Toxicity of sulfamethazine and sulfamethoxazole and their removal by a green microalga, Scenedesmus obliquus DOI
Jiu-Qiang Xiong, Sanjay P. Govindwar, Mayur B. Kurade

et al.

Chemosphere, Journal Year: 2018, Volume and Issue: 218, P. 551 - 558

Published: Nov. 24, 2018

Language: Английский

Treatment technologies for emerging contaminants in wastewater treatment plants: A review DOI
Prangya Ranjan Rout, Tian C. Zhang, Puspendu Bhunia

et al.

The Science of The Total Environment, Journal Year: 2020, Volume and Issue: 753, P. 141990 - 141990

Published: Aug. 26, 2020

Language: Английский

Citations

580

Microalgal bioremediation of emerging contaminants - Opportunities and challenges DOI
Donna L. Sutherland, Peter J. Ralph

Water Research, Journal Year: 2019, Volume and Issue: 164, P. 114921 - 114921

Published: July 27, 2019

Language: Английский

Citations

404

Microalgae-based wastewater treatment: Mechanisms, challenges, recent advances, and future prospects DOI Creative Commons
Abdallah Abdelfattah, Sameh S. Ali, Hassan Ramadan

et al.

Environmental Science and Ecotechnology, Journal Year: 2022, Volume and Issue: 13, P. 100205 - 100205

Published: Sept. 8, 2022

The rapid expansion of both the global economy and human population has led to a shortage water resources suitable for direct consumption. As result, remediation will inexorably become primary focus on scale. Microalgae can be grown in various types wastewaters (WW). They have high potential remove contaminants from effluents industries urban areas. This review focuses recent advances WW through microalgae cultivation. Attention already been paid microalgae-based wastewater treatment (WWT) due its low energy requirements, strong ability thrive under diverse environmental conditions, transform nutrients into high-value compounds. It turned out that WWT is an economical sustainable solution. Moreover, different toxins are removed by biosorption, bioaccumulation, biodegradation processes. Examples agricultural runoffs textile pharmaceutical industrial effluents. mitigate carbon dioxide make use micronutrients present paper highlights application pollutants commonly mechanisms, simultaneous resource recovery, efficient co-culturing systems along with bottlenecks prospects.

Language: Английский

Citations

393

Removal of pharmaceutical and personal care products (PPCPs) from wastewater using microalgae: A review DOI Creative Commons
Sufia Hena, Leonardo Gutiérrez,

Jean‐Philippe Croué

et al.

Journal of Hazardous Materials, Journal Year: 2020, Volume and Issue: 403, P. 124041 - 124041

Published: Sept. 19, 2020

Language: Английский

Citations

382

Use of microalgae based technology for the removal of antibiotics from wastewater: A review DOI
Lijian Leng, Wei Liang, Qin Xiong

et al.

Chemosphere, Journal Year: 2019, Volume and Issue: 238, P. 124680 - 124680

Published: Aug. 26, 2019

Language: Английский

Citations

364

Potential Industrial Applications and Commercialization of Microalgae in the Functional Food and Feed Industries: A Short Review DOI Creative Commons
Franciele Pereira Camacho, Ângela C. Macedo, F. Xavier Malcata

et al.

Marine Drugs, Journal Year: 2019, Volume and Issue: 17(6), P. 312 - 312

Published: May 28, 2019

Bioactive compounds, e.g., protein, polyunsaturated fatty acids, carotenoids, vitamins and minerals, found in commercial form of microalgal biomass (e.g., powder, flour, liquid, oil, tablet, or capsule forms) may play important roles functional food dairy products, desserts, pastas, oil-derivatives, supplements) feed (for cattle, poultry, shellfish, fish) with favorable outcomes upon human health, including antioxidant, anti-inflammatory, antimicrobial, antiviral effects, as well prevention gastric ulcers, constipation, anemia, diabetes, hypertension. However, scale up remains a major challenge before competitiveness is attained. Notwithstanding the odds, few companies have already overcome market constraints, are successfully selling extracts microalgae colorant, supplement for industries. Strong scientific evidence probiotic humans still lacking, while scarce studies concluded on activity marine animals ingestion. Limitations culture harvesting shelf life extension indeed constrained viability. There are, however, scattered pieces that prebiotic roles, owing to their richness oligosaccharides-hardly fermented by other members intestinal microbiota, digested throughout gastrointestinal tract humans/animals matter. consistent applications exist only industry aquaculture. Despite underlying potential formulation food/feed, extensive research development efforts required at large become reality formulation.

Language: Английский

Citations

338

Emerging Technologies in Algal Biotechnology: Toward the Establishment of a Sustainable, Algae-Based Bioeconomy DOI Creative Commons
Michele Fabris, Raffaela M. Abbriano, Mathieu Pernice

et al.

Frontiers in Plant Science, Journal Year: 2020, Volume and Issue: 11

Published: March 17, 2020

Mankind has recognized the value of land plants as renewable sources food, medicine, and materials for millennia. Throughout human history, agricultural methods were continuously modified improved to meet changing needs civilization. Today, our rapidly growing population requires further innovation address practical limitations serious environmental concerns associated with current industrial practices. Microalgae are a diverse group unicellular photosynthetic organisms that emerging next-generation resources potential urgent demands. The extensive biological diversity algae can be leveraged produce wealth valuable bioproducts, either naturally or via genetic manipulation. additionally possess set intrinsic advantages, such low production costs, no requirement arable land, capacity grow in both large-scale outdoor systems scalable, fully contained photobioreactors. Here, we review technical advancements, novel fields application, products field algal biotechnology illustrate how could present high-tech, low-cost, environmentally friendly solutions many future society. We discuss technologies synthetic biology, high-throughput phenomics, application internet things (IoT) automation manufacturing technology advance understanding biology and, ultimately, drive establishment an algal-based bioeconomy.

Language: Английский

Citations

289

Current advances in treatment technologies for removal of emerging contaminants from water – A critical review DOI
Muhammad Kashif Shahid, Ayesha Kashif,

Ahmed Fuwad

et al.

Coordination Chemistry Reviews, Journal Year: 2021, Volume and Issue: 442, P. 213993 - 213993

Published: May 11, 2021

Language: Английский

Citations

288

Emerging contaminants in wastewater: A critical review on occurrence, existing legislations, risk assessment, and sustainable treatment alternatives DOI
Vishal Kumar Parida, Duduku Saidulu, Abhradeep Majumder

et al.

Journal of environmental chemical engineering, Journal Year: 2021, Volume and Issue: 9(5), P. 105966 - 105966

Published: July 1, 2021

Language: Английский

Citations

261

Tricks and tracks in removal of emerging contaminants from the wastewater through hybrid treatment systems: A review DOI
Kiran Dhangar, Manish Kumar

The Science of The Total Environment, Journal Year: 2020, Volume and Issue: 738, P. 140320 - 140320

Published: June 18, 2020

Language: Английский

Citations

251