Ki Hyun Yoo | Agricultural and Biological Sciences | Research Excellence Award

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Dr. Ki Hyun Yoo | Agricultural and Biological Sciences | Research Excellence Award

CTO | Simple Planet Inc | South Korea

Dr. Ki Hyun Yoo, PhD, is an Adjunct Professor of Bioengineering at Hanyang University and CTO of Simple Planet Inc., specializing in cellular engineering, cultured-meat biotechnology, and regenerative medicine. He holds BS, MS, and PhD degrees in Biotechnology and Applied Biological Chemistry from Kyung Hee University, with advanced postdoctoral training in oncology, pediatrics, and neurosurgery at leading U.S. medical institutions. His professional experience spans faculty and research leadership roles, directing multidisciplinary projects in stem-cell engineering, neuroregeneration, metabolic pathways, and translational biomaterials while overseeing technology development in the biotechnology industry. Dr. Yoo’s research focuses on pluripotent stem-cell platforms, tissue differentiation, 3D bioprinting, and molecular mechanisms underlying aging and disease, contributing to federal and industry-funded grants, peer-reviewed publications, and innovative applications in food biotechnology and regenerative therapeutics. He has been recognized with competitive paper awards, prestigious fellowships, and service as a journal reviewer, and has maintained active membership in major scientific societies in cancer research, applied biological chemistry, and medical crop science.

Citation Metrics (Scopus)

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Featured Publications

Edwin Borja | Agriculture | Collaborative Research Excellence Award

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Mr. Edwin Borja | Agriculture | Collaborative Research Excellence Award

Universitat de Valencia | Spain

Mr. Edwin José Borja Borja is an agricultural researcher at the Instituto Nacional de Investigaciones Agropecuarias, specializing in plant pathology, agrobiodiversity, and the sustainable management of musaceae and forest species. He holds advanced academic training culminating in a doctorate in biodiversity and evolutionary biology, supported by prior graduate specialization in biodiversity conservation and undergraduate formation in agronomy. His professional experience includes roles as a research investigator and technical specialist, where he has led and contributed to projects focused on disease etiology in economically important crops, the characterization of microbial agents, the establishment and evaluation of germplasm collections, and the development of biological control strategies. He has participated in nationally funded and internationally supported research initiatives, contributed to multidisciplinary teams, and taught at the university level. His research outputs include publications in high-ranking scientific journals, with contributions addressing ecogeographic characterization, pathogen dynamics, and producer typification in musaceae systems. His work demonstrates rigor in field sampling, laboratory analysis, and statistical assessment, reinforcing his impact within agricultural science. He has been recognized through competitive research appointments and collaborative participation in international development projects, reflecting his growing influence and professionalism within the scientific community.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Espín, R. D. S., Rivera, M. M. G., Rivera, V. H. G., Santos, F. C., Guerrero, I. E. H., & Borja, E. (2020). Rendimiento y atributos de calidad de mora (Rubus glaucus Benth) de cuatro zonas productoras de Bolívar. Revista de Investigación Talentos, 7(2), 33–45.

2. Borja, E. J. (2017). Caracterización eco-geográfica de Prunus serotina Ehrh. subsp. capuli (Cav.) McVaugh (capulí), en la Región Andina de Ecuador [Master’s thesis].

3. Quinaluisa, E. J. N., Bastidas, C. G. T., Feria, R. J. V., Pérez, Y. C., Pilla, A. H. D., & Borja, E. J. (2018). Caracterización eco-geográfica de melloco (Ullucus tuberosus C.) en la región alto andina del Ecuador. La Técnica: Revista de las Agrociencias, 31–46.

4. Delgado, H., Tapia, C., Borja, E., Naranjo, E., & Martín, J. P. (2022). Phenotypic diversity of Amaranthus quitensis Kunth landraces: A millenary crop of Ecuadorian Andean region. Scientia Agropecuaria, 13(4), 381–393.

5. Delgado Pilla, H., Tapia, C., Naranjo, E., Borja Borja, E. J., & Martín Clemente, J. P. (n.d.). Variación de la agrodiversidad en variedades tradicionales de quinua (Chenopodium quinoa Willd) de la Región Andina de Ecuador.

