Emmanuel Olatunbosun Benjamin | Urban Agriculture | Research Excellence Award

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Dr. Emmanuel Olatunbosun Benjamin | Urban Agriculture | Research Excellence Award

Technical Advisor | Aglobe Development Center | Nigeria

Emmanuel Olatunbosun Benjamin is a researcher specializing in Agricultural and Resource Economics with strong expertise in Development Economics, currently affiliated with the Technical University of Munich. His research focuses on the economics of sustainable agriculture, agroforestry systems, Payments for Ecosystem Services (PES), climate policy, and smallholder livelihood resilience, with emerging interests in gender equity, environmental incentives, and climate-smart food systems. He has held key academic and research roles through international collaborations addressing sustainability challenges in Africa and developing economies. His major contributions include influential empirical evidence on PES effectiveness, agroforestry adoption, women’s economic empowerment, and policy-relevant analyses of climate and energy transitions. Through interdisciplinary and impact-driven research, his work informs evidence-based policymaking, supports sustainable land-use strategies, and advances inclusive economic development. His impact vision centers on bridging environmental conservation with poverty alleviation by translating rigorous economic research into scalable solutions for global sustainability and climate resilience.

Featured Publications 

  1. Benjamin, E. O., Ola, O., Menapace, L., & Lang, H. (2019). Determinants of the environmental conservation and poverty alleviation objectives of payments for ecosystem services programs. Ecosystem Services, 35, 52–66.

  2. Benjamin, E. O., Ola, O., & Buchenrieder, G. (2018). Does an agroforestry scheme with payment for ecosystem services economically empower women in sub-Saharan Africa? Ecosystem Services, 31, 1–11.

  3. Benjamin, E. O., & Sauer, J. (2018). The cost effectiveness of payments for ecosystem services—Smallholders and agroforestry in Africa. Land Use Policy, 71, 293–302.

  4. Guo, Q., Ola, O., & Benjamin, E. O. (2020). Determinants of the adoption of sustainable intensification in southern African farming systems: A meta-analysis. Sustainability, 12(8), 3276.

  5. Ola, O., & Benjamin, E. O. (2019). Preserving biodiversity and ecosystem services in West African forest, watersheds, and wetlands: A review of incentives. Forests, 10(6), 479.

Cleyton de Almeida Araújo | Sustainable Agriculture | Best Researcher Award

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Prof. Dr. Cleyton de Almeida Araújo | Sustainable Agriculture | Best Researcher Award

Professor | UNIVASF | Brazil

Dr. Cleyton de Almeida Araújo is a distinguished researcher and academic specializing in Animal Science, with an emphasis on ruminant nutrition, forage management, and sustainable livestock production systems. His research primarily focuses on optimizing feed efficiency, improving forage quality, and developing eco-friendly livestock management practices that reduce greenhouse gas emissions while enhancing animal productivity in semiarid regions. As an Adjunct Professor at the Federal University of the São Francisco Valley (UNIVASF), he plays a vital role in advancing experimental studies on silage fermentation, mineral balance in animal nutrition, and biosaline agriculture. Over the years, Dr. Araújo has authored numerous scientific articles in high-impact journals, contributing significantly to understanding forage preservation, carbohydrate fractionation, and the nutritional dynamics of alternative feed resources such as cactus pear and cassava shoots. His collaborative works have also examined the interplay between animal nutrition and environmental sustainability, highlighting innovative strategies for resource-limited ecosystems. Beyond his academic achievements, he has contributed to the scientific community through applied research that supports livestock farmers and policymakers in developing climate-resilient agricultural systems. His findings on feed substitution and silage improvement have practical implications for animal welfare, soil health, and rural livelihoods. Dr. Araújo’s scientific vision is rooted in bridging advanced nutritional science with sustainable production methods, fostering innovations that balance productivity with environmental stewardship. Through his continued research and mentorship, he aims to strengthen the resilience of tropical livestock systems, contributing to global efforts in food security, ecological conservation, and rural development. He has 78 citations from 26 publications, with an h-index of 5.

