Happy Edwards Uwayesu | Agri Waste Management | Young Scientist Award

Published on by Agri Scientist

Mr. Happy Edwards Uwayesu | Agri Waste Management | Young Scientist Award

Student | Suzhou university of science and technology | China

Happy Edwards Uwayesu is a dedicated researcher specializing in environmental depletion, recovery and protection, with a strong focus on Environmental and Development Economics as applied to emerging ecological challenges in developing regions. His research primarily investigates natural resource depletion, climate-change drivers such as deforestation, and the socio-economic dimensions of environmental degradation, while his emerging interests explore sustainable policy solutions, watershed protection, and ecological risk assessment across fragile ecosystems. Uwayesu has contributed academically through his role at Suzhou University of Science and Technology, where he engages in analytical and field-based environmental studies related to waste management, aquatic ecosystem protection, and sustainable policy design. His key contributions include landmark analyses such as The Bases for Regional Growth: A Review, which examines agricultural and applied economics in developing areas, and innovative studies on urban transportation impacts such as assessing the environmental role of bodaboda systems in Uganda and proposing policy structures for more sustainable mobility. He has advanced scientific understanding of aquatic ecosystem deterioration through investigations into biomass arrangements at Nakiwogo Landing Site and their influence on fish habitats and lake vibrational patterns, while his evaluation of ASM1 parameters using large-scale wastewater treatment plant data has expanded methodological insight for wastewater modelling in subtropical climates. Additional contributions include influential datasets and publications on resource depletion, climate change from deforestation in Tanzania, and environmental risk assessments around sensitive natural resource zones in Southern Nigeria and Uganda, reflecting a commitment to accessible, data-driven environmental knowledge. His collaborative works also extend to comparative studies of hydropower, fossil fuel systems, and other energy sources in relation to their environmental impacts, offering new perspectives for sustainable energy transitions. Beyond individual research outputs, Uwayesu’s work frequently intersects with policy relevance, offering frameworks for improved environmental stewardship, reduction of project delays linked to ecological mismanagement, and strategies for enhancing the resilience of local communities reliant on natural resources. His vision centers on fostering a scientifically informed, economically balanced, and socially responsible approach to conservation, aiming to support governments, industry actors, and communities in adopting sustainable practices that mitigate environmental degradation while enabling long-term development. Through his contributions, he seeks to strengthen global understanding of environmental decline and advocate for innovative, scalable solutions that protect ecosystems, advance climate resilience, and promote sustainable growth in vulnerable regions.

Profile: Google Scholar | ORCID

Featured Publications

1. Uwayesu, H. E., & Clark, E. (2025). The bases for regional growth: A review. Agricultural and Applied Economics Association.

2. Uwayesu, H., Huang, Z., & Zhou, H. (2025). Environment role of bodaboda and the Environment: Policy management and solutions to make boda boda system in Uganda a home place to stay. Environment Role of Bodaboda and Policy Management.

3. Uwayesu, H. E., Baguma, G., & Zhou, H. (2025). The effect of biomass arrangement on Nakiwogo Landing Site: Effect on fish and other habitat on Lake Victoria Congugated CN vibrations.

4. Uwayesu, H. E., & Zhou, H. (2025). Evaluation of ASM1 parameters using large-scale WWTP monitoring data from a subtropical climate in Entebbe. SSRN. https://doi.org/10.2139/ssrn.5172361

5. Uwayesu, H. (2025). Why projects in Uganda delay to the extent of affecting other projects in progress. Figshare. https://doi.org/10.6084/m9.figshare.28511768

