Elena Kayukova | Environmental Chemistry | Best Researcher Award

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Dr. Elena Kayukova | Environmental Chemistry | Best Researcher Award

Saint Petersburg State University, Russia

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Elena Kayukova began her academic journey with a strong foundation in geology. In 1983, she graduated from Leningrad State University (now St. Petersburg State University) as an engineer and geologist. Her passion for the Earth sciences led her to pursue advanced research, culminating in the award of a Ph.D. in Geology and Mineralogy in 2018. Her academic background laid the groundwork for a lifelong career in hydrogeology and environmental geosciences.

🏢 Professional Endeavors

Dr. Kayukova’s career spans both industry and academia. From 1984 to 1993, she worked as a geologist at the All-Russia Petroleum Research Exploration Institute (VNIGRI), contributing to national-scale energy and resource exploration. Since 1993, she has been a dedicated academic at St. Petersburg State University, where she has served as a Senior Lecturer and currently holds the title of Associate Professor in the Department of Hydrogeology & Engineering Geology. Her professional roles have allowed her to mentor future geoscientists while continuing her impactful research.

🔬 Contributions and Research Focus

Dr. Kayukova is a prominent researcher in the fields of hydrogeochemistry, groundwater quality, hydrochemical modeling, and environmental monitoring. Her primary focus areas include the Crimean Peninsula and the St. Petersburg region, where she has conducted extensive studies on mineral waters, salt lakes, mud volcanoes, and isotopic hydrogeology. She closely monitors springs and atmospheric precipitation in Mountainous Crimea, particularly in the Bodrak River basin, examining chemical and isotopic changes that indicate environmental trends and challenges. Her work is vital due to Crimea’s acute freshwater scarcity.

🌍 Impact and Influence

With over 25 years of fieldwork and research, Dr. Kayukova has made significant contributions to the understanding and protection of water resources in environmentally sensitive areas. Her studies on the Kerch Peninsula’s mud volcanoes and salt lakes offer critical insight into geochemical processes, while her groundwater monitoring projects help identify pollution sources and safeguard public health. Her dedication to environmental education and resource sustainability underscores her influence in shaping water policy and management in the region.

📚 Academic Citations and Recognition

Dr. Kayukova’s research is widely recognized in the academic community, especially for its practical applications in environmental monitoring and water quality assessment. Her scientific publications and collaborations have contributed to the growing body of knowledge in hydrogeology and isotope geochemistry, earning citations that reflect her contributions to solving real-world water issues in geopolitically significant regions like Crimea.

🛠️ Technical Skills

Dr. Kayukova is skilled in hydrochemical analysis, environmental monitoring techniques, hydrogeological modeling, and the application of isotope geochemistry. Her technical capabilities also include managing long-term field studies, interpreting hydrological data, and designing environmental education programs. Her multidisciplinary expertise bridges geological sciences with environmental stewardship.

👩‍🏫 Teaching Experience

As an Associate Professor at St. Petersburg State University, Dr. Kayukova has mentored numerous students in hydrogeology and environmental geoscience. She has played a pivotal role in developing academic curricula, guiding fieldwork, and fostering scientific inquiry among young scholars. Her teaching emphasizes the practical importance of geological sciences in addressing contemporary environmental challenges.

🌱 Legacy and Future Contributions

Dr. Kayukova’s legacy is rooted in her unwavering commitment to protecting freshwater resources through research, education, and community engagement. Her long-standing work in Crimea is not only of academic value but also of profound social and environmental importance. Looking ahead, she aims to expand her studies on groundwater radioactivity and climate-related hydrochemical changes, contributing further to the sustainability of vital water ecosystems.

📖Notable Publications

Clinical case of malignant endometrioid-associated neoplasia of a postoperative scar

Author: E. V. Kayukova
Journal: MD-Onco
Year: 2025

The factors of the low iodine concentration in soil cover and drinking waters of the second ridge of the Mountain Crimea

Authors: Victor Yu. Berezkin, Victor V. Glebov, Elena P. Kayukova
Journal: RUDN Journal of Ecology and Life Safety
Year: 2023

Geological controls and the impact of human society on the composition of peloids of present-day salt lakes (coastal zones of the Black, Azov, and Dead Seas)

Authors: S. Kotov, I. Kotova, E. Kayukova
Journal: Journal of Coastal Conservation
Year: 2019

Characteristics of formation of chemical composition of groundwater of active water exchange zone of the Bodrak catchment area (South-Western Crimea)

