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Publications Citing Wildfires Data
List of peer-reviewed publications that cite using Wildfires data.
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| Title | Year Sort ascending | Author | Topic | Dataset |
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| A Modality-Aware Ensemble-of-Experts Model for Wildfire Spread Prediction | Andrianarivony, Henintsoa S., Akhloufi, Moulay A. | Fire Occurrence, Fire Dynamics, Burned Area | ||
| Artificial intelligence with earth observations provides continuous | Uddin, Shihab, Rajib, Adnan, Haider, M. Rezaul, Vanderhoof, Melanie, Luk Kim, I., Zhao, Lan | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Surface Thermal Properties, Land Surface Temperature, THERMAL ANOMALIES, Burned Area, Reflectance, Maximum/Minimum Temperature, 24 Hour Precipitation Amount, Snow Water Equivalent, Vapor Pressure, Shortwave Radiation, Evapotranspiration, Latent Heat Flux |
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| Arctic and Boreal Wildfires Impact Climate by Releasing Ancient Carbon and Light-Absorbing Particles | Ruppel, Meri. M., Somero, Markus, Sippula, Olli, Ihalainen, Mika, Louhisalmi, Juho, Tissari, Jarkko, Haghipour, Negar, Strom, Johan, Valiranta, Minna, Koster, Kajar, Vakkari, Ville, Jaars, Kerneels, Huang, Lin, Smittenberg, Rienk H. | Vegetation Cover, Forests, Biomass Burning, Surface Temperature, Precipitation Amount, Fire Dynamics, Fire Occurrence, Carbon, Burned Area, Biomass, Soil Moisture/Water Content, Topographic Effects | ||
| Arctic driftwood proposal for durable carbon removal | Buntgen, Ulf, Oppenheimer, Clive, Trnka, Mirek, Kempf, Michael, Holman, Ian, Arosio, Tito, Bebchuk, Tatiana, Esper, Jan | Forests, Fire Occurrence, Reforestation, Burned Area | ||
| Amazon forest nutrient limitation is mitigated by distant fire emissions | Descals, Adria, Janssens, Ivan A., Penuelas, Josep | Solar Induced Fluorescence, Chlorophyll, Primary Production, Leaf Characteristics, Reflectance, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar) |
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| Burning bans have altered burned area changes in China since 2003 | You, Chao, Wang, Jing, Dong, Xiao, Xu, Chao | Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | ||
| Carbon dioxide dynamics across three stages of tropical peatland | Kiew, Frankie, Hirata, Ryuichi, Hirano, Takashi, Wong, Guan Xhuan, Waili, Joseph Wenceslaus, Lo, Kim San, Soosaar, Kaido, Kasak, Kuno, Mander, Ulo, Melling, Lulie | Fire Occurrence, Wildfires, Particulate Matter, Emissions, Fire Dynamics | ||
| Characterizing Particulate Matter Impacts of Smoke From 2022 to 2023 | Sablan, Olivia, Ford, Bonne, Gargulinski, Emily, Henery, Giovanna L., Nowell, Holly, Rosen, Zoey, Slater, Kellin, Soja, Amber J., Wiese, Lisa K., Williams, Christine L., Magzamen, Sheryl, Fischer, Emily V., Pierce, Jeffrey R. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Heat Flux, Air Temperature, Skin Temperature, Specific Humidity, Water Vapor, Precipitation Rate, Snow/Ice, Evaporation, Latent Heat Flux, Latent Heat Flux, Sensible Heat Flux, Diffusion, Surface Winds, Wind Speed, U/V Wind Components, Wind Stress, Wind Stress, Surface Roughness, Planetary Boundary Layer Height, Ice Fraction, Aerosol Backscatter, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Aerosol Radiance, Carbonaceous Aerosols, Cloud Condensation Nuclei, Dust/Ash/Smoke, Nitrate Particles, Organic Particles, Particulate Matter, 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 |