Mr. The nominee’s work advances agricultural resilience by generating scientific knowledge that strengthens crop health, biodiversity conservation, and sustainable production systems. His research supports farmers, industry stakeholders, and national food security through innovative approaches to plant disease management, germplasm characterization, and ecological understanding, contributing to long-term agricultural innovation and societal well-being.

Afeez Adedayo | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Afeez Adedayo | Agricultural and Biological Sciences | Best Researcher Award

Researcher | Western Illinois University Alumni Association | United States

Dr. Afeez A. Adedayo is a multidisciplinary microbiologist and environmental monitoring specialist recognized for his innovative contributions to microbial biotechnology, molecular biology, and quality assurance research. He holds advanced degrees in biology and microbiology, culminating in a doctoral qualification, and has cultivated expertise across academic, industrial, and field environments. Dr. Adedayo has played integral roles in developing and validating microbial assays for cellular therapy, endotoxin testing, bioburden analysis, and high-throughput sequencing applications. His research primarily explores plant–microbe interactions, microbial ecology, metagenomics, and sustainable agricultural biotechnology, contributing significantly to the understanding of soil and rhizosphere microbiomes and their impact on crop health and productivity. With a growing portfolio of impactful publications in high-impact journals and multiple collaborative projects, his work demonstrates a deep commitment to advancing scientific knowledge and practical innovation. As a subject matter expert, he has led and collaborated with multidisciplinary teams, authored technical protocols, and contributed to regulatory and training initiatives. Dr. Adedayo’s scholarly influence is reflected in his citation record, editorial activities, and engagement in professional scientific communities. His outstanding research productivity and leadership in microbiological sciences position him as a distinguished candidate for recognition through the Best Researcher Award.

Profiles: Google Scholar | Scopus

Featured Publications

1. Koza, N. A., Adedayo, A. A., Babalola, O. O., & Kappo, A. P. (2022). Microorganisms in plant growth and development: Roles in abiotic stress tolerance and secondary metabolites secretion. Microorganisms, 10(8), 1528.

2. Adedayo, A. A., & Babalola, O. O. (2023). Fungi that promote plant growth in the rhizosphere boost crop growth. Journal of Fungi, 9(2), 239.

3. Adedayo, A. A., Babalola, O. O., Prigent-Combaret, C., Cruz, C., Stefan, M., Kutu, F., & Glick, B. R. (2022). The application of plant growth-promoting rhizobacteria in Solanum lycopersicum production in the agricultural system: A review. PeerJ, 10, e13405.

4. Omomowo, I. O., Adenigba, V. O., Ogunsona, S. B., Adeyinka, G. C., Oluyide, O. O., & Adedayo, A. A. (2020). Antimicrobial and antioxidant activities of algal-mediated silver and gold nanoparticles. IOP Conference Series: Materials Science and Engineering, 805(1), 012010.

5. Adenigba, V. O., Omomowo, I. O., Oloke, J. K., Fatukasi, B. A., Odeniyi, M. A., & Adedayo, A. A. (2020). Evaluation of microalgal-based nanoparticles in the adsorption of heavy metals from wastewater. IOP Conference Series: Materials Science and Engineering, 805(1), 012030.

Dr. Afeez A. Adedayo’s research advances sustainable agriculture and environmental biotechnology through innovative studies on plant–microbe interactions and microbial ecology. His work enhances global food security, promotes eco-friendly biotechnological solutions, and drives scientific innovation in microbial applications for crop productivity and environmental conservation.

Mohamed Dhia Eddine Hammami | Agricultural and Biological Sciences | Best Researcher Award

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Mr. Mohamed Dhia Eddine Hammami | Agricultural and Biological Sciences | Best Researcher Award

