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lWang, J., Zhou, W. *, Zheng, Z., Jiao, M., & Qian, Y. (2023) Interactions among spatial configuration aspects of urban tree canopy significantly affect its cooling effects.Science of the Total Environment, 864(15), 160929
lWang, J., Zhou, W. *, & Jiao, M. (2022) Location matters: planting urban trees in the right places improves cooling.Frontiers in Ecology and the Environment,20, 147-151
lFeng, Y.,Wang, J.*, Zhou, W., Li, X., & Yu, X.* (2022) Evaluating the Cooling Performance of Green Roofs Under Extreme Heat Conditions.Frontiers in Environmental Science. 10, 874614.
lWang, J., Zhou, W. *, Jiao, M., Zheng, Z., Ren, T., & Zhang, Q. (2020) Significant effects of ecological context on urban trees’ cooling efficiency.ISPRS Journal of Photogrammetry and Remote Sensing, 159, 78-89
lWang, J., Zhou, W. *, & Wang, J. (2019) Time-Series Analysis Reveals Intensified Urban Heat Island Effects but without Significant Urban Warming.Remote Sensing, 11, 2229
lZhou W.*,Wang J., & Cadenasso M. L. (2017). Effects of the spatial configuration of trees on urban heat mitigation: A comparative study.Remote Sensing of Environment, 195, 1-12
lRen, T., Zhou, W. *, &Wang, J.(2021). Beyond intensity of urban heat island effect: A continental scale analysis on land surface temperature in major Chinese cities.Science of the Total Environment,791, 148334
lJiao, M., Zhou, W. *, Zheng, Z., Yan, J. &Wang, J.(2021) Optimizing the shade potential of trees by accounting for landscape context.Sustainable Cities and Society,70,102905
lZhou, W., Huang, G.*, Pickett, S.T.A., Wang, J., Cadenasso, M.L., McPhearson, T., Grove, J.M., &Wang, J.(2021). Urban tree canopy has greater cooling effects in socially vulnerable communities in the US.One earth,4, 1764–1775 |
