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International Journal of Remote Sensing Volume 39, 2018 - Issue 15-16: Unmanned Aerial Systems (UAS) for Environmental Applications
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Articles

Estimation of evapotranspiration of temperate grassland based on high-resolution thermal and visible range imagery from unmanned aerial systems

Claire BrennerInstitute of Water Management, Hydrology and Hydraulic Engineering, University of Natural Resources and Life Sciences, Vienna, AustriaCorrespondence[email protected]
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Matthias ZeemanInstitute of Meteorology and Climate Research Atmospheric Environmental Research (IMK-IFU), Karlsruhe Institute of Technology, Garmisch-Partenkirchen, GermanyView further author information
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Matthias BernhardtInstitute of Water Management, Hydrology and Hydraulic Engineering, University of Natural Resources and Life Sciences, Vienna, AustriaView further author information
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Karsten SchulzInstitute of Water Management, Hydrology and Hydraulic Engineering, University of Natural Resources and Life Sciences, Vienna, AustriaView further author information
Pages 5141-5174 | Received 27 Oct 2017, Accepted 24 Apr 2018, Published online: 10 May 2018

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Anita Simic Milas, Joaquim João Sousa, Timothy A. Warner, Ana Cláudia Teodoro, Emanuel Peres, José Alberto Gonçalves, Jorge Delgado Garcia, Ricardo Bento, Stuart Phinn & Amy Woodget. (2018) Unmanned Aerial Systems (UAS) for environmental applications special issue preface. International Journal of Remote Sensing 39:15-16, pages 4845-4851.
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Bryn E. Morgan & Kelly K. Caylor. (2023) Estimating Fine‐Scale Transpiration From UAV‐Derived Thermal Imagery and Atmospheric Profiles. Water Resources Research 59:11.
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Davide Gisolo, Ivan Bevilacqua, Justus van Ramshorst, Alexander Knohl, Lukas Siebicke, Maurizio Previati, Davide Canone & Stefano Ferraris. (2022) Evapotranspiration of an Abandoned Grassland in the Italian Alps: Influence of Local Topography, Intra- and Inter-Annual Variability and Environmental Drivers. Atmosphere 13:6, pages 977.
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Jake E. Simpson, Fenner H. Holman, Hector Nieto, Tarek S. El-Madany, Mirco Migliavacca, M. Pilar Martin, Vicente Burchard-Levine, Arnaud Cararra, Solveig Blöcher, Peter Fiener & Jed O. Kaplan. (2022) UAS-based high resolution mapping of evapotranspiration in a Mediterranean tree-grass ecosystem. Agricultural and Forest Meteorology 321, pages 108981.
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Krisztina Pintér & Zoltán Nagy. (2022) Building a UAV Based System to Acquire High Spatial Resolution Thermal Imagery for Energy Balance Modelling. Sensors 22:9, pages 3251.
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Anna Fryskowska-Skibniewska, Paulina Delis, Michal Kedzierski & Dominik Matusiak. (2022) The Conception of Test Fields for Fast Geometric Calibration of the FLIR VUE PRO Thermal Camera for Low-Cost UAV Applications. Sensors 22:7, pages 2468.
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Matthias Zeeman. (2021) Use of thermal signal for the investigation of near-surface turbulence. Atmospheric Measurement Techniques 14:12, pages 7475-7493.
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Jacob Virtue, Darren Turner, Guy Williams, Stephanie Zeliadt, Matthew McCabe & Arko Lucieer. (2021) Thermal Sensor Calibration for Unmanned Aerial Systems Using an External Heated Shutter. Drones 5:4, pages 119.
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Claire Brenner, Jonathan Frame, Grey Nearing & Karsten Schulz. (2021) Schätzung der Verdunstung mithilfe von Machine- und Deep Learning-MethodenPredicting evapotranspiration using machine and deep learning methods. Österreichische Wasser- und Abfallwirtschaft 73:7-8, pages 295-307.
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Javier A. Quille-Mamani, Lia Ramos-Fernández & Ronald E. Ontiveros-Capurata. (2021) Estimación de la evapotranspiración del cultivo de arroz en Perú mediante el algoritmo METRIC e imágenes VANT. Revista de Teledetección:58, pages 23.
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Samuel Ortega-Farias, Wladimir Esteban-Condori, Camilo Riveros-Burgos, Fernando Fuentes-Peñailillo & Matthew Bardeen. (2021) Evaluation of a two-source patch model to estimate vineyard energy balance using high-resolution thermal images acquired by an unmanned aerial vehicle (UAV). Agricultural and Forest Meteorology 304-305, pages 108433.
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Jake E. Simpson, Fenner Holman, Hector Nieto, Ingo Voelksch, Matthias Mauder, Janina Klatt, Peter Fiener & Jed O. Kaplan. (2021) High Spatial and Temporal Resolution Energy Flux Mapping of Different Land Covers Using an Off-the-Shelf Unmanned Aerial System. Remote Sensing 13:7, pages 1286.
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Florian Ellsäßer, Christian Stiegler, Alexander Röll, Tania June, Alexander Knohl & Dirk Hölscher. (2021) Predicting evapotranspiration from drone-based thermography – a method comparison in a tropical oil palm plantation. Biogeosciences 18:3, pages 861-872.
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Devin Thomas Krasowski, Bridget Wadzuk & Brian Jacko. (2021) Feasibility of using an energy balance to measure evapotranspiration in green stormwater infrastructure. PLOS ONE 16:2, pages e0246286.
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Vasileios Tsekouras, Sofia Mavrikou & Spyridon Kintzios. 2021. Harsh Environment and Plant Resilience. Harsh Environment and Plant Resilience 409 436 .
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Florian Ellsäßer, Alexander Röll, Christian Stiegler, Hendrayanto & Dirk Hölscher. (2020) Introducing QWaterModel, a QGIS plugin for predicting evapotranspiration from land surface temperatures. Environmental Modelling & Software 130, pages 104739.
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Philip Marzahn, Linda Flade & Arturo Sanchez-Azofeifa. (2020) Spatial Estimation of the Latent Heat Flux in a Tropical Dry Forest by Using Unmanned Aerial Vehicles. Forests 11:6, pages 604.
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Stenka Vulova, Lena-Marie Kuhlemann, Doerthe Tetzlaff, Christopher Soulsby & Birgit Kleinschmit. (2019) Assessment of evapotranspiration from urban vegetation across space and time: a case study in Berlin. Assessment of evapotranspiration from urban vegetation across space and time: a case study in Berlin.
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