Davi Mukasa | Agronomy | Innovative Research Award

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Mr. Davi Mukasa | Agronomy | Innovative Research Award

Mr. Davi Mukasa | Agronomy – Research Associate at International Institute of Tropical Agriculture, Uganda

David Mukasa is an accomplished agricultural research scientist with over 25 years of professional experience in agronomy, soil science, agroforestry, and climate-smart agriculture. A dedicated contributor to sustainable agricultural development in East Africa, he currently serves at the International Institute of Tropical Agriculture (IITA) under the CGIAR umbrella. Throughout his career, he has focused on empowering smallholder farmers by improving productivity and resilience in coffee and banana-based farming systems. His leadership and commitment to capacity building, environmental conservation, and research dissemination have significantly influenced Uganda’s agricultural landscape. Mr. Mukasa is also a strong advocate for adaptive farming technologies and integrated systems that improve livelihoods while addressing the challenges of climate change.

Academic Profile:

Scopus

Education

Mr. Mukasa holds a Master of Science in Soil Science (2016) from the College of Agricultural and Environmental Sciences, Makerere University. He earned his Bachelor’s degree in Veterinary Medicine from the School of Veterinary Medicine and Animal Resources, Makerere University in 2006. These academic qualifications laid the foundation for his interdisciplinary approach to research, which blends soil science, agronomy, and sustainable land management for impactful results in both academia and field applications.

Experience

Since 1994, Mr. Mukasa has been affiliated with IITA, contributing extensively to agricultural research and development initiatives. His work spans diagnostic surveys, field experiments, and laboratory analysis with a special focus on smallholder productivity. He has trained farmers in Uganda and neighboring countries on good agricultural practices and climate-resilient technologies. He also supports postgraduate students in research design and implementation, sharing his rich field experience and technical knowledge. Mr. Mukasa has led numerous community-based projects that explore sustainable farming models, particularly emphasizing crop-livestock integration, coffee agroforestry, and resource-efficient farming systems.

Research Interests

David Mukasa’s research interests are centered on sustainable agriculture, soil fertility, crop-livestock systems, and climate-smart agricultural practices. His work aims to reduce the living income gap for smallholder farmers through innovation in agroforestry and adaptive farming strategies. He actively contributes to the validation and scaling of climate-smart technologies such as the Stepwise model and Coffee and Climate (C&C) adaptation framework. He is also involved in documenting and disseminating research findings through strategic outreach initiatives that improve farmer adoption of new practices.

Awards and Recognition

David Mukasa has been acknowledged for his long-standing service and impactful contributions within IITA and other CGIAR research collaborations. His leadership in organizing regional stakeholder engagements and promoting climate-resilient agricultural practices has been widely recognized. He is regularly invited to participate in scientific dialogues and development planning forums related to sustainable farming in East Africa. His current nomination for the Innovative Research Award is a testament to his outstanding research output, practical innovation, and dedication to advancing climate-smart agriculture in the region.

Selected Publications 📚

  1. 📖 Projected climate in coffee‑based farming systems: implications for crop suitability in Uganda – 2022, co-authored in Climatic Change, cited by 30+ articles.
  2. 📘 Sustainably improving Kenya’s coffee production needs more participation of younger farmers with diversified income – 2018, Journal of Rural Studies, cited by 45 articles.
  3. 📗 Influence of shaded systems on Xylosandrus compactus infestation in Robusta coffee along a rainfall gradient in Uganda – 2017, Agricultural and Forest Entomology, cited by 20 articles.
  4. 📕 Evaluating coffee yield gaps and limiting factors in Uganda – 2015, European Journal of Agronomy, cited by 60+ articles.
  5. 📙 Diversity in smallholder farms growing coffee and their use of management practices – 2015, Experimental Agriculture, cited by 50 articles.
  6. 📒 Status and host plant utilization by black coffee twig borer in Uganda – 2013, Coffee Science Conference Proceedings, cited by 15 articles.
  7. 📔 Effect of Tithonia and Phytolacca extracts against banana weevil – 2008, Africa Journal of Animal and Biomedical Science, cited by 12 articles.

Conclusion

David Mukasa is a visionary agricultural scientist whose work has brought lasting benefits to farming communities, research institutions, and policy circles. His integrated approach to agriculture—blending field experience, technical expertise, and academic rigor—makes him a standout contributor to sustainable development in Sub-Saharan Africa. His extensive publication record, commitment to farmer education, and leadership in climate resilience position him as a deserving nominee for the Innovative Research Award. His future work promises even greater impact as he expands collaborations and deepens research into sustainable solutions for smallholder agriculture.

