Chenguang Tian
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View article: Unequal socioeconomic exposure to drought extremes induced by stratospheric aerosol injection
Unequal socioeconomic exposure to drought extremes induced by stratospheric aerosol injection Open
As global temperature rises, the severity and frequency of droughts are projected to increase. Stratospheric aerosol injection (SAI) has been proposed as a potential solution to reduce surface temperatures, but its effectiveness in allevia…
View article: Supplementary material to "The radiative forcing of PM<sub>2.5</sub> heavy pollution, its influencing factors and importance to precipitation during 2014–2023 in the Bohai Rim, China"
Supplementary material to "The radiative forcing of PM<sub>2.5</sub> heavy pollution, its influencing factors and importance to precipitation during 2014–2023 in the Bohai Rim, China" Open
View article: The radiative forcing of PM <sub>2.5</sub> heavy pollution, its influencing factors and importance to precipitation during 2014–2023 in the Bohai Rim, China
The radiative forcing of PM <sub>2.5</sub> heavy pollution, its influencing factors and importance to precipitation during 2014–2023 in the Bohai Rim, China Open
There were PM2.5 heavy pollution events in the Bohai Rim regions in China over the past decade, which can significantly affect radiative forcing (RF). However, the characteristics and influencing factors of RF on heavy pollution days, and …
View article: Synergistic governance of carbon emissions and PM2.5 pollution: Evidence from environmental rebound effect in China
Synergistic governance of carbon emissions and PM2.5 pollution: Evidence from environmental rebound effect in China Open
The existence of environmental rebound effect (ERE) threatens sustainability-oriented efforts. Under the dual pressure of climate change and air pollution, how to realize the synergistic governance on the ERE for carbon emissions and PM2.5…
View article: Global high-resolution fire-sourced PM <sub>2.5</sub> concentrations for 2000–2023
Global high-resolution fire-sourced PM <sub>2.5</sub> concentrations for 2000–2023 Open
Fires are a significant disturbance in Earth's systems. Smoke aerosols emitted from fires can cause environmental degradation and climatic perturbations, leading to exacerbated air pollution and posing hazards to public health. However, re…
View article: Projection of Future Fire Weather in Eurasia by Mid‐21st Century
Projection of Future Fire Weather in Eurasia by Mid‐21st Century Open
The accelerating impacts of global climate change have led to an increase in fire activity across Eurasia in recent years. Understanding how fire risk evolves under future climate scenarios is critical for effective management. This study …
View article: Unequal socioeconomic exposure to drought extremes induced by stratospheric aerosol geoengineering
Unequal socioeconomic exposure to drought extremes induced by stratospheric aerosol geoengineering Open
As global temperature rises, the severity and frequency of droughts are projected to increase. Stratospheric aerosol geoengineering (SAG) has been proposed as a potential solution to reduce surface temperatures, but its effectiveness in al…
View article: Supplementary material to "Unequal socioeconomic exposure to drought extremes induced by stratospheric aerosol geoengineering"
Supplementary material to "Unequal socioeconomic exposure to drought extremes induced by stratospheric aerosol geoengineering" Open
View article: Impacts of El Niño–Southern Oscillation on global fire PM2.5 during 2000–2023
Impacts of El Niño–Southern Oscillation on global fire PM2.5 during 2000–2023 Open
View article: Global Solar Droughts Due To Supply‐Demand Imbalance Exacerbated by Anthropogenic Climate Change
Global Solar Droughts Due To Supply‐Demand Imbalance Exacerbated by Anthropogenic Climate Change Open
Solar power will become the largest renewable energy source, contributing to global carbon neutrality. In addition to the well‐recognized temporal intermittency of solar energy supply, the local energy demand to cope with extreme weathers …
View article: Supplementary material to "Global high-resolution fire-sourced PM<sub>2.5</sub> concentrations for 2000–2023"
Supplementary material to "Global high-resolution fire-sourced PM<sub>2.5</sub> concentrations for 2000–2023" Open
View article: Global high-resolution fire-sourced PM <sub>2.5</sub> concentrations for 2000–2023
Global high-resolution fire-sourced PM <sub>2.5</sub> concentrations for 2000–2023 Open
Fires are a significant disturbance in Earth’s systems. Smoke aerosols emitted from fires can cause environmental degradation and climatic perturbations, leading to exacerbated air pollution and posing hazards to public health. However, re…
View article: Global assessment of climatic responses to ozone–vegetation interactions
Global assessment of climatic responses to ozone–vegetation interactions Open
The coupling between surface ozone (O3) and vegetation significantly influences the regional to global climate. O3 uptake by plant stomata inhibits the photosynthetic rate and stomatal conductance, impacting evapotranspiration through land…
View article: Development and evaluation of the interactive Model for Air Pollution and Land Ecosystems (iMAPLE) version 1.0
Development and evaluation of the interactive Model for Air Pollution and Land Ecosystems (iMAPLE) version 1.0 Open
Land ecosystems are important sources and sinks of atmospheric components. In turn, air pollutants affect the exchange rates of carbon and water fluxes between ecosystems and the atmosphere. However, these biogeochemical processes are usua…
View article: Comment on egusphere-2024-365
Comment on egusphere-2024-365 Open
Abstract. The coupling between surface ozone (O3) and vegetation significantly influences regional to global climate. O3 uptake by plant stomata inhibits photosynthetic rate and stomatal conductance, …
View article: Comment on egusphere-2024-365
Comment on egusphere-2024-365 Open
Abstract. The coupling between surface ozone (O3) and vegetation significantly influences regional to global climate. O3 uptake by plant stomata inhibits photosynthetic rate and stomatal conductance, …
View article: Global assessment of climatic responses to the ozone-vegetation interactions
Global assessment of climatic responses to the ozone-vegetation interactions Open
The coupling between surface ozone (O3) and vegetation significantly influences regional to global climate. O3 uptake by plant stomata inhibits photosynthetic rate and stomatal conductance, impacting evapotranspiration through land surface…
View article: Supplementary material to "Global assessment of climatic responses to the ozone-vegetation interactions"
Supplementary material to "Global assessment of climatic responses to the ozone-vegetation interactions" Open
Fig. S1.The cover fraction of 8 plant functional types (PFTs) from the LUH2 used in the ModelE2-YIBs model.
