Light, Temperature, and Mixing
Three physical levers set how fast Spirulina grows — and each has a sweet spot where more is worse, not better.
- Light ~100–250 µmol/m²/s at the surface; too much causes photoinhibition
- Temperature ~30–37°C, often best near 35°C; near-stops below ~20°C
- Gentle mixing suspends filaments, feeds cells, and vents excess oxygen
Nutrients determine whether Spirulina can grow; light, temperature, and mixing determine how fast. Each has an optimum with a real cost on either side. Light is the energy source, and the most common beginner mistake is too much of it: Spirulina does well at roughly 100–250 µmol/m²/s at the surface. Below that it is energy-starved; well above it the photosynthetic machinery is damaged faster than it repairs — photoinhibition — and growth falls. A daily light/dark cycle (commonly 12:12 to 16:8) is normal and often better than constant illumination.
Temperature sets metabolic rate: Spirulina grows well between about 30 and 37°C, fastest for many strains near 35°C. Below ~20°C growth nearly stops; above ~38–40°C cells are stressed. Because a small home vessel tracks room temperature, a gentle heater or warm location is usually needed — and direct sun can overheat and over-light a small vessel fast.
Mixing is the quietly essential third lever. It keeps filaments suspended so they take turns in the light, moves bicarbonate and nutrients to the cells, and carries away the oxygen that photosynthesis produces before it supersaturates and inhibits growth. Gentle is the goal — an airstone, a slow stirrer, or a firm daily hand-stir — since violent agitation shears the delicate filaments. The theme is the same across all three: each is a curve with a peak, not a dial to max out.