Uwayesu Happy Edwards | Environmental | Best Academic Researcher Award

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Mr. Uwayesu Happy Edwards | Environmental | Best Academic Researcher Award

Mr. Uwayesu Happy Edwards | Suzhou university of science and technology | China 

Uwayesu Happy is an emerging interdisciplinary researcher whose work bridges development economics and environmental engineering, with a strong focus on sustainable resource management, ecological protection, and environmental impact assessment. His academic and professional journey reflects a commitment to addressing critical challenges related to water quality, hydropower systems, natural resource depletion, and climate change. He has contributed to multiple peer-reviewed publications exploring themes such as biomass arrangement and its ecological effects, modeling of wastewater treatment parameters, environmental risks around landfill sites, and the impact of deforestation on regional climate conditions. His research collaborations across Africa and Asia highlight his ability to apply analytical methods to large-scale environmental monitoring data, evaluate energy systems, and propose solutions that support sustainable development. In addition to scholarly writing, he has engaged with professional bodies focused on environmental stewardship and economic development, strengthening his expertise in cross-sectoral research. His proficiency spans data analysis, environmental modeling, and the application of smart stormwater systems to combat pollution, particularly in sensitive aquatic ecosystems. Through ongoing research, project involvement, and academic engagement, he continues to advance innovative approaches that support ecological conservation, environmental policy development, and the long-term resilience of natural habitats.

Profile: Orcid

Featured Publications

Uwayesu, H. E. (2025). Address of Edwards line of emissions in reducing/positive impact to climate [Dataset]. OSF.

Uwayesu, H. E. (2025). Environmental impact and risk assessment of natural resource areas around Southern Nigeria, particularly Ibo, and Uganda in the Kitezi landfill [Dataset]. Harvard Dataverse.

Uwayesu, H. E. (2025). Evaluation of ASM1 parameters using large-scale WWTP monitoring data from a subtropical climate in Entebbe [Dataset]. Harvard Dataverse.

Uwayesu, H. E. (2025). Natural resource depletion in developing countries due to lack of innovative ideas for sustainable development [Dataset]. Harvard Dataverse.

Uwayesu, H. E. (2025). Understanding and addressing climate change caused by deforestation in areas of Morogoro, Tanzania: EPA’s mission of protecting the environment [Dataset]. Harvard Dataverse.

Saad Hussein | Agriculture | Best Researcher Award

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Prof. Dr. Saad Hussein | Agriculture | Best Researcher Award

Prof. Dr. Saad Hussein | Mansoura University | Egypt

Prof. Dr. Saad Farouk Mohamed Hussein is a distinguished plant scientist whose research spans environmental stress physiology, plant–animal interactions, and sustainable crop improvement strategies. His scholarly contributions encompass advanced investigations into plant responses to abiotic stresses—including salinity, drought, water deficit, and heavy-metal toxicity—as well as biotic challenges from pathogens and pests. He has extensively explored the roles of osmoregulators, growth substances, antioxidants, and natural chelators in enhancing plant tolerance, with a particular focus on alleviating cadmium stress. His work also advances knowledge in seed physiology and germination, hydroponic “sand culture” systems, and plant nutrition through biostimulants, effective microorganisms, and targeted nutrient management. In addition, he contributes to sustainable disease management using elicitors, vitamins, and integrated ecological approaches. His morph-anatomical and physiological studies deepen understanding of plant defense chemistry and stress-induced adaptations, while his expertise extends to plant biotechnology, tissue culture, secondary metabolites, and advanced microscopy. With 1,013 citations, 31 published documents, and an h-index of 17, he has made a significant impact on agricultural botany and plant physiology research, providing vital insights that support resilient crop production and sustainable agricultural systems.

Profiles: Scopus | Orcid

Featured Publications

Aktas, N., Farouk, S., Al-Ghamdi, A. A. M., Alenazi, A. S., AlMalki, M. A. L., & Dinler, B. S. (2025). Pipecolic acid, a drought stress modulator, boosts chlorophyll assimilation, photosynthetic performance, redox homeostasis, and osmotic adjustment of drought-affected Hordeum vulgare L. seedlings. Plants.

Farouk, S., Abd El-Hady, M. A. M., El-Sherpiny, M. A., Hassan, M. M., Alamer, K. H., Al-Robai, S. A., Ali, E. F., & El-Bauome, H. A. (2023). Effect of dopamine on growth, some biochemical attributes, and the yield of crisphead lettuce under nitrogen deficiency. Horticulturae.

