ResearchGate主页:https://www.researchgate.net/profile/Jintao-Zhang-8 [1] Zhang J, Ren G*, You Q. 2024. Detection and attribution of human-perceived warming over China. Geophysical Research Letters, 51(7): e2023GL106283. [2] Zhang J, You Q*, Ren G, et al. 2023. Inequality of Global Thermal Comfort Conditions Changes in a Warmer World. Earth's Future, 11(2): e2022EF003109. [3] Zhang J, Ren G*, You Q. 2024. Assessing the escalating human-perceived heatwaves in a warming world: the case of China. Weather and Climate Extremes, 43: 100643. [4] Zhang J, You Q*. 2023. Avoidable heat risk under scenarios of carbon neutrality by mid-century. Science of The Total Environment, 892: 164679. [5] Zhang J-T, Ren G-Y*, You Q-L. 2022. Detection and projection of climatic comfort changes in China mainland in a warming world. Advances in Climate Change Research, 13(4): 507-516. [6] Zhang J, You Q*, Ren G, et al. 2022. Projected changes in mild weather frequency over China under a warmer climate. Environmental Research Letters, 17: 114032. [7] Zhang J, You Q*, Ullah S. 2022. Changes in photovoltaic potential over China in a warmer future. Environmental Research Letters, 17: 114032. [8] Zhang J, You Q*, Ren G, et al. 2023. Substantial increase in human-perceived heatwaves in eastern China in a warmer future. Atmospheric Research, 283: 106554. [9] Zhang J, You Q*, Wu F, et al. 2022. The Warming of the Tibetan Plateau in Response to Transient and Stabilized 2.0°C/1.5°C Global Warming Targets. Advances in Atmospheric Sciences, 39(7): 1198-1206. [10] Zhang J, Wang F*. 2022. Future changes in extreme precipitation in central Asia with 1.5–4°C global warming based on Coupled Model Intercomparison Project Phase 6 simulations. International Journal of Climatology, 42(16): 8509-8525. [11] Zhang J, Wang F*, Tokarska K, et al. 2020. Multiple possibilities for future precipitation changes in Asia under the Paris Agreement. International Journal of Climatology, 40(11): 4888-4902. |
