Mammalian Lungs: Adaptations (DP IB Biology)
Revision Note
Mammalian Lungs: Adaptations
Air moves in through the nose and mouth before it is carried to the lungs through the trachea
The trachea is a tube supported by rings of cartilage which help to support its shape and ensure it stays open while allowing it to move and flex with the body
The trachea divides to form the two bronchi (singular bronchus) with walls also strengthened with cartilage and a layer of smooth muscle that can contract or relax to change the diameter of the airways. Both trachea and bronchi are lined with ciliated epithelium to remove particles trapped in mucus that enter the airways
One bronchus leads to each lung
Bronchioles branch off the two bronchi to form a network of narrow tubes
The walls of the bronchioles are lined with a layer of smooth muscle to alter the diameter of the bronchiole tubes
This helps to regulate the flow of air into the lungs by dilating when more air is needed and constricting when e.g. an allergen is present
Groups of alveoli are found at the end of the bronchioles
Each alveolus is surrounded by an extensive network of capillaries to provide a good blood supply for maximum gas exchange
Human Gas Exchange System Diagram
The main structures of the human gas exchange system
Adaptations of mammalian lungs for gas exchange
Each mammalian lung is comprised of many, small alveoli
These provide a large surface area for gas exchange
Alveoli are grouped around the ends of bronchioles, which spreads out to form a branched network across each lung
This ensures an even distribution of alveoli throughout the lungs
The clusters of alveoli are surrounded by an extensive capillary bed
This provides an increased surface area for the diffusion of oxygen and carbon dioxide between the alveoli and blood
Deoxygenated blood enters the capillary beds from a branch of the pulmonary artery while oxygenated blood leaves the capillary beds via a branch of the pulmonary vein
This maintains the concentration gradient of oxygen and carbon dioxide between the alveoli and blood
Cells of the alveolar wall secrete a substance called surfactant which lowers the surface tension in the alveoli
This prevents the alveoli from collapsing and sticking together during expiration
Human Alveoli Diagram
Many, small alveoli and an extensive capillary network are examples of how the mammalian lung is adapted for gas exchange
Examiner Tips and Tricks
Make sure of the terminology that you use here; do not confuse the alveolar wall with a cell wall. The alveolar wall is a single layer of epithelial cells that forms the alveoli, while a cell wall is a rigid structure that surrounds a plant cell.
You've read 0 of your 5 free revision notes this week
Sign up now. It’s free!
Did this page help you?