Mohamed Dhia Eddine Hammami | University of Vigo | Spain

Mr. Mohamed Dhia Eddine Hammami is a distinguished doctoral researcher in Agricultural Sciences affiliated with the University of Vigo, Spain, and the University of Carthage, Tunisia, specializing in maize genetics, drought and heat stress tolerance, and agronomic productivity in Mediterranean environments. He holds an Engineering Degree in Agronomy from the Higher School of Agriculture of Mateur, Tunisia, and completed a preparatory cycle in Biology and Geology at the Higher Institute of Biology and Geology of Soukra, Tunisia. As a researcher, he has led extensive screening of Mediterranean maize landraces across multiple environments, evaluating physiological responses, genetic diversity, and genotype-by-environment interactions, and identifying key agronomic drivers of yield. His work encompasses high-impact research projects such as the PRIMA DROMAMED initiative, and he has collaborated with leading institutions including Mission Biológica de Galicia (MBG-CSIC), INRAE in France, and the National Agronomic Institute of Tunisia. Mr. Hammami has contributed to a significant body of scholarly publications in top-tier journals, including Agronomy, PLoS ONE, and the Italian Journal of Agronomy, advancing understanding of stress adaptation, genetic variability, and yield optimization in maize. He has presented his findings at international conferences, earning recognition such as the Best Presentation Prize at the Young Researchers Workshop in Vigo. Beyond research, he has co-supervised student projects, demonstrating leadership in mentoring emerging scientists. His expertise, innovative contributions, and scholarly achievements position him as an exceptional candidate for recognition in the field of agricultural sciences.

Profiles: Scopus | ORCID

Featured Publications

1. Hammami, M. D. E., Lasram, A., Kthiri, Z., Boukef, S., Hamada, W., Revilla, P., & Karmous, C. (2025). Assessing yield and productivity gaps in Tunisian maize cropping system. Agronomy, 15(2).

2. Hammami, M. D. E., Rashid, M. A. R., Madur, D., Kthiri, Z., Galaretto, A., Nicolas, S. D., Charcosset, A., Combes, V., Karmous, C., & Revilla, P. (2025). Phylogenetic relationships and genetic diversity of Tunisian maize landraces. PLOS ONE, 20(1), e0316185.

Gurleen Sidhu | Plant Breeding and Genetics | Women Researcher Award

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Dr. Gurleen Sidhu | Plant Breeding and Genetics | Women Researcher Award

Post doctoral fellow at University of Manitoba, Canada

Gurleen Sidhu is a dedicated plant scientist with extensive expertise in plant breeding, genetics, and molecular biology. With a strong academic foundation and over a decade of research experience, she has contributed significantly to crop improvement efforts in both India and Canada. Her work focuses on genetic diversity, genome-wide association studies, and the development of molecular tools for breeding programs, particularly in asparagus and wheat. Gurleen has presented her research at numerous international conferences and has published widely in peer-reviewed journals. She has also received multiple academic awards and scholarships in recognition of her scientific excellence. As a postdoctoral fellow, she leads research projects, mentors students, and collaborates with industry and academic stakeholders. Her technical proficiency, leadership skills, and commitment to advancing sustainable agriculture position her as a promising researcher with the potential to make a lasting impact in the field of agricultural science and biotechnology.

Professional Profile 

Google Scholar

Education

Gurleen Sidhu holds a strong academic background in agricultural sciences, beginning with a Bachelor of Science in Agriculture (Honors) from Punjab Agricultural University, where she developed a foundational understanding of agronomy and crop science. She went on to complete her Master of Science in Plant Breeding, Genetics, and Biotechnology at the same university, focusing on genetic diversity studies in bitter gourd using morphological and molecular markers. She later pursued a PhD in Plant Breeding and Genetics at the University of Guelph, Canada, where her doctoral research concentrated on the genetic architecture of traits critical to asparagus breeding. Her educational journey reflects a consistent commitment to the field of plant genetics, complemented by a postgraduate diploma in computer applications, which supports her data analysis skills. This blend of hands-on research, advanced study, and technical training provides a solid foundation for her career as a plant scientist with international research experience and impact.

Experience

Gurleen Sidhu has accumulated diverse and valuable research experience in both academic and applied agricultural settings. She began her research journey at Punjab Agricultural University, where she worked on genetic diversity analysis in bitter gourd. At the University of Guelph, she conducted advanced molecular breeding studies during her PhD, focusing on asparagus genetics, including trait mapping and linkage analysis. Currently a postdoctoral fellow at the University of Manitoba, her work involves genome-wide association studies, molecular breeding, and supervision of graduate students. She has successfully led multiple research projects and contributed to industry-relevant genetic improvement programs, particularly in Western Canadian agriculture. Her ability to manage and deliver complex research, alongside her experience in program development, funding management, and stakeholder collaboration, showcases her leadership in agricultural research. Her hands-on involvement in both fieldwork and laboratory work highlights her comprehensive skill set across the entire research lifecycle—from experimentation and data analysis to mentoring and dissemination.