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| Climate impacts from North American boreal forest fires | van Gerrevink, Max J., Veraverbeke, Sander, Cooperdock, Sol, Potter, Stefano, Zhong, Qirui, Moubarak, Michael, Virkkala, Anna-Maria, Goetz, Scott J., Mack, Michelle C., Randerson, James T., Schutgens, Nick, Turetsky, Merritt R., van der Werf, Guido R., Rogers, Brendan M. | Radiative Forcing, Forests, Alpine/Tundra, Albedo, Vegetation Cover, Biomass Burning, Surface Temperature, Precipitation Amount, Fire Dynamics, Fire Occurrence, Carbon, Burned Area, Biomass, Soil Moisture/Water Content, Topographic Effects, Emissions, Carbon, Land Use/Land Cover Classification, Reflectance, Dominant Species, Respiration Rate, Carbon Flux, Atmospheric Carbon Dioxide, Gross Primary Production (gpp), Soil Respiration, NET ECOSYSTEM CO2 EXCHANGE (NEE), Anisotropy |
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| Climate-Driven Changes in Wildfire Seasonality Across North America | Fan, Fanglu, Tao, Chenliang, Zhang, Yuqiang, Shindell, Drew, Zhang, Hongliang | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar) |
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| Long-Range Transport Pathways of Intense Wildfire Plumes in the Northern | Ehret, Antoine, Turquety, Solene, Da Silva, Anderson, George, Maya, HadjiLazaro, Juliette, Franco, Bruno, Clarisse, Lieven, Coheur, PierreFrancois, Clerbaux, Cathy | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Surface Thermal Properties, Land Surface Temperature, THERMAL ANOMALIES | ||
| Increasing synchronicity of global extreme fire weather | Yin, Cong, Abatzoglou, John T., Jones, Matthew W., Cullen, Alison C., Sadegh, Mojtaba, Wang, Juanle, Liu, Yangxiaoyue | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | ||
| Increased deciduous tree dominance reduces wildfire carbon losses in boreal forests | Black, Betsy, Walker, Xanthe J., Berner, Logan T., Dean, Jacqueline, Goetz, Scott J., Hansen, Winslow D., Potter, Stefano, Rogers, Brendan M., Talucci, Anna C., Mack, Michelle C. | Wildfires | ||
| Derivation and evaluation of Landsat-derived annual aboveground biomass | Liang, Wanwan, van Lier, Olivier, Friedl, Mark A., Randerson, James T., Rogers, Brendan M., Burrell, Arden, Hu, Kai-Ting, Tompalski, Piotr, Macander, Matthew J., Yang, Daryl, Morton, Douglas C., Bullock, Eric, Lu, Jiaming, Zhang, Yingtong, Zhu, Xiaoran, Wang, Jonathan A. | Biomass, Forests, Grasslands, Alpine/Tundra, Land Use/Land Cover Classification, Land Use Classes, Fire Occurrence, Reforestation, Burned Area |
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| Drought indices predict changes in live fuel moisture content (LFMC) | Liu, Xiangzhuo, Martin-StPaul, Nicolas, Ruffault, Julien, Lai, Gengke, Raynal, Kevyn, Raquel, RodriguezSuquet, Wang, Huan, Parsons, Russell, Dupuy, Jean-Luc, Pimont, Francois | Canopy Characteristics, Evergreen Vegetation, Crown, Deciduous Vegetation, Leaf Characteristics, Vegetation Cover, Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area |
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| Estimation of distribution of vegetation fire zones in the Russian Far East | Zubareva, . ., Glagolev, V. A. | Burned Area, Fire Dynamics, Fire Occurrence | ||
| Disentangling conservation asymmetries through socio-economic | Montti, Lia, Gasparri, N. Ignacio, Trumper, Ahuvit, Amicone, Claudia, Anticoli, Alberto, Burns, Sarah L., Casertano, Sergio, Eleuterio, Ana, Gennerich, MarieJoe, Giessen, Lukas, Gonzalez, M. Virginia, Santos Silva, Manuel, Vazquez, Fabricio, Velazco, Santiago J. E., Yanosky, Alberto, Zurita, Gustavo A., PiquerRodriguez, Maria | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | ||
