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Publications Citing Atmosphere Data
List of peer-reviewed publications that cite using Atmosphere data.
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| Title | Year Sort ascending | Author | Topic | Dataset |
|---|---|---|---|---|
| Incorporating Gas-Phase Chemistry Into the Unified Forecast System (UFS) | He, Jian, Zhang, Li, Schwantes, Rebecca H., Baker, Barry, Horowitz, Larry, Naik, Vaishali, Lyu, Congmeng, Moon, Zachary, Grell, Georg, Ahmadov, Ravan, Schnell, Jordan, Yang, Kai, Wei, Zigang, Wang, Siyuan, Chang, KaiLan, Gorchov Negron, Alan M., Zhu, Aihua, Kondragunta, Shobha, Apel, Eric C., Bourgeois, Ilann, Commane, Roisin, Hall, Samuel R., Hills, Alan, Hornbrook, Rebecca S., Peischl, Jeff, Ullmann, Kirk, Abad, Gonzalo Gonzalez, Ayazpour, Zolal, Nowlan, Caroline, McDonald, Brian C. | Atmospheric Chemistry, Carbon And Hydrocarbon Compounds, Air Quality, Carbon Monoxide, Atmospheric Temperature, Surface Temperature, Atmospheric Pressure, Surface Pressure, Atmospheric Water Vapor, Water Vapor Indicators, Water Vapor, Carbon Monoxide Profiles, Nitrogen Dioxide, Formaldehyde, Atmospheric Ozone, Nitrogen Dioxide |
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| Nighttime light data as a proxy for assessing air pollution in urban | Jalathota, Anisha, Pathakoti, Mahesh, Saxena, Jaya, Asuri, Kanchana Lakshmi, Dangeti, Mahalakshmi Venkata, Gowda, Ramesh H., Kumar, Sampath, Goru, Srinivasa Rao, Chauhan, Prakash | Carbon Monoxide, Atmospheric Chemistry, Air Quality, Atmospheric Temperature, Surface Temperature, Atmospheric Pressure, Surface Pressure, Atmospheric Water Vapor, Water Vapor Indicators, Water Vapor, Carbon Monoxide Profiles | ||
| Revealing the Formation and Control of NYC Downwind Coastal High Ozone | Zhang, Jie, Li, Yaowei, Sullivan, John, Zhu, Tianyu, Catena, Alexandra, Schwab, Margaret J., Guo, Yuhang, Mao, Jingbo, Teora, Amanda, Schwab, James | Volatile Organic Compounds, Formaldehyde | ||
| Statistics of glinting clouds observed by DSCOVR and geostationary satellites | Varnai, Tamas, Marshak, Alexander, Kostinski, Alexander | Atmospheric Radiation, Clouds, Cloud Optical Depth/Thickness, Cloud Height, Cloud Properties, Cloud Top Height, Cloud Microphysics, Cloud Droplet Concentration/Size, Longwave Radiation, Shortwave Radiation | ||
| TopDown Estimates of US NOx Emissions Using TEMPO and TROPOMI NO2 Remote Sensing Observations With WRFChem/ChemDART | Hsu, ChiaHua, Henze, Daven K., Mizzi, Arthur P., Harkins, Colin, Lyu, Congmeng, Cooper, Owen R., Schwantes, Rebecca H., He, Jian, Li, Meng, Wang, Siyuan, Stockwell, Chelsea E., Warneke, Carsten, Rollins, Andrew W., Waxman, Eleanor M., Zuraski, Kristen, Peischl, Jeff, Kondragunta, Shobha, Li, Fangjun, Xu, Chuanyu, Pierce, R. Bradley, Abad, Gonzalo Gonzalez, Nowlan, Caroline R., Liu, Xiong, McDonald, Brian C. | Nitrogen Dioxide, Nitrogen Oxides | ||
| Diverse Cloud Regimes in the Northeast Pacific: Evaluating a Mesoscale NWP Model With Shipborne Observations | Simonson, Julia M., Angevine, Wayne M., Olson, Joseph B., Turner, David D. | Cloud Optical Depth/Thickness, Cloud Midlayer Temperature, Cloud Fraction, Cloud Liquid Water/Ice, Cloud Base Height, Cloud Base Pressure, Cloud Top Pressure, Cloud Top Height, Cloud Top Temperature, Cloud Base Temperature | ||
| Retrieving Atmospheric Water Vapor Content From Grazing Angle GNSS Reflectometry Measurements: Methodology and Performance Assessment | Roesler, C. J. | Water Vapor Profiles | ||
| Decadal observations of global daytime cloud properties from DSCOVR–EPIC | Yang, Y | Cloud Properties | ||
