Removal of pollutants from wastewater via biological methods and shifts in microbial community profile during treatment process

Dalvi, Vivek; Naaz, Farah; Nigam, Harshita; Jain, Rahul; Samuchiwal, Saurabh; Kalia, Shweta; Kumar, Rahul; Mathur, Megha; Bano, Farhat; Pant, Kamal K.; Singh, Aameek; Kriti, Anu; Chauhan, Nitin; Bansal, Tanu; Gola, Deepak

doi:10.1016/b978-0-12-823991-9.00022-8

Cited by 8 publications

(4 citation statements)

References 68 publications

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“…Phycoremediation can overcome these limitations as it can be used for wastewater treatment, biomass generation, and CO 2 sequestration. The phycoremediation approach has already been applied to the tertiary treatment [129] as well as in secondary treatment [130] of wastewater as they tend to withstand stress due to a polluted environment and can grow in them [24]. Also, they can be used in the primary treatment process as a biosorbent.…”

Section: Opportunity and Challenges Of Phycoremediationmentioning

confidence: 99%

“…Algae exhibit distinctive metabolic capacities and can remediate contaminants via diverse mechanisms such as biosorption, bioaccumulation and degradation [19][20][21]. The efficacy of phycoremediation has been evidenced in treating wastewater, eliminating nutrients, sequestration of carbon, and remediation of contaminants, including heavy metals, organic compounds, and surplus nitrogen and phosphorus [22][23][24]. The utilization of algae in phycoremediation offers several benefits, such as their swift growth, elevated capacities for pollutant removal, and adaptability to diverse environments such as wastewater ponds or bioreactors.…”

Section: Introductionmentioning

confidence: 99%

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Phycoremediation of Synthetic Dyes Laden Textile Wastewater and Recovery of Bio-Based Pigments from Residual Biomass: An Approach towards Sustainable Wastewater Management

et al. 2023

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The textile industry is a growing sector worldwide and has immense opportunity in terms of providing employment and boosting a nation’s economy. However, there exist severe environmental risks associated with textile effluents that impact the surrounding ecosystem. This review offers an approach for sustainable water management using phycoremediation to treat dye-laden wastewater and recover bio-based pigments from the residual biomass. Microalgae such as Chlorella, Scenedesmus, Phormidium, and macroalgae like Sargassum, Enteromorpha, and Codium has been extensively used in several phycoremediation-based studies, and their residual biomass could be a potent source for extraction of bio-based pigments. This review also recommends studies involving the algal-bacterial consortia approach for treating dye-laden wastewater as an alternative to conventional, biobased methods. The outcome of this study will provide policymakers and researchers with new insight to manage water and wastewater resources sustainably. Furthermore, this review also enhances our understanding of nature-based decontamination approaches for treating dye-laden wastewater through algal-based technologies.

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Section: Opportunity and Challenges Of Phycoremediationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Phycoremediation of Synthetic Dyes Laden Textile Wastewater and Recovery of Bio-Based Pigments from Residual Biomass: An Approach towards Sustainable Wastewater Management

et al. 2023

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“…Although these methods are more effective when used in secondary WWT, high costs, dewatering limitations, and the high efforts needed for maintenance are deemed the major shortcomings of these technologies [ 14 , 20 ]. In contrast, biological approaches depend on the metabolic activities of microorganisms to decompose and convert pollutants of WW to biomass and associated gases (CO 2 , CH 4 , N 2 , and SO 2 ), thereby decreasing the values of BOD and COD in the effluents and improving their quality [ 21 ]. Biological treatments involve biodegradation bleaching using different microorganisms, including bacteria, fungi, yeast, and microalgae [ [22] , [23] , [24] , [25] , [26] , [27] , [28] , [29] , [30] ].…”

Section: Introductionmentioning

confidence: 99%

Microalgae-based wastewater treatment: Mechanisms, challenges, recent advances, and future prospects

Abdelfattah

Ali

Ramadan

et al. 2023

Environmental Science and Ecotechnology

202

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“…Phosphorus is mainly precipitated by adding cations such as calcium, aluminum, and iron, resulting in an expensive process (Christensen et al, 2022). As an alternative for the treatment, reduction, and/or elimination of nitrogen and phosphorus, the use of microalgae arises which, being a natural process, may seem simple and involve a series of complex metabolic processes that vary based on the conditions of the crops and the composition of the effluent to be treated (Dalvi et al, 2021). Biological treatment systems based on microalgae allow the reduction of nutrients such as potassium, nitrogen, phosphorus, and CO 2 , having a potential application to be used as an alternative in the treatment of effluents for the reduction of organic matter, COD, BOD, and elimination of nitrogen and phosphorus, as well as to reduce fecal pathogens and bacteria, removal of emerging contaminants and heavy metals (Amaro et al, 2023a).…”

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confidence: 99%

Application of microalgae in wastewater: opportunity for sustainable development

Ramírez Mérida,

Rodríguez Padrón

2023

Front. Environ. Sci.

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Industrial sustainability is a process that has been gaining space in recent years. The use of microalgae for wastewater treatment could solve some environmental challenges, optimize resources, and generate value-added products in agriculture, biofuel, food, and feed. The use of High Rate Algal Pond (HRAP) presents economic benefits, by treating contaminated effluents and taking advantage of the microalgae biomass generated. The microalgae growth in wastewater can be limited by lighting energy or the easily assimilable carbon source, due to the high load of nutrients and organic matter present in these effluents. In the same way, other physical, chemical, and biological parameters must be controlled to guarantee that the process reaches its maximum performance. The technology applied with microalgae for the waste industrial treatment seeks to generate sustainable, economical, and efficient processes that guarantee the discharge of water under standard parameters that allow for preserving the environment, the quality of life of citizens and generating inputs such as biofertilizers that allow avoiding crucial problems such as NPK ratio imbalance, soil hardening, salinization, nutrient depletion, groundwater contamination and food for animal consumption that allows generating nutritional alternatives. In this way, the treatment of wastewater with microalgae is an opportunity to solve sanitary and environmental problems under a sustainable approach to obtain inputs, although some challenges must be solved for scale production. This document intends to show outstanding aspects related to effluent treatment, water reuse, and sustainable production of agricultural inputs through the use of microalgae.

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Removal of pollutants from wastewater via biological methods and shifts in microbial community profile during treatment process

Cited by 8 publications

References 68 publications

Phycoremediation of Synthetic Dyes Laden Textile Wastewater and Recovery of Bio-Based Pigments from Residual Biomass: An Approach towards Sustainable Wastewater Management

Phycoremediation of Synthetic Dyes Laden Textile Wastewater and Recovery of Bio-Based Pigments from Residual Biomass: An Approach towards Sustainable Wastewater Management

Microalgae-based wastewater treatment: Mechanisms, challenges, recent advances, and future prospects

Application of microalgae in wastewater: opportunity for sustainable development

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