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Publications Citing Sulfur Dioxide Data
List of peer-reviewed publications that cite using Sulfur Dioxide data.
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| Title | Year Sort ascending | Author | Topic | Dataset |
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| Interpreting hourly mass concentrations of PM2. 5 chemical components with an optimal deep-learning model | Li, Hongyi, Yang, Ting, Du, Yiming, Tan, Yining, Wang, Zifa | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10) | ||
| Investigating the impacts of Nyamuragira volcano eruption of 2006 on regional weather over the Congo Basin with the WRF-Chem model | Idrissa, Nkurunziza Fabien, Hu, Zhiyuan, Zhao, Chun, Du, Qiuyan, Lin, Shengfu, Feng, Jiawang | Sulfur Dioxide | ||
| Interaction influence characteristics of air quality and aerosol properties between Beijing-Tianjing-Hebei (BTH) and Yangtze River Delta (YRD), China | Chen, Guopan, Han, Yong, Wang, Xin, Zhang, Yurong, Liu, Yan, Dong, Li, Zhou, Qicheng, Xiao, Peng | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 10), PARTICULATE MATTER (PM 1.0) | ||
| Spatiotemporal analysis of PM2.5 and its cross-multifractality with black carbon and dust aerosols in Indian cities: crop residue burning impact | Chelani, Asha B. | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10) | ||
| Spatial analysis of cardiopulmonary disease risks linked to air pollution in Brazil | Moore, Julia Placido, Will, Robson, Bastos, Camilo Ribeiro, Requia, Weeberb J., Hoinaski, Leonardo | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10), Atmospheric Carbon Monoxide, Carbon Monoxide, Atmospheric Ozone |
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| Shortwave radiative impacts of the Asian Tropopause Aerosol Layer (ATAL) using balloon-borne in situ measurements at three distinct locations in India | Santhosh, Vadassery Neelamana, Madhavan, Bomidi Lakshmi, Akhil Raj, Sivan Thankamani, Ratnam, Madineni Venkat, Vernier, Jean-Paul, Wienhold, Frank Gunther | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10) | ||
| Satellite-based investigation of immediate impact of forest fires on the spatial distribution of aerosol loading over India | Ignatious, Angel, Lakshmi, N.B., Resmi, E.A., Sumesh, R.K., Rajeevan, M. | Precipitation, Precipitation Amount, Precipitation Rate, Snow, Rain, Dust/Ash/Smoke, Carbonaceous Aerosols, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Dimethyl Sulfide, Aerosol Particle Properties, Particulate Matter, Aerosols, Surface Pressure, Pressure Thickness, Relative Humidity, Sea Salt, Black Carbon, Air Mass/Density | ||
| XIS-PM2.5: A daily spatiotemporal machine-learning model for PM2.5 in | Just, Allan C., Arfer, Kodi B., Rush, Johnathan, Lyapustin, Alexei, Kloog, Itai | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10), Population Size, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) |
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| What can we learn about tropospheric OH from satellite observations of methane? | Penn, Elise, Jacob, Daniel J., Chen, Zichong, East, James D., Sulprizio, Melissa P., Bruhwiler, Lori, Maasakkers, Joannes D., Nesser, Hannah, Qu, Zhen, Zhang, Yuzhong, Worden, John | Carbonaceous Aerosols, Nitrogen Oxides, Particulates, Hydrogen Cyanide, Emissions, Non-methane Hydrocarbons/Volatile Organic Compounds, Particulate Matter, Fire Occurrence, Nitrogen Oxides, Sulfur Dioxide, Carbon And Hydrocarbon Compounds, Wetlands, Methane | ||
