Cellular Respiration
Download
Report
Transcript Cellular Respiration
Cellular Respiration
Aerobic
Respiration
Anaerobic
Respiration
Cellular Respiration
Respiration is the slow controlled release
of energy from food.
The energy released is used to fuel all
metabolic activities in the organism.
The process takes place in many steps all of
which is controlled by enzymes.
Aerobic Respiration
The process by which glucose is oxidised in
many small steps to give carbon dioxide and
water.
C6H12O6 + 6O2
Glucose
+ Oxygen
6CO2 + 6H20 + Energy
Carbon + Water
Dioxide
+ Energy
ADP + P(Phosphate) + Energy
Energy (released)
ATP
ADP = Adenosine Di Phosphate
ATP = Adenosine Tri Phosphate.
ATP
Is found in all cells
Yields large amounts of energy
Drives the thousands of biological processes needed to sustain life
eg. Growth, movement, reproduction.
Green plants use light energy to manufacture ATP as part of the
process of Photosynthesis
In Animals, ATP is formed by the breakdown of glucose molecules in
respiration
Summary of important events taking place in
aerobic respiration
1.Glucose (or fat) is used as a substrate to
provide energy
2.Energy is released in a slow, controlled
process
3.The energy released is temporarily stored in
ATP
4.Oxygen is used in the process
5.Carbon dioxide and water is released
Anaerobic Respiration
In anaerobic respiration the food is broken down without
oxygen in animals to form lactic acid and ethanol in plants and
yeast.
Lactic acid build up is toxic in animals and needs to be broken
down. It usually builds up during strenuous exercise when
oxygen is short (Oxygen debt).
Plants and Yeast
ethyl alcohol + Carbon Dioxide + Energy
2C2H5OH
+ 2 CO2
Glucose
C6H12O6
Animals
Lactic acid + Energy
2C3H6O3
Oxygen Debt
This occurs when the lungs cannot supply all the oxygen that the muscles
need eg. During vigorous exercise.
In such a situation the muscles can continue to break down glucose to
liberate energy for a short time using anaerobic respiration
This produces lactic acid
At certain levels in the muscles lactic acid causes the sensation of fatigue
(tiredness)
Once vigorous exercise stops the accumulated lactic acid must be broken
down, this uses up extra oxygen
Panting or Yawning usually allows the body to take in this excess oxygen
to ‘pay off’ the oxygen dept
Summary of events taking place in anaerobic
respiration
1. No oxygen is used
2. Little energy is produced
3. Alcohol and carbon dioxide are produced
by plants and yeast
4. Only lactic acid is produced by animals
Industrial & Domestic Applications of
Anaerobic Respiration
Fermentation.
Yeast uses sugar as food and makes ethanol as a by
product of the reaction. Ethanol is found in beers,
wine and sprits like whiskey and rum.
Fermentation of bacteria (lactobacillus) in the
production of yogurt and cheese
Baking.
The carbon dioxide produced by yeast is what
makes bread, pastries and cakes light and fluffy
Site of Cellular Respiration
Site of cellular respiration
Diagrams of Mitochondria found in all eukaryotic cells
Mitochondria
An Organelle found in cells
Contains enzymes responsible for energy production
during aerobic respiration
Found in both plant and animal cells