To maximize the biomass and lipid production for applications in food or biofuel feedstock,
nine stress conditions were tested considering N and/or P limitations, light intensity & quality …

The lipid content and composition of Haematococcuspluvialis exposed to stress conditions
were analyzed to assess the potential of this microalga as a biodiesel feedstock. The total …

The role of operating temperature as a physical stress factor for enhancing lipid induction
during microalgae cultivation with domestic wastewater was evaluated. Experiments were …

Chlorella sp. and Monoraphidium sp. were the potential microalgal species for lipid
production. This study aimed to investigate different light intensities (40, 200, 400 μmol …

Microalgae have been recognized as a potential feedstock for biodiesel production due to
their fast growth rate and ability to accumulate lipid within their cells. However, high lipid …

Microalgae are a group of microorganisms considered to be a potential source of next-
generation biofuel owing to high photosynthetic rate. However, biofuel compounds including …

Influence of salinity as a stress factor to harness biodiesel was assessed during dual mode
cultivation of microalgae by integrating biomass growth phase (BGP) and salinity induced …

This increasing consumption of fossil fuels and emission of greenhouse gases causes
climate change. Thus, the development of alternative energy sources such as biofuel is …

Microalgae-based biofuel generation is an encouraging alternative for the next generation
renewable and sustainable biofuels. Microalgae biomass is a competent raw material for the …

Enhancement of lipid accumulation is essential to improve the commercial feasibility of
microalgal biodiesel production. An oleaginous microalgal strain, Ankistrodesmus falcatus …