This book demonstrates a comprehensive understanding of plant high-throughput phenotyping and functional phenomics; emphasizing the significance of automated machinery, robotics, remote sensing, and computational tools, including artificial intelligence and machine learning.
This book demonstrates a comprehensive understanding of plant high-throughput phenotyping and functional phenomics; emphasizing the significance of automated machinery, robotics, remote sensing, and computational tools, including artificial intelligence and machine learning.
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. His 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, systems biology, and drug discovery. He serves as an editorial board member and a guest editor in several reputed journals. He published books in collaboration with international publishers on diverse topics such as drug discovery, herbal medicine, medicinal biotechnology, nanotechnology, bioengineering, plant functional genomics, plant speed breeding, CRISPR¿based plant genome editing, and artificial intelligence. In 2023 and 2024, Stanford University/Elsevier included Dr. Chen in the "World's Top 2% Scientists".
Inhaltsangabe
Preface. List of Contributors. Chapter 1 Bioinformatics Tools and Deep Learning for Plant High Throughput Phenotyping and Phenomics. Chapter 2 Plant High Throughput Phenotyping and Phenomics for Accelerating Crop Breeding. Chapter 3 Remote Sensing Technologies for High Throughput In-Field Crop Phenotyping. Chapter 4 High Throughput Field Phenotyping: Enhancing Crop Monitoring for Food Security. Chapter 5 Imaging Techniques for High Throughput Phenotyping: Methods and Applications. Chapter 6 High Throughput Phenotyping for Plant Metabolomics: Methods and Applications with a Special Focus on Chemical Ecology. Chapter 7 High Throughput Phenotyping: An Effective Tool for Plant Breeders to Dissect Crop Responses to Abiotic Stresses. Chapter 8 Genetic Dissection of Major Crops by High Throughput Phenotyping and Phenomics. Chapter 9 High Throughput Phenotyping and Phenomics for Exploration of Plant Growth and Development. Chapter 10 Root Phenotyping for Breeding of Climate Resilient Crops. Chapter 11 High Throughput Plant Phenotyping Platforms for Cereal Crop Breeding to Improve Abiotic Stress Tolerance. Chapter 12 High Throughput Phenotyping and Phenomics for Climate Smart Crop Breeding. Chapter 13 High Throughput Plant Phenotyping and Phenomics: Advances and Prospects. Chapter 14 Technical Advancements in Plant High Throughput Phenotyping and Phenomics: An Overview. Chapter 15 Statistical Tools and Data Analysis for Organizing Plant High Throughput Phenomics. Chapter 16 Robotics and Aerial Vehicle for High Throughput Phenotyping: Technologies and Prospects. Chapter 17 Technical Advancements in Plant Metabolic Phenotyping Based on High Throughput and High Resolution Analytical Platforms. Chapter 18 High Throughput Metabolomics for Agricultural Research. Chapter 19 Dissecting Plant Pathogen Interactions by High Throughput Metabolomics for Developing Biotic Stress Resilient Crops. Chapter 20 Applied Metabolomics for Plant Disease Management. Index.
Preface. List of Contributors. Chapter 1 Bioinformatics Tools and Deep Learning for Plant High Throughput Phenotyping and Phenomics. Chapter 2 Plant High Throughput Phenotyping and Phenomics for Accelerating Crop Breeding. Chapter 3 Remote Sensing Technologies for High Throughput In-Field Crop Phenotyping. Chapter 4 High Throughput Field Phenotyping: Enhancing Crop Monitoring for Food Security. Chapter 5 Imaging Techniques for High Throughput Phenotyping: Methods and Applications. Chapter 6 High Throughput Phenotyping for Plant Metabolomics: Methods and Applications with a Special Focus on Chemical Ecology. Chapter 7 High Throughput Phenotyping: An Effective Tool for Plant Breeders to Dissect Crop Responses to Abiotic Stresses. Chapter 8 Genetic Dissection of Major Crops by High Throughput Phenotyping and Phenomics. Chapter 9 High Throughput Phenotyping and Phenomics for Exploration of Plant Growth and Development. Chapter 10 Root Phenotyping for Breeding of Climate Resilient Crops. Chapter 11 High Throughput Plant Phenotyping Platforms for Cereal Crop Breeding to Improve Abiotic Stress Tolerance. Chapter 12 High Throughput Phenotyping and Phenomics for Climate Smart Crop Breeding. Chapter 13 High Throughput Plant Phenotyping and Phenomics: Advances and Prospects. Chapter 14 Technical Advancements in Plant High Throughput Phenotyping and Phenomics: An Overview. Chapter 15 Statistical Tools and Data Analysis for Organizing Plant High Throughput Phenomics. Chapter 16 Robotics and Aerial Vehicle for High Throughput Phenotyping: Technologies and Prospects. Chapter 17 Technical Advancements in Plant Metabolic Phenotyping Based on High Throughput and High Resolution Analytical Platforms. Chapter 18 High Throughput Metabolomics for Agricultural Research. Chapter 19 Dissecting Plant Pathogen Interactions by High Throughput Metabolomics for Developing Biotic Stress Resilient Crops. Chapter 20 Applied Metabolomics for Plant Disease Management. Index.
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