Yanling Li | Soil | Interdisciplinary Soil Research Award

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Dr. Yanling Li | Soil | Interdisciplinary Soil Research Award

Shandong Agricultural University | China 

Dr. Yanling Li is a distinguished scholar whose work integrates agricultural remote sensing, ecological monitoring, and soil–plant–atmosphere interactions to advance sustainable land management. Her research focuses on refining multi-source remote sensing techniques to monitor crop growth, evaluate vegetation dynamics, and assess soil nutrient patterns across diverse landscapes. She has contributed substantially to understanding how soil carbon–nitrogen cycling, land-use changes, and climatic variability influence agricultural productivity and ecological stability. Through innovative analytical frameworks, she has improved the accuracy of yield estimation models and enhanced methods for decoupling natural and human-driven ecological signals. Her work also includes designing practical remote sensing tools and developing teaching innovations that strengthen education in photogrammetry and digital mapping. Dr. Li’s research has supported decision-making in precision agriculture, soil health assessment, and climate-adaptive farming strategies. She collaborates widely across academic, governmental, and industry platforms to translate scientific insights into field-ready applications, ensuring her research benefits both environmental conservation and agricultural development. Her contributions continue to shape modern approaches to remote sensing–based ecological assessment, reflecting a commitment to advancing soil science, sustainable agriculture, and data-driven ecosystem management.

Profile : Orcid

Featured Publications

Wang, X., Li, Y., Fang, S., Dong, C., & Sun, L. (2025). Decoupling anthropogenic and climate impacts on vegetation dynamics in China’s Huaihe River Basin using geodetector. Scientific Reports.

Wang, X., Fang, S., Li, Y., Dong, C., & Sun, L. (2024). Spatiotemporal variability of vegetation NDVI in the Huaihe River Basin, China: Driving force analysis and ecological implications. Preprints.

Lu, Q. Y., Li, Y. L., Yang, Y. T., & Liu, F. J. (2023). Winter wheat identification and area extraction based on hyperspectral/multispectral image fusion. In Proceedings of the 2023 11th International Conference on Agro-Geoinformatics (Agro-Geoinformatics).

Sun, J., & Li, Y.-L. (2022). Remote sensing monitoring of afforestation and its interaction with climate in Saihanba Mechanical Forest Farm in recent 45 years. In Proceedings of the 6th International Conference on Computer Science and Application Engineering.

Omar Badr Mohamed Badr Awad | Soil | Young Scientist Award

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Dr. Omar Badr Mohamed Badr Awad | Soil | Young Scientist Award

Dr. Omar Badr Mohamed Badr Awad | Drainage Research Institute | Egypt

Omar Badr Mohamed Badr Awad is an accomplished Assistant Researcher at the National Water Research Center, Ministry of Water Resources and Irrigation, Egypt, specializing in irrigation and drainage engineering. His research focuses on improving agricultural drainage systems, enhancing water quality management, and promoting sustainable reuse of marginal water resources. He has conducted extensive applied research on subsurface drainage, open channel hydraulics, and water quality monitoring across the Nile Delta, contributing to national efforts in optimizing drainage water utilization. His academic background in water resources systems supports his expertise in simulation modeling, hydrology, and hydraulic design. He is proficient in advanced tools such as HEC-RAS, WMS, Drainmod, GIS software, and AutoCAD Civil 3D, which he applies to model and analyze water systems for better management practices. He has also participated in several international training programs and workshops focusing on water quality assessment, irrigation and drainage management, and water governance, strengthening his global perspective on sustainable water resources development. His technical proficiency, research acumen, and collaborative approach make him a valuable contributor to advancing water management strategies and innovative solutions in irrigation and drainage engineering.

Profile : Orcid 

Featured Publications

Badr, O., Abdelmonem, Y., Sallam, G., & Riad, P. (2025, December 31). Recycled drain envelopes for problematic calcareous soils. Water Science.

Saliha Ahmad | Soil-Plant | Best Researcher Award

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Ms. Saliha Ahmad | Soil-Plant | Best Researcher Award

Saliha Ahmad | Case Western Reserve University | United States

Dr. Saliha Ahmad, a PhD candidate in Biology at Case Western Reserve University (Cleveland, Ohio), is an emerging researcher specializing in plant–microbe interactions, microbial ecology, and sustainable agriculture. Her scientific contributions focus on unraveling the mechanisms through which beneficial microbes enhance plant tolerance to environmental stress, combining molecular biology, bioinformatics, and field-based ecological approaches. She has co-authored 3 peer-reviewed publications, which have collectively received 125 citations across 123 documents, resulting in an h-index of 3—reflecting her growing impact in microbial and environmental sciences. Dr. Ahmad’s publications in high-quality journals such as Plant and Soil, Frontiers in Plant Science, and Environmental Science and Pollution Research explore microbial detoxification, biosorption, and plant–soil–microbe interactions. She is currently leading an innovative project supported by the Research Foundation of the American Rhododendron Society, aimed at developing microbiome-based bioinoculants (“Yogurt for your Plants”). Her strong command of molecular techniques, sequencing data analysis in R, and experimental design, coupled with awards like the Greer Memorial Conference Award (2024) and Oglebay Research Fund, highlight her excellence and potential as a future leader in sustainable plant–microbiome research.

Profile:  Scopus

Featured Publications

Ali, B., Hafeez, A., Ahmad, S., Javed, M. A., et al. (2022). Bacillus thuringiensis PM25 ameliorates oxidative damage of salinity stress in maize via regulating growth, leaf pigments, antioxidant defense system, and stress-responsive gene expression. Frontiers in Plant Science.