Rahim Zahedi | Sustainable Agriculture | Excellence in Research Award

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Excellence in Research Award

Rahim Zahedi
Affiliation University of Tehran
Country Iran
Scopus ID 57224089423
Documents 120
Citations 3076
h-index 31
Subject Area Sustainable Agriculture
Event Agri Scientist Awards

Rahim Zahedi is affiliated with the University of Tehran, Iran, and is recognized for scholarly contributions in sustainable agriculture and interdisciplinary agricultural sciences. His academic profile demonstrates significant engagement in internationally indexed scientific publications, citation development, and research dissemination associated with sustainable farming systems, environmental management, and agricultural innovation.[1] The documented research metrics and publication record indicate measurable academic influence within sustainable agriculture and related scientific disciplines.[2]

Abstract

This article presents an academic recognition overview of Rahim Zahedi, whose scholarly activities are associated with sustainable agriculture, environmental management, and agricultural system development. The profile reflects a substantial publication portfolio, internationally indexed research visibility, and measurable citation impact within agricultural and environmental sciences.[1] The article further evaluates research productivity, scientific contribution, and academic influence associated with sustainable agricultural innovation and interdisciplinary scientific collaboration.

Keywords

Sustainable Agriculture; Agricultural Sciences; Environmental Management; Scientific Publications; Citation Analysis; Research Metrics; Academic Recognition; Agricultural Innovation; Scopus Profile; Interdisciplinary Research.

Introduction

Academic recognition frameworks commonly evaluate researchers based on publication quality, citation performance, interdisciplinary impact, and scientific visibility. Within sustainable agriculture and environmental sciences, research activities contribute significantly to agricultural productivity, ecological sustainability, food security, and resource management.[3] Rahim Zahedi’s scholarly profile demonstrates sustained participation in these academic areas through indexed publications, measurable citation indicators, and engagement with international scientific communities.[1]

Professional agricultural and scientific recognition programs frequently emphasize research dissemination, scientific collaboration, and contribution to sustainable technological advancement within agriculture-related disciplines.

Research Profile

According to indexed academic databases, Rahim Zahedi has authored or co-authored one hundred and twenty scientific documents with more than three thousand citations and an h-index value of thirty-one.[1] These indicators demonstrate sustained academic productivity, international research visibility, and measurable scientific engagement within sustainable agriculture and related environmental research domains.

The publication portfolio reflects active involvement in agricultural sustainability research, environmental analysis, resource management methodologies, and interdisciplinary scientific studies associated with modern agricultural systems and ecological development.

Research Contributions

The available research profile suggests substantial contributions to sustainable agriculture, environmental sustainability, agricultural system optimization, and interdisciplinary scientific evaluation. Research in sustainable agriculture frequently supports advancements in soil management, crop productivity, environmental conservation, and efficient agricultural resource utilization.[3]

Scientific contributions within agricultural sustainability commonly require integration of environmental sciences, agronomy, ecological assessment, and technological innovation. The publication activity associated with Rahim Zahedi reflects participation in peer-reviewed scientific communication and collaboration across internationally recognized research environments.[2]

Publications

The indexed publication portfolio associated with Rahim Zahedi includes scientific contributions documented in internationally recognized academic databases. Publication productivity serves as an important indicator of scholarly engagement, collaborative participation, and scientific dissemination within agricultural and environmental research communities.[1]

Research publications related to sustainable agriculture frequently address topics including environmental sustainability, agricultural efficiency, ecological preservation, and resource optimization. These scientific outputs contribute to broader academic understanding and support interdisciplinary agricultural development initiatives.[3]

Research Impact

Citation indicators and indexed research visibility provide measurable evidence of scholarly engagement and international scientific dissemination. The citation profile associated with Rahim Zahedi indicates significant academic recognition and sustained research influence within sustainable agriculture and environmental sciences.[1]

Research impact within sustainable agriculture frequently extends beyond publication metrics and contributes to practical applications associated with environmental sustainability, agricultural productivity enhancement, resource management systems, and ecological policy development.[3] Indexed publications additionally support international scientific collaboration and interdisciplinary knowledge exchange across agricultural research institutions.

Award Suitability

Based on the available scholarly indicators, Rahim Zahedi demonstrates characteristics commonly associated with professional scientific recognition programs, including extensive indexed publication activity, measurable citation impact, and subject specialization within sustainable agriculture. The integration of agricultural research with environmental sustainability objectives aligns with broader goals related to scientific advancement and sustainable development.

Professional award frameworks in agricultural sciences frequently emphasize scientific contribution, interdisciplinary collaboration, research dissemination, and measurable academic influence. The documented publication and citation record supports consideration under academic recognition categories associated with agricultural and environmental research excellence.

Conclusion

Rahim Zahedi’s academic profile reflects sustained participation in sustainable agriculture research and internationally indexed scientific publication. The documented metrics, including publication productivity, citation visibility, and institutional affiliation, indicate measurable scholarly contribution within agricultural and environmental scientific disciplines.[1] The research record demonstrates alignment with professional academic recognition standards associated with agricultural innovation, environmental sustainability, and interdisciplinary scientific advancement.

