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Biology_Edexcel_A-snab_Alevel

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  1. the-circulatory-system
    8 主题
  2. diet-and-health
    11 主题
  3. gas-exchange-cell-membranes-and-transport
    8 主题
  4. nucleic-acids
    3 主题
  5. proteins
    10 主题
  6. inheritance
    7 主题
  7. cell-structure-and-organisation
    7 主题
  8. cell-division
    3 主题
  9. reproduction-and-inheritance
    4 主题
  10. differentiation-and-variation
    5 主题
  11. biodiversity
    9 主题
  12. resources-from-plants
    10 主题
  13. ecosystems-and-energy-transfer
    7 主题
  14. photosynthesis
    7 主题
  15. climate-change
    10 主题
  16. evolution
    3 主题
  17. forensics
    3 主题
  18. microorganisms-and-immunity
    11 主题
  19. muscles-and-movement
    3 主题
  20. respiration
    7 主题
  21. homeostasis
    4 主题
  22. exercise
    4 主题
  23. response-to-the-environment
    8 主题
  24. the-brain-behaviour-and-disease
    10 主题
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Natural Selection can lead to Adaptation & Evolution

  • Variation exists within a species population

    • Variation refers to the differences between individuals. It can be interspecific (between different species) or intraspecific variation (between individuals of the same species)

  • Some of this variation is due to random mutations, which introduce new alleles into a population

  • This means that some individuals within the population possess different phenotypes due to genetic variation in the alleles they possess

  • Environmental factors affect the chance of survival of an organism; they are said to act as a selection pressure

    • Predation, disease and competition are all examples of selection pressures, which make it difficult for all individuals in a population to survive

  • Selection pressures increase the chance of individuals with a specific phenotype surviving and reproducing over others

    • The advantageous alleles that code for the favourable phenotype will be passed on to offspring

  • When selection pressures act over several generations of a species, they have an effect on the frequency of alleles in a population through natural selection

    • Natural selection is the process by which individuals with a favourable phenotype are more likely to survive and pass on their alleles to their offspring so that the advantageous alleles increase in frequency over time and generations

  • Individuals that do not possess the advantageous alleles will most likely not survive long enough to reproduce, therefore reducing competition for resources

    • This will decrease the frequency of these non-advantageous alleles over time in a population

  • These changes in allele frequency will ultimately lead to evolution within the population

Evidence for evolution by natural selection

  • The theory of evolution by natural selection was first suggested by Charles Darwin

    • As evidence mounted in favour of this theory, it became increasingly accepted by scientists

    • In science, evidence provides confidence in theories until the point where enough evidence is gathered in order to accept the theory as an accepted scientific explanation

  • The peppered moth is an example of how natural selection leads to evolution over time 

Natural selection example 2

The peppered moth is a well-known example of how natural selection leads to evolution