Prof. Dr. Huan Zhang, Nanjing Normal University, China
Prof. Dr. Huan Zhang is an Associate Professor at the School of Marine Science and Engineering, Nanjing Normal University, China. He holds a Ph.D. in Physical Geography from Nanjing University and specializes in soil organic matter cycling, carbon sequestration, and land use change impacts. His research integrates multi-omics analysis, machine learning, and stable isotope techniques to investigate soil quality evolution and microbial regulation. With numerous publications in high-impact journals, he has significantly contributed to soil science. He was honored with the “Doctor of Entrepreneurship and Innovation” talent project in Jiangsu Province. His work advances sustainable soil management and ecosystem stability.
Scopus
Summary:
Prof. Dr. Huan Zhang’s research on soil carbon dynamics, microbial interactions, and land use change demonstrates outstanding scientific contributions. His work is methodologically innovative, well-published, and highly relevant to contemporary environmental issues. His interdisciplinary approach, combined with strong technical expertise, makes him a competitive candidate for the Best Researcher Award.
🎓 Education
Huan Zhang holds a Ph.D. in Physical Geography from Nanjing University, a Master’s degree in Soil Science from Nanjing Agricultural University, and a Bachelor’s degree in Agricultural Resources and Environments from Hebei Normal University of Science & Technology. His academic background has provided him with a strong foundation in soil science, environmental sustainability, and geographical studies.
💼Experience
Currently serving as an Associate Professor at the School of Marine Science and Engineering, Nanjing Normal University, Huan Zhang has previously worked as a Lecturer at the same institution. Before that, he was a Research Assistant at the School of Geography and Marine Sciences, Nanjing University. His professional journey has been dedicated to soil research, with a focus on soil quality evolution and organic matter cycling.
🔬Research Focus
Huan Zhang’s research primarily revolves around the mechanisms driving soil organic matter change. His work involves constructing soil time series to analyze the evolution of soil quality under varying land use intensities, employing machine learning for precise simulation of soil processes, and investigating microscale organic carbon turnover in environments affected by human activities. His studies contribute to understanding soil carbon storage, ecosystem stability, and the broader implications of land use on soil sustainability.
🛠️Skills
Huan Zhang possesses expertise in soil organic matter cycling, land use change impact assessment, and carbon sequestration mechanisms. His technical skills include machine learning applications for soil process modeling, multi-omics analysis for microbial community assessment, and stable isotope techniques for organic carbon studies. He is proficient in quantitative research methodologies and has a deep understanding of soil-microbe interactions.
🏆Awards
He was recognized under the “Doctor of Entrepreneurship and Innovation” talent project in Jiangsu Province in 2018, receiving a grant for his contributions to innovative soil science research.
📚 Publications
Title: Carbon dynamics and pathways in soil density fractions across different land-use types over 3000 years: Insights from 13C natural abundance.
Authors: Xu, M., Jiao, H., Zhang, Y., Zhang, H., & Gao, C.
Year: 2025
Journal: Catena
Title: Stoichiometry of carbon, nitrogen, and phosphorus in soil: Impacts of soil development and land use across the catchment scale.
Authors: Su, B., Gao, C., Zhang, H., Zhang, Y., & Jiao, H.
Year: 2025
Journal: Catena
Title: Bacterial and fungal diversity, community composition, functional groups, and co-occurrence network succession in dryland and paddy soils along a 3000-year chronosequence.
Authors: Jiao, H., Xu, M., Ji, J., Zhang, H., & Gao, C.
Year: 2025
Journal: Catena
Conclusion:
Prof. Dr. Huan Zhang is well-suited for the Best Researcher Award. While further strengthening international collaborations and research leadership roles could enhance his profile, his existing work already makes a significant impact in soil science and environmental research. He is a strong contender for this recognition.