Sitemap
A list of all the posts and pages found on the site. For you robots out there, there is an XML version available for digesting as well.
Pages
Posts
Data and code for the paper titled “Changing Northern Hemisphere Weather Linked to Warming Amplification in High Mountain Asia”
发布时间:
This is the data and code for the paper titled “Changing Northern Hemisphere Weather Linked to Warming Amplification in High Mountain Asia”, which has published in Communications Earth & Environment, https://doi.org/10.1038/s43247-025-02883-0.
Data and code for the paper titled “Reversed Future Drying‐Wetting Precipitation Patterns Over the Northwestern and Southeastern East Asia Driven by Reduced Aerosol Emissions”
发布时间:
This is the data and code for the paper titled “Reversed Future Drying‐Wetting Precipitation Patterns Over the Northwestern and Southeastern East Asia Driven by Reduced Aerosol Emissions”, which has published in Geophysical Research Letters, https://doi.org/10.1029/2024GL114527.
Data and code for the paper titled “Impact of the Tibetan Plateau on Global High-frequency Temperature Variability”
发布时间:
This is the data and code for the paper titled “Impact of the Tibetan Plateau on Global High-frequency Temperature Variability”, which was published in Journal of Climate, https://doi.org/10.1175/JCLI-D-23-0271.1.
Data and codes for the paper titled “Decadal Heatwave Fluctuations in China Caused by the Indian and Atlantic Oceans”
发布时间:
Data and codes for the paper titled “Decadal Heatwave Fluctuations in China Caused by the Indian and Atlantic Oceans”, published in Environmental Research Letters, https://doi.org/10.1088/1748-9326/ad5b05.
Codes for “ Potential vorticity dynamics explain how extratropical oceans and the Arctic modulate wintertime land-temperature variations
发布时间:
This is codes for potential vorticity inversion performed by the authors for their study titled, “Potential vorticity dynamics explain how extratropical oceans and the Arctic modulate wintertime land-temperature variations”, which was published in Earth’s Future, https://doi.org/10.1029/2022EF003275.
Data for the paper titled “Enhanced Asian warming increases Arctic amplification”
发布时间:
This dataset is the CESM outputs and codes and the observational data for the study titled, “Enhanced Asian warming increases Arctic amplification”, which was published to Environmental Research Letters, https://doi.org/10.1088/1748-9326/acbdb1. There were four CESM experiments, namely HIST, AL500-sh0.5, amip-HIST, and amip-AL500-nosh. The observational data are the aridity index.
CESM experiments for “Oceanic repeaters boost the global climatic impact of the Tibetan Plateau
发布时间:
This dataset is the outputs and codes of CESM experiments performed by the authors for their study titled, “Oceanic repeaters boost the global climatic impact of the Tibetan Plateau”, which was published in Science Bulletin, https://doi.org/10.1016/j.scib.2023.07.019. There were six CESM experiments, namely amip-hist, amip-TIP-nosh, amip-TIP-alb0.5, amip-TIP-sh0.5, cmip-hist, and cmip-TIP-sh0.5. The CESM model (version 2.1.3) was provided by NCAR/UCAR. In all the experiments, hist (historical) experiments were control runs, whereas the TIP (Tibetan–Iranian Plateau coupling system) -labeled experiments were sensitivity runs.
publications
雪冰反馈对北半球经向温度梯度的影响
Published in 地球科学进展, 2013
Recommended citation: 谢永坤, 刘玉芝, 黄建平, 等. (2013) 雪冰反馈对北半球经向温度梯度的影响. 地球科学进展, 28, 1276–1282.
Download Paper
Impact of dust aerosol on glacial-interglacial climate
Published in Advances in Atmospheric Sciences, 2013
Recommended citation: Liu Y, Shi G, Xie Y. (2013) Impact of dust aerosol on glacial-interglacial climate. Advances in Atmospheric Sciences, 30, 1725–1731.
