organisms exchange substances with environment

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Created by
Aaishah Takolia

Cards (46)

  • 4 chambers of the heart:
    right atrium
    right ventricle
    left atrium
    left ventricle
  • structure of atria:
    • have thinner muscular walls
    • do not need to contract as hard as pumping blood to ventricles
  • structure of ventricles:
    • thicker muscular walls for bigger contraction creates high blood pressure to pump blood to lungs for right ventricle and to the whole body for the left ventricle
  • 2 types of veins:
    • vena cava
    • pulmonary vein
  • vena cava = body vein
    • carries deoxygenated blood from the body into the right atrium
  • pulmonary vein:
    • pulmonary = linked to the lungs
    • carries oxygenated blood from lungs to left atrium
  • haemoglobin:
    • proteins with a quaternary structure
    • they transport oxygen
  • partial pressure = amount of oxygen available
    low partial pressure = less oxygen available
    high partial pressure = lots of oxygen available
  • oxyhaemoglobin dissociation curve:
    • oxygen loaded in regions with a high partial pressure of oxygen e.g alveoli
    • oxygen unloaded in regions of low partial pressure of oxygen e.g respiring tissues
  • higher affinity = binds to oxygen more easily
    lower affinity = releases oxygen more easily
  • positive cooperativity:
    • shape of molecule makes it difficult for oxygen to bind to
    • binding of first oxygen molecule = change in quaternary structure of haemoglobin = change in shape = more easing for other oxygen molecules to bind
  • what is the bohr effect?
    high co2 conc = decrease in PH due to being more acidic = change in shape of haemoglobin = oxygen binds less easily so lower affinity
  • where is there a low partial pressure of co2
    alveoli
  • where is there HIGH partial pressure of co2

    respiring tissues
  • how is haemoglobin adapted for llamas?
    llamas found at high altitudes where there is low partial pressures of oxygen so they have haemoglobin with a higher affinity
  • adaptation of haemoglobin for doves:
    doves have faster metabolism so need more oxygen for respiration so have a lower affinity for oxygen so can unload easier
  • double circulatory system:
    • blood passes through heart twice in each circuit
    • to the lungs
    • to the rest of the body
  • what is cardiac muscle?
    thick muscular layer in the walls of the heart
  • coronary arteries
    • supply cardiac muscle with oxygenated blood so it dosent fatigue
    • they branch of from the aorta
  • blocked coronary arteries = no oxygen supplied = no respiration = cells dying = heart attack
  • why is blood pumped at low pressure at right ventricle
    to prevent damage to capillaries in the lungs
  • 4 key blood vessels:
    • aorta
    • pulmonary artery
    • vena cava
    • pulmonary veins
  • pulmonary artery carries blood from right ventricle to lungs
  • aorta carries oxygenated blood from left ventricle to rest of body
  • valves prevent backflow of blood
  • semi lunar valves are in the aorta and pulmonary artery
  • atriaventricular valves are between atria and ventricles
  • arteries carry blood away from the heart into the arterioles
  • arterioles are smaller than arteries and connect to the capillaries
  • capillaries connect arterioles to veins
  • veins return deoxygenated blood to the heart
  • structure of arteries in relation to function:
    • thick muscular layer so can constrict and dilate
    • thick elastic layer so walls can stretch to maintain high blood pressure
    • thick walls to prevent vessels bursting
  • vein structure related to function:
    • thin muscular layer so cant control blood flow
    • thin elastic layer as pressure is lower
    • thin wall thickness as low risk of vessels bursting due to low pressure
  • structure of arterioles in relation to function:
    • thicker muscular layer to allow constriction of lumen to restrict blood flow into capillaries
    • thin elastic layer due to lower pressure
  • capillary structure related to function:
    • highly branched so large surface area for exchange
    • narrow lumen / one cell thick to reduce diffusion distance
  • cardiac output is the volume of blood which leaves 1 ventricle in 1 minute
  • cardiac output = heart rate x stroke volume
    heart rate is beats of heart per min
    stroke volume is volume of blood that leaves heart each beat
  • what is tissue fluid?

    fluid containing glucose, amino acids, ions, oxygen
  • transpiration is the loss of water vapour from the stomata by evaporation
  • how light affects transpiration
    more light = more stomata open = larger sa for evaporation