The Bohr Shift
- Changes in the oxygen dissociation curve as a result of carbon dioxide levels are known as the Bohr effect, or Bohr shift
- When the partial pressure of carbon dioxide in the blood is high, haemoglobin’s affinity for oxygen is reduced
- This is the case in respiring tissues, where cells are producing carbon dioxide as a waste product of respiration
- This occurs because CO2 lowers the pH of the blood
- CO2 combines with water to form carbonic acid
- Carbonic acid dissociates into hydrogen carbonate ions and hydrogen ions
- Hydrogen ions bind to haemoglobon, causing the release of oxygen
- This is a helpful change because it means that haemoglobin gives up its oxygen more readily in the respiring tissues where it is needed
- On a graph showing the dissociation curve, the curve shifts to the right when CO2 levels increase
- This means that at any given partial pressure of oxygen, the percentage saturation of haemoglobin is lower at higher levels of CO2
The dissociation curve shifts to the right as a result of the Bohr effect. This means that any given partial pressure of oxygen, the percentage saturation of haemoglobin is lower at higher CO2 levels.