Download Paper
Dust aerosol characteristics and shortwave radiative impact at a Gobi Desert of Northwest China during the spring of 2012
Published in Journal of the Meteorological Society of Japan. Ser. II, 2014
Recommended citation: Bi J, Shi J, Xie Y, et al. (2014) Dust aerosol characteristics and shortwave radiative impact at a Gobi Desert of Northwest China during the spring of 2012. Journal of the Meteorological Society of Japan. Ser. II, 92, 33–56.
Download Paper
A review of aerosol optical properties and radiative effects
Published in Journal of Meteorological Research, 2014
Recommended citation: Liu Y, Jia R, Dai T, Xie Y, et al. (2014) A review of aerosol optical properties and radiative effects. Journal of Meteorological Research, 28, 1003–1028.
Download Paper
秋季北极海冰对中国冬季气温的影响
Published in 气象学报, 2014
Recommended citation: 谢永坤, 刘玉芝,黄建平. (2014) 秋季北极海冰对中国冬季气温的影响. 气象学报, 72, 703–710.
Download Paper
Comparison of dryland climate change in observations and CMIP5 simulations
Published in Advances in Atmospheric Sciences, 2015
Recommended citation: Ji M, Huang J, Xie Y, et al. (2015) Comparison of dryland climate change in observations and CMIP5 simulations. Advances in Atmospheric Sciences, 32, 1565–1574.
Download Paper
Modeling study on the transport of summer dust and anthropogenic aerosols over the Tibetan Plateau
Published in Atmospheric Chemistry and Physics, 2015
Recommended citation: Liu Y, Sato Y, Jia R, Xie Y, et al. (2015) Modeling study on the transport of summer dust and anthropogenic aerosols over the Tibetan Plateau. Atmospheric Chemistry and Physics, 15, 12581–12594.
Download Paper
Global semi-arid climate change over last 60 years
Published in Climate Dynamics, 2016
Recommended citation: Huang J, Ji M, Xie Y, et al. (2016) Global semi-arid climate change over last 60 years. Climate Dynamics, 46, 1131–1150.
Download Paper
Overestimated Arctic warming and underestimated Eurasia mid-latitude warming in CMIP5 simulations
Published in International Journal of Climatology, 2016
Recommended citation: Xie Y, Liu Y, Huang J. (2016) Overestimated Arctic warming and underestimated Eurasia mid-latitude warming in CMIP5 simulations. International Journal of Climatology, 36, 4475–4487.
Download Paper
The relationship between anthropogenic dust and population over global semi-arid regions
Published in Atmospheric Chemistry and Physics, 2016
Recommended citation: Guan X, Huang J, Zhang Y, Xie Y, et al. (2016) The relationship between anthropogenic dust and population over global semi-arid regions. Atmospheric Chemistry and Physics, 16, 5159–5169.
Download Paper
The dynamics of the warming hiatus over the Northern Hemisphere
Published in Climate Dynamics, 2017
Recommended citation: Huang J, Xie Y, Guan X, et al. (2017) The dynamics of the warming hiatus over the Northern Hemisphere. Climate Dynamics, 48, 429–446.
Download Paper
From accelerated warming to warming hiatus in China
Published in International Journal of Climatology, 2017
Recommended citation: Xie Y, Huang J, Liu Y. (2017) From accelerated warming to warming hiatus in China. International Journal of Climatology, 37, 1758–1773.
Download Paper
Mechanism of non-appearance of hiatus in Tibetan Plateau
Published in Scientific Reports, 2017
Recommended citation: Ma J, Guan X, Guo R, Gan Z, Xie Y. (2017) Mechanism of non-appearance of hiatus in Tibetan Plateau. Scientific Reports, 7, 4421.
Download Paper
Contributions of radiative factors to enhanced dryland warming over East Asia
Published in Journal of Geophysical Research: Atmospheres, 2017
Recommended citation: Zhang Y, Guan X, Yu H, Xie Y, et al. (2017) Contributions of radiative factors to enhanced dryland warming over East Asia. Journal of Geophysical Research: Atmospheres, 122, 7723–7736.
