3.2.1- The need for transport systems Flashcards
Why do all living organisms have the need to exchange substances with their surrounding environment?
-They need to take oxygen and nutrients in
- Waste products generated need to be released
What is the name for the location within an organism where they exchange substances?
An exchange site- Substances are said to not have entered or left an organism until it crosses the cell surface membrane
Why are small organisms able to exchange substances directly with the environment?
- This is due to their large surface area: volume ratio
- The diffusion or transport distance in these organisms are very small so essential nutrients or molecules are able to reach the necessary parts of the cell efficiently
- Smaller organisms also tend to have lower levels of activity and so smaller metabolic demands
Why do larger organisms need a specialised mass transport system?
- Increasing transport distances
- Surface area: volume ratio
- Increasing levels of activity
Explain increasing transport distances as a need for a specialised mass transport system in larger organisms.
- In larger, more complex organisms (both plants and animals) the important exchange sites tend to be far away from the other cells within the organism
- This large transport distance makes simple diffusion a non-viable method for transporting substances all the way from the exchange site to the rest of the organism
- Diffusion wouldn’t be fast enough to meet the metabolic requirements of cells
Explain SA:Vol as a need for a specialised mass transport system in larger organisms.
- The surface area refers to the total area of the organism that is exposed to the external environment
- The volume refers to the total internal volume of the organism (total amount of space inside the organism)
- As the surface area and volume of an organism increase (and therefore the overall ‘size’ of the organism increases), the surface area: volume ratio decreases
- This is because volume increases much more rapidly than surface area as size increases
Single-celled organisms have a high SA: V ratio which allows for the exchange of substances to occur via simple diffusion - The large surface area allows for maximum absorption of nutrients and gases and secretion of waste products
- The small volume means the diffusion distance to all organelles is short
- As organisms increase in size their SA: V ratio decreases
- There is less surface area for the absorption of nutrients and gases and secretion of waste products
- In addition, the greater volume results in a longer diffusion distance to the cells and tissues of the organism
Explain increasing levels of activity as a need for a specialised mass transport system in larger organisms.
- Larger organisms are not only more physically active but they also contain more cells than smaller organisms
- A larger number of cells results in a higher level of metabolic activity
- As a result, the demand for oxygen and nutrients is greater and more waste is produced
- The increased demand for oxygen and nutrients along with the greater need for the disposal of waste means that diffusion is not an efficient transport mechanism for larger organisms
What is a mass flow transport system?
Larger organisms have evolved specialised mass flow transport systems that enable the efficient transport of nutrients and waste
Mass flow is the bulk movement of materials. It is directed movement so involves some sort of force
Is there diffusion involved in mass transport systems?
In mass transport systems there is still some diffusion involved but only at specific exchange sites at the start and end of the route travelled by the substances
What is the benefit of mass transport systems?
Mass transport systems help to:
- Bring substances quickly from one exchange site to another
- Maintain the diffusion gradients at exchange sites and between cells and their fluid surroundings
- Ensure effective cell activity by keeping the immediate fluid environment of cells within a suitable metabolic range