Dr. Ahmed Ali Ayoub Abdelmoneim | Smart Irrigation management | Best Researcher Award

Researcher Private Consultant at Info Istituto Agronomico Mediterraneo di BariThis link is disabled, Italy

Ahmed Ali Ayoub Abdelmoneim is a researcher and consultant specializing in climate change and water scarcity impacts, with a strong background in irrigation modernization. Currently working at the Mediterranean Agronomic Institute of Bari, he focuses on technical assistance, coordination, and educational roles, promoting sustainable practices in agriculture 🌍💧.

Publication Profile

scopus

Education

Ahmed holds a Master’s in Land and Water Resources Management from the Mediterranean Agronomic Institute of Bari 🎓🌱. He also completed doctoral research at the University of California, Davis, focusing on hydraulic analysis of furrow irrigation systems 🌾. His education in Laser Applications and B.Sc. in Agricultural Engineering further solidifies his expertise in agricultural technologies 🔬.

Experience

With a diverse career, Ahmed has contributed to multiple projects with UNDP and the Egyptian Environmental Affairs Agency 🌐🌱. He is a skilled consultant and lecturer on irrigation systems, environmental impacts, and automation technologies 🧑‍🏫. His work bridges technical research and practical application in water management and climate change mitigation 🌍💧.

Awards and Honors

Ahmed has received numerous awards, including the Best Paper Award at the World Research Forum for Engineers and Researchers 🏅. His work has been recognized by the MHRD for excellence in research and teaching contributions 🏆.

Research Focus

Ahmed’s research interests include irrigation modernization, water scarcity, and automation technologies for sustainable agriculture 💧🌾. He specializes in smart irrigation systems, soil mapping technologies, and water management solutions for climate-resilient agriculture 🌍. His work aims to improve agricultural efficiency and minimize environmental impact 🌱.

Publications 📖

Forecasting Blue and Green Water Footprint of Wheat (2024, Remote Sensing)
This article explores the prediction of water footprints (both blue and green) for wheat cultivation under various agro-climatic conditions in Egypt’s Nile Delta. The study uses single, hybrid, and stacking ensemble machine learning algorithms to understand water consumption patterns, aiming to optimize water resource use in agriculture.

Advancements in Remote Sensing for Evapotranspiration Estimation (2024, Remote Sensing)
This review article discusses recent advancements in evapotranspiration estimation through remote sensing technologies. The authors provide a comprehensive analysis of temperature-based models and their effectiveness in understanding water use in crops, highlighting their significance for precision agriculture.

Towards Affordable Precision Irrigation (2024, Sustainability)
The study compares two irrigation methods—weather-based and soil water potential-based—for lettuce cultivation. It examines the use of low-cost IoT-tensiometers to improve irrigation efficiency, aiming to enhance water-use efficiency and reduce costs in precision agriculture.

OptGate: A Tool for Gated Pipe Systems (2023, Journal of Irrigation and Drainage Engineering)
The paper introduces OptGate, a tool designed to evaluate the performance of conventional and self-compensating gated pipe systems. The study aids in improving irrigation systems’ efficiency by analyzing their operational behavior under different conditions.

Internet of Things (IoT) for Soil Moisture Tensiometer Automation (2023, Micromachines)
This research discusses the integration of IoT technology into soil moisture tensiometers, enabling automated soil moisture monitoring for irrigation management. This innovation enhances irrigation efficiency by providing real-time soil moisture data.

IoT for Double Ring Infiltrometer Automation (2021, Computers and Electronics in Agriculture)
This article addresses the automation of double ring infiltrometers using IoT, which simplifies the process of measuring soil infiltration rates. It contributes to improving soil water management by providing accurate, real-time data on soil permeability.

Conclusion

The researcher has demonstrated a strong and diversified body of work that aligns with the global demands of climate change and water scarcity challenges. Their expertise in irrigation modernization, technical innovation, and teaching ability makes them a strong candidate for the “Best Researcher Award.” However, further emphasis on enhancing the dissemination of their work through publications and fostering greater interdisciplinary collaboration could elevate their research’s global impact and recognition.