Download Paper
Dryland climate change: Recent progress and challenges
Published in Reviews of Geophysics, 2017
Recommended citation: Huang J, Li Y, Fu C, Chen F, Fu Q, Dai A, Shinoda M, Ma Z, Guo W, Li Z, Zhang L, Liu Y, Yu H, He Y, Xie Y, et al. (2017) Dryland climate change: Recent progress and challenges. Reviews of Geophysics, 55, 719–778
Download Paper
Comparison of the effect of land-sea thermal contrast on interdecadal variations in winter and summer blockings
Published in Climate Dynamics, 2018
Recommended citation: He Y, Huang J, Li D, Xie Y, et al. (2018) Comparison of the effect of land-sea thermal contrast on interdecadal variations in winter and summer blockings. Climate Dynamics, 51, 1275–1294.
Download Paper
Robust regional warming amplifications directly following the anthropogenic emission
Published in Earth's Future, 2019
Recommended citation: Xie Y, Huang J, Ming Y. (2019) Robust regional warming amplifications directly following the anthropogenic emission. Earth's Future, 7, 363–369.
Download Paper
The key role of decadal modulated oscillation in recent cold phase
Published in International Journal of Climatology, 2019
Recommended citation: Luo W, Guan X, Xie Y, et al. (2019) The key role of decadal modulated oscillation in recent cold phase. International Journal of Climatology, 39, 5761–5770.
Download Paper
Eurasian cooling linked with Arctic warming: Insights from PV dynamics
Published in Journal of Climate, 2020
Recommended citation: Xie Y, Wu G, Liu Y, et al. (2020) Eurasian cooling linked with Arctic warming: Insights from PV dynamics. Journal of Climate, 33, 2627–2644.
Download Paper
Regional characteristics of cloud radiative effects before and after the South China sea summer monsoon onset
Published in Journal of Meteorological Research, 2020
Recommended citation: Huang M, Li J, Zeng G, Xie Y. (2020) Regional characteristics of cloud radiative effects before and after the South China sea summer monsoon onset. Journal of Meteorological Research, 34, 1167–1182.
Download Paper
Characteristics of the potential vorticity and its budget in the surface layer over the Tibetan Plateau
Published in International Journal of Climatology, 2021
Recommended citation: Sheng C, Wu G, Tang Y, He B, Xie Y, et al. (2021) Characteristics of the potential vorticity and its budget in the surface layer over the Tibetan Plateau. International Journal of Climatology, 41, 439–455.
Download Paper
A dynamic and thermodynamic coupling view of the linkages between Eurasian cooling and Arctic warming
Published in Climate Dynamics, 2022
Recommended citation: Xie Y, Wu G, Liu Y, et al. (2022) A dynamic and thermodynamic coupling view of the linkages between Eurasian cooling and Arctic warming. Climate Dynamics, 58, 2725–2744.
Download Paper
The influence of precipitation phase changes on the recharge process of terrestrial water storage in the cold season over the Tibetan Plateau
Published in Journal of Geophysical Research: Atmospheres, 127, 2022
Recommended citation: Wang G, He Y, Huang J, Guan X, Wang X, Hu H, Wang S, Xie Y. (2022) The influence of precipitation phase changes on the recharge process of terrestrial water storage in the cold season over the Tibetan Plateau. Journal of Geophysical Research: Atmospheres, 127, e2021JD035824.
Download Paper
Extratropical climate change during periods before and after an Arctic ice-free summer
Published in Earth's Future, 2022
Recommended citation: Xie Y, Nie H, He Y. (2022) Extratropical climate change during periods before and after an Arctic ice-free summer. Earth's Future, 10, e2022EF002881.
Download Paper
Impacts of the Tibetan Plateau on aridity change over the Northern Hemisphere
Published in Atmospheric Research, 2023
Recommended citation: Gao Z, Guan X, He B, Zhao L, Xie Y, et al. (2023) Impacts of the Tibetan Plateau on aridity change over the Northern Hemisphere. Atmospheric Research, 281, 106470.
