Tao Huang is an Associate Professor at the School of Geography Science, Nanjing Normal University, China. He specializes in soil erosion, nitrogen cycles, and greenhouse gas emissions. His research focuses on organic carbon dynamics in lake sediments, nitrogen transformation, and scaling greenhouse gas emissions from local to regional levels. He holds a Ph.D. in Plant Nutrition from China Agricultural University and has conducted research at the University of Hohenheim, Germany. Dr. Huang has contributed to multiple national and international projects and has published extensively in high-impact journals on soil and environmental sciences.
Profile
Scopus
Summary:
Mr. Tao Huang has a robust background in water and sediment biogeochemistry, making him a strong candidate for soil and water conservation research. His interdisciplinary expertise, international collaborations, and high-quality publications position him well for recognition in the field. While his work is highly relevant to water conservation, a greater focus on direct soil conservation strategies and applied research would further strengthen his profile.
🎓 Education
Tao Huang holds a Ph.D. in Plant Nutrition from China Agricultural University, Beijing, which he completed in 2014 under the supervision of Prof. Xiaotang Ju. His doctoral research focused on the effects of long-term carbon and nitrogen inputs on soil organic carbon and nitrogen pools, with significant environmental implications. He earned his M.S. in Plant Nutrition from Hunan Agricultural University, Changsha, in 2010, under the guidance of Xiangmin Rong. His academic journey began with a B.S. in Resources Environment and the Management of Urban and Rural Planning from Hunan University of Science and Technology, Xiangtan, in 2007. Additionally, he participated in a Joint Sino-German Research Training Program at the Institute of Soil Science and Land Evaluation, University of Hohenheim, Germany, where he conducted research under Prof. Thilo Streck and Dr. Joachim Ingwersen.
💼Experience
Dr. Tao Huang is an Associate Professor at the School of Geography Science, Nanjing Normal University. His research career has been marked by active participation in major national projects, including studies on the mechanisms of carbon and nitrogen interactions in soil aggregates and their impact on nitrous oxide emissions in North China. He has contributed to multiple research projects funded by the Natural Science Foundation of China, focusing on organic carbon burial efficiency in eutrophic lakes, the temporal-spatial distribution of trace organic matter and persistent organic pollutants, and the regulation mechanisms of nitrification and denitrification in agricultural soils.
🔬Research Focus
Tao Huang specializes in soil erosion, nitrogen cycles, and greenhouse gas emissions. His research delves into multi-proxy reconstruction of vegetation distribution and organic carbon sources over century-scale periods using biomarkers. He investigates the effects of algal debris on nitrogen transformation, transportation, and greenhouse gas emissions from lake sediments. His work also emphasizes scaling greenhouse gas emissions from plot to field and basin levels using simple models and emission factors. As part of the basin environmental evolution team, he contributes to understanding organic carbon burial efficiency in lake sediments of the Yunnan-Guizhou Plateau, the proportion of autochthonous and allochthonous organic carbon in lake sediments, and the estimation of greenhouse gas emissions in aquatic ecosystems at a catchment scale.
🏆Awards
Tao Huang has received research funding and support from prestigious institutions, including the Natural Science Foundation of China, for his contributions to soil and environmental sciences. His work in greenhouse gas emissions and soil nutrient dynamics has been widely recognized through collaborations with international researchers and publications in high-impact journals.
🛠️Skills
Tao Huang possesses extensive expertise in soil nutrient dynamics, greenhouse gas flux measurement, and organic carbon cycling. He is proficient in experimental design for soil and sediment studies, stable isotope techniques, and modeling approaches for scaling greenhouse gas emissions. His skill set also includes biomarker analysis for reconstructing vegetation history and environmental changes. Additionally, he has significant experience in interdisciplinary research, project management, and international collaboration.