| Radiative response to large decline in anthropogenic emissions from China between 2008 and 2016 is modified by simultaneous biomass burning emission changes | Chen, Y., Turnock, S. T., Scott, C. E., Arnold, S. R. | Carbonaceous Aerosols, Nitrogen Oxides, Particulates, Hydrogen Cyanide, Emissions, Non-methane Hydrocarbons/Volatile Organic Compounds, Particulate Matter, Fire Occurrence, Nitrogen Oxides, Sulfur Dioxide, Carbon And Hydrocarbon Compounds, Aerosol Backscatter, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Aerosol Radiance, Cloud Condensation Nuclei, Dust/Ash/Smoke, Nitrate Particles, Organic Particles, Sulfate Particles, Trace Gases/Trace Species, Atmospheric Emitted Radiation, Emissivity, Optical Depth/Thickness, Radiative Flux, Reflectance, Transmittance, Atmospheric Stability, Humidity, Total Precipitable Water, Water Vapor Profiles, Cloud Condensation Nuclei, Cloud Droplet Concentration/Size, Cloud Liquid Water/Ice, Cloud Optical Depth/Thickness, Cloud Asymmetry, Cloud Ceiling, Cloud Frequency, Cloud Height, Cloud Top Pressure, Cloud Top Temperature, Cloud Vertical Distribution, Cloud Emissivity, Cloud Radiative Forcing, Cloud Reflectance, Rain Storms, Atmospheric Ozone | ||
| Quantifying biases in TROPESS AIRS, CrIS, and joint AIRS+ OMI tropospheric ozone products using ozonesondes | Pennington, Elyse A., Osterman, Gregory B., Payne, Vivienne H., Miyazaki, Kazuyuki, Bowman, Kevin W., Neu, Jessica L. | Dust/Ash/Smoke, Sulfur Dioxide, Infrared Radiance, Brightness Temperature, Carbon Monoxide, Tropospheric Ozone, Geopotential Height, Tropopause, Atmospheric Ozone, Surface Pressure, Outgoing Longwave Radiation, Surface Temperature, Air Temperature, Skin Temperature, Upper Air Temperature, Humidity, Layered Precipitable Water, Total Precipitable Water, Water Vapor Profiles, Water Vapor Concentration Profiles, Cloud Liquid Water/Ice, Cloud Fraction, Cloud Height, Cloud Top Pressure, Cloud Top Temperature, Cloud Vertical Distribution, Emissivity, Skin Temperature, Sea Surface Temperature |
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| Regional hotspots of change in northern high latitudes informed by observations from space | Watts, Jennifer D., Potter, Stefano, Rogers, Brendan M., Virkkala, AnnaMaria, Fiske, Greg, Arndt, Kyle A., Burrell, Arden, Butler, Kevin, Gerlt, Bob, Grayson, John, Shestakova, Tatiana A., Du, Jinyang, Kim, Youngwook, Parmentier, FransJan W., Natali, Susan M. | Vegetation Index, Landscape Patterns, Carbonaceous Aerosols, Nitrogen Oxides, Particulates, Hydrogen Cyanide, Emissions, Non-methane Hydrocarbons/Volatile Organic Compounds, Particulate Matter, Fire Occurrence, Nitrogen Oxides, Sulfur Dioxide, Carbon And Hydrocarbon Compounds, Normalized Difference Vegetation Index (NDVI), Soil Moisture, Snow Cover, Seasonally Frozen Ground, Air Temperature, Active Layer, Vapor Pressure, Surface Water, Cryospheric Indicators, Vegetation Cover, Vegetation Optical Depth, Precipitation Trends | ||
| Regional-specific trends of PM2.5 and O3 temperature sensitivity in the United States | Yin, Lifei, Bai, Bin, Zhang, Bingqing, Zhu, Qiao, Di, Qian, Requia, Weeberb J., Schwartz, Joel D., Shi, Liuhua, Liu, Pengfei | Carbonaceous Aerosols, Nitrogen Oxides, Particulates, Hydrogen Cyanide, Emissions, Non-methane Hydrocarbons/Volatile Organic Compounds, Particulate Matter, Fire Occurrence, Nitrogen Oxides, Sulfur Dioxide, Carbon And Hydrocarbon Compounds, Maximum/Minimum Temperature, 24 Hour Precipitation Amount, Snow Water Equivalent, Shortwave Radiation, Vapor Pressure | ||
| How much do atmospheric depressions and Mongolian cyclones contribute to spring dust activities in East Asia? | Mu, Feifei, Fiedler, Stephanie | Aerosols, Carbonaceous Aerosols, Dust/Ash/Smoke, Sulfur Dioxide, Sulfur Oxides, Sulfate, Sulfate Particles, Sulfur Oxides, Particulate Matter, Emissions, UV Aerosol Index, Gas/Aerosol Composition, Aerosol Extinction, Deposition | ||