Profiles: Scopus | ORCID

Featured Publications

1. Araújo, C. A., Lima, R. S., Oliveira, G. F., Nascimento, D. B., Campos, F. S., Gois, G. C., Silva, T. G. F., Magalhães, A. L. R., & Araújo, G. G. L. (2025). Carbohydrate fractionation and nitrogen compounds, mineral status, and gas production in arboreal cotton and cactus silages. Arquivo Brasileiro de Medicina Veterinária e Zootecnia, 77(1). https://doi.org/10.1590/1678-4162-13274

2. Pereira, P. H. B., Oliveira, J. S., Guerra, R. R., Conceição, Â. I. da, Magalhães, A. L. R., Silva, D. K. de A., Bispo, S. V., Dias, G. G., Araújo, C. de A., & Valença, R. de L., et al. (2025). Forage cactus as a substitute for corn as an energy source in the finishing of feedlot lambs. Tropical Animal Health and Production, 57(6). https://doi.org/10.1007/s11250-025-04502-8

3. Nascimento, D. B. do, Magalhães, A. L. R., Teodoro, A. L., Gois, G. C., Santos, K. C. dos, Amaral, T. N. E. de, Araújo, C. A. de, Silva, P. B. da, Severo, M. F. de S., & Campos, F. S. (2025). Chemical composition, mineral profile, carbohydrate fractionation, dry matter digestibility and in vitro gas production of Furcraea foetida (L.) Haw at different phenological stages. New Zealand Journal of Agricultural Research, 68(2). https://doi.org/10.1080/00288233.2023.2260770

4. Borges, E. N., Araújo, C. A. de, Monteiro, B. S., Silva, A. S., Albuquerque, L. de F., Araújo, G. G. L. de, Campos, F. S., Gois, G. C., Souza, R. C. de, & Araújo, A. O. de. (2025). Buffel grass pre-dried as a modulator of the fermentation, nutritional and aerobic stability profile of cactus pear silage. New Zealand Journal of Agricultural Research, 68(1). https://doi.org/10.1080/00288233.2023.2212173

5. Silva, C. de S., Miranda, A. S. de, Novaes, J. J. da S., Araújo, C. A. de, Macedo, A. de, Araújo, J. S. de, Lima, D. O., Neto, J. V. E., Gois, G. C., & Araújo, G. G. L. de, et al. (2024). Fermentation profile, nutritional value and aerobic stability of mixed elephant grass and butterfly pea silages. Ciência Animal Brasileira, 25, e76994e. https://doi.org/10.1590/1809-6891v25e-76994e

Noah Adamtey | Soil Fertility Management | Best Researcher Award

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Dr. Noah Adamtey | Soil Fertility Management | Best Researcher Award

Senior Researcher | International Water Management Institute | Ghana

Dr. Noah Adamtey is a distinguished Agronomist and Environmental Scientist, currently serving as Senior Researcher in Resource Recovery and Agri-food Systems at the International Water Management Institute (IWMI), Ghana. He earned his BSc in Agricultural Science and MPhil in Environmental Science from the University of Ghana, followed by a PhD in Environmental Science from the University of Ghana in collaboration with IWMI and Eawag-Sandec, Switzerland, and later pursued a Habilitation at the University of Giessen, Germany, focusing on resource recovery and use efficiency in farming systems. With over two decades of expertise, Dr. Adamtey’s research spans agroecology, bio-circular economy, soil fertility, nutrient cycling, sustainable water use, and climate-resilient agricultural systems. He has led and collaborated on several international projects, including long-term farming systems comparison trials across Africa, Asia, and Latin America, significantly advancing knowledge on organic versus conventional agriculture. His extensive publication record includes impactful articles in Applied Soil Ecology, Frontiers in Sustainable Food Systems, and Global Environmental Change, as well as contributions to book chapters, training manuals, and technical guides. Dr. Adamtey’s research has been recognized with prestigious awards such as the 2025 IWMI Board of Governors Award, the 2021 Louis Malassis International Scientific Award for Agroecology, and the 2019 Swiss Forum for International Agricultural Research Award. Beyond research, he contributes to academia as a lecturer at the University of Giessen and University of Hohenheim, Germany, and has been instrumental in curriculum development for agricultural institutions in Africa. He is also an active reviewer for leading journals, including Nutrient Cycling in Agroecosystems, Agronomy Journal, and Sustainability. Through his scientific leadership, teaching, and international collaborations, Dr. Adamtey continues to influence sustainable agriculture, environmental stewardship, and food security worldwide