View article: Comment on gmd-2023-144
Comment on gmd-2023-144 Open
Abstract. Land ecosystems are important sources and sinks of atmospheric components. In turn, air pollutants affect the exchange rates of carbon and water fluxes between ecosystems and atmosphere. However, these biogeochem…
View article: Responses of ecosystem productivity to anthropogenic ozone and aerosols at 2060 under different emission scenarios
Responses of ecosystem productivity to anthropogenic ozone and aerosols at 2060 under different emission scenarios Open
Anthropogenic emissions contribute a significant percentage to surface ozone (O3) and aerosols globally. The rate of plant photosynthesis, which represents the capability of terrestrial ecosystems to sequester carbon dioxide (CO2), is sign…
View article: Increasing impacts of fire air pollution on public and ecosystem health
Increasing impacts of fire air pollution on public and ecosystem health Open
View article: Climatic drivers of the Canadian wildfire episode in 2023
Climatic drivers of the Canadian wildfire episode in 2023 Open
Extreme wildfires broke out in Canada from May 2023 and persisted four months. Tremendous fire emissions posed significant impacts on the air quality in both local and downwind regions. Here, we explored the meteorological factors driving …
View article: Impacts of terrestrial vegetation on surface ozone in China: from present to carbon neutrality
Impacts of terrestrial vegetation on surface ozone in China: from present to carbon neutrality Open
Despite many efforts to control anthropogenic sources, high ambient ozone (O 3 ) concentrations remain a serious air pollution problem in China. Terrestrial vegetation can remove surface O 3 through dry deposition but also enhance surface …
View article: Spatiotemporal Patterns and Synergy of the Environmental Rebound Effect: Evidence from Carbon Emissions and Pm2.5 Pollution in China
Spatiotemporal Patterns and Synergy of the Environmental Rebound Effect: Evidence from Carbon Emissions and Pm2.5 Pollution in China Open
View article: Responses of Ecosystem Productivity to Anthropogenic Ozone and Aerosols at the 2060
Responses of Ecosystem Productivity to Anthropogenic Ozone and Aerosols at the 2060 Open
Terrestrial ecosystems help mitigate global warming by sequestering atmospheric carbon dioxide (CO 2 ) through plant photosynthesis, the rate of which is affected by surface ozone (O 3 ) and aerosols under simultaneous impacts of climate c…
View article: Synergistic Governance of Carbon Emissions and Pm2.5 Pollution: Evidence from Environmental Rebound Effect in China
Synergistic Governance of Carbon Emissions and Pm2.5 Pollution: Evidence from Environmental Rebound Effect in China Open
View article: Identifying the main drivers of the spatiotemporal variations in wetland methane emissions during 2001–2020
Identifying the main drivers of the spatiotemporal variations in wetland methane emissions during 2001–2020 Open
Wetlands act as an important natural source of global methane (CH 4 ). The emission rate of wetland CH 4 is jointly affected by climate change, carbon dioxide (CO 2 ) fertilization, and wetland distribution. In this study, we implemented a…
View article: Distinguishing the main climatic drivers to the variability of gross primary productivity at global FLUXNET sites
Distinguishing the main climatic drivers to the variability of gross primary productivity at global FLUXNET sites Open
Climate exerts both short-term and long-term impacts on the ecosystem carbon assimilation. However, the main climatic drivers for the variability of gross primary productivity (GPP) remain unclear across various timescales and vegetation t…
View article: Supplementary material to "Development and evaluation of the interactive Model for Air Pollution and Land Ecosystems (iMAPLE) version 1.0"
Supplementary material to "Development and evaluation of the interactive Model for Air Pollution and Land Ecosystems (iMAPLE) version 1.0" Open
View article: Development and evaluation of the interactive Model for Air Pollution and Land Ecosystems (iMAPLE) version 1.0
Development and evaluation of the interactive Model for Air Pollution and Land Ecosystems (iMAPLE) version 1.0 Open
Land ecosystems are important sources and sinks of atmospheric components. In turn, air pollutants affect the exchange rates of carbon and water fluxes between ecosystems and atmosphere. However, these biogeochemical processes are usually …