Mahmoud Thaher scite author profile

The treatment of different types of wastewater by physicochemical or biological (non-microalgal) methods could often be either inefficient or energy-intensive. Microalgae are ubiquitous microscopic organisms, which thrive in water bodies that contain the necessary nutrients. Wastewaters are typically contaminated with nitrogen, phosphorus, and other trace elements, which microalgae require for their cell growth. In addition, most of the microalgae are photosynthetic in nature, and these organisms do not require an organic source for their proliferation, although some strains could utilize organics both in the presence and absence of light. Therefore, microalgal bioremediation could be integrated with existing treatment methods or adopted as the single biological method for efficiently treating wastewater. This review paper summarized the mechanisms of pollutants removal by microalgae, microalgal bioremediation potential of different types of wastewaters, the potential application of wastewater-grown microalgal biomass, existing challenges, and the future direction of microalgal application in wastewater treatment.

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A comparative study of the growth of Tetraselmis sp. in large scale fixed depth and decreasing depth raceway ponds

Das

Thaher

Hakim

et al. 2016

Bioresource Technology

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Sustainable production of toxin free marine microalgae biomass as fish feed in large scale open system in the Qatari desert

Das

Thaher

Hakim

et al. 2015

Bioresource Technology

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Microalgal nutrients recycling from the primary effluent of municipal wastewater and use of the produced biomass as bio-fertilizer

Das

Quadir

Thaher

et al. 2018

Int. J. Environ. Sci. Technol.

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Microalgal bioremediation of petroleum-derived low salinity and low pH produced water

et al. 2018

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Microalgae harvesting by pH adjusted coagulation-flocculation, recycling of the coagulant and the growth media

Das

Thaher

Hakim

et al. 2016

Bioresource Technology

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Nutrients and Energy Digestibility of Microalgal Biomass for Fish Feed Applications

et al. 2021

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Aquafeed accounts for at least 75–90% of aquaculture’s operating costs. Traditional aquafeed ingredients such as fishmeal, fish oil, and soybean meal are unsustainable; further, their increasing cost necessities developing alternative feed ingredients. Microalgae-based aquafeed is not only environmentally friendly, but it can also be cost-effective with proper optimization. In addition, the nutrition profile of microalgae is similar to that of many fishes. The digestibility of a feed is one of the most important factors to consider in feed formulation. A highly digestible feed can lower production costs, reduce feed waste, and reduce the risk of eutrophication. This review discusses the digestibility of various nutrients such as protein, lipid, carbohydrate, amino acids, and fatty acids (including omega-3 fatty acids), dry matter, and energy of various microalgae in fish. Other commonly used aquafeed ingredients were also compared to microalgae in terms of nutrient and energy digestibility in fish. The intrinsic characteristics of microalgae, biomass pretreatment, and feed preparation methods are all discussed as factors that contribute to the nutrient and energy digestibility of microalgae in fish. Furthermore, methods for increasing the digestibility of microalgal biomass in fish are suggested. Finally, the review concludes with the challenges and prospects of using microalgae as a fish feed in terms of digestibility.

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Mahmoud Thaher

Potential of microalgae as a sustainable feed ingredient for aquaculture

Treatment of Wastewaters by Microalgae and the Potential Applications of the Produced Biomass—A Review

A comparative study of the growth of Tetraselmis sp. in large scale fixed depth and decreasing depth raceway ponds

Sustainable production of toxin free marine microalgae biomass as fish feed in large scale open system in the Qatari desert

Microalgal nutrients recycling from the primary effluent of municipal wastewater and use of the produced biomass as bio-fertilizer

Microalgal bioremediation of petroleum-derived low salinity and low pH produced water

Microalgae harvesting by pH adjusted coagulation-flocculation, recycling of the coagulant and the growth media

Nutrients and Energy Digestibility of Microalgal Biomass for Fish Feed Applications

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