大象传媒

Animal organisation - gaseous exchange systems - AQAAdaptations of effective exchange surfaces

Most animals and plants consist of different types of cells organised as tissues, organs and systems. The human respiratory system is a body system adapted for efficient gas exchange.

Part of Biology (Single Science)Organisation

Adaptations of effective exchange surfaces in all organisms

In organisms, surfaces and body organs are specialised for exchanging materials.

The effectiveness of exchange surfaces in plants and animals is increased by having:

A large surface area:

  • the flattened shape of structures such as leaves
  • the in the respiratory system
  • the in the digestive system

A short distance required for diffusion:

  • the membranes of cells
  • the flattened shape of structures such as leaves
  • the walls of blood are one cell thick
  • the of alveoli in the respiratory system and the villi in the small intestine are only one cell thick
A large taro leaf
Image caption,
Large, flat leaves like this green taro leaf have an effective exchange surface

Animals have additional adaptations for effective exchange surfaces

An efficient blood supply to transport molecules to and from the exchange surface increases effective exchange. Examples of this include:

  • the network of blood capillaries that surrounds each alveolus in the lungs
  • the network of blood capillaries in each villus in the small intestine
Diagram of a villus in the small intestine
Figure caption,
Villus

The process of breathing, or , brings air to, and removes air from the exchange surface 鈥 the alveoli.

The moving blood and ventilated surfaces mean that a steep can be maintained. This increases effective exchange.