concept Videos

Methods to Assess Microbial Populations01:30

Methods to Assess Microbial Populations

Assessing microbial populations is crucial for understanding microbial roles in health, ecology, and industry. Various complementary techniques—both culture-based and molecular—enable detailed analysis of microbial abundance, diversity, and function.Viable Plate CountThe viable plate count is a traditional culture-based method used to estimate the number of living microbes in a sample. After serial dilution, the sample is spread onto nutrient agar plates. Each viable cell forms a visible...
Microbial Growth Measurement: Indirect Methods01:27

Microbial Growth Measurement: Indirect Methods

Estimating microbial growth is essential for understanding population dynamics and environmental adaptations. Indirect methods provide valuable insights by measuring parameters such as turbidity, metabolic activity, and biomass, enabling efficient and reproducible assessments.During exponential growth, microbial cells scatter light proportionally to their biomass, a principle used in turbidity measurements. About one million cells per milliliter produce detectable scattering, which a...
Microbial Growth Measurement: Direct Methods01:23

Microbial Growth Measurement: Direct Methods

Direct methods for measuring microbial populations in a culture are essential tools in microbiology, providing quantitative data for various applications. Among these, microscopic counts, plate counts, and serial dilution are widely used techniques, each with unique principles and applications.Microscopic CountsMicroscopic counting involves the use of a Petroff-Hausser chamber, a specialized microscope slide with a grid and defined depth. By observing a liquid culture under a microscope,...
Microbial Morphologies01:29

Microbial Morphologies

Bacterial and archaeal cells exhibit remarkable diversity in shape and structure, critical in their adaptability and functionality. Among bacteria, the most commonly observed shapes include cocci and bacilli. Cocci are spherical and may exist singly or in groupings such as pairs (diplococci), chains (streptococci), clusters (staphylococci), or tetrads. Bacilli, in contrast, are rod-shaped and can also occur as single cells, in pairs, or chains, depending on their environmental and genetic...
Cell Size01:22

Cell Size

Cell sizes vary widely among and within organisms. Bacterial cells range between 1-10 micrometers (μm)and are considerably smaller than most eukaryotic cells. The smallest bacteria are 0.1 μm in diameter—about a thousand times smaller than eukaryotic cells, which typically range from 10-100 μm.
Surface Area
Cells can take in nutrients and water via diffusion through the plasma membrane itself or through specific channels in the membrane. The area of the membrane surrounding the cells limits the...

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Related Experiment Video

Updated: May 17, 2026

In Situ Microscopy for Real-time Determination of Single-cell Morphology in Bioprocesses
07:26

In Situ Microscopy for Real-time Determination of Single-cell Morphology in Bioprocesses

Published on: December 5, 2019

Sizing up microbes.

V K Viswanathan1

  • 1Veterinary Science and Microbiology; University of Arizona; Tucson, AZ USA.

Gut Microbes
|November 2, 2012
PubMed
Summary

Microorganism size, governed by physics, influences pathogen functions like adherence and immune evasion. Large microbes possess unique adaptations to overcome physical limitations.

Area of Science:

  • Microbiology
  • Biophysics
  • Pathogen Biology

Background:

  • Microbial size is constrained by physical laws.
  • Large microorganisms (near 1mm) exhibit adaptations to overcome physical challenges.
  • Microorganism size can affect critical pathogenic traits.

Purpose of the Study:

  • To review recent studies on factors influencing microbial size.
  • To examine the impact of microbial size on pathogen functions.
  • To explore the interplay between physics and microbial dimensions.

Main Methods:

  • Literature review of recent studies.
  • Analysis of physical principles governing life forms.
  • Examination of data on microbial size and function.

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Quantifying Microorganisms at Low Concentrations Using Digital Holographic Microscopy (DHM)
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Quantifying Microorganisms at Low Concentrations Using Digital Holographic Microscopy (DHM)

Published on: November 1, 2017

Unraveling the Unseen Players in the Ocean - A Field Guide to Water Chemistry and Marine Microbiology
10:43

Unraveling the Unseen Players in the Ocean - A Field Guide to Water Chemistry and Marine Microbiology

Published on: November 5, 2014

Related Experiment Videos

Last Updated: May 17, 2026

In Situ Microscopy for Real-time Determination of Single-cell Morphology in Bioprocesses
07:26

In Situ Microscopy for Real-time Determination of Single-cell Morphology in Bioprocesses

Published on: December 5, 2019

Quantifying Microorganisms at Low Concentrations Using Digital Holographic Microscopy (DHM)
07:27

Quantifying Microorganisms at Low Concentrations Using Digital Holographic Microscopy (DHM)

Published on: November 1, 2017

Unraveling the Unseen Players in the Ocean - A Field Guide to Water Chemistry and Marine Microbiology
10:43

Unraveling the Unseen Players in the Ocean - A Field Guide to Water Chemistry and Marine Microbiology

Published on: November 5, 2014

Main Results:

  • Physical laws fundamentally dictate the size range of life.
  • Large microorganisms demonstrate specific compensatory features.
  • Microbial size is a significant factor in adherence and immune evasion.

Conclusions:

  • Microbial size is a critical determinant of pathogenic success.
  • Understanding size-related adaptations is key to controlling pathogens.
  • Future research should further elucidate the physics of microbial life.