1. Stepwise Dilution Process
Serial dilution involves diluting a sample in a series of steps, where each new dilution is made from the previous one.
Procedure:
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Label test tubes (e.g., 10⁻¹, 10⁻², 10⁻³, etc.)
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Add equal volumes of diluent (e.g., 9 mL saline) into each tube
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Add a measured volume of the sample (e.g., 1 mL) into the first tube
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Mix thoroughly
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Transfer the same volume (e.g., 1 mL) from the first tube into the second tube
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Repeat the process for subsequent tubes
👉 Each step reduces the concentration further.
2. Common Ratios
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1:10 dilution (10⁻¹):
1 mL sample + 9 mL diluent -
1:100 dilution (10⁻²):
Two consecutive 1:10 dilutions -
1:1000 dilution (10⁻³):
Three consecutive 1:10 dilutions
Key Concept:
Each step multiplies the dilution factor:
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1:10 × 1:10 = 1:100
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1:10 × 1:10 × 1:10 = 1:1000
3. Applications in the Laboratory
Microbiology:
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Estimating bacterial count (colony-forming units, CFU)
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Preparing samples for culture plating
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Isolating microorganisms at countable levels
Clinical Diagnostics:
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Diluting samples with very high analyte concentration
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Preparing standards for assays
Research & Teaching Labs:
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Studying dose-response relationships
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Preparing calibration curves
Key Tips for Accuracy
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Mix each dilution thoroughly before transferring
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Use clean pipette tips for each step
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Avoid skipping steps to prevent errors
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Label tubes clearly
Summary
Serial dilution is a controlled, step-by-step method used to systematically reduce concentration, making it essential for accurate measurements and microbial analysis.