We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Biological and Nutritional Applications of Microalgae
Summary
This review covers the nutritional and health benefits of microalgae, which are tiny photosynthetic organisms rich in proteins, vitamins, and beneficial compounds. While not directly about microplastics, microalgae are relevant to the pollution discussion because they interact with microplastics in water environments and are being explored as sustainable alternatives to plastic-based products.
Microalgae are photosynthetic microorganisms that have a rapid growth cycle and carbon fixation ability. They have diverse cellular structures, ranging from prokaryotic cyanobacteria to more complex eukaryotic forms, which enable them to thrive in a variety of environments and support biomass production. They utilize both photosynthesis and heterotrophic pathways, indicating their ecological importance and potential for biotechnological applications. Reproducing primarily through asexual means, microalgae have complex cell cycles that are crucial for their growth and ability to adapt to changing conditions. Additionally, microalgae possess bioactive compounds that make them both nutritious and functional. Thanks to their content of proteins, lipids, carbohydrates, vitamins, and minerals, they play an important role in the development of functional food products, particularly by enhancing nutritional content and product quality. Furthermore, studies have demonstrated that algae and algal bioactive compounds support cardiovascular health, immune function, and gut health, especially in relation to obesity and other metabolic diseases. They also contribute to skin health and cognitive functions, including memory. This review article explores the biological, nutritional, and functional properties of microalgae based on the studies conducted.
Sign in to start a discussion.
More Papers Like This
Expanded utilisation of microalgae in global aquafeeds
This review explores how microalgae can be used more widely in aquaculture feeds as a sustainable replacement for fish meal and fish oil. Microalgae provide essential fatty acids, proteins, vitamins, and antioxidant pigments that support fish health and growth. While not directly about microplastics, expanding microalgae-based aquaculture feeds could reduce reliance on wild-caught fish from potentially microplastic-contaminated oceans.
Microalgae as a Source of Biopolymer - A Comprehensive Review
This review examines microalgae as a source of biopolymers for sustainable plastic alternatives, evaluating the potential of algae-derived materials to address the environmental and health harms caused by conventional plastic waste and microplastic pollution through biodegradable substitutes.
A critical review on remediation of microplastics using microalgae from aqueous system
This review explores using microalgae -- tiny photosynthetic organisms -- as a natural way to remove microplastics from water. Microalgae can capture and clump microplastic particles together, making them easier to filter out. Since microplastics in water systems are a growing concern for human health through drinking water and seafood, biological removal methods like this could offer a more sustainable cleanup approach.
Bioplastic Production from Microalgae and their Applications- A Critical Review
This review critically examines bioplastic production from microalgae, evaluating algal strains, cultivation conditions, and extraction methods, while noting that multiple health risks associated with conventional microplastics have increased the urgency of developing algae-based alternatives.
Potential for Using Algae to Reduce Microplastics in the Environment
This review examined the potential of algae to reduce microplastic pollution both by adsorbing and intercepting plastic particles in water and by serving as a feedstock for biosynthesizing biodegradable bioplastics as alternatives to petroleum-based materials.