Rahma Ines Zoghlami | Soil Systems | Best Researcher Award

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Assist. Prof. Dr. Rahma Ines  Zoghlami | Soil Systems | Best Researcher Award

Assistant Professor at  National Institute for Agricultural Research, Tunisia

Dr. Rahma Inès Zoghlami is a dedicated agricultural researcher and project manager specializing in sustainable agriculture, food security, climate change, and disaster risk assessment. She holds a Doctorate in Agricultural Sciences and currently serves as an Assistant Professor in Soil Sciences at the National Institute of Agricultural Research in Tunis.

Profile:

🧑‍🏫 Professional Skills:

  • Leadership: Proven ability to manage and guide research teams.

  • Grant Writing & Fundraising: Skilled in securing funds for agricultural initiatives.

  • International Collaboration: Extensive experience in managing global research projects.

  • Project Management: Successful execution of initiatives like CambiFarm and ISFERALDA.

  • Research Methodologies: Proficient in both qualitative and quantitative research methods.

  • Data Analysis: Expertise in using statistical tools for insightful decision-making.

  • Stakeholder Engagement: Effective collaboration with government and NGOs in Tunisia.

🌍 Key Projects & Contributions:

🌱 CambiFarm Project (PRIMA)

As the Coordinator, Rahma led the integration of biochar, biogas, and cyanobacteria fertigation technologies to develop smart circular farming systems. This project aimed to foster sustainable agriculture through innovative technologies.

🌾 Tunisian Agricultural Project (OAMS)

Rahma coordinated this project focusing on the use of biochar and chipped ramial wood as fertilizers for barley cultivation to combat erosion and enhance soil productivity.

🌱 ICARDA Agroecology Initiative

Rahma served as an invited expert in the Agroecology project, contributing to sustainable food system resilience and equity through transdisciplinary research.

🌴 ISFERALDA Project (PRIMA)

As an invited expert, Rahma contributed to the development of organic amendments using date palm residues, improving soil fertility through composting and pyrolysis.

🏆 Awards & Recognition:

  • Recognized for leadership in sustainable agriculture and food security initiatives.

  • Expert in managing international research collaborations and impactful agricultural projects.

Publication Top Notes:

  • Addressing Soil Fertility Challenges in Arid Agriculture: A Two-Year Evaluation of Combined Soil Organic Amendments Under Saline Irrigation
    Soil Systems | February 2025 | Author
    DOI: 10.3390/soilsystems9010016

  • Using Date Palm Residues to Improve Soil Properties: The Case of Compost and Biochar
    Soil Systems | June 2024 | Author
    DOI: 10.3390/soilsystems8030069

  • Assessment of Earthworm Viability and Soil Health after Two Years of Raw and Composted De-Inking Paper Sludge Amendment
    Agriculture | February 2023 | Author
    DOI: 10.3390/agriculture13030547

  • Soil Physicochemical Changes as Modulated by Treated Wastewater after Medium-and Long-Term Irrigations: A Case Study from Tunisia
    Agriculture | December 2022 | Author
    DOI: 10.3390/agriculture12122139

  • Evaluation of Composted Organic Wastes and Farmyard Manure for Improving Fertility of Poor Sandy Soils in Arid Regions
    Agriculture (Switzerland) | 2021 | Author
    DOI: 10.3390/agriculture11050415

  • Variation of Soil Properties with Sampling Depth in Two Different Light-Textured Soils after Repeated Applications of Urban Sewage Sludge
    Journal of Environmental Management | 2021 | Author
    DOI: 10.1016/j.jenvman.2021.113355

  • Short-Term Effects of Biosolid Application on Two Mediterranean Agricultural Soils and Durum Wheat Yield
    Agronomy | April 2021 | Author
    DOI: 10.3390/agronomy11040709

  • Carbon Mineralization, Biological Indicators, and Phytotoxicity to Assess the Impact of Urban Sewage Sludge on Two Light-Textured Soils in a Microcosm
    Journal of Environmental Quality | 2020 | Author
    DOI: 10.1002/jeq2.20011

  • Impact of Urban Sewage Sludge on Soil Physico-Chemical Properties and Phytotoxicity as Influenced by Soil Texture and Reuse Conditions
    Journal of Environmental Quality | 2020 | Author
    DOI: 10.1002/jeq2.20093

 

 

Feng Wu | Soil Engineering | Best Researcher Award

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Prof Feng Wu |  Soil Engineering |  Best Researcher Award

Professor at  North China University of Water Resources and Electric Power,  China

Feng Wu is a distinguished researcher for his expertise in the theory and technology of water-saving irrigation. Born on November 12, 1969, in China, Wu embarked on his academic journey by obtaining a Bachelor’s degree in Agricultural Water Conservancy Engineering from the College of Water Conservancy, North China University of Water Resources and Electric Power, in 1992. He furthered his education by pursuing a Master’s degree in Agricultural Water and Soil Engineering at the Chinese Academy of Agricultural Sciences and later earned his Ph.D. in Agricultural Water and Soil Engineering from Northwest A&F University.

