Detailed introduction：

Introduction

Xie Changkun is an associate professor and doctoral supervisor of School of Design, Shanghai Jiao Tong University. He graduated from Shanghai Jiao Tong University with a doctorate degree in 2018, and worked as a postdoctoral fellow at Shanghai Jiao Tong University and Fraunhofer IBP in Germany from January 2019 to March 2023. He has been an associate professor at Shanghai Jiao Tong University since April 2023. His research interests include modeling and design application of the relationship between landscape and human settlement environment, planning and design for climate adaptive urban and rural, etc. He has presided over / participated in many projects, including the Youth Project of NSFC, National Key R&D Program, National Science and Technology Support Program, the General Project of NSFC, Shanghai Municipal Science and Technology Commission Key R&D Program,, international cooperation, decision-making consultation and planning and design research projects. He has published more than 50 papers, obtained 15 patents, and served as a reviewer for more than 10 international journals.

Awards & Prizes

[1]     Research integration and demonstration of ecological optimization design technology for community green space, the second prize of Science and Technology Award (Science and Technology Progress Award) of China Landscape Architecture Society in 2020, ranking fifth

[2]     Shanghai Environmental Adaptability Greenbelt Rainwater Source Regulation and Storage System Optimization Design Method, the third prize of Shanghai Landscape Architecture Society Science and Technology Award (Science and Technology Progress Award) in 2021, ranking third

[3]   Research on the Conjugation of Recreation and Ecological Service Functions in High Density Urban Community Public Open Space，the third prize of Shanghai Landscape Architecture Society Science and Technology Award (Science and Technology Progress Award) in 2022, ranking third

Journal articles

[1]     Jiang, R., Xie, C.*, Man, Z., Afshari, A., & Che, S. (2023). LCZ method is more effective than traditional LUCC method in interpreting the relationship between urban landscape and atmospheric particles. Science of The Total Environment, 869, 161677. 2023/4/15

[2]     Liang, A., Xie, C.*, Wang, J., & Che, S. (2022). Daily Dynamics of Soil Heat Flux and Its Relationship with Net Radiation in Different Urban Riparian Woodlands. Forests, 13(12), 2062. 2022/12/4

[3]     Xie, C., Wang, Z.; Yu, B.; Che, S. (2022).Design and Evaluation of Green Space In Situ Rainwater Regulation and Storage Systems for Combating Extreme Rainfall Events: Design of Shanghai Gongkang Green Space to Adapt to Climate Change. Land , 11, 777. 2022/5/25

[4]     Xie, C., Guo, J., Yan, L., Jiang, R., Liang, A., & Che, S. (2022). The influence of plant morphological structure characteristics on PM2. 5 retention of leaves under different wind speeds. Urban Forestry & Urban Greening, 71, 127556. 2022/5/1

[5]     Xie, C., Yan, L., Liang, A., Jiang, R., Man, Z., & Che, S. (2022). Seasonal and spatial characterisation of soil properties, nitrification and denitrification at the urban river-riparian interface with permeable revetments. Applied Soil Ecology, 173, 104372. 2022/5/1

[6]     Xie, C., Cai, S., Yu, B., Yan, L., Liang, A., & Che, S. (2020). The effects of tree root density on water infiltration in urban soil based on a Ground Penetrating Radar in Shanghai, China. Urban Forestry & Urban Greening, 50, 126648. 2020/4/1

[7]     Xie, C., Yan, L., Liang, A., & Che, S. (2019). Understanding the washoff processes of PM2. 5 from leaf surfaces during rainfall events. Atmospheric Environment, 214, 116844. 2019/10/1

[8]     Xie, C., Kan, L., Guo, J., Jin, S., Li, Z., Chen, D., ... & Che, S. (2018). A dynamic processes study of PM retention by trees under different wind conditions. Environmental Pollution, 233, 315-322.

[9]     Xie, C., Xia, Y., & Yin, C. (2021). Rural vegetation characteristics and biodiversity conservation strategies in the Yangtze river delta urban agglomera-tion. City Diversity, 2(2),

[10]   Che S., Xie C., Chen D.,Yu b.. Development and Constructive Approaches for Theories and Technologies of Sponge City System[J]. Chinese Landscape Architecture,2015,(06):11-15. （Representative Chinese Journal of Landscape Architecture）

[11]   Xie C., Guo J., Liang A., Wang J., Jiang R., Che S.. Research progress on reduction process of atmospheric particulate matter by garden plant surface [J]. World Forestry Research,2021,34(05):38-43.（CSCD）

[12]   Xie C., Cai Y., Zuo J.. Characteristics of Farmland Surface Runoff in the Suburb of Shanghai Based on SCS Method[J].Resources and Environment in the Yangtze Basin,2012,(01):44-51..（CSCI/ CSCD）

[13]   Xie C., Liang A., Che S.. Comparative study on connotation of ecological city, garden city and ecological garden city [J]. Urban architecture,2018(33):16-21.

