Objective:To the effect of salinity stress on the production of microalgae(Lyngbya sp.)and chlorophyll pigments in the growth medium.Methods:Stress was investigated by using green algae strains Lyngbya sp.in response ...Objective:To the effect of salinity stress on the production of microalgae(Lyngbya sp.)and chlorophyll pigments in the growth medium.Methods:Stress was investigated by using green algae strains Lyngbya sp.in response to change bioactive compounds without any modification of cell growth and biomass production rate.The different stress conditions like 10%-40%were analyzed.Results:During the stress condition,various biochemical and microbiological assays were monitored.The photochemical composition was evaluated by GC-MS studies.The studies expressed that 30%higher salinity stress was suitable for high phytochemical production rate including chlorophyll content.Conclusions:Our study indicates the wide range of salinity stress to enhance the growth on microalgae culture and enhance the production of major secondary metabolites.展开更多
基金Supported by the Universiti Malaysia Pahang through the internal research grant No.RDU 110397.
文摘Objective:To the effect of salinity stress on the production of microalgae(Lyngbya sp.)and chlorophyll pigments in the growth medium.Methods:Stress was investigated by using green algae strains Lyngbya sp.in response to change bioactive compounds without any modification of cell growth and biomass production rate.The different stress conditions like 10%-40%were analyzed.Results:During the stress condition,various biochemical and microbiological assays were monitored.The photochemical composition was evaluated by GC-MS studies.The studies expressed that 30%higher salinity stress was suitable for high phytochemical production rate including chlorophyll content.Conclusions:Our study indicates the wide range of salinity stress to enhance the growth on microalgae culture and enhance the production of major secondary metabolites.