| Global Ionospheric F Region Parameters From GNSS‐POD Limb Measurements: Evaluations and Comparisons With Two Empirical Models ‐ IRI‐2020 and NeQuick‐2 | Swarnalingam, N. | Atmosphere | ||
| Exploring commercial Global Navigation Satellite System (GNSS) radio occultation (RO) products for planetary boundary layer studies in the Arctic | Ganeshan, M. | Atmosphere | ||
| GNSS-RO residual ionospheric error (RIE): a new method and assessment | Wu, D. L. | Atmosphere | ||
| Quantifying geomagnetic activity's contribution to the Global E‐region Electron density's day‐to‐day variability using Spire Radio Occultation observations | Salinas, C. C. | Atmosphere | ||
| Data-driven model for predicting peatland fire hotspots and carbon emissions in South Kalimantan | Kurniawan, Riski, Muttaqien, Furqon H., Syafarina, Inna, Belgaman, Halda Aditya, Dewi, Saraswati, Latifah, Arnida L. | 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 | ||
| Data-driven modeling indicates projected increase in plant production confines warming-induced topsoil organic carbon change in China within a small range in the 21st Century | Li, Huiwen, Cao, Yue, Wu, Yiping, Liu, Shuguang, Zhao, Wenzhi, Zhou, Guoyi, Xiao, Jingfeng, Alexandrov, Georgii, Qiu, Linjing | Discharge, Soil Depth, Biomass, Soil Moisture/Water Content, Albedo, Leaf Characteristics, Photosynthetically Active Radiation, Carbon, Respiration Rate, Atmospheric Water Vapor, Runoff | ||
| Coupled hydrologic-electromagnetic framework to model permafrost active | Bakian-Dogaheh, Kazem, Zhao, Yuhuan, Kimball, John S., Moghaddam, Mahta | Forests, Vegetation, Methane, Atmospheric Carbon Dioxide, Permafrost, Alpine/Tundra | ||
| Coupled tropospheric and stratospheric dynamics of Kelvin waves over | Szkolka, Wojciech, Baranowski, Dariusz B., Flatau, Maria K., Flatau, Piotr J., Marzuki, Shimomai, Toyoshi, Hashiguchi, Hiroyuki | Precipitation, Precipitation Amount, Precipitation Rate, Snow, Rain | ||
| Daily spatial temperature range: Spatiotemporal pattern and climate change response | Liu, Fayong, Zou, Xinyu, Huang, Yuanyuan | Surface Temperature, Skin Temperature, Upper Air Temperature, Air Temperature, Atmospheric Winds, Surface Winds, U/V Wind Components, Atmospheric Pressure, Sea Level Pressure, Surface Pressure, Specific Humidity, Total Precipitable Water, Cloud Liquid Water/Ice, Atmospheric Water Vapor, Atmospheric Ozone, Oxygen Compounds, Altitude, Boundary Layer Winds | ||
| Data supporting the North Atlantic Climate System Integrated Study (ACSIS) programme, including atmospheric composition; oceanographic and sea-ice ... | Archibald, Alex T., Sinha, Bablu, Russo, Maria R., Matthews, Emily, Squires, Freya A., Abraham, N. Luke, Bauguitte, Stephane J.-B., Bannan, Thomas J., Bell, Thomas G., Berry, David, Carpenter, Lucy J., Coe, Hugh, Coward, Andrew, Edwards, Peter, Feltham, Daniel, Heard, Dwayne, Hopkins, Jim, Keeble, James, Kent, Elizabeth C., King, Brian A., Lawrence, Isobel R., Lee, James, Macintosh, Claire R., Megann, Alex, Moat, Bengamin I., Read, Katie, Reed, Chris, Roberts, Malcolm J., Schiemann, Reinhard, Schroeder, David, Smyth, Timothy J., Temple, Loren, Thamban, Navaneeth, Whalley, Lisa, Williams, Simon, Wu, Huihui, Yang, Mingxi | Atmospheric Carbon Monoxide, Carbonaceous Aerosols, Air Quality, Trace Gases/Trace Species, Non-methane Hydrocarbons/Volatile Organic Compounds, Industrial Emissions, Fossil Fuel Burning, Biomass Burning, Atmospheric Carbon Dioxide, Sulfur Compounds, Halocarbons And Halogens, Atmospheric Ozone | ||