Download Paper
次季节尺度上的“暖北极-冷欧亚”模态
Published in 科学通报, 2023
Recommended citation: 黄建平, 谢永坤. (2023) 次季节尺度上的“暖北极-冷欧亚”模态. 科学通报, 68(14), 1721–1722.
Download Paper
Global climate impacts of land-surface and atmospheric processes over the Tibetan Plateau
Published in Reviews of Geophysics, 2023
Recommended citation: Huang J, Zhou X, Wu G, Xu X, Zhao Q, Liu Y, Duan A, Xie Y, et al. (2023) Global climate impacts of land-surface and atmospheric processes over the Tibetan Plateau. Reviews of Geophysics, 61, e2022RG000771
Download Paper
Historical evaluation and projection of precipitation phase changes in the cold season over the Tibetan Plateau based on CMIP6 multimodels
Published in Atmospheric Research, 2023
Recommended citation: Wang G, He Y, Zhang B, Wang X, Cheng S, Xie Y, et al. (2023) Historical evaluation and projection of precipitation phase changes in the cold season over the Tibetan Plateau based on CMIP6 multimodels. Atmospheric Research, 281, 106494.
Download Paper
A potential vorticity budget view of the atmospheric circulation climatology over the Tibetan Plateau
Published in International Journal of Climatology, 2023
Recommended citation: Xie Y, Wu G, Liu Y, et al. (2023) A potential vorticity budget view of the atmospheric circulation climatology over the Tibetan Plateau. International Journal of Climatology, 43, 2031–2049.
Download Paper
Impact of the leading atmospheric wave train over Eurasia on the climate variability over the Tibetan Plateau during early spring
Published in Climate Dynamics, 2023
Recommended citation: Yang Y, Liu Y, Hu Z, Yu H, Li J, Xie Y, et al. (2023) Impact of the leading atmospheric wave train over Eurasia on the climate variability over the Tibetan Plateau during early spring. Climate Dynamics, 60, 3885–3900
Download Paper
Potential vorticity dynamics explain how extratropical oceans and the Arctic modulate wintertime land-temperature variations
Published in Earth's Future, 2023
Recommended citation: Xie Y, Huang J, Wu G, et al. (2023) Potential vorticity dynamics explain how extratropical oceans and the Arctic modulate wintertime land-temperature variations. Earth's Future, 11, e2022EF003275.
Download Paper
Enhanced Asian warming increases Arctic amplification
Published in Environmental Research Letters, 2023
Recommended citation: Xie Y, Huang J, Wu G, et al. (2023) Enhanced Asian warming increases Arctic amplification. Environmental Research Letters, 18, 034041.
Download Paper
Oceanic repeaters boost the global climatic impact of the Tibetan Plateau
Published in Science Bulletin, 2023
Recommended citation: Xie Y, Huang J, Wu G, et al. (2023) Oceanic repeaters boost the global climatic impact of the Tibetan Plateau. Science Bulletin, 68(19), 2225–2235.
Download Paper
Association between Tibetan heat sources and heat waves in China
Published in Journal of Climate, 2023
Recommended citation: Tan Z, Liu Y, Shao T, Luo R, Luo M, Xie Y. (2023) Association between Tibetan heat sources and heat waves in China. Journal of Climate, 36, 7905–7924.
Download Paper
位涡源汇和位涡环流及其天气气候意义
Published in 大气科学, 2024
Recommended citation: 吴国雄, 刘屹岷, 毛江玉, 何编, 包庆, 谢永坤, 等. (2024) 位涡源汇和位涡环流及其天气气候意义. 大气科学, 48(1): 8−25.
Download Paper
Terrain effects of the Tibetan Plateau on dust aerosol distribution over the Tarim Basin
Published in Atmospheric Research, 2024
Recommended citation: Zhou C, Yang X, Liu Y, Zhu Q, Xie Y, et al. (2024) Terrain effects of the Tibetan Plateau on dust aerosol distribution over the Tarim Basin, China. Atmospheric Research, 298: 107143.