Author: Elena Kayukova
Journal: Vestnik Sankt-Peterburgskogo Universiteta, Seriya 7. Geologiya i Geografiya
Year: 2017

The impact of environmental and anthropogenic factors on composition of peloids in modern salt lakes

Authors: I.K. Kotova, S.R. Kotov, E.P. Kayukova, L.V. Mordukhai-Boltovskaya
Journal: Vestnik of Saint Petersburg University. Earth Sciences
Year: 2017

Xuedong Wang | Toxicology of Metal Elements | Best Researcher Award

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Prof. Wang | Toxicology of Metal Elements | Best Researcher Award

Capital Normal University, China

👨‍🎓Profile

📚 Early Academic Pursuits

Xuedong Wang began his academic journey at Hebei Agricultural University, where he completed his Bachelor's in Agricultural Science in 1982. His thesis, "The effect of water-fertilizer coupling on the growth of pakchoi," marked the beginning of his interest in agricultural science and environmental chemistry. His graduate studies continued with a Master’s in Soil Science at Hebei Agricultural University (2005), where he researched "Study on purification of phenol by root pores of wetland plants," combining his interest in environmental issues with soil science. In 2008, he earned a Ph.D. in Environmental Science from Capital Normal University, Beijing, China. His doctoral research, "Development of biotic ligand models predicting copper and zinc toxicity to barley," showcased his focus on understanding environmental pollution and its impact on soil and plant health.

💼 Professional Endeavors

He has held various academic positions at Capital Normal University in Beijing. He started as a Lecturer in 2008, quickly advancing to Associate Professor in 2012. In 2021, he was promoted to Professor, focusing on Soil/Environment Chemistry. His work has expanded beyond teaching into research, having been involved in various projects related to soil health and environmental sustainability. Dr. Wang has also worked as a Senior Visiting Scholar at the Cooperative Research Centre for Contamination Assessment and Remediation of the Environment (CRC CARE) at the University of Newcastle in Australia in both 2014 and 2019-2020, collaborating on global environmental issues.

🔬 Contributions and Research Focus

His research has had a significant impact on the field of soil/environment chemistry. He has developed predictive models to understand the ecological risk thresholds for heavy metals in soils, contributing to better environmental remediation practices. His machine learning model for element ecological risk threshold prediction (2024-2027) and other projects on soil microbial biomass, heavy metal pollution in farmland, and soil heavy metal contamination reflect his deep commitment to addressing pressing environmental issues. His work on the ecological toxicity prediction model of soil metal elements is crucial for understanding how soil quality can be influenced by metal pollution.

🌍 Impact and Influence

His influence extends beyond his university through his contributions to environmental monitoring and management projects, particularly in China. His research on the remediation of polluted water bodies and heavy metal pollution in soil has contributed to policy development and practical applications for environmental cleanup. His participation in global research, including his visiting scholar positions in Australia, has facilitated international collaboration on environmental issues. His work has helped raise awareness about the importance of soil health in maintaining ecological balance.

📚 Academic Cites and Recognition

Although specific citation numbers are not mentioned, His extensive involvement in research projects and collaborations suggests that his contributions are well-regarded within the field of environmental science and soil chemistry. His ongoing work on projects related to soil pollution, heavy metal toxicity, and machine learning applications will likely continue to garner academic attention and recognition.

🧑‍🏫 Teaching Experience

As a professor at Capital Normal University, He has shaped the next generation of environmental scientists. He has taught courses related to soil/environment chemistry, imparting knowledge on both the scientific fundamentals and their application in real-world environmental issues. His students benefit from his research expertise, which he integrates into his teaching, making his classes valuable for aspiring professionals in the field.

🌱 Technical Skills

He has developed a broad range of technical skills over his career, including expertise in environmental modeling, soil chemistry analysis, heavy metal contamination, and biological toxicity prediction. His work integrates advanced machine learning techniques with environmental science, showcasing his proficiency in modern computational tools for environmental analysis.

🏆 Legacy and Future Contributions

He legacy lies in his continued commitment to environmental protection and soil sustainability. His current and future projects, such as the development of ecological toxicity prediction models and the remediation of contaminated water bodies, will contribute to improving both local and global environmental health. As a professor, his impact will also be felt through his students, many of whom will carry his research insights into their professional careers.

🔮 Future Contributions

Looking ahead, His focus on using machine learning for environmental science will likely expand. The construction of predictive models for soil health and pollution thresholds has the potential to revolutionize environmental management practices. His future work will continue to focus on the intersection of ecological risk, sustainability, and technological innovation, potentially contributing to more effective global environmental strategies.

📖Notable Publications