Actions

Download Analytics Citations

Export to: EndNote  |  Zotero  |  Mendeley

Collections

This file is not currently in any collections.

Mapping riverbed sediment size from Sentinel-2 satellite data [image] Open Access

A comprehensive understanding of river dynamics requires the grain size distribution of bed sediments and its variation across different temporal and spatial scales. Several techniques are already available for grain size assessment based on field and remotely sensed data. However, the existing methods are only applicable on small spatial scales and on short time scales. Thus, the operational measurement of grain size distribution of river bed sediments at the catchment scale remains an open problem. A solution could be the use of satellite images as the main imaging platform. However, this would entail retrieving information at sub-pixel scales. In this study, we propose a new approach to retrieve sub-pixel scale grain size class information from Copernicus Sentinel-2 imagery building upon a new image-based grain size mapping procedure. Three Italian gravel-bed rivers featuring different morphologies were selected for Unmanned Aerial Vehicle (UAV) acquisitions, field surveys and lab analysis meant to serve as ground truth grain size data, ranging from medium sand to coarse gravel. Grain size maps on the river bars were generated in each study site by exploiting image texture measurements, upscaled and co-registered with Sentinel-2 data resolution. Relationships between the grain sizes measured and the reflectance values in Sentinel-2 imagery were analyzed by using a machine learning framework. Results show statistically significant predictive models (MAE of ±8.34 mm and R2=0.92). The trained model was applied on 300 km of the Po River in Italy and allowed us to identify the gravel-sand transition occurring along this river length. Therefore, the approach presented here - based on freely available satellite data calibrated by low-cost drone-derived imagery - represents a promising step towards an automated surface mean grain size mapping over long river length, easily repeated through time for monitoring purposes.

Descriptions

Resource type

Image

Contributors

Creator: Marchetti, Giulia ¹
Creator: Bizzi, Simone ²
Creator: Beletti, Barbara ³
Creator: Comoti, Francesco ⁴
Data curator: Carbonneau, Patrice ⁵

¹ University of Bolzano, Italy
² University of Padova, Italy
³ University of Lyon, France
⁴ Institute for Environmental Protection and Research, Italy
⁵ Durham University, UK

Funder

EURH2O Lyon(ANR-17-EURE-0018)

Research methods

Remote Sensing Machine Learning Drones

Other description

Keyword

Machine learning
Grain size mapping
UAV
Sentinel-2
Fluvial remote sensing

Subject

Geography

Location

Italy, , Italy

Language

Cited in

Identifier

ark:/32150/r2tq57nr07n
doi:10.15128/r2tq57nr07n

Rights

Creative Commons Attribution 4.0 International (CC BY)

Publisher

Durham University

Date Created

File Details

Depositor

P. Carbonneau

Date Uploaded

9 May 2022, 11:05:21

Date Modified

10 May 2022, 11:05:45

Audit Status

Audits have not yet been run on this file.

Characterization

File format: zip (ZIP Format)

Mime type: application/zip

File size: 1805128785

Last modified: 2022:05:09 12:53:10+01:00

Filename: Marchetti_etal_2022_SuppData.zip

Original checksum: 794500b7109a5ec5273c1f9540fe8c8d