| Divergent transboundary patterns and ecosystem-dependent drivers of | Xu, Jiale, Yang, Xingchuan, Shi, Leyan, Yang, Zhiqiang, Zhong, Yixue, Ma, Pengfei, Chen, Ankang, Zhang, Yichi, Zhao, Wenji | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | ||
| Higher tree diversity reduces the likelihood of Amazon tipping points | Van Passel, Johanna, Van Meerbeek, Koenraad, Bernardino, Paulo Negri, De Keersmaecker, Wanda, Lhermitte, Stef, Rius, Bianca Fazio, Somers, Ben | RADAR IMAGERY, Terrain Elevation, Topographical Relief Maps, Digital Elevation/Terrain Model (DEM), Albedo, Anisotropy, Reflectance, Canopy Characteristics, Evergreen Vegetation, Crown, Deciduous Vegetation, Leaf Characteristics, Vegetation Cover, Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area |
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| Fuel availability versus flammability: divergent fire controls across Eurasian drylands | Yu, Huiqian, Yang, Siquan, Lu, Nan, Yao, Qichao, Sun, Hongquan, He, Bin, Zhao, Ruxin, Fu, Bojie | Burned Area, Fire Dynamics, Fire Occurrence | ||
| Fire severity and carbon combustion from tussock tundra fires in Southwest Alaska | Diaz, Lucas R, Saperstein, Lisa B, van Gerrevink, Max J, Wangchuk, Sonam, Hessilt, Thomas D, Janssen, Thomas A J, Scholten, Rebecca C, Delcourt, Clement J F, Veraverbeke, Sander | Vegetation Cover, Forests, Biomass Burning, Surface Temperature, Precipitation Amount, Fire Dynamics, Fire Occurrence, Carbon, Burned Area, Biomass, Soil Moisture/Water Content, Topographic Effects | ||
| Evapotranspiration declines prolonged by deforestation and fire in South American biomes | Ahmad, Shahryar K., Holmes, Thomas R., Kumar, Sujay V., Lahmers, Timothy M., Konapala, Goutam, Getirana, Augusto, Nie, Wanshu, Liu, Pang-Wei, Hain, Christopher R., Locke, Kim A., Libonati, Renata | Precipitation, Precipitation Amount, Precipitation Rate, Snow, Rain, Atmospheric Ozone, Sea Level Pressure, Surface Pressure, U/V Wind Components, U/V Wind Components, Potential Vorticity, Vertical Wind Velocity/Speed, Vertical Profiles, Upper Air Temperature, Air Temperature, Relative Humidity, Specific Humidity, Atmospheric Water Vapor, Cloud Liquid Water/Ice, Altitude, Geopotential Height, Ozone Profiles, Land Use/Land Cover Classification, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area |
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| Millennial-scale fire and climate dynamics in the world's largest | Whitney, Bronwen S., Neves, Danilo M., Loughlin, Nicholas J.D., D'Apolito, Carlos, Coblinski Tavares, Carla, Hocking, Emma P., Mayle, Francis E., Power, Mitchell J., Silva, Aguinaldo, Assine, Mario L. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | ||
| Orchids in the Open: Understanding Biodiversity Beyond Madagascar's | Wieczorkowski, Jakub D., Rajaovelona, Landy R., Hermans, Johan, Stevart, Tariq, Razanajatovo, Henintsoa, Droissart, Vincent, Pennington, R. Toby, Zizka, Alexander, Lehmann, Caroline E. R. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | ||
| Scenario-based mapping reveals soil organic carbon responses to land-use change in the Amazon Basin | Ma, Lanji, Wang, Jiaxue, Wei, Yujiao, Yu, Peiheng, Hong, Yongsheng, Wu, Zihao, Liu, Yaolin, Zhang, Gan-Lin, Dematte, Jose A.M., Minasny, Budiman, Chen, Yiyun | Photosynthesis, Primary Production, Vegetation Productivity, Burned Area, Fire Dynamics, Fire Occurrence, Vegetation Index, Normalized Difference Vegetation Index (NDVI) |