Farouk, S., AL-Huqail, A. A., & El-Gamal, S. M. A. (2023). Potential role of biochar and silicon in improving physio-biochemical and yield characteristics of borage plants under different irrigation regimes. Plants.

Metwaly, E. E., AL-Huqail, A. A., Farouk, S., & Omar, G. F. (2023). Effect of chitosan and micro-carbon-based phosphorus fertilizer on strawberry growth and productivity. Horticulturae.

Metwaly, E. E., Al-Yasi, H. M., Ali, E. F., Farouk, H. A., & Farouk, S. (2022). Deteriorating harmful effects of drought in cucumber by spraying glycinebetaine. Agriculture.

Belen Araceli Kettler | Agriculture | Best Researcher Award

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Dr. Belen Araceli Kettler | Agriculture | Best Researcher Award

Dr. Belen Araceli Kettler, National University of Northeast, Argentina

Dr. Belén Araceli Kettler is an Assistant Professor at the Faculty of Agrarian Sciences, National University of the Northeast, Argentina. Her research focuses on crop physiology, particularly the effects of abiotic stress on maize growth and productivity. With a strong background in natural resources and plant production, she has been actively involved in national and international research collaborations, including a current research fellowship at Kansas State University. Dr. Kettler has contributed to several peer-reviewed publications and research projects in partnership with academic institutions and private agribusiness companies, and she is recognized for her analytical expertise, teamwork, and commitment to advancing agricultural science.

Profile

Scopus

Summary:

Dr. Belén Araceli Kettler is a highly capable and accomplished researcher specializing in crop physiology with a particular focus on abiotic stress impacts on maize production. Her academic trajectory, extensive research involvement, peer-reviewed publications, and international collaborations underscore her scientific excellence and dedication. She combines strong analytical skills with practical applications, bridging fundamental research and agronomic challenges in subtropical Argentina. Her commitment to teaching and mentoring also contributes significantly to capacity building in her field.

🎓 Education

Dr. Belén A. Kettler is currently completing her Doctorate in Natural Resources with a specialization in Crop Physiology at the Faculty of Agrarian Sciences, National University of Northeast, Corrientes, Argentina, under the mentorship of Dr. C. S. Carrera and Dr. N. Neiff. She holds a Bachelor’s degree in Agricultural Engineering from the same university and began a Master’s in Plant Production, which she discontinued after being offered a doctoral position. Over her academic journey, she has undertaken numerous specialized courses, consistently achieving distinguished or excellent marks.

💼Experience

Dr. Kettler has extensive academic and research experience. She has served as an Assistant Professor at the Faculty of Agrarian Sciences, National University of Northeast since January 2019. Her international experience includes a research scholar position at Kansas State University in the United States, beginning in May 2025. She has held multiple research fellowships through CONICET and the Scientific and Technical Commission of her home university. These roles span from undergraduate to doctoral research, focusing on crop physiology, environmental stress impacts, and ecophysiology.

🔬Research Focus

Her research focuses on the physiological and ecophysiological responses of crops, particularly maize, to abiotic stresses such as high temperatures and drought. Her work investigates how these stressors impact growth, yield components, kernel development, respiration, and dry matter allocation. She has collaborated with international partners and contributed to breeding and modeling research, including QTL analysis and genomic prediction under stress conditions.

🛠️Skills

Dr. Kettler possesses strong teamwork capabilities and a high level of analytical thinking. She is proficient in statistical software such as Infostat, R Studio, GraphPad Prism, and Microsoft Excel. Her skill set also includes intermediate-level knowledge in crop modeling systems like DSSAT and APSIM. She demonstrates a strong commitment to continuous learning and applies critical thinking to research and teaching.

🏆Awards

Dr. Kettler has been supported by national and university-level research fellowships, including those from CONICET and the Scientific and Technical Commission of the National University of Northeast. She has also contributed to several funded research projects, notably on oxidative stress in crops, physiological responses to environmental stressors, and conservation studies of vascular plants.

📚 Publications

Title: Climatic constraints for rainfed maize production in the Northeastern subtropical region of Argentina
Year: 2025
Authors: Kettler, B. A., Nalli Sonzogni, F. D., Neiff, N., Boscarino, S., Maddonni, G. Á.
Journal: Theoretical and Applied Climatology

Conclusion:

Dr. Kettler is a well-qualified candidate for the Best Researcher Award due to her consistent research excellence, international engagement, and impactful contributions to crop science. Addressing areas such as increased leadership visibility and interdisciplinary approaches could further elevate her candidacy. Overall, she embodies the qualities of an outstanding researcher with both scientific rigor and practical relevance, making her highly suitable for recognition as a Best Researcher.