This book summarizes the current achievements of metabolomics in revealing the roles of primary and secondary metabolisms of plants both used as major crops and for the production of medicines. It presents methods and applications of metabolomics for the exploration of stress responses, which may pave the way for obtaining climate-smart and stress-tolerant crops able to face biotic and abiotic stressors in a globally-changing climate. These technologies can advance the exploration of plant physiology as well as precision crop breeding for future anti-stress, high-quality, and high-yield plants and in doing so can achieve sustainable agriculture and therefore support the Sustainable Development Goals, the Paris Agreement, and the vision of sustainable agriculture. This book is an ideal reference for students, researchers, teachers, professors, and experts in the field of plant science and crop breeding. It provides an effective overview of the critical topic of plant science and will help to inspire and assist researchers as they design new experiments and methods.
Papildus informācija
Researchers and graduate students of plant breeding and crop science, chemical ecology, and plant physiology generally.
1: Applied Metabolomics for Studying Plant-specialized Metabolites in
Plant Health, Human Health, and Food Quality 2: Applied Metabolomics for
Plant Protection 3: High-throughput Plant Metabolomics and Predictive
Modelling 4: Technological Advancements in Plant High-Throughput Metabolomics
5: High-throughput Metabolomics for Uncovering Plant-Herbivore Interactions
6: High-throughput Metabolomics for Studying Plant Stress Physiology under a
Changing Climate 7: Plant Metabolomics Based on Single-Cell Technology 8:
Constructing Metabolomics Using Integrated Bioinformatics Tools for Advancing
Plant Science 9: Applied Metabolomics for Plant Biotechnology 10:
Metabolomics and High-throughput Approaches to Assessing Drought-stress
Tolerance in Crops 11: Applied Metabolomics for Crop Improvement and Plant
Breeding 12: High-throughput Metabolomics for Plant Phenotyping 13:
High-throughput Metabolomics for the Dissection of Plant Biotic and Abiotic
Stress Responses 14: High-throughput Metabolomics for Assessing CRISPR-edited
Plants 15: Metabolomics-assisted Breeding: A New Omics-Integrated Avenue for
Improved Stress Response in Plants 16: Plant High-throughput Metabolomics:
Recent Achievements, Applications and Future Perspectives 17: Integrating
Advanced Metabolomics with Plant Functional Genomics 18: Insights into
Medicinal Herbs based on Metabolomics and High-throughput Technologies 19:
High-throughput Metabolomics for Medicinal Plant Research 20: High-throughput
Metabolomics for the Exploration of Plant Secondary Metabolism 21:
High-throughput Metabolomics for Plant Ecology and Biodiversity Research 22:
High-throughput Metabolomics for Plant Natural Product Research
Dr. Jen-Tsung Chen is a professor of cell biology at the National University of Kaohsiung in Taiwan. He also teaches genomics, proteomics, plant physiology, and plant biotechnology. Dr. Chen's research interests include bioactive compounds, chromatography techniques, plant molecular biology, plant biotechnology, bioinformatics, and systems pharmacology. He is an active editor of academic books and journals to advance the exploration of multidisciplinary knowledge involving plant physiology, plant biotechnology, nanotechnology, ethnopharmacology, and systems biology.
