Light is the energy source that dri

Light is the energy source that drives photosynthesis
to convert nutrients into algal biomass. Maximum culture
depth and cell density are the primary variables regulating
the efficient use of light (Richmond et al., 1980). Light
intensity, spectral characteristics, and photoperiod are the
components of an illumination regime. Indoor microalgal
facilities usually use fluorescent “cool white” bulbs (2,500
lux), while outdoor systems and greenhouses use ambient
sunlight in combination with fluorescent or metal halide
bulbs to provide evening illumination. The spectral characteristics
of “cool white” bulbs are not ideal for intensive
microalgae production; bulbs with enhanced red and blue
wavelengths (Gro-LuxTM) support higher yields. The age of
the bulb is also important, as the spectral characteristics
and luminosity change over time; bulbs should be replaced
at least annually.
Irradiation of 2,500 to 5,000 lux (250 to 500 footcandles)
is optimal for microalgae photosynthesis, with a
maximum of 10,000 lux (Escobal, 1993). Guillard (1975)
recommended 3,500 and 4,500 lux for stock culture of
Thalassiosira pseudonana under continuous and 14 hours
per day illumination, respectively. In indoor facilities,
bulbs should be 6 to 10 inches from stock cultures; if possible,
the ballasts should be outside the culture room to
help maintain temperature control.
Internally illuminated culture vessels are costly to
construct but inexpensive to operate. Mounting the
lamps inside a glass or clear plastic cylinder within the
culture vessel reduces the distance the light must travel
to penetrate the culture. Culture cylinders with internally