Xi’an University of Technology State Key Laboratory of Eco-Hydraulics in Northwest Arid Region of China | China
Dr. Sehar Razzaq is an accomplished researcher and academic at the Xi’an University of Technology, where she works at the State Key Laboratory of Eco-Hydraulics in the Northwest Arid Region of China. With a strong foundation in environmental data analysis, she has dedicated her career to advancing sustainable solutions for water resource management, eco-hydraulics, and climate adaptation strategies. Her contributions span research, teaching, and collaborative projects that integrate advanced data-driven methods into solving pressing environmental challenges.
Professional Profiles
Education
Dr. Razzaq has pursued rigorous academic training in environmental and water sciences, which laid the foundation for her expertise in eco-hydraulics and environmental data analysis. Her educational journey reflects a strong interdisciplinary approach, combining engineering principles, hydrology, and data-driven modeling to address the complexities of environmental systems. This background has equipped her with both theoretical knowledge and practical skills essential for tackling global environmental and water-related issues.
Experience
At Xi’an University of Technology, Dr. Razzaq contributes to high-level research projects within the State Key Laboratory of Eco-Hydraulics. She has participated in numerous research initiatives focused on eco-hydraulics in arid regions, advancing methods for water conservation, hydraulic modeling, and ecosystem restoration. Her academic experience extends to mentoring students, publishing research articles in peer-reviewed journals, and presenting findings at international conferences. Through these roles, she has built expertise in interdisciplinary collaborations with scientists, engineers, and policymakers to enhance water and environmental sustainability.
Research Interest
Dr. Razzaq’s research interests are centered on environmental data analysis, eco-hydraulics, and hydrological modeling. She focuses on applying advanced computational methods, big data analysis, and geospatial technologies to evaluate water resources in arid and semi-arid environments. Her work emphasizes sustainable management of water systems, climate change adaptation strategies, and the integration of environmental data into policy frameworks. She is particularly interested in linking environmental data with decision-making processes that improve resilience in vulnerable regions facing water scarcity.
Award
Throughout her career, Dr. Razzaq has been recognized for her academic excellence and impactful contributions to environmental research. Her awards and honors reflect her dedication to advancing innovative research in eco-hydraulics and water resource management. These achievements highlight her standing as an emerging leader in environmental sciences, with a reputation for combining scientific rigor and practical solutions in her field.
Publications
Razzaq, S., Zhou, B., Jia, R., & Guo, H. (2025). Cadmium bioaccumulation by novel Bacillus cereus SP1 isolated from mining-impacted soil: Adsorption isotherms and detoxification mechanisms. International Journal of Environmental Research.
Razzaq, S., & Zhou, B. (2025). Revolutionizing crop production with iron nanoparticles for controlled release of plant growth regulators and abiotic stress resistance. Plant Nano Biology, 100172.
Razzaq, S., Zhou, B., Adil, M., Ullah, Z., Guo, H., Zia-ur-Rehman, M., Xiaopeng, C., Qian, L.W., & Lu, H. (2024). Cadmium stress alleviation: Interplay of micronutrients and enzymatic/non-enzymatic species in maize by organic and inorganic amendments. Water, Air, & Soil Pollution, 235(9), 70.
Razzaq, S., Zhou, B., Ullah, Z., Zia-ur-Rehman, M., Guo, H., Adil, M., Xiaopeng, C., & Qian, L.W. (2024). Exploring the impact of organic and inorganic amendments, with foliar application of iron nanoparticles, on cadmium stabilization and growth of maize in wastewater irrigated-soil. Journal of Hazardous Materials Letters, 5, 100111.
Adil, M., Lu, S., Yao, Z., Zhang, C., Lu, H., Bashir, S., Maitah, M., Gul, I., Razzaq, S., & Qiu, L. (2024). No-tillage enhances soil water storage, grain yield and water use efficiency in dryland wheat (Triticum aestivum) and maize (Zea mays) cropping systems: A global meta-analysis. Functional Plant Biology, 51(4), 367–382.
Umair, M., Zia-ur-Rehman, M., Qazi, M.A., Rizwan, A., Qamar, M.J., & Razzaq, S. (2023). Nanoparticles-assisted phytoremediation of polluted soils: Potential application and challenges. In Phytoremediation Management of Environmental Contaminants (Vol. 7, pp. 587–609). Springer.
Razzaq, S., Zhou, B., Zia-ur-Rehman, M., Maqsood, M.A., Hussain, S., Bakhsh, G., Zhang, Z., Yang, Q., & Altaf, A.R. (2022). Cadmium stabilization and redox transformation mechanism in maize using nanoscale zerovalent-iron-enriched biochar in cadmium-contaminated soil. Plants, 11(8), 1074.
Conclusion
Dr. Sehar Razzaq’s academic and research journey showcases her commitment to environmental sustainability and innovation in eco-hydraulics. By merging environmental data analysis with real-world applications, she continues to contribute to global efforts in water conservation, climate adaptation, and ecosystem management. Her role at Xi’an University of Technology underscores her influence in shaping future directions of environmental science and her vision for sustainable solutions in arid regions.