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Variation: Discontinuous & Continuous (CIE A Level Biology)

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Phil

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Phil

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Variation: Discontinuous & Continuous

  • The term variation refers to the differences that exist between at least two things (be it a level, presence, quantity or feature of something)
  • Concerning natural selection, variation refers to the differences that exist between individuals of a species
    • This may also be referred to as intraspecific variation

  • The variation observed in the phenotypes of organisms can be due to qualitative or quantitative differences

Discontinuous variation

  • Qualitative differences in the phenotypes of individuals within a population give rise to discontinuous variation
  • Qualitative differences fall into discrete and distinguishable categories, usually with no intermediates (a feature can’t fall in between categories)
    • For example, there are four possible ABO blood groups in humans; a person can only have one of them

  • It is easy to identify discontinuous variation when it is present in a table or graph due to the distinct categories that exist when data is plotted for particular characteristics

Discontinuous Variation Example

Blood type graph

The population variation in blood types: an example of discontinuous variation with qualitative differences

Continuous variation

  • Continuous variation occurs when there are quantitative differences in the phenotypes of individuals within a population for particular characteristics
  • Quantitative differences do not fall into discrete categories like in discontinuous variation
  • Instead, for these features, a range of values exists between two extremes within which the phenotype will fall
    • For example, the mass or height of a human is an example of continuous variation

  • The lack of categories and the presence of a range of values can be used to identify continuous variation when it is presented in a table or graph

Continuous Variation Example

Height graph

Population variation in height: an example of continuous variation with quantitative differences

The Genetic Basis of Variation

  • Discontinuous variation refers to the differences between individuals of a species where the differences are qualitative (categoric)
  • Continuous variation is the differences between individuals of a species where the differences are quantitative (measurable)
  • Each type of variation can be explained by genetic and/or environmental factors

Genetic basis of discontinuous variation

  • This type of variation occurs solely due to genetic factors
  • The environment has no direct effect

  • At the genetic level:
    • Different genes have different effects on the phenotype
    • Different alleles at a single gene locus have a large effect on the phenotype
    • Remember diploid organisms will inherit two alleles of each gene; these alleles can be the same or different

  • A good example of this is the F8 gene that codes for the blood-clotting protein Factor VIII
    • The different alleles at the F8 gene locus dictate whether or not normal Factor VIII is produced and whether the individual has the condition haemophilia

Genetic basis of continuous variation

  • This type of variation is caused by an interaction between genetics and the environment
  • Phenotype = genotype + environment
  • At the genetic level:
    • Different alleles at a single locus have a small effect on the phenotype
    • Different genes can have the same effect on the phenotype and these add together to have an additive effect
    • If a large number of genes have a combined effect on the phenotype they are known as polygenes

The additive effect of genes

  • The height of a plant is controlled by two unlinked genes H / h and T / t
  • The two genes have an additive effect
  • The recessive alleles h and t contribute x cm to the plant's height
  • The dominant alleles H and T contribute 2x cm to the plant's height
  • The following genotypes will have the following phenotypes:
    • h h t t :  x + x + x + x = 4x cm
    • H H T T : 2x + 2x + 2x + 2x = 8x cm
    • H h T t : 2x + x + 2x + x = 6x cm
    • H H T t : 2x + 2x + 2x + x = 7x cm
    • H h T T : 2x + x + 2x + 2x = 7x cm
    • h h T t : x + x + 2x + x = 5x cm
    • H h t t : 2x + x + x + x = 5x cm

Examiner Tip

Be careful when answering questions that involve polygenes or genes with an additive effect. It is not a given that each gene will have the same effect on the phenotype as in the example above so make sure to double check the information you have been given in the question.

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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.