Factors that Affect the Speed of Conduction (OCR A Level Biology)

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Factors that Affect the Speed of Conduction

  • The speed of conduction of an impulse refers to how quickly the impulse is transmitted along a neurone
  • It is determined by multiple factors:
    • Myelination (ie. whether or not the axon is insulated by a myelin sheath)
    • The diameter of the axon
    • Temperature

Myelination

  • In unmyelinated neurones, the speed of conduction is very slow
    • This is because depolarisation must occur along the whole membrane of the axon

  • By insulating the axon membrane, the presence of myelin increases the speed at which action potentials can travel along the neurone:
    • The myelin sheath is formed from Schwann cells
    • In sections of the axon that are surrounded by a myelin sheath, depolarisation (and the action potentials that this would lead to) cannot occur, as the myelin sheath stops the diffusion of sodium ions and potassium ions
    • Action potentials can only occur at the nodes of Ranvier (small uninsulated sections of the axon)
    • The local circuits of current that trigger depolarisation in the next section of the axon membrane exist between the nodes of Ranvier
    • The presence of Schwann cells means the action potentials ‘jump’ from one node to the next, this is known as saltatory conduction
    • Saltatory conduction allows the impulse to travel much faster (up to 50 times faster) than in an unmyelinated axon of the same diameter

Saltatory conduction (1), downloadable AS & A Level Biology revision notes

Saltatory conduction (2), downloadable AS & A Level Biology revision notes

Transmission of an action potential in a myelinated axon by saltatory conduction

Diameter

  • An impulse will be conducted at a higher speed along neurones with thicker axons compared to those with thinner axons
  • Thicker axons have an axon membrane with a greater surface area over which the diffusion of ions can occur
    • This increases the rate of diffusion of sodium ions and potassium ions through protein channels, which in turn increases the rate at which depolarisation and action potentials can occur

  • Axons with a greater diameter also possess a greater volume of cytoplasm (which contains ions). This reduces their electrical resistance so that an action potential can push into the next section faster

Temperature

  • Some animals, such as mammals, maintain very stable body temperatures. Temperature does not usually affect the speed of nerve impulses in these animals
  • The body temperature of other animals can vary with the environment
    • For example, cold-blooded reptiles

  • Colder conditions can slow down the conduction of nerve impulses
  • The colder temperatures mean there is less kinetic energy available for the facilitated diffusion of potassium and sodium ions during an action potential

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Ruth

Author: Ruth

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Ruth graduated from Sheffield University with a degree in Biology and went on to teach Science in London whilst also completing an MA in innovation in Education. She gained 10 years of teaching experience across the 3 key science disciplines and physical education. Ruth decided to set up a tutoring business to support students in her local area. Ruth has worked with several exam boards and loves to use her experience to produce educational materials which make the mark schemes accessible to all students.