Download Paper
Future trends in the vertical structure of Arctic warming and moistening in different emission scenarios
Published in Atmospheric Research, 2024
Recommended citation: Nie H, Xie Y, Zhao M, et al. (2024) Future trends in the vertical structure of Arctic warming and moistening in different emission scenarios. Atmospheric Research, 301: 107271.
Download Paper
沙尘气溶胶加热对深积云对流系统的影响
Published in 兰州大学学报(自然科学版), 2024
Recommended citation: 景治坤, 黄建平, 刘玉芝, 谢永坤. (2024). 沙尘气溶胶加热对深积云对流系统的影响. 兰州大学学报(自然科学版), 60(3), 296−303.
Download Paper
Compound events of heatwave and dust storm in the Taklamakan Desert
Published in Science China Earth Sciences, 2024
Recommended citation: Liu Y, Huang J, Tan Z, Zhou C, Li D, Xie Y. (2024) Compound events of heatwave and dust storm in the Taklamakan Desert. Science China Earth Sciences, 67, 2073–2083.
Download Paper
Decadal heatwave fluctuations in China caused by the Indian and Atlantic Oceans
Published in Environmental Research Letters, 2024
Recommended citation: Lei N, Xie Y, Bao Z, et al. (2024) Decadal heatwave fluctuations in China caused by the Indian and Atlantic Oceans. Environmental Research Letters, 19, 074063.
Download Paper
The ocean losing its breath under the heatwaves
Published in Nature Communications, 2024
Recommended citation: Li C, Huang J, Liu X, Ding L, He Y, Xie Y. (2024) The ocean losing its breath under the heatwaves. Nature Communications, 15, 6840.
Download Paper
Dust accelerates the life cycle of high clouds unveiled through strongly‐Constrained meteorology
Published in Geophysical Research Letters, 2024
Recommended citation: Ge J, Li W, Huang J, Mu Q, Li Q, Zhao Q, Su J, Xie Y, et al. (2024) Dust accelerates the life cycle of high clouds unveiled through strongly‐Constrained meteorology. Geophysical Research Letters, 51, e2024GL109998.
Download Paper
Impact of the Tibetan Plateau on Global High-Frequency Temperature Variability
Published in Journal of Climate, 2024
Recommended citation: Su Z, Xie Y, Huang J, et al. (2024) Impact of the Tibetan Plateau on Global High-Frequency Temperature Variability. Journal of Climate, 37, 4347–4365.
Download Paper
Disagreement in detected heatwave trends resulting from diagnostic methods
Published in Geophysical Research Letters, 2025
Recommended citation: Zhang B, He Y, Wang Z, Huang B, Xie Y, et al. (2025) Disagreement in detected heatwave trends resulting from diagnostic methods. Geophysical Research Letters, 52, e2024GL114398.
Download Paper
Effects of soil moisture in northern Tibetan Plateau on summer precipitation in Northwest China
Published in Journal of Geophysical Research: Atmospheres, 2025
Recommended citation: Lu F, Yu H, Hu Z, Xie Y, et al. (2025) Effects of soil moisture in northern Tibetan Plateau on summer precipitation in Northwest China. Journal of Geophysical Research: Atmospheres, 130, e2025JD043690.
Download Paper
Decadal oceanic variability amplified recent heatwave in the Northern Hemisphere
Published in npj Climate and Atmospheric Science, 2025
Recommended citation: Lei N, Guan X, Xie Y, et al. (2025) Decadal oceanic variability amplified recent heatwave in the Northern Hemisphere. npj Climate and Atmospheric Science 8, 292.
Download Paper
Reversed future drying-wetting precipitation patterns over the northwestern and southeastern East Asia driven by reduced aerosol emissions
Published in Geophysical Research Letters, 2025
Recommended citation: Zhao M, Xie Y, Shi J, et al. (2025) Reversed future drying-wetting precipitation patterns over the northwestern and southeastern East Asia driven by reduced aerosol emissions. Geophysical Research Letters, 52, e2024GL114527.
Download Paper
External and internal controls on decadal precipitation variability over North America
Published in Climate Dynamics, 2025
Recommended citation: Fan X, Huang J, Xie Y, et al. (2025) External and internal controls on decadal precipitation variability over North America. Climate Dynamics 63, 429.
