What is Photosynthesis?
Overview☀️ The Solar Factory Analogy
Think of a leaf as a solar-powered factory. Raw materials (CO₂ and H₂O) come in, solar energy powers the production line, and the finished products (glucose and O₂) come out. The chloroplast is the factory floor where all the work happens.
📥 Reactants (Raw Materials)
- Carbon dioxide (CO₂) — enters through stomata in leaves
- Water (H₂O) — absorbed by roots, transported via xylem
- Light energy — absorbed by chlorophyll pigments
📤 Products (Output)
- Glucose (C₆H₁₂O₆) — stored chemical energy; used in respiration, growth, storage as starch
- Oxygen (O₂) — released through stomata as a by-product
- Water — small amount released
| Word Equation | Symbol Equation |
|---|---|
| Carbon dioxide + Water → Glucose + Oxygen | 6CO₂ + 6H₂O → C₆H₁₂O₆ + 6O₂ |
| In the presence of light energy, absorbed by chlorophyll | |
📍 Where
In chloroplasts — found mainly in the mesophyll cells of leaves. More chloroplasts = more photosynthesis.
⚡ Energy
Light energy (from sun) is converted to chemical energy and stored in glucose molecules. This is energy transduction.
🌍 Why it matters
Photosynthesis is the foundation of almost all food chains on Earth. It also produces the oxygen in our atmosphere.
The Chloroplast
Structure🔬 The Factory Floor
The chloroplast is the organelle where photosynthesis takes place. Its structure is perfectly designed for the job — a double membrane for protection, thylakoids stacked into grana for the light reactions, and a fluid-filled stroma for the dark reactions.
Chloroplast Structure — Label the Parts
| Structure | Description | Role in Photosynthesis |
|---|---|---|
| Outer membrane | Smooth double membrane surrounding the chloroplast | Controls what enters and exits the chloroplast |
| Inner membrane | Second membrane layer inside the outer | Forms the boundary of the stroma |
| Stroma | Fluid-filled matrix inside inner membrane | Site of the DARK REACTIONS (Calvin cycle / carbon fixation) |
| Thylakoid | Flattened, disc-shaped membrane sac | Contains chlorophyll; site of the LIGHT REACTIONS |
| Granum (pl. grana) | Stack of thylakoids (like a pile of coins) | Increases surface area for light absorption |
| Lamella (pl. lamellae) | Membrane connecting different grana | Links grana together; allows transport between stacks |
| Chlorophyll | Green pigment embedded in thylakoid membranes | Absorbs light energy (mainly red and blue wavelengths) |
Light & Dark Reactions
Two Stages⚡ Two Production Lines
Photosynthesis happens in two main stages. The light reactions happen in the thylakoids and need direct sunlight. The dark reactions (Calvin cycle) happen in the stroma — they don't directly need light but do use the products of the light reactions.
- Light absorbed by chlorophyll
- Water molecules split (photolysis)
- H₂O → 2H⁺ + ½O₂ + 2e⁻
- ATP produced
- NADPH produced
- O₂ released as by-product
- CO₂ is fixed (carbon fixation)
- Uses ATP + NADPH from light reactions
- CO₂ + RuBP → GP → GALP
- Glucose (C₆H₁₂O₆) produced
- RuBP regenerated for next cycle
- Can happen without direct light
☀️ Photolysis of Water
- Photo = light; lysis = splitting
- Light energy splits water molecules
- 2H₂O → 4H⁺ + O₂ + 4e⁻
- Oxygen released is the source of O₂ in our atmosphere
- Hydrogen ions (H⁺) used to make NADPH
- Electrons replace those lost from chlorophyll
🌿 Carbon Fixation
- CO₂ from the air is "fixed" into organic molecules
- CO₂ combines with RuBP (5-carbon compound)
- Produces GP (3-carbon)
- GP reduced to GALP using ATP + NADPH
- GALP used to make glucose
- RuBP is regenerated to accept more CO₂
Dark reactions: location = stroma; needs = CO₂ + ATP + NADPH; produces = glucose
Limiting Factors
Environmental📊 What Controls the Rate?
The rate of photosynthesis is controlled by limiting factors — the factor in shortest supply controls the overall rate. Even if light is abundant, if CO₂ is low, the rate cannot increase. This is Blackman's Law of Limiting Factors.
| Factor | Effect on rate if increased | Plateau reason |
|---|---|---|
| Light intensity | Rate increases (more energy for light reactions) | CO₂ or temperature becomes limiting; chlorophyll saturated |
| CO₂ concentration | Rate increases (more substrate for dark reactions) | Light or enzyme capacity becomes limiting |
| Temperature (up to optimum) | Rate increases (faster enzyme activity) | Above optimum → enzymes denature → rate drops sharply |
| Chlorophyll concentration | Rate increases (more light-absorbing pigment) | Limited by CO₂, light, or temperature |
Experiments
Practical Work🧪 Testing Photosynthesis
Several classic experiments demonstrate photosynthesis. Know the method, variables, and conclusions for each — particularly the starch test and the bubble counting experiment.
🍃 Iodine Starch Test (Testing for glucose/starch)
- Purpose: Show that a leaf has been photosynthesising
- 1. Boil leaf in water (kill cells, stop reactions)
- 2. Boil in ethanol (remove chlorophyll — decolourise)
- 3. Rinse in water (soften leaf)
- 4. Add iodine solution
- Positive result: Blue-black = starch present → photosynthesis occurred
- Negative result: Remains orange-brown = no starch
🫧 Bubble Counting Experiment (Rate of O₂ production)
- Purpose: Measure rate of photosynthesis by counting O₂ bubbles from aquatic plant (Elodea/Cabomba)
- IV: Light intensity (vary distance of lamp)
- DV: Number of bubbles per minute
- Controlled: Temperature, CO₂ concentration, same plant
- Result: Closer lamp = more bubbles = faster photosynthesis
- Conclusion: Light intensity is a limiting factor
🌿 Variegated Leaf Experiment
- Uses a leaf with green (chlorophyll) and white (no chlorophyll) sections
- After iodine test: only green parts turn blue-black
- Conclusion: Chlorophyll is necessary for photosynthesis
🖤 Covered Leaf Experiment
- Part of leaf covered with black paper (no light), part exposed
- After iodine test: covered part = no blue-black
- Exposed part = blue-black (starch present)
- Conclusion: Light is necessary for photosynthesis
Test Yourself
Quiz🎯 Photosynthesis Quiz
IEB and CAPS style questions. Select your answer and get instant feedback with full explanations.