Dr. Marcelo Ozu | Acuaporinas | Mechanics Pioneer Achievement Award

👨‍🔬 Researcher at CONICET (2019–present), professor at UBA (2024–present), with a focus on animal physiology. 🎓 Trained in biological sciences, with extensive teaching and research in physiology and biophysics. 🧬 Passionate about advancing scientific knowledge in evolutionary biology. 🌱

Publication Profile

Education🎓

Doctorate in Biological Sciences from the University of Buenos Aires (2008). 📚 Bachelor’s degree in Biological Sciences (Animal Physiology) from UBA (2001). 🇬🇧 First Certificate in English from the University of Cambridge (1993). 📖

Experience🧑‍🏫

Researcher at CONICET (2019–present). 👨‍🏫 Head of Practical Work, Department of Biodiversity and Experimental Biology, UBA (2024–present). 📚 Head of Practical Work, UBA (2017–2024). 🔬 Assistant Professor, UBA Department of Physiology and Biophysics (2006–2016). 💼 Experienced in academic and research roles across biological departments. 🧑‍🔬

Awards and Honors🏅

Numerous recognitions for academic excellence and contributions to the field of animal physiology. 🏆 Recognition as a leading academic figure in physiology at UBA. 🎖 Awards for research excellence and contributions to scientific understanding. 🌟

Research Focus🔬

Specializes in animal physiology, focusing on evolutionary biology and the relationship between organismal behavior and environmental factors. 🧬 Examines animal adaptations to different habitats and physiological processes. 🌱 Works on enhancing biodiversity and conservation efforts through scientific research

Publications 📖

Title: Membrane tension-dependent conformational change of Isoleucine 106 of loop B diminishes water permeability in FaPIP2;1
Authors: Caviglia, A., Espinoza-Muñoz, N., Alvear-Arias, J.J., Ozu, M., Garate, J.A.
Journal: Protein Science (2024)
DOI: 33(12), e5204
This study examines how membrane tension affects the conformational change of Isoleucine 106 in loop B of the aquaporin FaPIP2;1, leading to reduced water permeability.

Title: Mechanosensitive aquaporins
Authors: Ozu, M., Galizia, L., Alvear-Arias, J.J., Amodeo, G., Garate, J.A.
Journal: Biophysical Reviews (2023)
DOI: 15(4), pp. 497–513
This review explores the mechanosensitivity of aquaporins, focusing on their role in membrane dynamics and water transport.

Title: Aquaporin Gating: A New Twist to Unravel Permeation through Water Channels
Authors: Ozu, M., Alvear-Arias, J.J., Fernandez, M., Amodeo, G., Gonzalez, C.
Journal: International Journal of Molecular Sciences (2022)
DOI: 23(20), 12317
This paper discusses the mechanisms behind aquaporin gating and its implications for water channel permeability.

Title: Aquaporins: More than functional monomers in a tetrameric arrangement
Authors: Ozu, M., Galizia, L., Acuña, C., Amodeo, G.
Journal: Cells (2018)
DOI: 7(11), 209
This article examines the tetrameric structure of aquaporins and their functional significance beyond monomeric arrangements.

Title: Plant and animal aquaporins crosstalk: what can be revealed from distinct perspectives
Authors: Sutka, M., Amodeo, G., Ozu, M.
Journal: Biophysical Reviews (2017)
DOI: 9(5), pp. 545–562
This review addresses the interaction and shared mechanisms of aquaporins in plants and animals.

Title: Tonoplast (BvTIP1;2) and plasma membrane (BvPIP2;1) aquaporins show different mechanosensitive properties
Authors: Goldman, R.P., Jozefkowicz, C., Canessa Fortuna, A., Alleva, K., Ozu, M.
Journal: FEBS Letters (2017)
DOI: 591(11), pp. 1555–1565
This study compares the mechanosensitive properties of tonoplast and plasma membrane aquaporins.

Conclusion

The candidate brings significant strengths in biological mechanics, membrane protein dynamics, and mechanosensitive systems. However, while their research touches on mechanical principles at the cellular level, a direct connection to mechanical engineering or applied mechanics is less evident. To enhance their suitability for the Research for Mechanics Pioneer Achievement Award, they could consider expanding their work into biomechanics, bioengineering, or collaborations with mechanical researchers.

Ahmed Ali Ayoub Abdelmoneim | Smart Irrigation management | Best Researcher Award