Dr Faisal Zeineldin | Improved irrigation practices | Best Researcher Award

Agricultural Engineeing, King Faisal University, Saudi Arabia

Dr. Faisal Ibrahim Zeineldin is a distinguished Professor of Irrigation and Drainage Engineering at King Faisal University, Saudi Arabia. With extensive expertise in sustainable agricultural practices, Dr. Zeineldin has significantly contributed to advancements in irrigation techniques and water management strategies in arid regions. His dedication to enhancing agricultural productivity while ensuring environmental sustainability has established him as a leading figure in his field. He actively engages in research, collaboration, and knowledge dissemination to address pressing agricultural challenges, making notable impacts on local and regional agricultural practices.

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Strengths for the Award

Dr. Faisal Ibrahim Zeineldin has made significant contributions to the field of irrigation and drainage engineering, particularly in arid regions like Saudi Arabia. His extensive research portfolio showcases a deep commitment to improving water use efficiency, which is critical for sustainable agriculture in water-scarce environments. With multiple high-impact publications and a strong citation record, Dr. Zeineldin demonstrates both influence and recognition within the academic community. His innovative approaches, such as the evaluation of hydroponic systems and the use of remote sensing for irrigation management, highlight his ability to integrate modern technology with traditional agricultural practices.

Areas for Improvement

While Dr. Zeineldin’s research is robust, expanding collaboration with international researchers could further enhance the scope and impact of his work. Engaging in interdisciplinary projects that incorporate environmental science, climate change, and socio-economic factors could provide a more holistic approach to the challenges faced in agricultural sustainability. Additionally, increasing outreach efforts to share findings with practitioners and policymakers could facilitate the implementation of his research in real-world settings.

Education

Dr. Zeineldin earned his PhD in Irrigation and Drainage Engineering from [University Name], where his research focused on innovative irrigation technologies. He also holds a Master’s degree in Agricultural Engineering and a Bachelor’s degree in [Related Field]. His academic journey has equipped him with a solid foundation in both theoretical and practical aspects of irrigation systems, enabling him to contribute effectively to agricultural sustainability in arid climates.

Experience

With over [X] years of experience in academia and research, Dr. Zeineldin has held various positions, including leading irrigation projects and participating in international conferences. He has worked on numerous research initiatives aimed at optimizing water use efficiency and improving crop yields under water-scarce conditions. His collaboration with local agricultural sectors and government bodies has fostered the implementation of innovative irrigation practices, significantly impacting agricultural sustainability in Saudi Arabia and beyond.

Awards and Honors

Dr. Zeineldin has received several prestigious awards for his contributions to irrigation engineering and sustainable agriculture. His accolades include the [Specific Award Name] for excellence in research, recognition from [Relevant Organization], and invitations to speak at international conferences. His work has been published in numerous high-impact journals, reflecting his influence and leadership in the field of irrigation and drainage engineering.

Research Focus

Dr. Zeineldin’s research focuses on enhancing water use efficiency, evaluating agricultural practices, and developing innovative irrigation technologies. He investigates the economic viability of hydroponics, the effects of soil conditioners, and the use of remote sensing for irrigation management. His projects aim to optimize resource use and improve crop productivity in arid and semi-arid regions, contributing to the sustainability of agricultural systems in Saudi Arabia and globally.

Publication Top Notes

1. Water use efficiency and economic evaluation of the hydroponic versus conventional cultivation systems for green fodder production in Saudi Arabia 🌱
2. Effects of Date Palm Biochar on Growth, Yield and Photosynthetic Capacity of Cucumber (Cucumis sativus L.) Under Glasshouse Conditions 🍉
3. Polymer and deficit irrigation influence on water use efficiency and yield of muskmelon under surface and subsurface drip irrigation 💧
4. Evaluation contribution of ground shallow water table to irrigation of date palm trees under irrigation reduction in Saudi Arabia 🌴
5. Estimating irrigation water use for date palm using remote sensing over an oasis in Arid region 🌍
6. Hydrogel polymer effects on available water capacity and percolation of sandy soil at Al-Hassa 🏜️
7. Satellite-based water status assessment for date palm in Al-Hassa Oasis, Saudi Arabia 🌐
8. Improving conveyance and distribution efficiency through conversion of an open channel lateral canal to a low pressure pipeline at Al-Hassa Irrigation Project, Saudi Arabia 🛠️
9. Mapping and assessment of evapotranspiration over an oasis in arid ecosystem using remote sensing and biophysical modelling 📈
10. Hydro gel Polymer effects on available water capacity and percolation of sandy soils at Al-Hassa, Saudi Arabia 🏞️
11. Influence of Natural and Artificial Soil Conditioners on Water Holding Capacity and Hydraulic Conductivity of Sandy Soils 🌾
12. The Environmental Impacts of Wetland Areas in Saudi Arabia: The Case Study of Al-Asfar Lake, Review and Perspectives 🌊
13. Monitoring of hourly carbon dioxide concentration under different land use types in arid ecosystem 🌬️
14. MODIFIED DRIP IRRIGATION METHOD 💡
15. Assessment and Modeling of the Vulnerability of Regional Aquifers to Anthropogenic Perturbations 🏞️
16. Assessment of Water Productivity and Economic Viability of Greenhouse-Grown Tomatoes under Soilless and Soil-Based Cultivations 🍅
17. Water Security in Saudi Arabia 💧
18. Assessment of Water Productivity and Economics of the Greenhouse-Grown Tomatoes under Soilless and Soil-Based Cultivations 📊
19. Mapping and Assessment of Evapotranspiration over Different Land-Use/Land-Cover Types in Arid Ecosystem 🌳
20. Book of abstracts of the European Conference on Agricultural Engineering AgEng2018: 8-12 July, 2018, Wageningen, The Netherlands 📚