Tapon Kumar Roy | Agronomy | Best Researcher Award

Mr. Tapon Kumar Roy | Agronomy | Best Researcher Award

Mr. Tapon Kumar Roy is an accomplished agricultural researcher at the Bangladesh Rice Research Institute (BRRI) with 46 citations from 40 documents, 8 published papers, and an h-index of 3, reflecting his growing academic impact in the field of agronomy and rice entomology. He holds a B.Sc. (Hons.) in Agriculture and an MS in Crop Physiology and Ecology from Hajee Mohammad Danesh Science and Technology University, Bangladesh. His professional experience spans pest management, pesticide residue analysis, and eco-friendly agricultural practices, with active involvement in projects on rice pest control, storage pest management, and natural enemy conservation. His research interests include insect toxicology, botanicals, nanoparticle-based pest management, and the physiological response of rice to salt and abiotic stress. Mr. Roy possesses advanced research skills in statistical and analytical tools such as LCMS, GCMS/MS, QGIS, R Studio, and MSTAT-C, enabling precision in experimental design and data analysis. His contributions have earned him prestigious recognitions including the National Integrity Award (2021–22) and Best Scientist Award (2020–21) from BRRI. Through his commitment to innovation and sustainable pest management, Mr. Roy continues to contribute significantly to improving rice productivity and promoting environmentally responsible agricultural practices in Bangladesh.

Profile : Scopus | Google Scholar | ORCID

Featured Publications

Alam, Z., Akter, S., Khan, M. A. H., Amin, M. N., Karim, M. R., Rahman, M. H. S., et al. (2024). Multivariate analysis of yield and quality traits in sweet potato genotypes (Ipomoea batatas L.). Scientia Horticulturae, 328, 112901.

Roy, T. K., Sannal, A., Tonmoy, S. M. M. S., Akter, S., Roy, B., & Rana, M. M. (2024). Trait analysis of short duration boro rice (Oryza sativa L.) varieties in northern region of Bangladesh: Insights from heatmap, correlation and PCA. Nova Geodesia, 4(2), 175–175.

Ali, M. P., Haque, S. S., Hossain, M. M., Bari, M. N., Kabir, M. M. M., Roy, T. K., Datta, J., et al. (2023). Development and demographic parameters of fall armyworm (Spodoptera frugiperda J. E. Smith) when feeding on rice (Oryza sativa). CABI Agriculture and Bioscience, 4(1), 1–14.

Roy, T. K., Kabir, M. M. M., Akter, S., Nayeem, A., Alam, Z., Hasan, M. R., & Bari, M. N. (2024). Seasonal variations of insect abundance: Correlating growth stage-specific metrics with weather patterns in Rangpur Region, Bangladesh. Heliyon, 10(18), e38121.

Roy, T. K., Tonmoy, S. M. M. S., Sannal, A., Akter, S., Hasan, K. T., & Rana, M. M. (2022). Yield performance of some short duration high yielding rice varieties during boro season in northern region of Bangladesh. International Journal of Natural and Social Sciences, 9(4), 15–21.

Cristina Oliveira | Horticulture | Best Researcher Award

Prof. Dr. Cristina Oliveira | Horticulture | Best Researcher Award

Professor at Instituto Supeior de Agronomia, Universidade de Lisboa | Portugal

Prof. Dr. Cristina Oliveira is a distinguished horticultural scientist whose academic excellence and research leadership have significantly advanced agricultural innovation and sustainability. With 76 publications, an h-index of 20, and 1,821 citations from 1,580 documents, her scholarly impact is widely recognized. She holds a professorship at the Instituto Superior de Agronomia, University of Lisbon, where she teaches and coordinates key courses in olive cultivation, fruit production, and horticultural systems. Her educational background and career reflect a strong integration of scientific inquiry with practical agricultural solutions. Prof. Oliveira’s professional experience includes coordinating national and international R&D projects, supervising over 100 master’s and six doctoral theses, and serving on the scientific committees of major international congresses. Her research interests span fruit tree physiology, irrigation management, crop water use efficiency, and post-harvest fruit quality under changing climate conditions. Skilled in experimental design, data interpretation, and multidisciplinary collaboration, she effectively bridges academic research with industry application. Recognized for her contributions, she has served as President of ADISA and a board member of the Operational and Technological Center for Fruit and Vegetables (COTHN). Prof. Oliveira’s dedication to innovation, sustainability, and academic mentorship firmly establishes her as a leading figure in horticultural research and education.

Profile : Scopus 

Featured Publications

Oliveira, C. M., et al. (2025). Single and basal crop coefficients for temperate climate fruit trees, vines, and shrubs with consideration of fraction of ground cover, height, and training system. Plant Stress.  (Cited by 4).

Oliveira, C. M., et al. (2025). Single and basal crop coefficients for estimation of water requirements of subtropical and tropical orchards and plantations with consideration of fraction of ground cover, height, and training system. Plant Stress. (Cited by 7).

Oliveira, C. M., et al. (2025). Single and basal crop coefficients for estimation of water use of tree and vine woody crops with consideration of fraction of ground cover, height, and training system for Mediterranean and warm temperate fruit and leaf crops. Plant Stress. (Cited by 15).