Muhammad Atif Irshad | Innovation | Editorial Board Member

Published on by Agri Scientist

Dr. Muhammad Atif Irshad | Innovation | Editorial Board Member

Assistant Professor | University of Lahore | Pakistan

Dr. Muhammad Atif Irshad is a dedicated environmental scientist specializing in nanotechnology-based solutions for sustainable water and soil management, with a strong research emphasis on titanium dioxide (TiO₂) nanoparticle synthesis, wastewater remediation, and plant stress physiology. His work explores advanced oxidation processes, eco-friendly nanomaterials for pollutant removal, and nature-derived treatments for industrial effluents, positioning him at the forefront of innovation in environmental safety and sustainable agriculture. As an Assistant Professor in the Department of Environmental Sciences at The University of Lahore, Pakistan, he contributes extensively to academic development through teaching, research supervision, and departmental coordination roles. Previously, he served as a Lecturer at the same institution and worked as a research scholar in industrial environmental projects, where he applied scientific principles to real-world wastewater challenges. Dr. Irshad’s notable contributions include developing TiO₂ nanoparticle-based antifungal solutions for wheat rust, pioneering field-scale applications of nanomaterials for cadmium adsorption, and introducing green-synthesized nanomaterials to reduce environmental toxicity—advancements that collectively support safer food systems and cleaner water resources. His research has further contributed to improved wastewater treatment protocols within paint, pulp, and paper industries through the use of plant-based extracts and advanced oxidation technologies. With over 600 citations, an h-index of 10, and widely recognized publications, his scientific influence continues to expand across environmental nanotechnology and sustainable remediation disciplines. Driven by a vision of environmentally responsible innovation, Dr. Irshad aims to bridge scientific research with societal and industrial needs by developing scalable, nature-inspired, and cost-effective technologies that strengthen global environmental resilience and agricultural sustainability.

Profile: Google Scholar

Featured Publications

1. Irshad, M. A., & Others. (2021). Synthesis, characterization and advanced sustainable applications of titanium dioxide nanoparticles: A review.

2. Irshad, M. A., & Others. (2020). Synthesis and characterization of titanium dioxide nanoparticles by chemical and green methods and their antifungal activities against wheat rust.

3. Irshad, M. A., & Others. (2021). Effect of green and chemically synthesized titanium dioxide nanoparticles on cadmium accumulation in wheat grains and potential dietary health risk: A field investigation.

4. Irshad, M. A., & Others. (2019). Synthesis and application of titanium dioxide nanoparticles for removal of cadmium from wastewater: Kinetic and equilibrium study.

5. Irshad, M. A., & Others. (2023). Application of nanomaterials for cadmium adsorption for sustainable treatment of wastewater: A review.

Dr. Muhammad Qadir | Biopesticides | Young Scientist Award 

Published on by Agri Scientist

Dr. Muhammad Qadir | Biopesticides | Young Scientist Award 

Postdoctorate | Hunan University | China

Dr. Muhammad Qadir is a distinguished researcher at the Hunan Key Laboratory of Plant Functional Genomics and Developmental Regulation, Hunan University, specializing in Stress Physiology, Plant-Microbe Interactions, and Molecular Biology. His research primarily focuses on understanding how beneficial microbes and endophytes can mitigate heavy metal toxicity, enhance stress tolerance, and improve crop productivity under adverse environmental conditions. Emerging interests in his work include microbial-assisted phytoremediation, hormone-mediated plant resilience, and the molecular mechanisms underlying stress signaling in plants. Dr. Qadir has contributed extensively to the field through his collaborative research on microbial biotechnology, demonstrating how endophytic fungi and rhizobacteria can alleviate metal stress, optimize antioxidant systems, and enhance phytoremediation efficiency in crops like soybean, sunflower, and Brassica species. His seminal works, including studies on Pantoea conspicua, Acinetobacter bouvetii, and Aspergillus niger, have provided vital insights into microbe-driven soil reclamation and sustainable agriculture. As a research scientist, he has held key academic positions within Hunan University, contributing to cross-disciplinary projects bridging microbiology, environmental science, and plant molecular genetics. Among his significant achievements are publications in high-impact journals such as Chemosphere, Environmental Science and Pollution Research, and Agronomy, along with groundbreaking findings on phytohormone-producing microbes that enhance tolerance to heavy metals and drought. His investigations into eco-friendly bio-remediation technologies have influenced the design of sustainable crop management systems and advanced understanding of microbial ecology in agriculture. With over 785 citations, an h-index of 15, and numerous collaborative studies addressing climate resilience and soil health, Dr. Qadir’s scientific influence extends across global agroecological innovation. His vision emphasizes integrating microbial biotechnology into sustainable food systems, aiming to develop resilient crops capable of thriving under environmental stress while maintaining ecological balance. Through his pioneering research, Dr. Qadir continues to contribute significantly to global scientific efforts toward ensuring food security, environmental sustainability, and agricultural innovation in the face of climate challenges.

