Abstract
As Mediterranean streams are highly dynamic, reconstructing space–time water presence in such systems is particularly important for understanding the expansion and contraction phases of the flowing network and the related hydro–ecological processes. Unmanned aerial vehicles (UAVs) can support such monitoring when wide or inaccessible areas are investigated. In this study, an innovative method for water presence detection in the river network based on UAV thermal infrared remote sensing (TIR) images supported by RGB images is evaluated using data gathered in a representative catchment located in Southern Italy. Fourteen flights were performed at different times of the day in three periods, namely, October 2019, February 2020, and July 2020, at two different heights leading to ground sample distances (GSD) of 2 cm and 5 cm. A simple methodology that relies on the analysis of raw data without any calibration is proposed. The method is based on the identification of the thermal signature of water and other land surface elements targeted by the TIR sensor using specific control matrices in the image. Regardless of the GSD, the proposed methodology allows active stream identification under weather conditions that favor sufficient drying and heating of the surrounding bare soil and vegetation. In the surveys performed, ideal conditions for unambiguous water detection in the river network were found with air–water thermal differences higher than 5 °C and accumulated reference evapotranspiration before the survey time of at least 2.4 mm. Such conditions were not found during cold season surveys, which provided many false water pixel detections, even though allowing the extraction of useful information. The results achieved led to the definition of tailored strategies for flight scheduling with different levels of complexity, the simplest of them based on choosing early afternoon as the survey time. Overall, the method proved to be effective, at the same time allowing simplified monitoring with only TIR and RGB images, avoiding any photogrammetric processes, and minimizing postprocessing efforts.
Highlights
The use of Unmanned aerial vehicles (UAVs) (Unmanned Aerial Vehicles) in the study and monitoring of the environment is growing exponentially, thanks to the availability of equipment with increasingly versatile sensors of reduced size and weight
We have proposed a method for the remote detection of water presence in river reaches based on combined thermal infrared remote sensing (TIR) and RGB images, which requires the identification of suitable control matrices at the ground, representative of the water signature in the TIR band, for subsequent recognition of the wet river network in the whole surveyed area
We tested the efficiency of combined TIR and RGB images taken by drone to reliably detect the presence of water in a Mediterranean headwater catchment located in Southern Italy
Summary
The use of UAVs (Unmanned Aerial Vehicles) in the study and monitoring of the environment is growing exponentially, thanks to the availability of equipment with increasingly versatile sensors of reduced size and weight. The possibility of significantly increasing the temporal and spatial resolution of the datasets, as compared to the satellite remote sensing platforms and manned aircraft [1], gives the UAVs an intermediate position between these platforms and land surveys. This technique is relatively cheap to use and not time consuming. Manfreda et al [1], while discussing the most recent advances, pointed out the need to identify the limitations of these technologies, which often lack standard protocols unequivocally identifying all the 4.0/).
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