Oliveira, C. M., et al. (2025). Effect of heading cuts on branch growth of ‘Encore’ mandarin. Plant Stress. (Cited by 2).

Oliveira, C. M., et al. (2024). Analysis of petiole sap nutrients using rapid and standard methods and its relation to leaf analysis of fertilized Malus domestica cv. Gala. Horticulturae.

Clara R. Azzam | Plant Genetics | Best Researcher Award

Prof. Dr. Clara R. Azzam | Plant Genetics | Best Researcher Award

Cell Research Department at Agricultural Research Center | Egypt

Prof. Dr. Clara R. Azzam, a distinguished Egyptian scientist, has made significant contributions to plant genetics, cytology, and biotechnology through her long career at the Agricultural Research Center, where she currently serves as Head of the Cell Research Department at the Field Crops Research Institute. She earned her Ph.D. in Agronomy (2001) from Cairo University, focusing on sunflower improvement using both conventional and biotechnological breeding approaches, after completing earlier degrees in plant sciences. With over 30 years of professional experience, she has advanced research in plant tissue culture, molecular breeding, mutation induction, genetic transformation, and crop adaptation to environmental stresses. Her research interests focus on genetic resources, salinity tolerance, mutation breeding, and sustainable agricultural biotechnology. Demonstrating strong scientific impact, she has published 18 documents, accumulated 187 citations across 135 documents, and achieved an h-index of 7. Dr. Azzam possesses advanced research skills in cytogenetics, molecular markers, and crop biotechnology, complemented by leadership in international collaborations with institutions in Germany, Austria, and the USA. She has received multiple honors including the Arab World Lady Medal (2025), Women’s Appreciation Award in Agriculture (2021), and ARC Shields of Excellence. Her achievements reflect outstanding dedication to advancing plant science and agricultural innovation globally.

Profile : Scopus | Google Scholar | ORCID

Featured Publications

Abou-Sreea, A. I. B., Azzam, C. R., Al-Taweel, S. K., Abdel-Aziz, R. M., Belal, H. E. E., … (2021). Natural biostimulant attenuates salinity stress effects in chili pepper by remodeling antioxidant, ion, and phytohormone balances, and augments gene expression. Plants, 10(11), 2316.

Azzam, C. R., Al-Taweel, S. K., Abdel-Aziz, R. M., Rabea, K. M., Abou-Sreea, A. I. B., … (2021). Salinity effects on gene expression, morphological, and physio-biochemical responses of Stevia rebaudiana Bertoni in vitro. Plants, 10(4), 820.

Al-Taweel, S. K., Azzam, C. R., Khaled, K. A., & Abdel-Aziz, R. M. (2021). Improvement of Stevia (Stevia rebaudiana Bertoni) and steviol glycoside through traditional breeding and biotechnological approaches. SABRAO Journal of Breeding and Genetics, 53(1), 88–111.

Azzam, C. R., Zaki, S. N. S., Bamagoos, A. A., Rady, M. M., & Alharby, H. F. (2022). Soaking maize seeds in zeatin-type cytokinin biostimulators improves salt tolerance by enhancing the antioxidant system and photosynthetic efficiency. Plants, 11(8), 1004.

Awaad, H., Abu-hashim, M., & Negm, A. (2021). Mitigating environmental stresses for agricultural sustainability in Egypt. In Springer International Publishing.

Xing-Yu Ji | Plant Pathology | Best Researcher Award

Dr. Xing-Yu Ji | Plant Pathology | Best Researcher Award

Post doc at yunnan agricultural university, China

Dr. Xing-Yu Ji is a postdoctoral researcher at Yunnan Agricultural University, specializing in conservation biology and agroforestry systems. With a diverse academic background from China and Ireland, She has developed a strong foundation in agricultural and environmental sciences. Her research focuses on interspecific allelopathy, plant-microbe interactions, and induced resistance in agroforestry. Notably, her recent study on the allelochemical endo-borneol, published as a cover article in Plant Communications, highlights its dual role in enhancing plant immunity and suppressing pathogens, offering a sustainable alternative to chemical pesticides. Dr. Ji has secured competitive funding from national and provincial agencies and filed a patent related to her work on endo-borneol. She received the second prize from the Chemical Ecology Professional Committee of the Chinese Ecological Society in 2024. Her work reflects innovation, practical relevance, and commitment to sustainable agriculture, positioning him as a rising researcher with significant contributions to eco-friendly plant disease management.

Professional Profile 

Education 🎓 

Dr. Xing-Yu Ji has a well-rounded and internationally diverse educational background in biological and agricultural sciences. She began her academic journey with a Bachelor of Science in Biological Science from South China Agricultural University (2013–2015), followed by a second bachelor’s degree in Agricultural Environmental Science from University College Dublin (2015–2017). She continued at the same institution to complete a Master’s degree in Agri-Environmental Resource Management in 2018, gaining interdisciplinary expertise in sustainable land and crop management. Dr. Ji then pursued her doctoral studies at Yunnan University (2019–2024), earning a Ph.D. in Conservation Biology with a focus on allelopathy and plant-pathogen interactions in agroforestry systems. Her education has equipped him with a deep understanding of plant ecology, environmental sustainability, and advanced research methodologies. Currently, She is enrolled in a postdoctoral research program at Yunnan Agricultural University, where She is further applying her academic training to cutting-edge research in plant defense and agroecology.