Profiles: Google Scholar | ORCID | ResearchGate

Featured Publications

1. Zahoor, M., Irshad, M., Rahman, H., Qasim, M., Afridi, S. G., Qadir, M., & Hussain, A. (2017). Alleviation of heavy metal toxicity and phytostimulation of Brassica campestris L. by endophytic Mucor sp. MHR-7. Ecotoxicology and Environmental Safety, 142, 139–149. https://doi.org/10.1016/j.ecoenv.2017.04.024

2. Qadir, M., Hussain, A., Hamayun, M., Shah, M., Iqbal, A., & Murad, W. (2020). Phytohormones producing rhizobacterium alleviates chromium toxicity in Helianthus annuus L. by reducing chromate uptake and strengthening antioxidant system. Chemosphere, 258, 127386. https://doi.org/10.1016/j.chemosphere.2020.127386

3. Husna, H., Hussain, A., Shah, M., Hamayun, M., Iqbal, A., & Qadir, M. (2022). Heavy metal tolerant endophytic fungi Aspergillus welwitschiae improves growth, ceasing metal uptake and strengthening antioxidant system in Glycine max L. Environmental Science and Pollution Research, 29(11), 15501–15515. https://doi.org/10.1007/s11356-021-16518-3

4. Hussain, A., Shah, M., Hamayun, M., Iqbal, A., Alataway, A., & Qadir, M. (2023). Phytohormones producing rhizobacteria alleviate heavy metals stress in soybean through multilayered response. Microbiological Research, 266, 127237. https://doi.org/10.1016/j.micres.2023.127237

5. Qadir, M., Hussain, A., Shah, M., Hamayun, M., Iqbal, A., Irshad, M., & Sayyed, A. (2022). Comparative assessment of chromate bioremediation potential of Pantoea conspicua and Aspergillus niger. Journal of Hazardous Materials, 424, 127314. https://doi.org/10.1016/j.jhazmat.2022.127314

MAHAMAT ABDOUNA – Sustainable Agriculture – Best Researcher Award

Published on by Agri Scientist

MAHAMAT ABDOUNA - Sustainable Agriculture - Best Researcher Award

Virtual University of Chad

AUTHOR PROFILE

ORCID

🧾 SUMMARY

Mahamat Abdouna is a dedicated computer science professional with extensive experience in digital systems, education, and research. He currently serves as the Head of the Digital Technology Unit at the Virtual University of Chad. Known for his leadership and problem-solving skills, he actively contributes to educational transformation and digital infrastructure. His passion lies in leveraging technology for sustainable solutions, particularly in transhumance and livestock management. He is seeking opportunities to expand his knowledge and collaborate internationally on impactful digital innovations.

🎓 EDUCATION

Mahamat Abdouna is pursuing a Ph.D. in Mathematics, Computer Science, and Applications at the University of N’Djamena, with a focus on dematerialized marking of transhumance corridors. He also holds a Master’s in Computer Networks and a Professional Bachelor's in Computer Science from INSTA, Chad. His academic path has been enriched through affiliations with LARTIC and international workshops. These educational milestones have laid a strong foundation for his research-driven and solution-oriented career in applied computer science and digital systems.

💼 PROFESSIONAL EXPERIENCE

Since 2020, Mahamat Abdouna has been a Laboratory Technician and later Head of the Digital Technology Unit at the Virtual University of Chad. His responsibilities include managing system infrastructure, cybersecurity, digital access, and e-learning environments. He has trained numerous students and educators in digital platforms, participated in examination and selection committees, and coordinated online assessments. His consistent leadership in digital transformation and technical training has significantly enhanced the university’s capacity to deliver modern, scalable education systems.

