Chinese Academy of Sciences | China
Dr. Lingyun Wu is an Associate Professor at the Institute of Atmospheric Physics, Chinese Academy of Sciences (CAS), Beijing, China. With a robust academic background in atmospheric sciences and mathematics, she has dedicated her career to exploring the intricate dynamics of climate systems, particularly focusing on urban climate and land-atmosphere interactions. Her interdisciplinary approach bridges theoretical modeling with empirical observations, contributing significantly to our understanding of climate variability and change.
Professional profile👤
Scopus
Strengths for the Awards✨
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Extensive Academic and Research Background:
Dr. Wu holds a Ph.D. in Atmospheric Sciences and a Master’s in Mathematics and Statistics, which gives her a multidisciplinary edge in environmental and climate research.
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Robust Publication Record:
With over 25 high-impact peer-reviewed publications across reputable journals such as Scientific Reports, npj Urban Sustainability, Earth’s Future, and Journal of Geophysical Research, Dr. Wu has consistently contributed to the scientific community. Her role as a corresponding author in multiple papers underscores her leadership in research.
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Significant Research Themes:
Dr. Wu’s work on urban climate, land-atmosphere interactions, climate modeling, and the impact of human activity on climate is both timely and globally relevant. This aligns well with current global environmental challenges and sustainable development goals.
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Institutional Affiliation and Experience:
She is an Associate Professor at the Chinese Academy of Sciences, a prestigious institution, and has international exposure through postdoctoral work in the U.S. and a visiting position in Korea.
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Award Recognition:
She has been previously recognized by the Chinese Academy of Sciences, including receiving the Liu Yongling Award and a Graduate Fellowship, both of which affirm her early promise and continued excellence.
🎓 Education
Dr. Wu’s academic journey reflects her commitment to scientific excellence. She earned her Bachelor of Science in Atmospheric Sciences from Lanzhou University in 1998, followed by a Master of Science in Atmospheric Sciences from Nanjing University in 2001. Pursuing advanced research, she obtained her Ph.D. in Atmospheric Sciences from the Chinese Academy of Sciences in 2005. To further augment her analytical skills, she completed a Master of Science in Mathematics and Statistics at the State University of New York at Albany in 2008.
🧪 Experience
Dr. Wu’s professional trajectory encompasses a blend of research and academic roles. She began her career as a Research Assistant at the Chinese Academy of Sciences (2000–2002), and later served as a Visiting Scholar at Seoul National University, Korea (2004–2005). Her international experience expanded during her tenure as a Research Assistant and Post-Doctoral Research Scientist at the State University of New York (2006–2009). Returning to CAS, she progressed from Assistant Professor (2010–2017) to her current role as Associate Professor, where she continues to lead impactful research initiatives.
Dr. Wu’s research interests are centered on:
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Urban climate and environment
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Land-atmosphere interaction
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Effects of human activities on climate
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Climate change
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Climate modeling
Her work often involves integrating observational data with advanced modeling techniques to assess and predict climatic phenomena, particularly in urban settings.
🏆 Awards
In recognition of her outstanding contributions to atmospheric sciences, Dr. Wu has received several honors:
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Liu Yongling Award, Chinese Academy of Sciences (2004)
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Graduate Fellowship, Chinese Academy of Sciences (2003)
These accolades underscore her commitment to advancing climate science and her role as a leading researcher in her field.
đź“š Publications
Dr. Wu has an extensive publication record, reflecting her active engagement in climate research. Below is a selection of her notable works:
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Accelerated warming of air and soil temperatures: evidence from observations in Fuyang from 1985 to 2024
Theoretical and Applied Climatology, 2025
https://doi.org/10.1007/s00704-025-05545-5
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Trend analysis and risk evaluation of summer extreme heat in Fuyang, Anhui Province (in Chinese)
Climatic and Environmental Research, 2024
DOI: 10.3878/j.issn.1006-9585.2023.23088
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Warming of global soil at an accelerated pace (in Chinese)
Climatic and Environmental Research, 2024
DOI: 10.3878/j.issn.1006-9585.2024.24073
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Changing weekend effects of air pollutants in Beijing under 2020 COVID-19 lockdown controls
npj Urban Sustainability, 2022
https://doi.org/10.1038/s42949-022-00070-0
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The role of soil temperature feedbacks for summer air temperature variability under climate change over East Asia
Earth’s Future, 2022
https://doi.org/10.1029/2021EF002377
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The effects of human movements on urban climate over Eastern China
npj Urban Sustainability, 2021
https://doi.org/10.1038/s42949-021-00038-6
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Spatiotemporal changes of near-surface Ozone concentration from 2015 to 2019 in Beijing
Frontiers in Environmental Science, 2021
https://doi.org/10.3389/fenvs.2021.593220
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Impacts of clean-energy heating transformation in winter on the air quality in Beijing (in Chinese)
Climatic and Environmental Research, 2021
DOI: 10.3878/j.issn.1006-9585.2021.20098
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Linkages of surface air temperature variations over Central Asia with large-scale climate patterns
Theoretical and Applied Climatology, 2021
https://doi.org/10.1007/s00704-021-03626-9
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Summer high temperature extremes over Northeastern China predicted by spring soil moisture
Scientific Reports, 2019
https://doi.org/10.1038/s41598-019-49053-9
Note: Citation counts for these publications can be found on Dr. Wu’s Google Scholar profile.
🔚 Conclusion
Dr. Lingyun Wu’s extensive research and academic endeavors have significantly advanced the field of atmospheric sciences. Her interdisciplinary approach, combining theoretical models with empirical data, has provided valuable insights into urban climate dynamics and land-atmosphere interactions. Her contributions continue to inform policy and foster a deeper understanding of climate change impacts.
