This volume discusses the impacts of climate change on sericulture in India, which was the world's second-largest producer of raw silk in 20222023, with mulberries accounting for 75.59% (27,654 MT) of total production. Covered are the challenges, threats, and opportunities for how to make mulberry silk production more climate-resilient and sustainable, while accounting for a broad range of influences including biodiversity, eco-physiology, crop management, mulberry cultivation, silkworm breeding, genomics, and issues resulting from pest and disease. The book is primarily meant for students studying sericultural science, and will also be of interest to researchers focusing on seri-biotechnology and molecular sericulture.
1 Diversity and Ecophysiological Aspects of Mulberry in Relation to
Climate Change.- 2 Mulberry Improvement in the Scenario of Climate Change
Conditions: Current Progress and Future Prospects.- 3 Climate-Resilient
Sericulture: Challenges, Prospects and Opportunities in Temperate Mulberry
Silk Production.- 4 Morpho-Physiological Attributes of Mulberry Towards
Resilience to Climate Change.- 5 Physiological and Molecular Approaches for
Sustainable Mulberry Leaf Production.- 6 Climate-Smart Sericulture: The Role
of Microbial Biotechnology in Overcoming Challenges and Unlocking
Opportunities.- 7 Mulberry Responses to Biotic Challenges Associated with
Climate Change: Crosstalk and Trade-offs.- 8 Sustainable Sericulture: Climate
Change Adaptation, Challenges and Mitigation Strategies.- 9 Mulberry Breeding
for Mitigating Climate Change: Current Status and Future Perspectives.- 10
Genomic Approach to Monitoring and Understanding Mulberry Genetic Resources
to Global Climate Change.- 11 Developing Climate Resilience in Mulberry:
Genomic Approaches to Enhance Abiotic Stress Tolerance.- 12 Unravelling the
Genomic Potential of Silkworm Bombyx mori for Tolerance to Environmental
Stress.- 13 The Impact of Environmental Factors on Bivoltine Silkworm,
Breeding Strategies and Climate Adaptation in India.- 14 Development and
Evaluation of Bombyx mori L. bidensovirus (BmBDV) Lepidoptera: Bidnaviridae)
Resistant Productive Silkworm Double Hybrid for Southern India Through
Molecular Marker Assisted Backcross Breeding.- 15 Utilization of Silkworm
Genetic Resources for Resilience to Climate Change.- 16 Non-Mulberry Plants'
Responses to Abiotic and Biotic Challenges Associated with Climate Change:
Crosstalk and Trade-offs.- 17 Climate Resilience in Non-Mulberry Sericulture:
A Genomic Perspective.- 18 Pragmatic Processes in Post-Cocoon Sector for a
Sustainable Future.- 19 Implications of Biotechnology for Climate-Resilient
Sericulture.
Soumen Saha is currently Assistant Professor of Sericulture at Raiganj University, Raiganj, India. He obtained his M.Sc. from the University of Mysore, India, and received his Ph.D. in Plant tissue culture and Molecular Biology from University of Kalyani, West Bengal, India. He completed his postdoctoral training at the University of Kalyani, Kalyani, studying Plant Secondary metabolites and genomic studies. He has received a prestigious UGC National Fellowship from Govt. of India during his Ph.D. and post-doc program. He has published more than 90 peer-reviewed papers and edited 03 books on plant Biotechnology including 01 with springer. He has also engaged in different research projects as Principal and Co-Investigator. His specializations include molecular biology, silkworm breeding, genome sequencing, plant tissue culture, bioinformatics, secondary metabolites, and marker-assisted breeding research. He is also a reviewer of several national and international journals.
Raju Mondal (final year Ph.D. student, Department of Botany, Banaras Hindu University, Varanasi, India-221005) Scientist-C, CSB-Central Sericultural Germplasm Resources Centre (CSB-CSGRC), Central Silk Board, Hosur, Tamil Nadu-635109, India, working in the area of Plant Science, especially the cytological aspect of mulberry genetic resources. His research interests focus on polyploidy, with a particular interest in bioinformatics, molecular biology, and genetics. More than 25 peer-reviewed international publications have been published by him. He has also engaged in different research projects as Principal and Co-Investigator.
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