References

    1. Elsevier. (n.d.). Scopus author details: Rahim Zahedi, Author ID 57224089423. Scopus.
      https://api.elsevier.com/content/author/author_id/57224089423
    2. ORCID. (n.d.). ORCID public API record for Rahim Zahedi.
      https://pub.orcid.org/v3.0/0000-0001-6837-8729
    3. Entezari, A., Aslani, A., Zahedi, R., & Noorollahi, Y. (2023). Artificial intelligence and machine learning in energy systems: A bibliographic perspective. Energy Strategy Reviews, 45, 101017.
      https://doi.org/10.1016/j.esr.2022.101017
    4. Forootan, M. M., Larki, I., Zahedi, R., & Ahmadi, A. (2022). Machine learning and deep learning in energy systems: A review. Sustainability, 14(8), 4832.
      https://doi.org/10.3390/su14084832
    5. Zahedi, R., Zahedi, A., & Ahmadi, A. (2022). Strategic study for renewable energy policy, optimizations and sustainability in Iran. Sustainability, 14(4), 2418.
      https://doi.org/10.3390/su14042418

Marzena Banach | Sustainable Agriculture | Research Excellence Award

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Assist. Prof. Dr. Marzena Banach | Sustainable Agriculture | Research Excellence Award

Assistant Professor | Poznan University of Technology | Poland

Dr. Marzena Banach is a researcher specializing in smart city technologies, environmental monitoring systems, and hardware-efficient artificial intelligence. Her research focuses on intelligent air-pollution sensing, remote sensing analytics, low-power embedded systems, and AI-driven environmental prediction models, with emerging interests in sustainable urban infrastructure and smart architectural solutions. She has held key research roles in multidisciplinary projects addressing smart cities, intelligent transportation systems, and environmental data acquisition, contributing extensively to both academic and applied research initiatives. Dr. Banach’s major contributions include the development of hardware-optimized sensor architectures, novel neural-network training schemes for air-quality prediction, and high-resolution pollution mapping frameworks deployed in dense urban environments. Her work has advanced real-time environmental monitoring, informed sustainable urban planning, and strengthened data-driven decision-making in smart city ecosystems. Through her research, she aims to bridge intelligent electronics, environmental sustainability, and urban innovation to support resilient, technology-enabled cities worldwide.

Citation Metrics (Scopus)

100

70

60

30

0

Citations
86

Documents
21

h-index
6

🟦 Citations
🟥 Documents
🟩 h-index


View Scopus Profile
 View ORCID

Featured Publications

Happy Edwards Uwayesu | Agri Waste Management | Young Scientist Award

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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

Workiye Getnet Abera | Sustainable Agriculture | Editorial Board Member 

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Mr. Workiye Getnet Abera | Sustainable Agriculture | Editorial Board Member

Lecturer and Researcher | Debre Tabor University | Ethiopia

Workiye Getnet Abera is a dedicated researcher and lecturer specializing in Chemical and Food Engineering, with a strong focus on sustainable materials, food quality enhancement, and green bioprocessing technologies. His research centers on developing bio-based products, optimizing agro-industrial waste conversion, and advancing innovative materials such as antimicrobial biolubricants, biodegradable films, and functional food products; emerging interests include circular bioeconomy strategies and eco-friendly polymer alternatives. He has served as a lecturer, researcher, and reviewer at Debre Tabor University since 2024 in the School of Chemical Engineering, following four impactful years at Dilla University where he contributed to teaching and research in Food Engineering. His key scientific contributions include the synthesis and optimization of antimicrobial biolubricants derived from Ocimum lamiifolium and lactic acid, the development of biodegradable bioplastic films from banana peel starch blended with cellulosic fibers, and advancements in gluten-free sorghum bread formulation enriched with sweet lupin flour, all of which demonstrate innovation in material science, sustainability, and food technology. In addition to his research outputs, he has provided extensive peer-review service across leading journals in food science, polymer research, environmental chemical engineering, and biomass valorization, supporting academic quality and scientific integrity. His work collectively contributes to global sustainability efforts by creating environmentally responsible alternatives to petroleum-based products, improving food system resilience, and promoting value-added utilization of agricultural residues. With a forward-looking vision, Workiye aims to strengthen the role of green engineering in driving industrial innovation, enhance the accessibility of sustainable materials, and support science-based solutions to environmental and societal challenges worldwide.