Professional Experience 💼

Dr. Xing-Yu Ji has built a focused and impactful professional career in plant biology and sustainable agriculture. Following the completion of her Ph.D. in Conservation Biology from Yunnan University in 2024, She began her postdoctoral research at Yunnan Agricultural University in 2025, where she continues to explore plant defense mechanisms and allelopathic interactions within agroforestry systems. Her professional experience centers on investigating natural, eco-friendly strategies for plant disease management, with particular emphasis on interspecies biochemical signaling and rhizospheric microbiota. Dr. Ji has contributed to several nationally funded research projects, including the National Key Research and Development Program of China and provincial-level scientific initiatives. Her research achievements include publishing a high-impact study in Plant Communications, securing a patent on the application of endo-borneol, and receiving a national research award. Through her postdoctoral role, she collaborates with leading laboratories and contributes to advancing sustainable practices in agriculture and biodiversity conservation.

Research Interest 🔬

Dr. Xing-Yu Ji’s research interests lie at the intersection of plant ecology, chemical ecology, and sustainable agriculture, with a primary focus on interspecific allelopathy and plant-microbe interactions in agroforestry systems. She is particularly interested in understanding how natural chemical signals between plants can enhance disease resistance and ecosystem stability. Her work explores how specific allelochemicals, such as endo-borneol, not only trigger direct defense responses in plants but also indirectly shape rhizospheric microbial communities to promote plant health. Dr. Ji is committed to developing environmentally friendly alternatives to synthetic agrochemicals by leveraging these natural processes. Her research also investigates the mechanisms by which root secretions influence beneficial microbial recruitment and induce systemic resistance, offering new strategies for integrated pest and disease management. Through Her innovative studies, Dr. Ji aims to contribute to sustainable agricultural practices, biodiversity conservation, and the development of resilient agroecosystems capable of withstanding environmental stressors.

Research Skill🔎

Dr. Xing-Yu Ji possesses a strong set of interdisciplinary research skills that enable him to conduct advanced studies in plant ecology, allelopathy, and sustainable agriculture. She is proficient in experimental design, molecular biology techniques, and plant pathology assays, with specialized expertise in gas chromatography–mass spectrometry (GC-MS) for identifying and quantifying bioactive compounds such as allelochemicals. Dr. Ji is skilled in analyzing plant-microbe interactions, particularly how root secretions influence microbial community structures in the rhizosphere. She has experience conducting controlled environment and field-based experiments, allowing him to bridge laboratory findings with real-world agricultural applications. Her ability to synthesize biochemical, ecological, and microbiological data supports a systems-level understanding of plant defense mechanisms. Additionally, Dr. Ji demonstrates competency in scientific writing, having published in high-impact journals, and is adept at preparing patent applications. Her collaborative approach and involvement in multidisciplinary research projects highlight her capacity to work effectively within diverse scientific teams.

Award and Honor🏆

Dr. Xing-Yu Ji has received notable recognition for her contributions to ecological and agricultural research. In November 2024, She was awarded the Second Prize by the Chemical Ecology Professional Committee of the Chinese Ecological Society, acknowledging her innovative work on allelopathic interactions and sustainable plant disease management. Her research achievements have also been honored through publication in the prestigious journal Plant Communications, where her article was selected as the cover story for the January 2025 issue—an indication of both scientific excellence and broad relevance. In addition to these honors, Dr. Ji has secured funding from competitive national and provincial programs, including the National Key Research and Development Program of China and the Major Science and Technology Project of Kunming, reflecting the significance and impact of her research in conservation biology and agroforestry systems. These awards and recognitions underscore her rising profile as an innovative and impactful researcher in sustainable agriculture.

Conclusion📝

Dr. Xing-Yu Ji exhibits a compelling combination of groundbreaking research, peer recognition, and translational potential—key hallmarks of an outstanding researcher. Her work on allelochemical-mediated disease suppression not only advances fundamental plant-microbe ecology but also addresses critical needs in sustainable agriculture.

While further engagement in international forums, editorial leadership, and mentorship would enhance her already distinguished profile, these are natural next steps in a rapidly ascending career. On balance, Dr. Ji is highly suitable for the Best Researcher Award, and her nomination is strongly recommended.

Publications Top Noted📚

  • Author(s): Xing-Yu Ji, Chen Ye, Wenting Kang, Wenjie Luan, Yixiang Liu, Xiahong She, Min Yang, Lifu Sun, Wensong Sun, Huichuan Huang, et al.

  • Year: 2025

  • Title: Interspecific allelopathic interaction primes direct and indirect resistance in neighboring plants within agroforestry systems

  • Journal: Plant Communications

  • Volume/Issue: January 2025

  • DOI: 10.1016/j.xplc.2024.101173

  • ISSN: 2590-3462