Associate Professor, at Jinan University, China.
Dr. Yiping Tai is an Associate Researcher and Master’s Supervisor at Jinan Universityβs Research Center of Hydrobiology. With a Ph.D. in Ecology from the University of Chinese Academy of Sciences, Dr. Tai specializes in the theory and applied technology of near-natural restoration for urban aquatic ecosystems. His research addresses critical pollution challenges from nitrogen/phosphorus nutrients, heavy metals, antibiotics, pesticides, microplastics, and perfluorinated compounds in urban rivers and estuaries. By developing innovative ecological engineering techniques such as constructed wetlands, rhizosphere remediation, and plant diversity restoration, he aims to create sustainable, self-regulating urban aquatic environments. Dr. Tai has published nearly 30 SCI-indexed papers and holds over 10 patents, contributing significantly to environmental science and engineering in China and internationally. πΏπ§
Professional Profile
Scopus
π Education
Dr. Yiping Tai completed his Ph.D. in Ecology at the University of Chinese Academy of Sciences, one of China’s premier institutions for environmental research and scientific training. His doctoral research focused on urban aquatic ecosystem restoration and pollutant mitigation strategies, which laid a foundation for his interdisciplinary approach combining ecology and engineering. During his academic journey, he gained expertise in hydrobiology, contaminant hydrogeochemistry, and ecological engineering, equipping him to tackle complex urban water pollution challenges. His education emphasizes both theoretical ecological frameworks and practical environmental solutions, fostering a deep understanding of nature-based restoration technologies. Taiβs academic training has been instrumental in his contributions to near-natural restoration science, positioning him as a leader in the ecological rehabilitation of urban water systems. ππ
πΌ Experience
With several years of research experience, Dr. Tai has served as an Associate Researcher and Master’s Supervisor at Jinan Universityβs Department of Ecology. His work spans collaborative projects with top universities and institutes, including the Chinese Academy of Sciences, South China Botanical Garden, Tongji University, and international partners in Europe. He leads applied research on constructing wetlands, rhizosphere bioaugmentation, and phytodiversity restoration to remediate urban water bodies. Dr. Tai has actively contributed to consultancy projects and ecological engineering innovations aimed at mitigating multi-pollutant sources from non-point urban runoff. His extensive fieldwork and lab research underpin his practical and theoretical contributions to hydrobiology and environmental science. This diverse experience ensures impactful advancements in urban aquatic ecosystem restoration techniques. π¬π
π¬ Research Interests
Dr. Taiβs research focuses on the near-natural restoration of urban aquatic ecosystems, particularly targeting pollution from nutrients, heavy metals, antibiotics, pesticides, microplastics, and perfluorinated compounds. He pioneers nature-based solutions (NBS) by integrating ecological theory with applied environmental engineering. His innovations include multi-pollutant mitigation frameworks and scalable plant-microbe-soil systems such as constructed wetlands and rhizosphere remediation. Dr. Tai investigates ecological resilience through phytodiversity and develops modular assemblages that enhance habitat complexity and functional redundancy. His work bridges hydrobiology, contaminant hydrogeochemistry, and ecological engineering to achieve sustainable, self-regulating urban water environments. π±π
π Awards
Dr. Yiping Taiβs impactful research has earned prestigious accolades, including the First Prize of the Guangdong Environmental Protection Technology Award (HBKJ2021-1-G08), recognizing his innovative contributions to pollution control technology. He also received the Second Prize of the Guangdong Science & Technology Progress Award (J19-2-04-R09) for his advances in ecological engineering. More recently, Tai was honored with the First Prize of the Guangdong Wetland Association Science & Technology Award (GWCA-2024-K1-01-R06), underscoring his leadership in urban aquatic ecosystem restoration. These awards highlight his excellence and dedication to sustainable environmental solutions in urban water management. π
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π Top Noted Publications
Dr. Tai has published nearly 30 papers in top-tier journals addressing urban aquatic ecosystem restoration, constructed wetlands, phytoremediation, and pollutant mitigation. Key recent publications include:
π Tai, Y. et al. (2024). βAdvanced constructed wetlands for multi-pollutant removal in urban rivers.β
Journal: Water Research
Summary: This study investigates the role of advanced constructed wetlands in treating complex urban river pollution. Tai and colleagues focus on the synergistic removal of multiple pollutants (including nutrients, heavy metals, and organic compounds) through integrated design and functional plants. The paper emphasizes sustainable approaches for urban water management and highlights key engineering strategies and ecological considerations.
π Read here β cited by 25 articles.
πΏ Tai, Y. et al. (2024). βPhytodiversity-driven ecological restoration of urban waters.β
Journal: Environmental Science & Technology
Summary: This article explores how enhancing phytodiversity (plant diversity) can promote ecosystem restoration in urban aquatic systems. By evaluating ecological parameters and the interactions between plant species and pollutants, the authors provide insights into nature-based solutions for urban water resilience. This work advances urban ecology research by linking biodiversity directly to ecosystem function recovery.
π Read here β cited by 18 articles.
π± Tai, Y. et al. (2025). βRhizosphere bioaugmentation for degradation of recalcitrant compounds.β
Journal: Chemical Engineering Journal
Summary: Focusing on the potential of rhizosphere bioaugmentation, this paper investigates the co-cultivation of specialized microbial consortia and target plants to break down stubborn contaminants in aquatic environments. The results demonstrate significant pollutant removal rates and underscore the promise of engineered rhizosphere systems for sustainable water treatment.
π Read here β cited by 12 articles.
Conclusion
Yiping Tai is a highly deserving candidate for the Best Researcher Award, given his pioneering work in urban aquatic ecosystem restoration, demonstrated innovation, significant publication record, and recognition through patents and regional awards. His contributions bridge theory and practical applications, directly impacting environmental management and sustainability. Addressing suggested areas for growth could propel his work onto a larger global stage. Overall, Tai exemplifies excellence in research with a clear trajectory for continued leadership.