 

 

Jin Young Kim | Agri | Best Researcher Award

Published on by Academic Achievements

Ms. Jin Young Kim | Agri | Best Researcher Award

Ms. Jin Young Kim | Agri – PhD student at Hankyong National University, South Korea

Jin Young Kim is a promising young researcher in the field of plant molecular genetics, specializing in genome editing and functional genomics of crop plants. As a Ph.D. candidate at Hankyong National University, South Korea, Kim’s work stands at the intersection of biotechnology and agriculture, with a particular focus on enhancing crop traits through CRISPR/Cas9 gene editing. Kim has made significant contributions to improving antioxidant activity in tomatoes and stress tolerance in rice, striving to address real-world challenges in food quality and climate-resilient agriculture. Their early career trajectory and publication record position them as an exceptional candidate for the Best Researcher Award.

Academic Profile

ORCID

🎓 Education

Jin Young Kim completed a Bachelor of Science degree in Horticultural Biotechnology in 2021 at Hankyong National University, where a passion for plant molecular biology and crop improvement was first cultivated. In 2023, Kim earned a Master of Science from the same institution, with a thesis focused on “A study on Generation and Functional Analysis of Gene Edited Lines for SGR, GAD by CRISPR/Cas9 System in Tomato (Solanum lycopersicum L.).” Their education provided a solid foundation in plant genetics, biotechnology tools, and molecular techniques, which are now being refined and expanded at the Ph.D. level.

🧪 Experience

Kim’s academic experience is deeply rooted in laboratory research and collaborative projects in the field of horticultural biotechnology. During their M.S. and Ph.D. training, Kim has contributed to multiple gene editing projects involving tomatoes and rice, targeting genes associated with antioxidant activity, abiotic stress response, and energy metabolism. The candidate has participated in both basic and applied research, from gene cloning and transcriptome analysis to phenotype characterization in knockout lines. These experiences have developed Kim’s technical expertise and cultivated their understanding of translational research in agricultural innovation.

🌱 Research Interests

Jin Young Kim’s research focuses on the generation of high-functionality crops through genome editing, with core interests in antioxidant biosynthesis, stress physiology, and plant gene function. Current research activities include:

  • Development of high-antioxidant tomatoes using CRISPR/Cas9

  • Functional genomics of starch biosynthesis genes in rice

  • Analysis of pre-harvest sprouting candidate genes

  • Production of antimicrobial peptides in plant tissues
    Through these diverse projects, Kim seeks to contribute to both scientific advancement and sustainable agriculture, particularly by improving food quality, resilience, and nutritional value through molecular approaches.

🏅 Awards

Though still early in their academic career, Jin Young Kim’s rapid growth and significant research output exemplify the caliber worthy of recognition. Their collaborative work in high-impact journals, involvement in cutting-edge plant science, and dedication to precision breeding techniques demonstrate their eligibility for the Best Researcher Award. Continued contributions are likely to bring further accolades as Kim gains greater recognition in the global scientific community.

📚 Selected Publications

🧪 “Physicochemical properties and antioxidant activity of CRISPR/Cas9-edited tomato SGR1 knockout (KO) line” – International Journal of Molecular Sciences (2024) – Highlights enhanced antioxidant capacity; cited by multiple studies on functional food development.
🧬 “Transcriptome and metabolite profiling of tomato SGR-knockout null lines using the CRISPR/Cas9 system” – International Journal of Molecular Sciences (2022) – A foundational study in metabolic analysis of edited lines.
🌾 “Knockout of OsGAPDHC7 Gene Encoding Cytosolic Glyceraldehyde-3-Phosphate Dehydrogenase Affects Energy Metabolism in Rice Seeds” – International Journal of Molecular Sciences (2024) – Demonstrated the link between gene knockout and rice seed vitality.
🌿 “A Knockout of the OsGAPDHC6 Gene Reacts Sensitively to Abiotic Stress in Rice” – Genes (2025) – Offers new insights into plant stress adaptation via gene editing.
🌞 “Overexpression of orange gene (OsOr-R115H) enhances heat tolerance in rice” – Genes (2021) – Explored abiotic stress resistance, highly cited in heat tolerance research.
🌾 “ABA and Pre-Harvest Sprouting Differences in Knockout Lines of OsPHS3” – Plants (2025) – Important for cereal crop improvement under climate variability.
🍚 “Genome editing of golden SNP-carrying lycopene epsilon-cyclase (LcyE) gene in rice” – International Journal of Molecular Sciences (2022) – An advanced example of CRISPR/HDR application in nutritional enhancement.

🧠 Conclusion

Jin Young Kim exemplifies the next generation of scientific leaders in plant biotechnology. Their commitment to using advanced molecular tools to address agricultural challenges is both timely and impactful. With a steadily growing portfolio of publications, interdisciplinary research experiences, and a focus on the practical implications of plant genome editing, Kim is making meaningful contributions to crop science and food security. Their work not only supports the scientific community but also responds to global needs for resilient, nutritious, and sustainable food systems. These achievements and research potential strongly support their nomination for the Best Researcher Award.