Profile: Google Scholar 

Featured Publications 

1. Adamtey, N., Musyoka, M. W., Zundel, C., Cobo, J. G., Karanja, E., Fiaboe, K. K. M., ... (2016). Productivity, profitability and partial nutrient balance in maize-based conventional and organic farming systems in Kenya. Agriculture, Ecosystems & Environment.

2. Adamtey, N., Cofie, O., Ofosu-Budu, K. G., Ofosu-Anim, J., Laryea, K. B., & Forster, D. (2010). Effect of N-enriched co-compost on transpiration efficiency and water-use efficiency of maize (Zea mays L.) under controlled irrigation. Agricultural Water Management.

3. Adamtey, N., Cofie, O., Ofosu-Budu, G. K., Danso, S. K. A., & Forster, D. (2009). Production and storage of N-enriched co-compost. Waste Management.

4. Neither, W., Schneidewind, U., Armengot, L., Adamtey, N., Schneider, M., ... (2017). Spatial-temporal soil moisture dynamics under different cocoa production systems. Catena.

5. Atandi, J. G., Haukeland, S., Kariuki, G. M., Coyne, D. L., Karanja, E. N., ... (2017). Organic farming provides improved management of plant parasitic nematodes in maize and bean cropping systems. Agriculture, Ecosystems & Environment.

 

Mohsin Tanveer | Agroecology | Best Researcher Award

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Assoc. Prof. Dr. Mohsin Tanveer | Agroecology | Best Researcher Award

Associate Professor | Xinjiang Institute of Ecology and Geography | China

Dr. Mohsin Tanveer is an Associate Professor (Research) at the Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, China, where he advances research in plant molecular physiology and sustainable agriculture. He earned his Ph.D. in Agriculture from the University of Tasmania, Australia, focusing on tissue-specific reactive oxygen species signaling and ionic homeostasis in quinoa and spinach under salinity stress, following M.Sc. (Hons) and B.Sc. (Hons) degrees in Agronomy from the University of Agriculture Faisalabad, Pakistan. His key research interests include molecular biology and climate change, nutrient metabolism, abiotic stress tolerance, and halophyte physiology, supported by several international projects under young talent programs. Dr. Tanveer has an extensive publication record with high-impact contributions to The Crop Journal, Plant Physiology and Biochemistry, Trends in Plant Science, and Journal of Plant Growth Regulation, alongside co-editing books with Springer on topics such as mineral biofortification and stress tolerance in plants. His scientific impact has been recognized globally, being ranked among the top 2% of scientists by Stanford University and Elsevier since 2021 and listed among Australia’s top 40 rising stars in agricultural research. Over the course of his career, he has received multiple honors, including the University of Tasmania HDR Scholarship and international research fellowships. Beyond his research, he actively contributes to academic publishing as an editorial board member for leading journals including Plant Growth Regulation, BMC Plant Biology, Frontiers in Agronomy, Frontiers in Plant Science, Antioxidants, Biology, and Agriculture-MDPI. His work bridges plant physiology, molecular biology, and agronomy, with a strong focus on advancing food security and crop resilience under changing climatic conditions, establishing him as a leading figure in plant stress biology and sustainable agriculture research. He has 8671 citations from 104 publications, with an h-index of 47.

Profiles: Google Scholar | ORCID | Scopus
Featured Publications 

Huijing Meng | Forestry | Best Academic Researcher Award

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Dr. Huijing Meng | Forestry | Best Academic Researcher Award

Dr. Huijing Meng | Forestry - Student at Henan Agricultural University, China

Huijing Meng is an emerging researcher in forest biotechnology, focusing on genetic breeding and cultivation of stress-resistant, high carbon-sequestering plants. With expertise in molecular biology and plant tissue culture, Huijing has contributed to award-winning studies and published impactful research. Currently pursuing a Ph.D. at Henan Agricultural University, Huijing demonstrates a strong commitment to sustainability and ecological resilience through plant science. Their academic and research journey highlights a dedication to innovation in forestry biotechnology and a promising future in advancing climate-smart plant systems.

