IB Biology B3.1 Notes

Next, you are expected to learn about gas exchange, which is the process by which organisms transfer oxygen and carbon dioxide for respiration or photosynthesis. This is evidently a vital processes in all organisms for them to live. However, as organisms become larger, the SA:V ratio obviously becomes smaller and the distance from the surface to the innermost cells increases.

As a result, multicellular organisms have developed systems for efficient gas exchange, called gas-exchange surfaces.

Most gas exchange surfaces have several properties that make them adapted to perform gas exchange:

1. Thin tissue layer - this allows for a short diffusion distance, resulting in rapid diffusion of gases.
2. Permeable tissue - allows for diffusion of gases to occur.
3. Moist environment - allows for gases to dissolve in the surrounding environment and be present at high concentrations.
4. Large surface area - maximises the amount of gas exchange that can occur across the layer.

To facilitate one-way gas exchange, these surfaces also need to maintain concentration gradients. This is often performed by:

1. A dense network of blood vessels - these make sure that gas exchange area is maximised and that plenty of CO₂ rich and O₂ poor blood reaches the surface to maintain the concentration gradient.
2. Continuous blood flow - blood flow at the right speed maintains a high internal CO₂ concentration that diffuses out and low internal O₂ concentration that drive diffusion across the entire length of the surface.
3. Ventilation - whether with air in the lungs or water in the gills, a continuous exhalation of carbon dioxide rich air and inhalation of oxygen rich air maintains the concentration gradients needed to keep gases diffusing in the right direction.