[14]     Che S., Xie C... Vulnerability assessment and control measures of climate change in shanghai [J]. Landscape architecture,2020,27(12):69-74. （Representative Chinese Journal of Landscape Architecture）

[15]     Che S., Xie C., Chen D.,Yu b.. Development and Constructive Approaches for Theories and Technologies of Sponge City System[J]. Chinese Landscape Architecture,2015,(06):11-15. （Representative Chinese Journal of Landscape Architecture）

[16]     Jiang, R.; Xie, C.; Man, Z.; Zhou, R.; Che, S. Effects of Urban Green and Blue Space on the Diffusion Range of PM2.5 and PM10 Based on LCZ. Land 2023, 12, 964.

[17]     Yan, L., Xie, C., Liang, A., Jiang, R., & Che, S. (2021). Effects of revetments on soil denitrifying communities in the urban river-riparian interface. Chemosphere, 263, 128077.

[18]     Chen, Y., Xie, C. *, Jiang, R., & Che, S*. (2021). Optimization of Ecosystem Services of Shanghai Urban–Suburban Street Trees Based on Low-Carbon Targets. Sustainability, 13(23), 13251.

[19]     Wang, J., Xie, C. *, Liang, A., Jiang, R., Man, Z., Wu, H., & Che, S*. (2021). Spatial-Temporal Variation of Air PM2. 5 and PM10 within Different Types of Vegetation during Winter in an Urban Riparian Zone of Shanghai. Atmosphere, 12(11), 1428.

[20]     Yan, L., Xie, C., Xu, X., & Che, S. (2019). The influence of revetment types on soil denitrification in the adjacent tidal urban riparian zones. Journal of Hydrology, 574, 398-407.

Courses

[1]     Course for master students：Ecology and Design

[2]     Course for master students：Research Methods and Design Processes of Landscape architecture

Research
               1. Preside over projects

[1]     National Natural Science Foundation of China, Mechanism and model of the influence of urban landscape plant architecture on the process of adsorbing atmospheric particulate matter-- Research based on the branchlets（32001362），2021/01-2023/12，Project leader

[2]     Think tank project of Shanghai Jiaotong University，Study on the protection and construction of water ecological culture in the integration demonstration area of the Yangtze River Delta(ZKYJ-2020016)，2019/10-2020/12， Project leader
        2. Participate in projects
        2.1 International cooperation projects

[1]     German Federal Ministry of Education and Research，Planning climate environment for tomorrow’s cities based on multiscale simulations （003-695033）， 2019.1-2024.12 

[2]     German Federal Ministry of Education and Research，Fraunhofer-Projektzentrum für gebaute Umwelt an der Shanghai Jiao Tong Universität Bewilligung Ihres Antrages（01DO17023），2017.7-2022.12

[3]     International Science and Technology Cooperation Project from Shanghai Government (sino-german)，Study on risk prediction, vulnerability assessment and multi scenario planning strategies of climate adaptive urban ecosystem -- a case study of Shanghai（22230711800），2022.9 -2025.8

[4]     Shanghai "Belt and Road" International Joint Laboratory Construction Projects，Sino-Bulgarian Joint Lab on Climate Change Adaptive Governance  for Rural Ecosystem（22230750500），2022.9 -2025.8
        2.2 National level projects

[1]     National Key R&D Program，Technology and Mode of Multi Objective Collaborative Urban Ecological Spatial Pattern Optimization and Function Improvement（2022YFF1301105 ），2022.9 -2025.8

[2]     National Key R&D Program，Technology and Demonstration of Ecological Restoration and Service Function Improvement of Urban and Rural Ecotone in Yangtze River Delta（2016YFC0502703-03），2016.7-2020.06 

[3]     The National Natural Science Foundation of China，Mechanism and Capacity Evaluation on the Branchlets of Landscape Woody Plants Canopy Morphological Structures Reducing PM2.5-Taking Shanghai as a Case Study（31971712），2020.1-2023.12

[4]   The National Natural Science Foundation of China，Study on the Optimization of Urban Green Space Structure for Mitigating Surface Thermal Effect——A Case Study in Shanghai（31470702），2015.1-2018.12
        2.3 Consulting, planning, design projects

[1]   Intensive Construction Project of University Think Tanks of Shanghai Municipal Education Commission，Risk Management Assessment and Countermeasures for Resilient Cities under Climate Change: A Case Study of Shanghai（2022ZKNH015 8.8），2022.1-2022.12

[2]   China Landscape Architecture Association，Technical standard for green space construction of sponge cities in the Yangtze River Delta region，2020.6-2020.12

[3]   Shanghai Qingpu District Water Affairs Bureau，Study on the ecological system protection planning of Qingpu Blue Pearl River Chain in the pilot area of the Yangtze River Delta Integrated Demonstration Zone（19H2H2H21000021） 2019.6-2019.12

[4]   Shanghai Planning and Natural Resources Bureau，Ecological landscape design consultation for urban design of central forest land in Fengxian New Town, Shanghai（21H020101529），2021.4-2021.10 

[5]  Fengxian District Urban Appearance and Greening Administration, Fengxian District National Ecological Garden Pre assessment and Construction Strategy Research（19Z2032020021），2019.6-2020.12