ACADEMIC PROFILE

Scopus

EDUCATION

Huijing Meng is pursuing a Ph.D. at Henan Agricultural University in forestry-related research. Their educational background includes Master’s degrees from the Chinese Academy of Forestry Sciences and Shanxi Agricultural University, following a Bachelor’s degree from Xinyang Agricultural and Forestry College. Across these programs, Huijing has built a solid foundation in plant breeding, genetics, and molecular biology. The academic path reflects a consistent interest in forestry and environmental adaptation, equipping Huijing with critical skills and theoretical grounding to address complex challenges in plant resilience and sustainable forestry systems.

EXPERIENCE

Huijing Meng has accumulated hands-on experience through advanced academic research and collaborative laboratory projects. Their work spans gene cloning, stress tolerance analysis, and transgenic plant development. Huijing has actively contributed to studies involving Populus, Arabidopsis, and other plant species using cutting-edge molecular and cultivation methods. Exposure to multi-institutional research environments has enhanced their technical proficiency and collaborative skills. These experiences have allowed Huijing to effectively contribute to plant improvement projects, with practical knowledge in breeding strategies and functional genomics applied to climate-resilient forestry.

RESEARCH INTEREST

Huijing Meng’s research centers on improving forest trees through genetic enhancement and understanding their stress-response mechanisms. Their primary interest lies in identifying genes related to drought, salinity, and cold tolerance, particularly in species with ecological and carbon sequestration value. Huijing combines molecular tools, tissue culture, and genetic transformation techniques to explore gene function and regulation under environmental stress. Their work supports the development of adaptable plant varieties that align with global goals in biodiversity conservation, climate mitigation, and sustainable forestry, contributing to innovations in plant-based environmental solutions.

AWARD AND HONOR

On December 18, 2023, Huijing Meng was awarded the Outstanding Paper Award by Guangzhou Boluteng Biological Co., Ltd. for their study titled “PeGSTU58, a Glutathione S-Transferase from Populus euphratica, Enhances Salt and Drought Stress Tolerance in Transgenic Arabidopsis.” The award recognizes Huijing’s innovation and scientific rigor in addressing critical challenges in plant stress biology. This achievement reflects their growing influence in the field and dedication to uncovering novel genetic solutions to enhance the resilience of plant species under environmental stress conditions.

RESEARCH SKILL

Huijing Meng possesses advanced skills in both plant tissue culture and molecular techniques. They are experienced with culturing various species including Acer palmatum, Populus, Arabidopsis thaliana, and Nicotiana tabacum. Their molecular toolkit includes gene cloning, vector construction, yeast hybridization, and genetic transformation of Arabidopsis and tree species such as Paulownia. Huijing is proficient in DNA and RNA extraction and designing functional gene experiments. These capabilities position Huijing as a versatile researcher capable of contributing to genetic improvement projects in plant resilience and forestry biotechnology.

PUBLICATIONS

Huijing Meng has authored and co-authored several significant scientific publications. Their lead-authored paper in International Journal of Molecular Sciences (2023) earned an Outstanding Paper Award for advancing stress-resistance research. Additional co-authored works include studies on AtruLEA1 and AtruNAC36, addressing drought tolerance mechanisms in Arabidopsis and Acer truncatum. Huijing also leads a forthcoming study on cold germination in Acer truncatum. These publications reflect their focus on applied genomics and abiotic stress response, positioning them at the forefront of climate-resilient plant research.

