Algae Mediated Bioremediation
Develop new methods for remediating pollution with this cutting-edge guide
In a world where environmental remediation and pollution removal are becoming more critical with every passing day, the search for organic and sustainable solutions has never been more critical. Removing organic pollutants through the use of algae has become an especially promising avenue for bioremediation, with a far lower environmental impact than comparable mechanical, physical, or chemical approaches. The possibility of deriving bioenergy from the resulting biomass makes this approach even more potentially critical to a sustainable future.
Algae Mediated Bioremediation offers a cutting-edge overview of these processes and their applications. Its comprehensive approach to the problems of pollution abatement and the value of algae as environmental and biotechnological agents include both practical solutions and key gaps in existing research.
Algae Mediated Bioremediation readers will also find:
- Case studies of successful use drawn from across the globe
- Detailed discussion of remediating aquatic, atmospheric, and terrestrial habitats
- Applications for value-added products incorporating biomass
Algae Mediated Bioremediation is ideal for biotechnologists, biochemists, natural products chemists, and other researchers working in industry or environmental research.
Tabella dei contenuti
Volume 1
About the Editors xvii
Foreword xxiii
Preface xxv
Acknowledgment xxix
Part I Phycoremediation Strategies 1
1 Microalgal Process Technologies for Removal of High Load of Pollutants from Wastewater 3
Nigel Twi-Yeboah, Dacosta Osei, and Michael K. Danquah
2 Synergistic Bacteria–Algae Efficiency in Remediation of Heavy Metals in Wastewater 23
Spriha Raven, Abhishek Saxena, Sashita Bindu Ekka, Hayan Lee, Arpit Andrew Noel, Joshua Nainan, and Archana Tiwari
3 Immobilization of Microalgae for Bioremediation of Wastewater 43
Anushree Pant, Jatinder Singh, Kavyashree Tewari, Harmanpreet Meehnian, and Asim Kumar Jana
4 Immobilized Microalgae-Based Processes: Is It a Viable Pathway for Wastewater Treatment? 63
Ihana A. Severo, Otto G. de A. Azevedo, Walter J. Martinez-Burgos, André B. Mariano, José V. C Vargas, and Juan C. Ordonez
5 Bioreactors and Operation Modes for Microalgae-Based Wastewater Treatment 83
Francine Pimentel de Andrade, Josimayra Almeida Medeiros, Carlos Eduardo de Farias Silva, and Márcio Luciano Ferreira de Sá Filho
6 Removal of Heavy Metals from the Aquatic and Terrestrial Ecosystems by Microalgae 101
Jinnath Rehana Ritu, Saleha Khan, Md Mahfuzul Haque, Ambati Ranga Rao, and Gokare A. Ravishankar
7 Seaweeds as Accumulators of Heavy Metals: Current Status on Heavy Metal Sequestration 123
C. Periyasamy, K. Suresh Kumar, and P.V. Subba Rao
8 Bioremediation of Wastewater Employing Microalgae 145
Nazar Reehana, Mohamed Yousuff Mohamed Imran, Thajuddin Shakena Fathima, and Nooruddin Thajuddin
9 The Combined Use of Alginate and Chitosan in the Removal of Dye and Heavy Metal Ions 165
Yimin Qin
Part II Anaerobic Digestion for Removal of Pollutants and Sewage Treatment 179
10 Treatment of Swine Wastewater Using Microalgae 181
Ana Laura Silva-Gálvez, María Fernanda Palafox-Sola, Martín Esteban González-López, Anaid López Sánchez, Danielle A. Orozco-Nunnelly, Isaac Jhonnatan Pérez-Hermosillo, José González-Valdez, and Misael Sebastián Gradilla-Hernández
11 Potential of Algal Culture to Treat Anaerobic Digestate of Piggery Waste for Bioremediation and Biomass Production 205
Jeremy Ayre and Navid Moheimani
12 Algae and Biogas Plants: Digestate Remediation and Nutrient Recycling with Algal Systems 245
Maja Zrimec Berden, Robert Reinhardt, Simone Rossi, Elena Ficara, María del Rosario Rodero, and Raúl Muñoz
Part III Treatment of Agricultural Wastes 271
13 Phycoremediation of Aquaculture Wastewater by Algae 273
Sunzida Sultana, Saleha Khan, Ambati Ranga Rao, Md Mahfuzul Haque, M. Yahia Mahmud, and Gokare A. Ravishankar
14 Aquaculture Wastewater Treatment Through Microalgae for Biomass Production and its Use in Agriculture, Feed, and Energy Applications 295
Nowrin Akter Shaika, Saleha Khan, Sunzida Sultana, Md Mahfuzul Haque, Ambati Ranga Rao, and Gokare A. Ravishankar
Part IV Treatment of Food Industry-Wastewaters 317
15 Phycoremediation of Palm Oil Mill Effluent by Selected Algal Forms Leading to Biomass Production and High Value Products 319
Muhamad Maulana Azimatun Nur, Ambati Ranga Rao, and Gokare A. Ravishankar
16 Phycoremediation of Food Processing Wastewater by Microalgae 335
Awalina Satya, Ratih Pangestuti, Tjandra Crismadha, Ika A. Satya, Puji Rahmadi, Ardiyan Harimawan, and Tjandra Setiadi
Volume 2
About the Editors xvii
Foreword xxiii
Preface xxv
Acknowledgment xxix
Part V Detoxication and Pollution Abatement of Industrial Waste Streams 355
17 Removal of Micropollutants in Industrial Wastewater Using Microalgae 357
Melih Onay and Aytun Onay
