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Chromatography of Chloroplast Pigments (CIE A Level Biology)

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Chromatography of Chloroplast Pigments

  • Chromatography is an experimental technique that is used to separate mixtures:
    • The mixture is dissolved in a fluid/solvent (called the mobile phase) and the dissolved mixture then passes through a static material (called the stationary phase)
    • Different components within the mixture travel through the material at different speeds
    • This causes the different components to separate
    • A retardation factor (Rf) can be calculated for each component of the mixture

Rf value = distance travelled by component ÷ distance travelled by solvent

  • Two of the most common techniques for separating these photosynthetic pigments are:
    • Paper chromatography – the mixture of pigments is passed through paper (cellulose)
    • Thin layer chromatography – the mixture of pigments is passed through a thin layer of adsorbent (e.g. silica gel), through which the mixture travels faster and separates more distinctly

  • Chromatography can be used to separate and identify chloroplast pigments that have been extracted from a leaf, as each pigment will have a unique Rf value
  • The Rf value demonstrates how far a dissolved pigment travels through the stationary phase
    • A smaller Rf value indicates the pigment is less soluble and larger

  • Although specific Rf values depend on the solvent that is being used, in general:
    • Carotenoids have the highest Rf values (usually close to 1)
    • Chlorophyll B has a much lower Rf value
    • Chlorophyll A has an Rf value somewhere between those of carotenoids and chlorophyll B
    • Small Rf values indicate the pigment is less soluble and larger

Paper Chromatography of Photosynthetic Pigments Diagram

paper chromatography of photosynthetic pigments

Paper chromatography can be used to separate the photosynthetic pigments found within chloroplasts. Rf values can then be calculated for each pigment.

Examiner Tip

Make sure you learn the approximate Rf values for the different pigments within chloroplasts (or at least their values relative to each other). This means you should be able to identify different chloroplast pigments based on their Rf values alone.

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Phil

Author: Phil

Expertise: Biology

Phil has a BSc in Biochemistry from the University of Birmingham, followed by an MBA from Manchester Business School. He has 15 years of teaching and tutoring experience, teaching Biology in schools before becoming director of a growing tuition agency. He has also examined Biology for one of the leading UK exam boards. Phil has a particular passion for empowering students to overcome their fear of numbers in a scientific context.