Mrs. Bing zhao, Northwest Agriculture and Forestry University, China
Bing Zhao is a lecturer at the College of Landscape Architecture and Arts, Northwest Agriculture and Forestry University, China. She holds a Ph.D. in Landscape Architecture from Beijing Forestry University and has conducted postdoctoral research in horticulture. Her research focuses on the physiological resistance, propagation, and genetic diversity of Rhododendron, as well as the phytoremediation potential of ornamental plants like Hydrangea. She has published extensively in high-impact journals and has international research experience, including as a visiting scholar at the University of Georgia, USA.
Scopus
Summary:
Dr. Bing Zhao is a highly accomplished researcher with significant contributions to plant stress physiology and phytoremediation. Her publications, international collaborations, and academic leadership position her as a strong candidate for the Best Researcher Award. While she has already made substantial advancements in her field, expanding interdisciplinary partnerships and policy engagement could further enhance her impact.
🎓 Education
Zhao Bing obtained a Bachelor’s degree in Landscape Architecture from Shengyang Agricultural University in 2003. She pursued her Ph.D. in the College of Landscape Architecture at Beijing Forestry University, which she completed in 2008. She further advanced her expertise through a postdoctoral position in the Department of Horticulture at Northwest Agriculture and Forestry University from 2010 to 2012. Additionally, she expanded her international academic experience as a visiting scholar at the University of Georgia, USA, in 2013.
💼Experience
Zhao Bing began her academic career as a lecturer at the College of Forestry, Northwest Agriculture and Forestry University, in 2008. In 2014, she transitioned to the College of Landscape Architecture and Arts at the same university, where she continues to serve as a lecturer. She has extensive experience teaching undergraduate and graduate courses on topics such as flower taxonomy, the art of flower arranging, the production technology of cut flowers, and the management and planting techniques of garden plants.
🔬Research Focus
Her research primarily focuses on the physiological resistance, propagation, and flower color breeding of Rhododendron, as well as its genetic diversity. More recently, she has contributed significantly to studies on the phytoremediation potential of ornamental plants, particularly in lead and cadmium-contaminated soils. Her work includes genetic analysis, physiological responses to environmental stressors, and plant adaptation mechanisms.
🛠️Skills
Zhao Bing is proficient in plant physiology, horticultural techniques, genetic diversity analysis, and environmental remediation research. She has expertise in molecular marker analysis, plant tissue culture, and stress physiology. Her skills extend to mentoring students and guiding research projects in plant science and ecological restoration.
🏆Awards
She has published extensively in high-impact journals, contributing significantly to the fields of landscape architecture and plant physiology. Her studies on Rhododendron and Hydrangea have been widely cited, showcasing her influence in plant stress tolerance and phytoremediation research. She has collaborated internationally and played a key role in advancing knowledge on plant-environment interactions.
📚 Publications
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Publication: Exogenous organic acids promoted phytoremediation by Hydrangea macrophylla in cadmium-contaminated soil
Year: 2025
Journal: Ecotoxicology and Environmental Safety
Authors: Yunjing Song, Qian Cheng, Bing Zhao
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Publication: Glycolic acid addition enhances lead uptake and transport by Hydrangea macrophylla (Thunb.) Ser. of different plant ages
Year: 2024
Journal: Environmental Technology and Innovation
Authors: Huiqi Zhao, Huan Chen, Bing Zhao
Conclusion:
Dr. Bing Zhao is a suitable and deserving candidate for the Best Researcher Award. Her strong research record, innovative phytoremediation work, and dedication to academic growth make her a valuable contributor to environmental sciences and plant physiology. Recognizing her with this award would encourage further groundbreaking research in her field.