Gas exchange

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Created by
Niamh Mumby

Cards (10)

  • Explain adaptations for gas exchange in insects
    Tracheoles - highly branched - larger SA
    Muscle contractions - increase tracheal pressure - ventilates system to maintain a large conc. gradient
    Tracheole end walls - thin - small diffusion pathway
    Tracheole end walls - permeable to oxygen and CO2
  • What are the adaptations to reduce water loss in insects?
    Exoskeletons - waterproof waxy cuticle to reduce evaporation
    Hairs around spiracles - trap moist air
    Valves close spiracles - reduce evaporation
  • Explain the adaptations for gas exchange in fish
    -The gill arch has many filaments and lamella for a large SA
    -Lamella capillaries have thin walls for a short diffusion pathway
    -Countercurrent flow means blood and water flow in opposite directions to maintain a diffusion gradient for oxygen across the entire length of a gill lamella
    -Ventilation replaces deoxygenated water with oxygenated to maintain a large diffusion gradient
    -Circulation replaces oxygenated blood with deoxygenated to maintain a large diffusion gradient
  • Explain the adaptations for gas exchange in a leaf
    Mesophyll cells - arranged in flat layers - large SA
    CO2 - used in photosynthesis - maintains diffusion gradient in cells
    Air spaces - between cells - small diffusion pathway
  • Explain adaptations to reduce water loss in xerophytes
    Hairs around the stomata, Sunken stomata, and Folded leaves -all trap moist air and reduce water potential gradient for evaporation
    Spine/needle leaves, Reduced stomatal density - both have a smaller SA:V for evaporation
    Thicker waxy cuticle - impermeable to water
  • Define a xerophyte
    A species of plant adapted to live in environments with very minimal liquid water
  • Why is gas exchange at the alveolar surface efficient?
    -Many alveoli = large SA
    -Squamous alveolar epithelium and capillary endothelium are made from a single layer of cells = small diffusion pathway
    -Ventilation of the thoracic cavity and circulation of blood = large conc. gradient for O2 between the alveoli and capillaries
  • Explain the mechanism of breathing - inspiration
    -The volume of the thoracic cavity increases and the pressure decreases
    -Contraction and flattening of the diaphragm muscle
    -Contraction of external intercostal muscles
    -So the ribs are pulled upwards and outward
  • What is used to calculate a pulmonary ventilation rate?
    A spirograph
  • What is the equation to calculate the pulmonary ventilation rate and explain the components?
    Pulmonary ventilation rate = Tidal volume x Respiratory rate
    PVR: volume of air exchanged per minute Tidal volume: amount of air inhaled or exhaled in one breath Respiratory rate: number of breaths taken per minute