18 Algae-Based Bioremediation of Pulp and Paper Mill Wastewater: An Overview 377
Ambati Ranga Rao and Gokare A. Ravishankar
19 Bioremediation of Water Polluted with Dyes from Textile Industries Using Microalgae and Cultivation of Microalgae for Multiple Biorefineries 399
Michael Van Lal Chhandama, Alongkrita Chumpi Chetia, Kumudini Belur Satyan, Ambati Ranga Rao, and Gokare A. Ravishankar
20 Phycoremediation of Tannery Effluents – An Approach to Circular Economy 423
Sonica Divakar, Tamoghno Paul, Dhathri Bollepalli, Kanagam Nachiappan, Kalaivani Thiagarajan, and Rajasekaran Chandrasekaran
21 Petrochemical Wastewater Remediation by Microalgae 439
Madhubalaji C.K., M. Mounika S. Reddy, Vikas Singh Chauhan, and Ravi Sarada
22 Recent Advances in the Application of Microalgae-Based Bioremediation of Pharmaceutical Waste 457
Ming-Li Teoh, Wu-Thong Choo, and Peter Convey
23 Bioremediation of Emerging Contaminants Pharmaceutical Waste Using Microalgae 471
Walter J. Martínez-Burgos, Júlio Cesar de Carvalho, Anllelo R. Pacheco Quintero, Ihana Aguiar Severo, Andrea Monroy-Licht, Susan Grace Karp, and Carlos Ricardo Soccol
Part VI Carbon Dioxide Sequestration Strategies 487
24 Carbon-Dioxide Capture Strategies from Industrial Flue Gas by Algae 489
Sanjukta Banerjee and Debabrata Das
25 Seaweeds Aid in Carbon Sequestration to Combat Global Warming: A Glimpse 505
Harshita Mishra, K. Suresh Kumar, K. Pratibha, C. Periyasamy, and P.V. Subba Rao
Part VII Valorization of Algal Biomass 521
26 Utilization of Algal Biomass for Producing Biochar, Biofertilizers, and Valuable Metabolites 523
Hamoon Nouri Pourazgomi
27 Microalgae and Its Potential to Generate Carbon Credits 539
Adriane Terezinha Schneider, Rosangela Rodrigues Dias, Mariany Costa Deprá, Leila Queiroz Zepka, and Eduardo Jacob-Lopes
28 Phycoremediated Algal Biomass as Biofertilizers for Sustainable Crop Production: An Overview 549
Debasish Panda, Sananda Mondal, Rajkumari Bhol, and Soumi Saha
29 Microalgae and Cyanobacteria Role in Sustainable Agriculture: From Wastewater Treatment to Biofertilizer Production 565
Giovanni Antonio Lutzu, Ali Parsaeimehr, Gulnihal Ozbay, Adriana Ciurli, Leonardo Bacci, Ambati Ranga Rao, Gokare A. Ravishankar, and Alessandro Concas
30 Algal-Elicitor as a Bio-Stimulant: Post-Remediation Applications 619
Sonica Divakar, Zelalem Gezu Alemu, Lensa Tafese Ettana, Kanagam Nachiappan, Kalaivani Thiagarajan, and Rajasekaran Chandrasekaran
Part VIII Global Perspectives of Algae-Based Bioremediation 633
31 Algal-Mediated Bioremediation of Wastewater Streams with a Special Focus on the Successes Achieved in Vietnam 635
Dang Diem Hong, Nguyen Cam Ha, Le Thi Thom, Dong Van Quyen, Nguyen Thi Kim Cuc, Nguyen Thi Lan Huong, Ambati Ranga Rao, and Gokare A. Ravishankar
32 Algae-Mediated Bioremediation in Malaysia 663
Siew-Moi Phang
33 Algae-Mediated Bioremediation in Thailand: An Overview 683
Rapeeporn Ruangchuay, Anong Chirapart, and Khanjanapaj Lewmanomont
34 Wastewater Treatment in Pakistan Using Algae and Microbes: Recent Developments 701
Sidra Mushtaq, Shumaila Sarwar, Uzma Younas, Saira Naseem, Quaisar Ijaz Khan, Ali Hussain, and Maleeha Manzoor
35 Algal Bioremediation in Asian Developing Countries and Its Potential Applications 715
Nilay Kumar Sarker, Prasad Kaparaju, and Ambati Ranga Rao
Index 737
Circa l’autore
Gokare A. Ravishankar, Ph D, is an Adjunct Professor and Vice President in Research and Development in Life Science and Biotechnology Disciplines, Dayananda Sagar College of Engineering & Dayananda Sagar University, Bengaluru, India. He served as a Director Grade- Chief Scientist & Head of Plant Cell Biotechnology Department at Central Food Technological Research Institute, Mysore, India. He is a world-renowned scientist recognized as Fellow of a number of Science Academies including the Institute of Food Technologists (USA), International Academy of Food Science and Technology (Canada), National Academy of Sciences (India), and several more.
Ambati Ranga Rao, Ph D, is an Associate Professor and Senior Scientist in Biotechnology at Vignan’s Foundation for Science, Technology and Research University, Andhra Pradesh, India. He was a postdoctoral researcher at Arizona State University, USA; visiting senior research fellow at University of Malaya, Malaysia; and visiting assistant professor at Beijing Normal University-Hong Kong Baptist University United International College, China. His research interests are algal biotechnology, food science and technology, plant secondary metabolites, functional foods, nutraceuticals, and biological sciences.
Se-Kwon Kim, Ph D, is presently working as a Distinguished Professor at Hanyang University. He worked as a Distinguished Professor at the Department of Marine Bio Convergence Science and Technology and as Director of the Marine Bioprocess Research Center (MBPRC) at Pukyong National University, Busan, South Korea.