Metagenomics for Legume Crop Improvement

Chapter 1. Legume Metagenomics: Status and Scope for Crop Improvement

Abhishek Kumar Mishra, Kumari Deepali, Sujeet Pratap Singh and Ruchi Yadav

Chapter 2. Metagenomics Approaches in Legume Biology

Ankit Singh Negi, Sujeet Pratap Singh and Ruchi Yadav

Chapter 3. Microbial Ecology of The Silent Workers In The Legume Rhizosphere: Exploring An Informed And Purposeful Community

Meghna Thapa, Deepak Kumar, Anil Kumar Singh

Chapter 4. The Crucial Role of Key Microbiome for Improving Sustainable Legume Cultivation

Supriti Chowdhury, Ankita Pradhan, Ishita Samanta, Yamini Agrawal, Sasmita Mishra, Ritesh Pattnaik, and Gopal Chowdhary

Chapter 5. Role of Symbiotic and Non-Symbiotic Microbes in Legume Rhizosphere

Ekta Narwal, Jairam Choudhary, Sujit Bishi, Madan Kumar, Seema Sangwan, Prakash Chand Ghasal

Chapter6. Nutrient Cycling Microbes in Legume Rhizosphere

Jyotsana Tilgam, Kumar M., Sandeep Jaiswal, Jyoti Prakash Singh, Adarsh Kumar, and Shobit Thapa

Chapter7. Integrating the Role of Beneficial Microbes in Biotic and Abiotic Stress Tolerance of Legumes

Neeraj Kumar dubey, Sohan Lal, Gunja Gond, Ran Vijay Singh, Satendra Pal Singh, Alok Ranjan, Pradeep Kumar Yadav, Neeshma Jaiswal, Rashmi Srivastava, Rakesh Srivastava

Chapter8. Metagenomic Insights to Bacterial Communities and Functional Traits in Legume Crops

Alok Ranjan, Shruti Kaushik, Anil Kumar Singh

Chapter9. Stress-Responsive Legume Microbiomes: Metagenomic Approaches for Functional and Applied Insights

Niloy Gain, Md. Zahidur Rahman, Shreyasi Bhowmik Tonton, Md. Sajedur Rahman and Jamilur Rahman

Chapter10. Effect of Chemical Fertilizers on Microbiome in Legumes

Shruti Kaushik, Alok Ranjan, Ashwani Kumar, Geetika Sirhindi

Chapter11. Metagenomics of legumes under acidic and alkaline soil conditions

Yashika Sarangle, Ritu, Dhruvi Vaish and Ram Singh Purty

Chapter12. Metagenomics Insights of Major and Orphan Legumes under Mineral Deficiencies

Nishant, Riya Mary Cherian and Ragini Sinha

Chapter13. Metagenome–Metabolome Crosstalk: Exploring the Functional Microbiome of Legumes Under Field Conditions

Nikhil Kumar Singh, Kreeti Kajal, and Vijai Pal Badhana

Chapter14. Dynamics Of The Legume Rhizosphere Microbiota

Sakshi Suman, Aarti Yadav, Gopal Chowdhary, and Yamini Agrawal

Chapter15. Challenges and Emerging Relevance of Metagenomics for Sustainable Legume Cultivation

Sangeeta Singh, Parichita Priyadarshini amd Anurag Batham

Chapter16. Role of Key Microbiome with Potentials for Improving Sustainable Legume Cultivation

Seemon Giri, Zahra Parwez, Smaranika Pradha, Sourav Ranjan Parida1Subhransu Sekhar Behera, and Lopamudra Ray

Chapter17. Legume Metagenomics: Methods and Protocols

Alok Ranjan, Shruti Kaushik, Meghana Thapa, Sonali Chauhan, Piyush Kumar Rai, Anil Kumar Singh

Chapter18. The Bioinformatics Lens to Legume Metagenomic Data Analysis

Tikshana Yadav, Varsha Singh, Nikita Srivastava, Pooja Sharma, and Surendra Pratap Singh

Biography

Dr. Anil Kumar Singh is a Principal Scientist at the ICAR-National Institute for Plant Biotechnology, New Delhi, India. He has been engaged in plant molecular biology and biotechnology research for more than two decades. His research group has extensively characterized genomes and transcriptomes of several crop plants and commercially important microbes, generating valuable gene resource for crop improvement. Many of these genes have been functionally validated in model plants as well as in economically important crops such as rice and potato through the gene pyramiding approach. Dr. Singh has also worked as a visiting Scientist at the University of Minnesota, USA, where he worked on novel strategies for multiplexed genome editing and approaches to overcome low transformation efficiency in recalcitrant legume crops, thereby advancing precision breeding tools for underutilized and technically challenging species. 

He is currently leading an ambitious project aimed at deciphering the influence of soil pH on the rhizosphere microbiome of legume crops, with the goal of developing microbe-based mitigation strategies for acidic soil stress. Dr. Singh has published more than 90 research articles in peer-reviewed international journals with a cumulative Impact Factor ~ 300, over 4,700 citations, and an h-index of 37. He has also edited two books and authored 15 book chapters and delivered invited or keynote lectures at more than 40 National and International conferences in India and abroad. He serves on the editorial board of several reputed journals, including Frontiers in Plant Science, PLOS ONE, BMC Research Notes, and Phyton-International Journal of Experimental Botany. Furthermore, he has guest edited special Issues in Antioxidants, Genes, Tree Physiology and Physiologia Plantarum. In recognition of his significant contributions to plant molecular biology research, Dr. Singh has been elected as a member of the National Academy of Sciences, India (NASI), and the Plant Tissue Culture Association-India.

Dr. Alok Ranjan is a plant biotechnologist and molecular biologist with over 15 years of research experience and more than seven years of teaching in modern plant sciences and biotechnology. He is currently an assistant professor in the Department of Biotechnology at Patna Women’s College, Patna University, Bihar. Dr. Ranjan completed his PhD in biotechnology at CSIR–National Botanical Research Institute, Lucknow, in collaboration with Banaras Hindu University, Varanasi. He possesses over eight years of international postdoctoral research experience from renowned institutions, including the Umeå Plant Science Centre, Umeå University (Sweden), Oklahoma State University (USA), Meharry Medical College (USA), and Université libre de Bruxelles (Belgium). His research expertise includes plant stress physiology, hormone signaling, adventitious root development, and multi-omics approaches.  Dr. Ranjan has published more than 40 peer-reviewed articles, several book chapters, and has served as a reviewer for leading scientific journals. His research output has garnered over 1,800 citations, with an h-index of 22, and he holds one Indian patent. He has been actively engaged in root biology, metagenomics, and plant stress physiology, and his recent work on legume metagenomics aligns closely with the objectives of this book.