Limiting Factors of Photosynthesis

What are Limiting Factors?

A limiting factor is the variable that, at a given moment, is restricting the rate of photosynthesis. Increasing a non-limiting factor has no effect — only the limiting factor matters.

Learning Goals:

1. Identify the three main limiting factors.
2. Interpret rate-vs-factor graphs with plateaus.
3. Explain the compensation point.
4. Apply knowledge to greenhouse optimization.

Three Main Factors

Graph Interpretation

Key pattern: When a graph plateaus, the factor being varied is no longer limiting — something else is.

To prove which factor is limiting: increase it. If rate goes up → it was limiting. If rate stays the same → something else is limiting.

Compensation Point

The light intensity at which the rate of photosynthesis equals the rate of respiration. Below this point, the plant is a net consumer of O₂.

Greenhouse Applications

Commercial greenhouses optimize all three factors:

• Supplementary lighting extends the photoperiod.
• CO₂ enrichment (burning gas or adding compressed CO₂) increases carbon fixation.
• Heating maintains optimal temperature.

Worked Example

Problem: A student measures O₂ production at 3 light intensities.

At 2000 lux, the rate plateaus → light is no longer limiting. CO₂ or temperature is now the limiting factor.

Common Mistakes

1. "Higher temperature always increases rate" — Only up to the optimum. Beyond that, enzymes denature and rate plummets.
2. Confusing limiting with inhibiting — A limiting factor constrains the maximum rate; an inhibitor actively reduces it.
3. Forgetting respiration continues during photosynthesis — Net O₂ release = photosynthesis rate − respiration rate.

Related Topics

• Photosynthesis — The full light and dark reaction pathway.
• Enzyme Kinetics — Enzyme saturation explains the plateau.
• Cellular Respiration — The competing process that consumes O₂.