  • Title: Overexpression of AtruLEA1 from Acer truncatum Bunge Enhanced Arabidopsis Drought and Salt Tolerance by Improving ROS-Scavenging Capability
    Authors: Shaofeng Li, Huijing Meng, Yanfei Yang, Fei Wang, Guangshun Zheng, Jianbo Li
    Journal: Plants

  • Title: Transcriptional Regulation of the Acer truncatum B. Response to Drought and the Contribution of AtruNAC36 to Drought Tolerance
    Authors: Jianbo Li, Wei Guo, Jinna Zhao, Yanfei Yang, Guangshun Zheng, Weijie Yuan, Huijing Meng
    Journal: Antioxidants

  • Title: PeGSTU58, a Glutathione S-Transferase from Populus euphratica, Enhances Salt and Drought Stress Tolerance in Transgenic Arabidopsis
    Authors: Huijing Meng, Jinna Zhao, Yanfei Yang, Tao Li, Xinren Dai, Jianbo Li
    Journal: International Journal of Molecular Sciences

CONCLUSION

Huijing Meng is a dedicated and skilled researcher committed to advancing forestry and plant science through innovative genetic approaches. Their academic path, practical research experience, and recognized publications underline a strong potential in solving environmental challenges through plant breeding. Huijing's work aligns with global priorities in sustainability and climate change resilience, particularly in tree species. With a growing portfolio of awards and publications, Huijing is poised to contribute meaningfully to ecological research, forestry innovation, and sustainable agricultural systems.

Indrani Nath – Sustainable Agriculture – Women Researcher Award

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Indrani Nath - Sustainable Agriculture - Women Researcher Award

Tamil Nadu Agricultural University - India

AUTHOR PROFILE

Google Scholar

ORCID

SUMMARY

Indrani Nath is a passionate researcher in the field of Sericulture, currently affiliated with the Forest College and Research Institute, Tamil Nadu Agricultural University. Her academic pursuits and research work reflect a strong commitment to sustainable agriculture, organic practices, and integrated crop-soil systems. Indrani has actively contributed to several scholarly publications, workshops, and international conferences. With a solid foundation in plant and soil sciences, she is focused on innovation-driven, eco-friendly agricultural technologies that bridge traditional knowledge and modern research for sustainable rural development.

EDUCATION

Indrani Nath has pursued both undergraduate and postgraduate degrees in Sericulture, specializing in organic nutrient management for mulberry cultivation. Her academic journey is marked by consistent excellence, backed by rigorous research under reputed agricultural universities in Assam and Tamil Nadu. She developed deep expertise in crop-soil interactions, sustainable mulberry growth, and organic input development. Through her thesis and coursework, she has refined her understanding of plant physiology, soil health, and biological productivity, aligning her education with her vision for eco-agricultural transformation.

PROFESSIONAL EXPERIENCE

Although in the early stages of her career, Indrani Nath has accumulated significant exposure through academic research, training workshops, and technical presentations at various national and international conferences. She has demonstrated a proactive approach in applying theoretical knowledge to practical scenarios, particularly in the sericulture sector. Her collaborative projects and research paper contributions showcase her capabilities in experimental design, laboratory analysis, and interdisciplinary teamwork. Indrani is keen on applying research outputs for the benefit of the agricultural and sericultural communities across India.

RESEARCH INTEREST

Indrani’s core research interests include plant physiology, soil microbiology, and sustainable mulberry cultivation. She is particularly focused on the development and application of organic fertilizers, crop-soil nutrient dynamics, and waste valorization. Her work explores leaf nutrient analysis, mulberry root development, and organic amendments to improve soil health. She also investigates the environmental and socio-economic implications of sericulture in India. Her research aims to enhance productivity and sustainability by integrating modern agronomic techniques with traditional farming systems.

AWARD AND HONOR

Indrani Nath has been recognized with prestigious accolades such as the “Young Researcher Award” and “Best Academician Award” in major international conferences. These honors reflect her academic excellence, research innovation, and growing influence in the agricultural and allied sciences community. Her dedication to knowledge dissemination is also evident from her active participation in training programs and professional seminars. These achievements affirm her commitment to advancing scientific research and contribute meaningfully to academic and applied agricultural domains.