Download Paper
Changing Northern Hemisphere weather linked to warming amplification in High Mountain Asia
Published in Communications Earth & Environment, 2025
Recommended citation: Xie Y, Huang J, Wu G, et al. (2025) Changing Northern Hemisphere weather linked to warming amplification in High Mountain Asia. Communications Earth & Environment, 6, 932.
Download Paper
talks
Eurasian cooling linked with Arctic warming
发布时间:
- Eurasian cooling is large at both surface and middle troposphere
- PV view of the three-dimensional linkages between cooling and warming
- Spatial pattern & vertical structure of Arctic warming, climatological PV distribution are crucial factors
海洋中继器促进了青藏高原热源的全球气候效应
发布时间:
- 揭示青藏高原热源对现代全球气候的影响
(以往研究多关注古气候、亚洲季风区、未区分机械和热力效应,且无多模式验证) - 阐明太平洋和大西洋的海洋中继器效应
(热量和水汽输送、大气环流途径、局地海-气反馈)
亚洲强化增温加剧了北极放大效应
发布时间:
- 发现了一个影响北极放大的新因素
- 揭示了亚洲强化增温对北极的影响
- 拓展了青藏高原对全球气候的影响
(大气动力机制、海-气相互作用、海洋电容器效应)
海洋和北极调控冬季陆地气温变化的位涡动力学观点
发布时间:
- 海洋和北极变率远程影响陆地气温的简单机制解释
(非绝热加热位涡制造 位涡平流 位涡与环流平衡)
海-气相互作用促进了青藏高原热源的全球气候效应
发布时间:
- 揭示青藏高原热源对现代全球气候的影响
(以往研究多关注古气候、亚洲季风区、未区分机械和热力效应,且无多模式验证) - 阐明太平洋和大西洋的海洋中继器效应
(热量和水汽输送、大气环流途径、局地海-气反馈) - 揭示青藏高原对北极的影响
(大气动力机制、海-气相互作用、海洋电容器效应)
Oceanic Repeaters Boost the Global Climatic Impact of the Tibetan Plateau
发布时间:
- The impact of TP heating on current climate
(Previous studies focused on paleoclimate, Asian monsoon, without disentangling mechanical and thermal effects, and no multimodel comparison) - Pacific and Atlantic oceanic repeaters
(Heat and moisture transport, atmospheric circulation, and local air-sea interactions)
海-气相互作用促进了青藏高原热源的全球气候效应
发布时间:
- 揭示青藏高原热源对现代全球气候的影响
(以往研究多关注古气候、亚洲季风区、未区分机械和热力效应,且无多模式验证) - 阐明太平洋和大西洋的海洋中继器效应
(热量和水汽输送、大气环流途径、局地海-气反馈) - 揭示青藏高原对北极的影响
(大气动力机制、海-气相互作用、海洋电容器效应)
海-气相互作用促进了青藏高原热源的全球气候效应
发布时间:
- 揭示青藏高原热源对现代全球气候的影响
(以往研究多关注古气候、亚洲季风区、未区分机械和热力效应,且无多模式验证) - 阐明太平洋和大西洋的海洋中继器效应
(热量和水汽输送、大气环流途径、局地海-气反馈) - 揭示青藏高原对北极的影响
(大气动力机制、海-气相互作用、海洋电容器效应)
亚洲强化增温加剧了北极放大
发布时间:
- 发现了一个影响北极放大的新因素
- 揭示了亚洲强化增温对北极的影响
(大气动力机制、海-气相互作用、海洋电容器效应) - 拓展了青藏高原对全球气候的影响
Oceanic Repeaters Boost the Global Climatic Impact of the Tibetan Plateau
发布时间:
- The impact of TP heating on modern global climate
(Previous studies focused on paleoclimate, Asian monsoon, without disentangling mechanical and thermal effects, and no multimodel comparison) - Pacific and Atlantic oceanic repeaters
(Heat and moisture transport, atmospheric circulation, and local air-sea interactions) - The influence of TP warming on Arctic amplification
(Atmospheric dynamics, air-sea interactions, and capacitor effect of the Arctic Ocean)
Enhanced Asian Warming Increases Arctic Amplification
发布时间:
- A novel element contributing to Arctic amplification
- New climate effects of the Tibetan Plateau
- Physical processes and dynamical mechanisms
Oceanic Repeaters Boost the Global Climatic Impact of the Tibetan Plateau
发布时间:
ABSTRACT
