Microalgae have been reported to exhibit mutualistic interactions with other microorganisms
like bacteria, filamentous fungi, and yeast and help each other co-exist. The potential of …

Wastewater and activated sludge present a major challenge worldwide. Wastewater
generated from large and small-scale industries, laundries, human residential areas and …

The burgeoning human population has resulted in an augmented demand for raw materials
and energy sources, which in turn has led to a deleterious environmental impact marked by …

Microalgae based biofuel has been extensively researched with huge investment over more
than a past decade. However, integration of lipid accumulation and recovery needs to be …

Agricultural and agro-industrial activities have risen exponentially to meet the ever-growing
demand for food, energy, and other important resources. High freshwater consumption …

Co-cultivation and effective downstream processing of microalgae and oleaginous yeast are
potential strategies to enhance lipid yield. The findings of this work suggest that each …

This chapter summarizes the recent advances in the processing of waste resources to
produce biofuels and platform chemicals. There is a growing concern globally on clean …

Microalgal diversity has been exploited as a renewable feedstock for biofuel production.
Due to the oleaginous nature, the microalgae gained worldwide interest in the production of …

Developing co-cultivation systems involving microalgae and fungi has shown promising
potential for microalgae harvesting technology. As discussed in this review, the co …

Microorganisms have a high potential as biofuel sources. Co-culture of microalgae and
yeasts can result in high lipid production as a modification treatment. The goal of this study …