Abstract:
Dunaliella salina is a unicellular halophilic green alga dominantly found in salt lakes, and high
saline ponds in slatterns all over the world. A rigid cell wall is absent in D. salina while the cells are
covered by mucous materials that are enclosed by a thin elastic plasma membrane. This species has
both environmental and economic validity as they are capable of producing β–carotene during
photosynthesis. Synthesis of β–carotene in D. salina is a function of environmental factors, and
thus, the present study was designed to study the effect of pH of the medium and light intensity on
the growth of D. salina. The Algae sample was collected from a crystalizing pond of Hambantota
Saltern, Sri Lanka, and a monoculture was maintained under suitable laboratory conditions. The
seawater sample with pH 7.66 was used to prepare a series of pH using sodium carbonate
anhydrous. These cultures were exposed to a series of pH (7.66, 8.0, 8.50, and 9.0) at two light
intensities (885 lux and 200 lux). All experimental setups were maintained at 25oC with the
photoperiod of 12h light and 12h dark. Four replicates of each pH medium were arranged into a 4×4
setup of flasks for each light intensity and the experiment was conducted for four weeks. At the end
of the fourth week, the pH level of all flasks ranged from 8.27 to 8.53 due to the self-adjustment of
the pH level in the culture medium in parallel to algal growth. The maximum growth was reflected
by the highest absorbance of 1.46 at 750 nm. Taken together, our findings revealed that the
optimum pH range and light intensity for culturing D. salina is 8.27-8.53 and 885 lux respectively.
This study recommends further research on culturing of D. salina for extracting the bioproduct of β
-carotene at various light intensity levels.