| Coupling Remote Sensing With a Process Model for the Simulation of | Xia, Yushu, Sanderman, Jonathan, Watts, Jennifer D., Machmuller, Megan B., Mullen, Andrew L., Rivard, Charlotte, Endsley, Arthur, Hernandez, Haydee, Kimball, John, Ewing, Stephanie A., Litvak, Marcy, Duman, Tomer, Krishnan, Praveena, Meyers, Tilden, Brunsell, Nathaniel A., Mohanty, Binayak, Liu, Heping, Gao, Zhongming, Chen, Jiquan, Abraha, Michael, Scott, Russell L., Flerchinger, Gerald N., Clark, Patrick E., Stoy, Paul C., Khan, Anam M., Brookshire, E. N. Jack, Zhang, Quan, Cook, David R., Thienelt, Thomas, Mitra, Bhaskar, MauritzTozer, Marguerite, Tweedie, Craig E., Torn, Margaret S., Billesbach, Dave | Reflectance, Anisotropy, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Precipitation Amount, Maximum/Minimum Temperature, Shortwave Radiation, Snow Water Equivalent, Vapor Pressure |
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| COVID lockdowns significantly affect statewide atmospheric fine aerosols | Etchie, Tunde O., Etchie, Ayotunde T., Pinker, Rachel T., Kumar, Prashant, Swaminathan, Nedunchezhian | Aerosol Optical Depth/Thickness | ||
| Current and future methane emissions from boreal-Arctic wetlands and lakes | Kuhn, McKenzie, Olefeldt, David, Arndt, Kyle A., Bastviken, David, Bruhwiler, Lori, Crill, Patrick, DelSontro, Tonya, Fluet-Chouinard, Etienne, Grosse, Guido, Hovemyr, Mikael, Hugelius, Gustaf, MacIntyre, Sally, Malhotra, Avni, McGuire, A. David, Oh, Youmi, Poulter, Benjamin, Treat, Claire C., Turetsky, Merritt R., Varner, Ruth K., Walter Anthony, Katey M., Watts, Jennifer D., Zhang, Zhen | Methane, Surface Water Processes/Measurements, Wetlands | ||
| Decomposing the bias of shortwave cloud radiative effect in a climate model using machine learning | Yang, Hongtao, Chen, Guoxing, Wang, WeiChyung, Bao, Qing, Li, Jiandong | Optical Depth/Thickness, Clouds, Cloud Condensation Nuclei, Cloud Droplet Concentration/Size, Cloud Liquid Water/Ice, Cloud Optical Depth/Thickness, Cloud Precipitable Water, Cloud Frequency, Cloud Height, Cloud Top Pressure, Cloud Vertical Distribution | ||
| Decomposition and Attribution of Land Surface Temperature Bias Over | Zhang, Guo, Zhang, Yanwu, Lu, Yixiong, Cao, Xuan, Cai, Xitian, Yang, Kai, Li, Jianduo, Li, Weiping, Shi, Xueli | Surface Pressure, Heat Flux, Longwave Radiation, Shortwave Radiation, Surface Temperature, Humidity, Evapotranspiration, Surface Winds, Rain, Precipitation Rate, Snow, Soil Moisture/Water Content, Soil Temperature, Land Surface Temperature, Snow Water Equivalent, Runoff | ||
| Deciphering Surface Water-Groundwater Connectivity Using Chemical and Stable Isotope Tracers (H and O) in the Headwaters of Sao Francisco River, Brazil | de Carvalho Ramos, Marcela Aragao, Quaggio, Carolina Stager, dos Santos, Vinicius, Costa, Vladimir Eliodoro, de Vasconcelos Muller, Camila, Athayde, Gustavo Barbosa, Kirchheim, Roberto, Gastmans, Didier | Carbon Monoxide, Geopotential Height, Tropopause, Methane, Atmospheric Ozone, Surface Pressure, Outgoing Longwave Radiation, Air Temperature, Upper Air Temperature, Humidity, Total Precipitable Water, Water Vapor, Water Vapor Profiles, Cloud Liquid Water/Ice, Cloud Height, Cloud Top Pressure, Cloud Top Temperature, Cloud Vertical Distribution, Emissivity, Skin Temperature, Sea Surface Temperature | ||
| Decline of Poyang floodplain lakes under extreme dry conditions and interpretation of influencing factors | Jia, Yuxue, Zhang, Qi, Xue, Chenyang, Wu, Biqiong, Zhang, Hairong, Wang, Jin | Precipitation, Precipitation Amount, Precipitation Rate, Snow, Rain |