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Publications Citing GEDI Data
List of peer-reviewed publications that cite using GEDI data.
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| Title | Year Sort ascending | Author | Topic | Dataset |
|---|---|---|---|---|
| Sub-hectare resolution forest biomass mapping from Copernicus DEM with low-dimensional models | Soja, Maciej J., Santoro, Maurizio, Banda, Francesco, Tebaldini, Stefano, Lisiewicz, Maciej, Sterenczak, Krzysztof, Quegan, Shaun, Janssen, Sander, Reiche, Johannes | Terrestrial Ecosystems, Biomass, LIDAR WAVEFORM, Forests | ||
| The unrealized potential of agroforestry for an emissions-intensive agricultural commodity | Becker, Alexander, Wegner, Jan D., Dawoe, Evans, Schindler, Konrad, Thompson, William J., Bunn, Christian, Garrett, Rachael D., Castro-Llanos, Fabio, Hart, Simon P., Blaser-Hart, Wilma J. | Forests, Evergreen Vegetation, Deciduous Vegetation, Shrubland/Scrub, Biomass, Grasslands, LIDAR WAVEFORM, Canopy Characteristics | ||
| The utility of dynamic forest structure from GEDI lidar fusion in tropical mammal species distribution models | Burns, Patrick, Kaszta, Zaneta, Cushman, Samuel A., Brodie, Jedediah F., Hakkenberg, Christopher R., Jantz, Patrick, Deith, Mairin, Luskin, Matthew Scott, Ball, James G. C., Mohd-Azlan, Jayasilan, Burslem, David F. R. P., Cheyne, Susan M., Haidir, Iding, Hearn, Andrew James, Slade, Eleanor, Williams, Peter J., Macdonald, David W., Goetz, Scott J. | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height, LIDAR WAVEFORM, Terrain Elevation, Digital Elevation/Terrain Model (DEM) | ||
| Spring phenology and productivity alter vegetation vulnerability under | Zhang, Gengxi, Wang, Huimin, Zhang, Shuyu, Gan, Thian Yew, Zhao, Jin, Su, Xiaoling, Fu, Xiaolei | Land Use/Land Cover Classification, Terrestrial Ecosystems, Biomass, LIDAR WAVEFORM | ||
| Species distribution models predict a future decline in urban avian biodiversity in response to changes in land use and climatic conditions | Buhrs, Malte, Rienow, Andreas, Zepp, Harald | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height | ||
| Towards 90 m resolution digital terrain model combining ICESat-2 and GEDI data: Balancing accuracy and sampling intensity | Pracna, Petra, Sarovcova, Eliska, Liu, Xiao, Eltner, Anette, Maresova, Jana, Gdulova, Katerina, Urbazaev, Mikhail, Torresani, Michele, Kozhoridze, Giorgi, Moudry, Vitezslav | LIDAR WAVEFORM, Canopy Characteristics, Terrain Elevation | ||
| Use of GLOBE observer citizen science data to validate continental-scale canopy height maps derived from ICESat-2 and GEDI | Lu, Mei-Kuei, Popescu, Sorin C., Campbell, Brian A. | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height | ||
| Using airborne LiDAR and enhanced-geolocated GEDI metrics to map structural traits over a Mediterranean forest | Cardenas-Martinez, Aaron, Pascual, Adrian, Guisado-Pintado, Emilia, Rodriguez-Galiano, Victor | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height, Digital Elevation/Terrain Model (DEM), VIEWING GEOMETRY, Terrain Elevation, Terrestrial Ecosystems, LIDAR WAVEFORM, Biomass | ||
| Validating recent global canopy height maps over China's forests based | Chen, Ang, Cheng, Kai, Chen, Yuling, Qi, Zhiyong, Yang, Haitao, Ren, Yu, Yang, Zekun, Chen, Mengxi, Xu, Jiachen, Zhang, Yixuan, Huang, Guoran, Xiang, Tianyu, Zhang, Junmin, Liu, Weiyan, Lin, Danyang, Xu, Guangcai, Guo, Qinghua | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height, Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | ||
| Unveiling the performance and influential factors of GEDI L2A for building height retrieval | Chen, Peimin, Huang, Huabing, Qin, Peng, Wu, Zhenbang, Wang, Zixuan, Liu, Chong, Dong, Na, Wang, Jie | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height | ||
| Upper canopy and understory phenology of Brazilian Amazon forests seen | Oliveira, Pedro V C, Zhang, Xiaoyang | Canopy Characteristics, Vegetation Cover, Digital Elevation/Terrain Model (DEM), VIEWING GEOMETRY, Terrain Elevation, Lidar, Topography, Vegetation Height, Precipitation, Precipitation Amount, Precipitation Rate, Snow, Rain | ||
| When Machine Learning Meets Geospatial Data: A Comprehensive GeoAI | Boutayeb, Anasse, Lahsen-Cherif, Iyad, Khadimi, Ahmed El | Forests, Evergreen Vegetation, Deciduous Vegetation, Shrubland/Scrub, Biomass, Grasslands, LIDAR WAVEFORM, Canopy Characteristics | ||
