Remote sensing and nuclear techniques for high-resolution mapping and quantification of gully erosion in the highly erodible area of the Malčanska River Basin, Eastern Serbia

Gully erosion leads to the formation of deep and wide channels that increase the risk of soil loss, flooding, and water pollution. In addition, this process reduces the productivity and viability of agricultural land and natural ecosystems. Preventing gully erosion is critical for maintaining ecolog...

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Published in:Environmental research 2023-10, Vol.235, p.116679, Article 116679
Main Authors: Đokić, Mrđan, Manić, Miloš, Đorđević, Milan, Gocić, Milena, Čupić, Aleksandar, Jović, Mihajlo, Dragović, Ranko, Gajić, Boško, Smičiklas, Ivana, Dragović, Snežana
Format: Article
Language:English
Subjects:
137Cs
360-Degree camera
Digital elevation model
GIS
Gully erosion
Photogrammetry
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Summary:Gully erosion leads to the formation of deep and wide channels that increase the risk of soil loss, flooding, and water pollution. In addition, this process reduces the productivity and viability of agricultural land and natural ecosystems. Preventing gully erosion is critical for maintaining ecological balance and preserving natural resources in certain areas. This paper presents a methodology integrating remote sensing and nuclear techniques to study gully erosion. The morphometric characterization of gullies using 360-degree camera photogrammetry was introduced as a new method in erosion research. This approach aims to investigate the suitability of unmanned aerial vehicle and terrestrial photogrammetry for modeling gullies, to study the variability of erosion processes in gullies at a small scale, and to compare the differences in erosion intensity between nearby gullies. The study's objectives include identifying the effective and economical method for gullies monitoring and providing a starting point for controlling and safeguarding gullies. Mainly erosion process was detected in the studied gullies, while deposition was identified at only 2 out of 39 sampling locations. The results showed an average soil redistribution rate of 16.2 t ha−1 yr−1 and coefficients of variation of 32%, 59%, and 91% for three investigated gullies. It was determined that aerial photogrammetry methods were not practical under the conditions prevailing in the study area. Highly detailed 3D models of the gullies were created using 360-degree photogrammetry. It was confirmed that the micro-relief obtained by photogrammetric modeling is an essential contribution to erosion research. The 360-degree camera photogrammetry serves as a reliable tool for analyzing the morphology of gullies and, in perspective, tracking changes in gully systems over time or monitoring the effectiveness of the applied protection measures. •High variability of erosion rates within gullies was identified at a small scale.•The erosion rates were higher on the sidewalls than at the bottom of the gullies.•The slope is a more important erosion factor within gullies than the slope length.•Detailed 3D photogrammetry model allows accurate gullies morphometry and mapping.•Microrelief obtained by a 360-degree camera is a vital input to erosion research.
ISSN:0013-9351
1096-0953
1096-0953
DOI:10.1016/j.envres.2023.116679