Research Focus

Gurleen Sidhu’s research is centered on plant breeding, molecular genetics, and crop improvement, with an emphasis on developing sustainable solutions for modern agriculture. Her work focuses on understanding the genetic basis of key agronomic traits in crops such as asparagus, wheat, and bitter gourd. She has employed tools like genome-wide association studies (GWAS), SNP-based linkage mapping, and genotyping-by-sequencing to identify genes and markers linked to traits such as spear quality, andromonoecy, lodging resistance, and tissue culture responsiveness. Her research aims to enhance crop yield, quality, and adaptability through the integration of molecular tools into breeding programs. She also explores genetic diversity to inform breeding strategies and germplasm enhancement. Through interdisciplinary collaborations and field-based experimentation, Gurleen connects molecular insights to real-world crop production challenges. Her work supports the long-term goals of food security, genetic resource utilization, and climate-resilient agriculture, especially in the context of Canadian and global agronomic systems.

Award and Honor

Gurleen Sidhu has received numerous awards and honors that reflect her academic excellence, research potential, and scientific contributions. During her academic journey, she was the recipient of multiple Dean’s Scholarships throughout her PhD at the University of Guelph. She earned the prestigious Seed of the Year Scholarship, as well as the Major General LaFleche Memorial and Mrs. Fred Ball Scholarships for outstanding performance. Internationally, she was recognized with a Best Poster Presentation Award at the International Society of Horticultural Science Conference in Germany and secured a competitive travel grant for the Plant Science Symposium at the University of Minnesota. In India, she was awarded the B.R. Sharma Gold Medal for achieving the highest academic standing during her master’s program and received university merit scholarships and certificates throughout her undergraduate and postgraduate studies. These accolades collectively underscore her dedication to scientific innovation, leadership in research, and consistent academic distinction across institutions and countries.

Publications Top Notes

  • Title: Genetic diversity analysis in bitter gourd (Momordica charantia L.) using morphological traits
    Authors: GK Sidhu, M Pathak
    Year: 2016
    Citations: 14

  • Title: Character association and path co-efficient analysis in bitter gourd (Momordica charantia L.)
    Authors: GK Sidhu, M Pathak
    Year: 2016
    Citations: 2

  • Title: Genetic Diversity Analysis of Bitter Gourd (Momordica Charantia L.) Germplasm Based on RAPD and SSR Markers
    Authors: GK Sidhu, M Pathak
    Year: 2020
    Citations: 1

  • Title: Evaluation of bitter gourd (Momordica charantia L.) genotypes for quality traits
    Authors: GK Sidhu, M Pathak, N Chawla
    Year: 2017
    Citations: 1

  • Title: EVALUATION AND ASSESSMENT OF GENETIC DIVERSITY AMONG BITTER GOURD [Momordica charantia L. Moench] GERMPLASM
    Authors: GK Sidhu
    Year: 2013
    Citations: 1

  • Title: Genetic diversity and population structure analysis in Asparagus officinalis
    Authors: G Sidhu, T Banks, D Wolyn
    Year: 2025

  • Title: Genetic variability for growth, yield and quality traits in bitter gourd
    Authors: GK Sidhu, M Pathak, N Chawla
    Year: 2017

Conclusion

Gurleen Sidhu has demonstrated a strong commitment to scientific research in plant genetics, with a specific focus on crop improvement and genetic diversity. Her publications reflect consistent scholarly output in the field, particularly in bitter gourd and asparagus genetics. The citation record shows that some of her work has gained recognition within the academic community, with a few studies receiving multiple citations. While several of her publications are more recent or in emerging areas, suggesting ongoing impact, there is clear evidence of her potential to contribute meaningfully to agricultural science. With continued focus on high-impact publishing and broader scientific dissemination, her research visibility and influence are likely to grow further. Overall, she presents a promising profile of an early-career researcher with the foundations for long-term contributions to plant breeding and genetic innovation.