RESEARCH SKILL

Indrani possesses diverse research skills ranging from field experiments and laboratory diagnostics to statistical analysis and scientific writing. She is proficient in analyzing soil-plant relationships, bioactive compound profiling, and conducting review-based syntheses. She has developed capabilities in publishing research, managing experimental trials, and utilizing digital research platforms such as ResearchGate and Google Scholar. Her interdisciplinary outlook and hands-on approach in experimental agronomy and sericultural bioproducts make her an asset to academic and applied research teams.

PUBLICATIONS

Indrani has co-authored several impactful review and research articles in NAAS-rated journals covering themes like mulberry carbon sequestration, sericulture waste utilization, pollination ecology, and organic biofertilizers. She has also contributed to book chapters and popular science articles promoting sustainable sericulture. Her publication portfolio showcases collaborations with researchers from diverse institutions, reinforcing her collaborative and multidisciplinary strengths. Indrani’s work reflects her commitment to evidence-based innovation and knowledge dissemination across both academic and grassroots platforms.

  • Pollination ecology: Understanding plant-pollinator relationships
    Authors: PB Patil, RA Rajah, NR Bora, D Brahma, SN Krishnan, V Vasanth, I Nath
    Journal: International Journal of Agricultural Research

  • Role of plant extracts on growth and development of mulberry and non-mulberry silkworms
    Authors: I Nath, PL Dutta, AS Gadge, PR Narzary
    Journal: Sci World

  • Harnessing mulberry trees for carbon sequestration: A review of strategies to enhance air quality
    Authors: I Nath, PL Dutta, A R Rajah, D M
    Journal: International Journal of Advanced Biochemistry Research

  • Turning Trash into Treasure: Utilizing Sericultural wastes in Mushroom Cultivation
    Authors: I Nath, PL Dutta, PR Narzary, MA Niranjan
    Journal: Journal of Scientific Research and Reports

  • Commercial Culture of Cordyceps militaris from Waste Products of Sericulture in India
    Authors: PR Narzary, D Brahma, J Sarma, I Nath, PL Dutta, NR Bora
    Journal: Journal of Advances in Biology & Biotechnology

CONCLUSION

Indrani Nath is a motivated and research-driven professional with a strong foundation in sustainable agriculture and sericulture. Her achievements across education, research, and academic recognition highlight her as a promising contributor to eco-agricultural science. With a clear vision for sustainable rural development and environmental conservation, she aspires to further her research and knowledge outreach for the benefit of the farming and sericultural communities. Her passion for integrating science with social impact defines her as a future leader in agricultural innovation.

Anis Elaoud – Sustainable Agriculture – Best Researcher Award

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Anis Elaoud - Sustainable Agriculture - Best Researcher Award

Carthage University - Tunisia

AUTHOR PROFILE 

ORCID
SCOPUS

SUMMARY

Dr. Anis Elaoud is a distinguished professor and researcher in environmental sciences and sustainable agriculture. Affiliated with Carthage University in Tunisia, he is renowned for his expertise in water and soil engineering. With a career spanning academic, consultancy, and research roles, he has coordinated major international projects, including those funded by the EU and Arab organizations. Dr. Elaoud's work combines technical innovation with practical agricultural applications, particularly in magnetic water treatment, soil management, and nanotechnology-based filtration. His contributions are reflected in numerous publications, patents, and training programs aimed at improving agricultural sustainability in Mediterranean and Arab regions.

EDUCATION

Dr. Elaoud holds a Doctorate in Sustainable Agriculture from ISA Sousse, Tunisia. Prior to that, he earned a Master’s degree in Mechanical Engineering from the National School of Engineers of Sfax and an Engineering degree in Horticultural Systems. His educational background forms a strong interdisciplinary foundation, blending agronomic, environmental, and engineering principles. This academic path empowered him to explore innovative methods for water treatment, soil compaction, and agricultural productivity. The integration of mechanical and agricultural sciences in his education paved the way for his specialization in eco-engineering and sustainable irrigation technologies critical for arid and semi-arid regions.

PROFESSIONAL EXPERIENCE

Dr. Elaoud's professional journey includes significant roles in academia and applied research. Since 2017, he has served as a professor at the Higher Institute of Sciences and Technology of Environment, Carthage University. Earlier, he held research and engineering positions at Tunisia’s Water Research and Technologies Center. His experience includes over a decade of contributing to agricultural development through both teaching and fieldwork. Notably, he acted as a consultant for various international agencies, contributing to programs aimed at enhancing irrigation efficiency and sustainable farming. His leadership in technology transfer and farmer training has had regional and cross-border impacts.