🔬 RESEARCH INTEREST

Mahamat Abdouna’s research focuses on intelligent systems in agriculture and livestock, specifically in transhumance corridor management using AI and agent-based models. He is interested in conflict prevention through digital mapping and reinforcement learning applications. His work bridges the gap between computer science and socio-environmental issues in Central Africa. By exploring innovative digital frameworks, he aims to contribute solutions to real-world challenges such as climate-resilient livestock mobility and cross-sectoral agricultural sustainability.

🏅 AWARD AND HONOR

Mahamat Abdouna has earned top honors in the “My Thesis in 180 Seconds” competition in 2023 and 2024, winning 1st prizes at AUF Chad. He represented Chad in the 10th edition held in Ivory Coast. His consistent excellence in public communication and scientific innovation has been widely recognized. These awards affirm his ability to present complex research in accessible ways, enhancing visibility and impact. He continues to receive invitations to prestigious academic events and international platforms.

🛠️ RESEARCH SKILL

Mahamat possesses strong technical skills in AI modeling, system architecture, and e-learning deployment. He is proficient in numerous programming languages (Python, C, SQL), web development, cybersecurity, and cloud technologies. His research toolbox includes UML, Merise, simulation, and agent-based modeling. He is highly skilled in integrating ICT with research for societal impact. His experience in deploying MOOC platforms and facilitating digital education workshops further reflects his multifaceted expertise in academic and practical computing domains.

📚 PUBLICATIONS

Mahamat has published in top-tier venues such as IEEE, MDPI, CSCI, and AFRICOMM. His work includes studies on reinforcement learning for transhumance, livestock monitoring technologies, and virtual fencing. His research contributions are widely recognized for their innovation and interdisciplinary relevance. Notably, his publications offer insights into sustainable livestock migration and data-driven agricultural systems. He collaborates with both local and international researchers, contributing to peer-reviewed journals and conferences that address digital solutions for environmental and agricultural challenges.

Title: Guiding Herds Through Transhumance Corridors: Harnessing Reinforcement Learning With Vicsek Model
Authors: Mahamat Abdouna, Azza Youssouf, Daouda Ahmat Mahamat
Journal/Conference: IEEE – The 7th International Conference on Pattern Analysis and Intelligent Systems

Title: Exploring the Potential of Agent-Based Models for the Problem of Transhumance Path Exits in Central Africa: Chad’s Routes as a Case Study
Authors: Mht Abdouna, Adrien Cotil, Hazael Jones, Bertrand Cloez
Journal/Conference: MDPI – AgriEngineering

Title: Algorithms and Technologies Behind Livestock Monitoring: A Systematic Literature Review
Authors: Mahamat Abdouna, Daouda Ahmat Mahamat, Brahim Issa Hassaballah
Journal/Conference: CSCI – International Conference on Computational Science and Computational Intelligence

Title: Towards Intelligent Livestock Migration in Sahalian Transhumance Corridors to Prevent Conflicts Between Farmers and Herders
Authors: Mahamat Abdouna, Azza Youssouf, Daouda Ahmat Mahamat
Journal/Conference: ASTI – Advances in Science, Technology & Innovation

Title: Virtual Fences: A Systematic Literature Review
Authors: Abdouna Mahamat, Daouda Ahmat, Bissyande Tegawende F.
Journal/Conference: ICST – AFRICOMM 2022 – International Conference on e-Infrastructure and e-Services for Developing Countries

🔚 CONCLUSION

Mahamat Abdouna is a promising researcher and digital systems innovator whose work intersects academic rigor with social relevance. His dedication to advancing digital education, environmental sustainability, and technological applications makes him an asset to the global research community. With a strong foundation in both theory and practice, he is well-positioned to lead impactful projects at national and international levels. His future goals include expanding collaborative networks and contributing to transformative solutions through science and technology.