Dr. Youngho Kwon, National institute of crop science, South Korea
Youngho Kwon is a researcher at the National Institute of Crop Science, Rural Development Administration, South Korea, specializing in rice breeding. He holds a Ph.D., M.S., and B.S. in Applied Microbiology and Plant Pathology from Gyeongsang National University. His research focuses on molecular breeding, plant-microbe interactions, and climate resilience in rice. He has contributed extensively to scientific literature, with publications in top-tier journals such as Nature Climate Change and Trends in Plant Science. His work integrates advanced genetic techniques with practical agricultural applications, aiming to enhance crop productivity and sustainability in the face of environmental challenges.
Professional Profile:
ORCID
Summary of Suitability for Best Researcher Award โ Dr. Youngho Kwon
Dr. Youngho Kwon is a highly accomplished researcher in crop science and plant pathology, specializing in rice breeding, molecular biology, and plant-microbe interactions. His significant contributions to agricultural biotechnology, climate change mitigation, and molecular breeding make him a strong candidate for the Best Researcher Award.
๐ Education
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Ph.D. (1997) โ Applied Microbiology and Plant Pathology, Gyeongsang National University, Korea
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M.S. (2017) โ Applied Microbiology and Plant Pathology, Gyeongsang National University, Korea
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B.S. (2015) โ Applied Microbiology and Plant Pathology, Gyeongsang National University, Korea
๐ข Work Experience
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2017 โ Present: Researcher, Department of Southern Area Crop Science, National Institute of Crop Science, Rural Development Administration, South Korea
๐ Achievements
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๐ Expert in Rice Breeding โ Focused on molecular markers, phenotypic analysis, and climate resilience in rice
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๐ฑ Climate Change Mitigation โ Pioneered research on Rice Rhizobiome Engineering to combat environmental changes
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๐พ Breakthrough in Rice Yield & Emissions โ Discovered a gs3 allele mutation that increases grain yield while reducing methane emissions (Published in Nature Climate Change)
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๐งฌ Advancements in RNA-Seq Technology โ Identified key defense mechanisms against rice pests (Published in International Journal of Molecular Sciences)
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๐ Prolific Researcher โ Published numerous papers in top-tier journals like Trends in Plant Science, Molecular Breeding, and Nature Climate Change
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Awards & Honors
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๐ Outstanding Agricultural Research Award โ Recognized for innovative contributions to rice genetics and breeding
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๐ Best Paper Award โ Awarded for groundbreaking research on molecular breeding and climate adaptation in rice
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๐ Global Collaboration Recognition โ Acknowledged for international research collaborations in crop science
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๐ฌ Excellence in Plant Pathology Research โ Awarded for contributions to understanding plant-microbe interactions
Publicationย Top Notes:
Optimizing the degree of milling semiโwaxy rice variety to enhance its functional properties and cooking quality
Rice rhizobiome engineering for climate change mitigation
Development of Functional Molecular Markers for Viviparous Germination Resistance in Rice
Artificial Rainfall on Grain Quality and Baking Characteristics of Winter Wheat Cultivars in Korea
Loss-of-function gs3 allele decreases methane emissions and increases grain yield in rice
Rice (Oryza sativa L.) Grain Size, Shape, and Weight-Related QTLs Identified Using GWAS with Multiple GAPIT Models and High-Density SNP Chip DNA Markers