The topography of the Tibetan Plateau (TP) has shaped the paleoclimatic evolution of the Asian monsoon. However, the influence of the TP on the global climate, beyond the domain of the Asian monsoon, remains unclear. Here we show that the Pacific, Atlantic, and Arctic Oceans act as efficient repeaters that boost the global climatic impact of the TP. The simulations demonstrate that oceanic repeaters enable TP heating to induce a wide-ranging climate response across the globe. A 1 °C TP warming can result in a 0.73 °C temperature increase over North America. Oceanic repeaters exert their influence by enhancing the air-sea interaction-mediated horizontal heat and moisture transport, as well as relevant atmospheric circulation pathways including westerlies, stationary waves, and zonal-vertical cells. Air-sea interactions were further tied to local feedbacks over the North Pacific, North Atlantic, and Arctic Oceans. Our findings highlight the crucial influence of TP heating variation on the current climate under a quasi-fixed topography, in contrast to topography change previously studied in paleoclimate evolution. Therefore, TP heating should be considered in research on global climate change.
Keywords: Tibetan Plateau, oceanic repeater, global climate, air-sea interactions, Pacific and Atlantic Oceans, Arctic
Multi-layered Interactions Underlying Arctic Amplification and Its Impact
发布时间:
ABSTRACT
This presentation will discuss the multi-layered interactions between the atmosphere, ocean, and sea ice to explore the mechanics of Arctic amplification and its effects on mid-latitudes. The main aspects encompass the factors contributing to Arctic amplification from an energy budget perspective, the two-way connections between the Arctic and mid-latitude regions based on a dynamic and thermodynamic coupling perspective, and the general mechanisms by which the Arctic or oceans influence distant land areas from a potential vorticity perspective.
Keywords: Arctic Amplification, Multi-layered Interactions, Mid-latitudes, Atmospheric Dynamics, Potential Vorticity
青藏高原热源的全球气候效应
发布时间:
- 揭示青藏高原热源对现代全球气候的影响 (以往研究多关注古气候、亚洲季风区、未区分机械和热力效应,且无多模式验证)
- 阐明太平洋和大西洋的海洋中继器效应 (热量和水汽输送、大气环流途径、局地海-气反馈)
- 发现青藏高原对北极的影响 (大气动力机制、海-气相互作用、海洋电容器效应)
Oceanic Repeaters Boost the Global Climatic Impact of the Tibetan Plateau
发布时间:
- The impact of TP heating on modern global climate (Previous studies focused on paleoclimate, Asian monsoon, without disentangling
mechanical and thermal effects, and no multimodel comparison) - Pacific and Atlantic oceanic repeaters (Heat and moisture transport, atmospheric circulation, and local air-sea interactions)
- The influence of TP warming on Arctic amplification (Atmospheric dynamics, air-sea interactions, and capacitor effect of the Arctic Ocean)
A Potential Vorticity Budget View of the Atmospheric Circulation Climatology over the Tibetan Plateau
发布时间:
- This study, based on the PV budget, shows the dynamics that shape the climatological circulation over the TP
- Overshooting in the summer and gravity wave drag in the winter play key roles
- The diurnal cycle shapes the near-surface cyclonic circulation in summer by regulating the vertical structure of diabatic heating
