Aerobic and Anaerobic Respiration, Breathing
Respiration in Organisms: Aerobic and Anaerobic Respiration, Breathing
Aerobic and Anaerobic Respiration, Breathing
Respiration in Organisms
What you'll learn
- What respiration is — and why it is NOT the same as breathing.
- Aerobic respiration: equation, products, where it happens.
- Anaerobic respiration: equation, when it happens, products.
- How different organisms breathe (lungs, gills, skin, spiracles).
- Why we breathe faster during exercise.
Key concepts
What is respiration?
- Respiration: a biochemical process occurring in all living cells where food (glucose) is broken down to release energy (ATP).
- Happens in the mitochondria of cells.
- NOT the same as breathing — breathing is just the mechanical movement of air in and out of lungs.
Respiration ≠ Breathing
- Respiration = cellular energy release (biochemical, in all cells).
- Breathing = taking in air (mechanical, in lungs/gills).
Aerobic respiration
- Aerobic respiration: breakdown of glucose in the presence of oxygen.
- Produces: CO₂ + H₂O + energy (ATP).
- Occurs in: mitochondria.
C₆H₁₂O₆ + 6O₂ → 6CO₂ + 6H₂O + Energy (ATP) Glucose + Oxygen → Carbon dioxide + Water + Energy
- Releases much more energy than anaerobic (≈ 38 ATP per glucose).
- Used by most organisms including humans, animals, plants, most fungi.
Anaerobic respiration
- Anaerobic respiration: breakdown of glucose without oxygen.
- Releases less energy than aerobic (≈ 2 ATP per glucose).
In yeast (alcoholic fermentation):
C₆H₁₂O₆ → 2C₂H₅OH + 2CO₂ + Energy Glucose → Ethanol (alcohol) + Carbon dioxide + Energy
- Used to make bread (CO₂ makes dough rise), beer, wine, yogurt (partially).
- Yeast dies in high-alcohol concentrations.
In human muscle cells (lactic acid fermentation):
C₆H₁₂O₆ → 2C₃H₆O₃ + Energy Glucose → Lactic acid + Energy
- Happens during intense exercise when O₂ supply to muscles is insufficient.
- Lactic acid build-up causes muscle cramps and fatigue.
- Removed by the body once O₂ supply is restored (you breathe heavily to repay the "oxygen debt").
In some microbes:
- Certain bacteria in waterlogged soil, marshes, intestines — produce methane or other products.
- Biogas digesters use anaerobic bacteria to produce methane (CH₄) from organic waste.
Comparison: Aerobic vs Anaerobic
| Feature | Aerobic | Anaerobic |
|---|---|---|
| Oxygen needed | Yes | No |
| ATP produced | ~38 ATP | ~2 ATP |
| Products | CO₂ + H₂O | Ethanol + CO₂ (yeast) / Lactic acid (muscles) |
| Location | Mitochondria | Cytoplasm |
| Organisms | Most organisms | Yeast, some bacteria, muscle cells (temporary) |
| Energy release | Much more | Much less |
How different organisms breathe
| Organism | Breathing organ | Medium |
|---|---|---|
| Humans / mammals | Lungs | Air |
| Fish | Gills | Water (dissolved O₂) |
| Earthworm | Moist skin (cutaneous) | Air (dissolved in moisture) |
| Cockroach / insects | Tracheae & spiracles | Air |
| Frogs / amphibians | Skin (in water) + Lungs (on land) | Both |
| Plants | Stomata (leaves) + Lenticels (stem) | Air |
Human breathing mechanism
- Respiratory system: nostrils → nasal cavity → trachea → bronchi → bronchioles → alveoli (lungs).
- Alveoli: tiny air sacs; thin walls + rich blood supply = efficient gas exchange.
- O₂ diffuses from alveolar air → blood.
- CO₂ diffuses from blood → alveolar air.
- Diaphragm (dome-shaped muscle) + intercostal muscles control breathing movements.
Breathing movements:
| Inhalation (breathing in) | Exhalation (breathing out) | |
|---|---|---|
| Diaphragm | Contracts (flattens) | Relaxes (domes up) |
| Ribcage | Moves up and out | Moves down and in |
| Lung volume | Increases | Decreases |
| Air pressure | Decreases → air rushes in | Increases → air pushed out |
- Normal breathing rate: 15–18 breaths/min at rest; up to 25+ during exercise.
Why do we breathe faster during exercise?
- Muscles need more ATP → require more O₂ and produce more CO₂.
- Rising CO₂ levels in blood detected by brain's medulla oblongata.
- Medulla sends signals → breathing rate and depth increases.
- Heart rate also increases → blood delivers O₂ faster.
Oxygen debt
- During intense exercise: muscles switch to anaerobic (insufficient O₂) → lactic acid builds up.
- After exercise: breathe heavily to take in extra O₂ to break down accumulated lactic acid.
- This extra O₂ consumed = oxygen debt.
Respiration in plants
- Plants respire 24 hours a day (not just at night).
- During day: photosynthesis produces more O₂ than respiration consumes → net gas exchange appears opposite.
- At night: only respiration (no photosynthesis) → absorb O₂, release CO₂.
- Gas exchange occurs through stomata in leaves and lenticels in stems.
Quick check
- What is the difference between respiration and breathing?
- Write the equation for aerobic respiration. Where does it occur in the cell?
- What is lactic acid fermentation? When does it happen in humans?
- How do earthworms breathe? Why must they stay in moist soil?
- Why do we breathe faster after running? What is oxygen debt?
Open the Practice tab for graded questions on Respiration in Organisms.
Key Takeaways (TL;DR)
- What you'll learn
- Key concepts
- Quick check
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