Microalgae are microscopic aquatic photosynthetic microorganisms, which are autotrophs and they have the ability to transform sunlight, carbon dioxide and nutrients into biomass (Cinar et al., 2020). Microalga species such as Chlorella and Spirulina are majorly contributing to the production of bioplastics. Biodegradable plastics are one of the breakthroughs in the efforts to reduce plastic waste, which represent biodegradable polymers of biological origin from renewable resources. The current production of bioplastics are around 2.15 million tonnes globally. The concept of incorporating microalgae in waste management has been subjected to reduce the overall production cost, amount of pollutants and energy consumption of waste yet enable to reuse microalgae biomass produced for agricultural and bioplastic purposes. (George et al., 2021); additionally, microalgae with high protein content can also be used. Microalgae with various concentrations of plasticizer are mixed to produce bioplastic material. Bioplastics material has been obtained through injection moulding of blends of Micro-algal Consortium (CM) from wastewater and Arthospira maxima obtained after mixing with different amounts of glycerol, and eventually characterized using Dynamic Mechanical Thermal Analysis (DMTA), water immersion and tensile tests (Rocha et al., 2020). A bio refinery concept where Synechocystis is extracted from waste and cultivation of microalga biomass, and by downstream processing able to accumulate Polyhydroxybutyrates (PHB) and pigments has been developed. This harvested residual biomass is used as substrate for Anaerobic co-digestion (AcoD) to obtain biogas and further processing to produce bio fertilizers and digestive supernatant (Meixner et al., 2018). Other studies have pointed out the blending of producing bioplastics at commercial scale, such as Polylactic acid (PLA) from renewable resources. Taking into consideration, the novelty these reports, there is scope for improving the efficiencies to enable commercialization, industrialization and scale-up of utilization of microalgae in bioplastic production.