| A fast and efficient method to estimate inland water levels using CYGNSS | Ma, Zhongmin, Zhang, Shuangcheng, Camps, Adriano, Park, Hyuk, Liu, Qi, Tan, Pengyuan, Wang, Changyang | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height, Radar Cross-Section, Radar Reflectivity, Terrain Elevation | ||
| A Decision Rule and Machine Learning-Based Hybrid Approach for Automated | Islam, Md Didarul, Di, Liping, Zhang, Chen, Yang, Ruixin, Qu, John J., Tong, Daniel, Guo, Liying, Lin, Li, Pandey, Aran | Canopy Characteristics, Vegetation Cover, Digital Elevation/Terrain Model (DEM), VIEWING GEOMETRY, Terrain Elevation, Lidar, Topography, Vegetation Height | ||
| A global product of 150-m urban building height based on spaceborne | Ma, Xiao, Zheng, Guang, Xu, Chi, Moskal, L. Monika, Gong, Peng, Guo, Qinghua, Huang, Huabing, Li, Xuecao, Liang, Xinlian, Pang, Yong, Wang, Cheng, Xie, Huan, Yu, Bailang, Zhao, Bo, Zhou, Yuyu | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height | ||
| A global dataset of forest regrowth following wildfires | Zang, Jinlong, Qiu, Feng, Zhang, Yongguang | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height | ||
| A Global Evaluation of Radar-Derived Digital Elevation Models: SRTM | Simard, Marc, Denbina, Michael, Marshak, Charles, Neumann, Maxim | RADAR IMAGERY, Terrain Elevation, Topographical Relief Maps, Digital Elevation/Terrain Model (DEM), Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height | ||
| A new method for mapping vegetation structure parameters in forested areas using GEDI data | Wang, Ziwei, Cai, Hongyan, Yang, Xiaohuan | Canopy Characteristics, Vegetation Cover, Digital Elevation/Terrain Model (DEM), VIEWING GEOMETRY, Terrain Elevation, Lidar, Topography, Vegetation Height | ||
| Assessing canopy height measurements from ICESat-2 and GEDI orbiting LiDAR across six different biomes with G-LiHT LiDAR | Yu, Qiuyan, Ryan, Michael G, Ji, Wenjie, Prihodko, Lara, Anchang, Julius Y, Kahiu, Njoki, Nazir, Abid, Dai, Jingyu, Hanan, Niall P | Topography, Canopy Characteristics, Digital Elevation/Terrain Model (DEM), Lidar, LIDAR WAVEFORM | ||
| Analysis of Spatial and Temporal Evolution of Ecosystem Services and Driving Factors in the Yellow River Basin of Henan Province, China | Fan, Liting, Wang, Xinchuang, Chen, Zhichao, Chen, Runbo, Liu, Xuejie, He, Yateng, Wang, Shunzhong | Evergreen Vegetation, Shrubland/Scrub, Grasslands, Forests, Canopy Characteristics, Deciduous Vegetation, Biomass, LIDAR WAVEFORM | ||
| Accuracy assessment of LAI, PAI and FCOVER from Sentinel-2 and GEDI for monitoring forests and their disturbance in Central Germany | Putzenlechner, Birgitta, Bevern, Felix, Koal, Philipp, Grieger, Simon, Kappas, Martin, Koukal, Tatjana, Low, Markus, Filipponi, Federico | Canopy Characteristics, Vegetation Cover, Digital Elevation/Terrain Model (DEM), VIEWING GEOMETRY, Terrain Elevation, Lidar, Topography, Vegetation Height | ||
| Agbd: A global-scale biomass dataset | Sialelli, Ghjulia, Peters, Torben, Wegner, Jan D., Schindler, Konrad | Terrestrial Ecosystems, LIDAR WAVEFORM, Biomass | ||
| A Separable Bootstrap Variance Estimation Algorithm for Hierarchical | Saarela, Svetlana, Healey, Sean P., Yang, Zhiqiang, Roald, BjrnEirik, Patterson, Paul L., Gobakken, Terje, Nsset, Erik, Hou, Zhengyang, McRoberts, Ronald E., Stahl, Goran | Plant Phenology, Canopy Characteristics, Vegetation Cover, Lidar, Topography, Vegetation Height | ||
| A regional-level spatiotemporal perspective of land use and land cover change impact on forest aboveground biomass in three gorges reservoir region, China | Khan, Muhammad Nouman, Tan, Yumin, Gul, Ahmad Ali, Lodhi, Muhammad Kamran, Wang, Jiale | Terrestrial Ecosystems, LIDAR WAVEFORM, Biomass | ||
| Assessment of Landscape-Scale Fluxes of Carbon Dioxide and Methane in | Delaria, Erin R., Wolfe, Glenn M., Blanock, Kaitlyn, Hannun, Reem, Thornhill, Kenneth Lee, Newman, Paul A., Lait, Leslie R., Kawa, S. Randy, Alvarez, Jessica, Blum, Spencer, CastanedaMoya, Edward, Holmes, Christopher, Lagomasino, David, Malone, Sparkle, Murphy, Dylan, Overbauer, Steven F., Pruett, Chandler, Serre, Aaron, Starr, Gregory, Szot, Robert, Troxler, Tiffany, Yannick, David, Poulter, Benjamin | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Canopy Characteristics, Vegetation Cover, Digital Elevation/Terrain Model (DEM), VIEWING GEOMETRY, Terrain Elevation, Lidar, Topography, Vegetation Height, Terrestrial Ecosystems, LIDAR WAVEFORM, Biomass, Water Vapor Mixing Ratio Profiles, Atmospheric Ozone, Atmospheric Carbon Dioxide, Atmospheric Carbon Monoxide, Methane, GREENHOUSE GAS FLUX, Brightness Temperature, Surface Soil Moisture |
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