RESEARCH INTEREST

Dr. Elaoud’s research interests focus on advanced water treatment methods, sustainable agriculture, soil mechanics, and the application of magnetic fields in environmental management. He explores how nanotechnology, AI, and magnetic systems can revolutionize irrigation and agricultural productivity, particularly in resource-scarce environments. His work often bridges theoretical modeling with practical field applications. His studies on magnetic water treatment and soil behavior under mechanical stress have resulted in new methodologies for enhancing water use efficiency and reducing soil degradation. These interests align with pressing global challenges in climate adaptation, food security, and environmental sustainability.

AWARD & HONOR

Throughout his career, Dr. Elaoud has earned recognition for his scientific excellence and practical contributions to agriculture and environmental engineering. He is a recipient of high-profile project grants such as the European Union’s PRIMA and multiple regional initiatives. His patents on water treatment technologies reflect innovative breakthroughs acknowledged at the national level. Additionally, he serves on scientific and organizational committees for international conferences. His active membership in academic institutions like the Athens Institute for Education and Research further underlines his respected role in global research networks, contributing to both policy and science-based solutions.

RESEARCH SKILL

Dr. Elaoud possesses a diverse range of research skills, including experimental design, statistical modeling, field trials, and technology integration. He specializes in soil compaction modeling, nanotechnology-enhanced filtration systems, and the impact of magnetic fields on water and crop systems. He’s adept at utilizing machine learning tools for predicting soil behavior, and designing pilot projects that scale from lab to field. His competencies extend to interdisciplinary collaboration, grant writing, and coordinating cross-national projects. His ability to combine empirical science with technical engineering makes his research both robust and application-driven, particularly in arid-zone agriculture.

PUBLICATIONS

  • Title: Bayesian networks model for prediction of agricultural soil penetration resistance in interaction with different parameters
    Authors: Anis Elaoud; Rim Jalel; Hanen Ben Hassen
    Journal: Euro-Mediterranean Journal for Environmental Integration

  • Title: Study of Agricultural Soil Infiltration under the Movement of Machinery
    Authors: Amira Souli; Anis Elaoud; Rim Jalel; Hanen Ben Hassen
    Journal: Diyala Agricultural Sciences Journal

  • Title: New Process for the Treatment of Polluted Water Using the Coupling of Nanoparticles and Magnetic
    Authors: Hajer Tlili; Anis Elaoud; Nedra Asses; Karima Horchani-Naifer; Mounir Ferhi; Gerardo F. Goya; Jesús Antonio Fuentes-García
    Journal: Preprint

  • Title: New Process for the Treatment of Polluted Water Using the Coupling of Nanoparticles (Fe₃O₄) and Intense Magnetic System
    Authors: Hajer Tlili; Anis Elaoud; Nedra Asses; Atef Masmoudi; Karima Horchani-Naifer; Mounir Ferhi
    Journal: Preprint

  • Title: Reduction of Oxidizable Pollutants in Waste Water from the Wadi El Bey River Basin Using Magnetic Nanoparticles as Removal Agents
    Authors: Hajer Tlili; Anis Elaoud; Nedra Asses; Karima Horchani-Naifer; Mounir Ferhi; Gerardo F. Goya; Jesús Antonio Fuentes-García
    Journal: Magnetochemistry

CONCLUSION

Dr. Anis Elaoud stands at the intersection of science, innovation, and sustainability. With decades of academic and field experience, he continues to drive impactful research in environmental and agricultural systems. His ability to coordinate large-scale projects, mentor future scientists, and produce high-quality publications showcases a career dedicated to practical innovation. As global concerns over water scarcity and soil degradation rise, Dr. Elaoud’s work remains vital in developing sustainable solutions. His ongoing efforts contribute meaningfully to regional development in North Africa and beyond, ensuring that scientific knowledge serves communities and ecosystems alike.