Prof. Young-Son Cho | Climate research | Distinguished Scientist Award

Prof. Young-Son Cho | Professor | Gyeongsang National University | South Korea

Academic Background

Prof. Young-Son Cho completed his B.Sc. in Agriculture at Gyeongsang National University in Korea, followed by an M.Sc. in Crop Science at Shimane University in Japan under the Monbukagakusho Scholarship. He earned his Ph.D. in Crop Science from Gyeongsang National University and further advanced his research as a JSPS Research Fellow at Ehime University in Japan. Over his career, he has accumulated a substantial body of work with over three hundred citations, more than twenty-five documents, and a strong h-index reflecting the impact and relevance of his research, as recorded in Scopus and Google Scholar.

Research Focus

Prof. Cho’s research centers on sustainable and eco-friendly crop cultivation. He focuses on developing low-carbon water management technologies in paddy rice, enhancing climate resilience in soybean production, and quantifying abiotic stress impacts in upland crops such as potato and sweet potato through advanced imaging techniques. His work integrates precision agriculture, machine learning, and explainable AI to optimize crop management and mitigate climate-related risks.

Work Experience

Prof. Cho began his professional career as a crop physiologist at Yeongnam Agricultural Research Institute, where he contributed to direct-seeded rice cultivation research. He later joined the Rural Development Administration as a research scientist, followed by multiple roles in advisory and field consulting capacities. He has served in senior specialist positions and directed eco-friendly agricultural programs, including certification centers for agricultural products. His international exposure includes research collaboration in the United States and Japan, enhancing his global perspective in crop science and sustainable agriculture.

Key Contributions

Prof. Cho has made significant contributions in applying AI and remote sensing technologies to monitor and classify crop water stress, enabling early detection of abiotic stress and improved yield management. He has pioneered low-carbon agricultural practices, optimized soybean cultivation under climate variability, and developed industrial insect rearing systems for agricultural applications. His work has advanced both the scientific understanding and practical implementation of eco-friendly and resilient crop systems.

Awards & Recognition

Prof. Cho has been recognized for his leadership and expertise in crop science, particularly in the integration of sustainable agricultural practices and innovative research methodologies. His contributions to eco-friendly agriculture and climate-adaptive cultivation have earned him professional accolades and institutional recognition.

Professional Roles & Memberships

Prof. Cho has held influential roles, including directing agricultural product certification centers, chairing subcommittees on education and research integration, and leading carbon neutrality and green growth initiatives. He has also contributed to professional societies, editorial boards, and advisory committees, reflecting his active engagement in shaping agricultural policy and research direction.

Profile

Scopus

Featured Publications

Choi, J. W., Cho, S. B., Hidayat, M. S., & Kim, G. Application of multimodal data fusion and explainable AI for classifying water stress in sweet potatoes. Frontiers in Plant Science.

Park, M. S., Faqeerzada, A., Jang, S. H., & Cho, B. K. Detection of abiotic stress in potato and sweet potato plants using hyperspectral imaging and machine learning. Plants.

Cho, S. B., Hidayat, M. S., Choi, J. W., & Kim, G. Recent methods for evaluating crop water stress using AI techniques: A review. Sensors.

Park, M. S., Kim, H., Lee, H., & Cho, B. K. Determination of water stress in field crops using hyperspectral imaging. Conference Paper.

Cho, S. B., Hidayat, M. S., & Choi, J. W. Early detection of tomato gray mold based on multispectral imaging and machine learning. Sensors.

Impact Statement / Vision

Prof. Cho envisions advancing sustainable agriculture through precision crop management and innovative technologies. His work aims to enhance food security, mitigate climate impact, and promote eco-friendly cultivation practices globally, bridging scientific research with practical agricultural solutions.

Prof. Dr. Ryunosuke Kikuchi | Environment | Excellence in Research

Lecturer, Faculty Sci.& Tech./Ryukoku University, Japan

Dr. Ryunosuke Kikuchi is a distinguished researcher in environmentally sustainable technology and society, specializing in waste management, recycling, and the environmental impact of green energy. As a faculty member at the Faculty of Advanced Science and Technology, Ryukoku University, Japan, he actively explores innovative solutions for sustainable waste disposal and resource utilization. His interdisciplinary approach integrates technology, science, and sociology to develop eco-friendly methods for managing waste, including animal disposal as municipal waste. With an extensive research background and numerous publications, Dr. Kikuchi has made significant contributions to environmental engineering. 🌱🔬

💼 Experience:

Currently serving as a faculty member in the Ecology and Environmental Engineering Course at Ryukoku University, Japan, Dr. Kikuchi has a wealth of experience in academic research and environmental sustainability projects. His work spans multiple international collaborations, focusing on waste management, the K-T boundary, and the secondary impacts of green energy. His research has been widely recognized and cited in scientific communities, contributing to policy-making and sustainable environmental solutions. 🌍♻️

🏆 Awards and Honors:

Dr. Kikuchi’s outstanding contributions to environmental sustainability have earned him significant recognition in academia. His research has gained substantial citations, with an h-index of 12 and over 834 citations from 48 publications. While no specific awards are listed, his impact in the field is evident through his extensive publications and global research collaborations. 🏅📜

🔬 Research Focus:

Dr. Kikuchi’s research primarily revolves around waste recycling, green energy impact, and secondary pollution. He investigates sustainable technologies to reduce environmental footprints and optimize waste disposal. A major area of his study includes animal disposal as municipal waste, aiming to convert waste into valuable resources. His work also addresses the effects of hydropower dams on global warming, heavy metal contamination in peri-urban farmlands, and sediment dynamics in urbanizing Mediterranean catchments. His interdisciplinary research has practical implications for environmental policies and sustainable development. 🌿⚙️

🔍 Conclusion:

Dr. Ryunosuke Kikuchi is a leading environmental scientist dedicated to developing sustainable waste management solutions and mitigating secondary pollution. His extensive research contributions, international collaborations, and impact in the field of environmental sustainability make him a key figure in the fight against global environmental challenges. Through his work at Ryukoku University, he continues to shape the future of ecological conservation and waste recycling. 🌏💡

📚 Publications:

Environmental Implications of the Global Prevalence of Hyperthyroidism in Cats from a “One Health” Perspective

Freshwater: Management Principles for Sustainability Under the Climate Emergency (Book Chapter) – Cited by 1 article

Potential Effect of Hydropower Dam on Global Warming – A Field Study of Biomethane Formation at Aono Dam (Conference Paper) – No citations yet

Determination of Soluble/Exchangeable Metals in Peri-urban Farmland (Ribeira dos Covões) of Central Portugal (Conference Paper) – No citations yet

Temporal Dynamics of Sediment Sources in an Urbanizing Mediterranean Catchment (Article, Land Degradation and Development, 2017) – Cited by 20 articles