| Impact of military activity on atmospheric aerosol characteristics in Ukraine and Kyiv city | Wei, Xuanyi, Yukhymchuk, Yuliia, Danylevsky, Vassyl, Milinevsky, Gennadi, Goloub, Philippe, Fesianov, Ihor, Syniavskyi, Ivan, Turos, Olena, Maremukha, Tetiana, Petrosian, Arina, Kyslyi, Volodymyr, Shi, Yu | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10) | ||
| Quantifying uncertainties in satellite NO2 superobservations for data assimilation and model evaluation | Rijsdijk, Pieter, Eskes, Henk, Dingemans, Arlene, Boersma, K. Folkert, Sekiya, Takashi, Miyazaki, Kazuyuki, Houweling, Sander | Sulfur Dioxide | ||
| Reconstructing missing surface aerosol elemental carbon data in long-term series with ensemble learning | Meng, Qingxiao, Zhang, Yunjiang, Zhong, Sheng, Fang, Jie, Tang, Lili, Rao, Yongcai, Zhou, Minfeng, Qiu, Jian, Xu, Xiaofeng, Petit, Jean-Eudes, Favez, Olivier, Ge, Xinlei | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10), Emissions, UV Aerosol Index, Gas/Aerosol Composition, Deposition |
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| Precipitation anomalies and all-cause mortality among cancer patients: a UK biobank cohort analysis | Wu, Jingyi, Zhou, Chunmiao, Li, Pengfei, Zhang, Luxia | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10) | ||
| Optimizing GAIN model to improve AOD imputation using MODIS MAIAC data and multi-source data fusion as an example | Malarvizhi, Anusha Srirenganathan, Pan, Phoebe, Stover, Tayven, Sun, Donglian, Yang, Chaowei | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10) | ||
| Large increase in anthropogenic emissions in an urban environment and their associated air quality implications | Ahmad, Mubarak, Ahmad, Maqbool, Alam, Khan, Zeb, Bahadar, Khan, Komal, Ditta, Allah | Nitrogen Dioxide, Sulfur Dioxide |
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| Nucleation mode aerosol particles estimation using satellite-based proxies over western Himalayan region, Uttarakhand, India | Singh, Karan, Gautam, Alok Sagar, Kumar, Sanjeev | Ultraviolet Radiation, Solar Irradiance, Nitrogen Dioxide, Sulfur Dioxide, Nitrogen Dioxide |
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| Pollution and innovation: Evidence from manufacturing firms in China | Cui, Hongxia, Pu, Long | Geopotential Height, Atmospheric Ozone, Sea Level Pressure, Surface Pressure, Upper Air Temperature, Vertical Profiles, Air Temperature, Specific Humidity, U/V Wind Components, U/V Wind Components, Ozone Profiles, Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 10), PARTICULATE MATTER (PM 1.0) |
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| Nationwide decline of wet sulfur deposition in China from 2013 to 2023 | Xi, Yue, Wang, Qiufeng, Zhu, Jianxing, Hao, Tianxiang, Zhang, Qiongyu, Chen, Yanran, Tai, Zihan, Lin, Quanhong, Wang, Hao | Sulfur Dioxide | ||
| Natural and continental influence on aerosol distributions over the northwestern Pacific Ocean in the late winter and early spring of 2021 | Miyakawa, Takuma, Kinase, Takeshi, Kurisu, Minako, Taniguchi, Kyoko, Katsumata, Masaki, Takashima, Hisahiro, Taketani, Fumikazu, Kanaya, Yugo | Sulfur Dioxide | ||
| Midlatitude spatial and temporal correlations between aerosol properties and weather extremes | Mandija, Florian, Caushaj, Megi, Premti, Dhurata, Keckhut, Philippe, Alraddawi, Dunya, Frasheri, Neki, Vila, Floran | Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 10), PARTICULATE MATTER (PM 1.0), Air Temperature, Extreme Drought, Heat/Cold Wave Frequency/Intensity, Extreme Precipitation, Precipitation Rate |
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