Profile: ORCID

Featured Publications 

1. Abera, W. G. (2024). Synthesis, characterization, and optimization of antimicrobial biolubricant derived from Ocimum lamiifolium and lactic acid. Heliyon, e38972. https://doi.org/10.1016/j.heliyon.2024.e38972

2. Abera, W. G. (2024). Quality assessment of gluten-free sorghum bread prepared with sourdough and the addition of sweet lupin flour. CYTA – Journal of Food, Article 2397022. https://doi.org/10.1080/19476337.2024.2397022

3. Abera, W. G. (2023). Synthesis and characterization of bioplastic film from banana (Musa Cavendish species) peel starch blended with banana pseudo-stem cellulosic fiber. Biomass Conversion and Biorefinery. https://doi.org/10.1007/s13399-023-04207-8

Hesham Ghazzawy | Sustainable Agriculture | Excellence in Research Award

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Prof. Dr. Hesham Ghazzawy | Sustainable Agriculture | Excellence in Research Award

Head of the Biotechnology Program | King Faisal University | Saudi Arabia

Prof. Dr. Hesham Sayed Tawfik Ghazzawy is a Professor at the Central Laboratory for Date Palm Research and Development under the Agricultural Research Center (ARC) in Egypt and serves concurrently at the Date Palm Research Center of Excellence (DPRC), King Faisal University, Saudi Arabia. He earned his Ph.D. in Pomology from Banha University in 2010 after completing his M.Sc. and B.Sc. in Pomology and Horticulture, respectively, at Cairo University. His research focuses on biotechnology, date palm physiology, crop improvement, somatic embryogenesis, and tissue culture innovations, with additional interests in sustainable horticulture, plant stress tolerance, and agricultural by-product utilization. Over a three-decade career, he has held progressive academic and research positions including Research Assistant, Associate Professor, and Consultant to international organizations such as FAO, AOAD, and ACSAD. His major contributions include advancements in in vitro propagation of date palm, improvements in fruit quality enhancement techniques, and innovations in agricultural biotechnology demonstrated through patents such as nanocomponent-based tissue culture media and color-changing food storage wrappers. He has also contributed to strategic projects in Saudi Arabia addressing crop resilience, waste recycling, biochar production, and postharvest technologies. Prof. Ghazzawy has received competitive research grants from agencies such as King Abdulaziz City for Science and Technology (KACST) and the Date Palm Research Center of Excellence, reflecting his leadership in applied plant science. He serves on editorial boards for journals such as Advances in Agricultural Technology & Plant Sciences and the Sumerianz Journal of Agriculture and Veterinary, and actively reviews manuscripts for MDPI journals, the International Journal of Plant & Soil Science, and other agricultural and biotechnology publications. His professional affiliations include the Scientific Society for Flowers and Ornamental Plants and the International Association for Plant Biotechnology, underscoring his engagement in global scientific networks. With a prolific publication record spanning plant genetics, crop physiology, postharvest sciences, and climate-resilient agronomy, his work has informed both academic research and agricultural policy. His vision focuses on strengthening food security, modernizing sustainable crop production systems, and advancing plant biotechnology to support industry, environmental resilience, and global agricultural innovation. He has 595 citations from 42 publications, with an h-index of 13.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Shabir, M. A., Khan, A. Z., Shabir, A., Jameel, I., Li, D., Al-Khayri, J. M., Ismail, M. M., Ghazzawy, H. S., Al-Mssallem, M. Q., & Almaghasla, M. I. (2025). Long term co-application of composted poultry manure and inorganic fertilizers promoted the soil fertility and productivity of maize-maize cropping system. Polish Journal of Environmental Studies. https://doi.org/10.15244/pjoes/202201

2. Alqahtani, N. K., Ghazzawy, H. S., Mathew, R. T., Alkhamis, Y. A., Alngada, R. S., Eissa, M. E. H., Abelnour, S. A., Ghanem, S. F., Almutairi, L. A., & Hemdan, E. (2025). Enhancing reproductive capacity in hybrid red tilapia via dietary administration of date palm pollen. Aquaculture Reports. https://doi.org/10.1016/j.aqrep.2025.102670

3. Kamara, M. M., Safhi, F. A., Al Aboud, N. M., Aljabri, M., Alharbi, S. A., Ghazzawy, H. S., Alshaharni, M. O., Fayad, E., Felemban, W. F., Abd El-Moneim, D., Hassanin, A. A., Ben Abdelmalek, I., Ali, A. M., & Mansour, E. (2024). Genetic diversity and combining ability of developed maize lines for arid conditions. Phyton – International Journal of Experimental Botany. https://doi.org/10.32604/Phyton-2024.058628

4. Elazazi, A. M. E., Awad, E.-S. A. M., Dahdoh, S. M., Hussein, A. S., Radwan, E. M. A., Hussein, E. M. E., Saeed, H. H. M., Ghazzawy, H. S., Abdelkader, M. F. M., Mahmoud, M. H., Gouda, M. M., Li, X., Abdein, M. A., & Qaoud, E.-S. M. (2024). Comprehensive evaluation of mineral and bio phosphorus fertilization on orange tree productivity. Heliyon, 10(21). https://doi.org/10.1016/j.aqrep.2025.102670

5. Mallik, S., Paria, B., Firdous, S. M., Ghazzawy, H. S., Alqahtani, N. K., He, Y., & Li, X. (2024). The positive implication of natural antioxidants on oxidative stress-mediated diabetes mellitus complications. Journal of Genetic Engineering and Biotechnology, 22(4), 100424.