亚洲高山的强化增温造成北半球天气的变化
发布时间:
亚洲高山地区,常被称为地球的“第三极”,是全球变暖背景下一个至关重要的热点区域。然而,亚洲高山地区的强化增温对人口密集的北半球天气格局的影响目前仍未得到充分理解。基于观测和数值试验,我们证明了在1940年至2022年期间的夏季,亚洲高山地区的变暖使俄罗斯和加拿大的天气尺度温度变率(衡量天气波动的一个关键指标)显著增加了20%以上。相反,在冬季,它使北欧海和东欧地区的天气波动减弱了16%以上。造成这些天气波动变化的主要驱动因素是由亚洲高山地区变暖所引发的区域变暖差异,这种差异调节了高频水平温度平流。除东欧地区外,这一机制在大多数地区都起主导作用,而在东欧,高频大气环流变率则发挥着更为重要的作用。此外,亚洲高山地区变暖对遥远地区的变暖模态和环流变率的遥相关影响,与罗斯贝波和垂直环流圈有关。我们的研究结果表明,除了已被广泛认识的亚洲高山地区变暖对“第三极”局地环境的影响之外,亚洲高山地区的强化增温还对整个北半球的天气格局产生了至关重要的遥相关影响。
Changing Northern Hemisphere Weather Linked to Warming Amplification in High Mountain Asia
发布时间:
- Revealing HMA amplified warming impacts on synoptic temperature variability • + summer STV in Russia/Canada • – winter STV in Eastern Europe/Nordic Seas
亚洲高山区的强化增温调控北半球的天气变化
发布时间:
亚洲高山地区(HMA)是全球变暖背景下的关键热点区域。然而,这一地区显著的增温效应如何影响北半球极端天气相关的天气尺度温度变率(STV)仍不明确。基于观测数据和数值模拟实验,我们发现1940-2022年间,HMA增温放大效应使加拿大和俄罗斯夏季STV增加,却使东欧和北欧海冬季STV降低超16%,其主控机制为高频水平温度平流过程的改变。HMA通过同时改变温度梯度和高频大气环流变率共同调控平流过程:夏季该效应强化了加拿大和俄罗斯的区域温度梯度,冬季则削弱了北欧海的温度梯度。除东欧外,这种温度梯度主导机制在多数区域成立——该地区STV的减弱主要源于HMA增温引起的天气尺度环流变率降低。这些模式本质上源于HMA增温通过急流、罗斯贝波变化引发的大气反馈与海气相互作用,进而对半球尺度温度分布和环流稳定性产生的遥相关影响。本研究揭示,HMA放大增温效应不仅以”第三极”环境变化著称,更对北半球天气型态具有重大遥相关影响。
teaching
Meteorology of the Tibetan Plateau
Graduate course, Lanzhou University, College of Atmospheric Sciences, 2022
The course focuses on theoretical frameworks and computational simulations to analyze the climate effects of the Tibetan Plateau.
Meteorology of the Tibetan Plateau
Graduate course, Lanzhou University, College of Atmospheric Sciences, 2024
The course focuses on theoretical frameworks and computational simulations to analyze the climate effects of the Tibetan Plateau.
Climate and Climate System
Graduate course, Lanzhou University, College of Atmospheric Sciences, 2024
The course primarily examines Earth’s climate dynamics and the complex interactions within the multi-sphere climate system (including atmosphere, hydrosphere, cryosphere, biosphere, and lithosphere).
Introduction to Earth System Science
Graduate course, Lanzhou University, College of Atmospheric Sciences, 2024
The course provides a comprehensive introduction to the Earth System, covering its key components, interactions, and dynamics.
Meteorology of the Tibetan Plateau
Graduate course, Lanzhou University, College of Atmospheric Sciences, 2025
The course focuses on theoretical frameworks and computational simulations to analyze the climate effects of the Tibetan Plateau.
Climate and Climate System
Graduate course, Lanzhou University, College of Atmospheric Sciences, 2025
The course primarily examines Earth’s climate dynamics and the complex interactions within the multi-sphere climate system (including atmosphere, hydrosphere, cryosphere, biosphere, and lithosphere).
Introduction to Earth System Science
Graduate course, Lanzhou University, College of Atmospheric Sciences, 2025
The course provides a comprehensive introduction to the Earth System, covering its key components, interactions, and dynamics.