Profile:

Education and Academic Achievements:

Dr. Feng Wu earned his Bachelor’s degree in Agricultural Water Conservancy Engineering from the College of Water Conservancy at North China University of Water Resources and Electric Power in 1992. He pursued further studies, obtaining a Master’s degree in Agricultural Water and Soil Engineering from the Chinese Academy of Agricultural Sciences in 2002. His academic journey culminated in a Ph.D. in Agricultural Water and Soil Engineering from Northwest A&F University in 2010. Dr. Wu has since become a leading figure in agricultural engineering in Henan Province, holding prestigious positions such as Ph.D./Master supervisor and serving as a backbone of North China University of Water Resources and Electric Power.

Professional Experience:

Dr. Wu’s illustrious career spans over three decades, starting as a Professor at the Chinese Academy of Agricultural Sciences in Henan, China, from 1993 to 2011. He then served as a Professor at the College of Water Conservancy at North China University of Water Resources and Electric Power until 2020, and currently continues his academic pursuits as a Professor at the College of Water Resources at the same institution. Throughout his career, he has successfully led numerous research projects and contributed significantly to the advancement of water-saving irrigation technology.

Research Contributions:

Dr. Wu’s primary research focus lies in the theory and technology of water-saving irrigation. He is renowned for his pioneering work in developing the Stalk Composite Pipe, a revolutionary subsurface irrigation product that optimizes water delivery and infiltration in agricultural fields. Over the past decade, he has led a dedicated research team in exploring various aspects of this technology, from green pipe development using crop stalks to the integration of machinery and equipment for manufacturing and installation. His comprehensive approach has resulted in the establishment of innovative underground irrigation techniques based on the Stalk Composite Pipe.

Soil Engineering Research Focus:

 

Dr. Feng Wu, a distinguished researcher in Agricultural Water and Soil Engineering, has made significant contributions to the field with a particular focus on soil engineering. Throughout his extensive academic career, Dr. Wu has demonstrated expertise in understanding soil properties and their implications for agricultural practices, especially in the context of water-saving irrigation.

His research endeavors have delved into various aspects of soil engineering, including soil structure analysis, soil-water interaction, and soil fertility management. Dr. Wu’s investigations have aimed to optimize soil conditions for crop growth while conserving water resources through innovative irrigation techniques.

One of his notable contributions is the development of underground irrigation technology based on the Stalk Composite Pipe, which not only optimizes water delivery and infiltration but also enhances soil structure and fertility. By integrating soil engineering principles into irrigation technologies, Dr. Wu has pioneered sustainable agricultural practices that promote both water conservation and soil health.

Furthermore, Dr. Wu’s expertise extends to soil erosion control and soil remediation strategies, where he has explored novel approaches to mitigate soil degradation and enhance land productivity.

Overall, Dr. Feng Wu’s research in soil engineering has significantly advanced our understanding of soil-water dynamics and has practical implications for sustainable agriculture and environmental stewardship.

 

Publication Top Notes:

  • Effects of Straw-based Composite Pipe Subsurface Irrigation on Growth and Water Use Efficiency of Winter Wheat
  • Effects of Fertilization Practices on the Metabolic Functions of Soil Microbial Communities under Subsurface Irrigation with Stalk Composite Pipe
  • Analysis of the Spatial-Temporal Distribution Characteristics of Climate and Its Impact on Winter Wheat Production in Shanxi Province, China, 1964–2018
  • Effects of Burial Furrow Parameters on Soil Water Movement under Subsurface Stalk Composite Pipe Irrigation
  • Position parameters of stalk composite pipe
  • Simulation optimization design of straw returning machine picker
  • Model for predicting the hydraulic elements of drip irrigation system with automatic flushing valves under high sediment water
  • Characteristics and Impacts of Water–Thermal Variation on Grain Yield in the Henan Province, China, on Multiple Time Scales
  • Early warning analysis of mountain flood disaster based on Copula function risk combination
  • Study on coordinated allocation of conventional and unconventional water resources in typical regions of North China