Your search keyword '"Romain Le Gendre"' showing total 2 results

1. Shallow Water Bathymetry Retrieval Using a Band-Optimization Iterative Approach: Application to New Caledonia Coral Reef Lagoons Using Sentinel-2 Data

Author

Benoit Soulard, Serge Andréfouët, Sélim Amrari, Hugues Lemonnier, Romain Le Gendre, and Emmanuel Bourassin

Subjects

010504 meteorology & atmospheric sciences, rugose lagoon, Science, Multispectral image, 0211 other engineering and technologies, 02 engineering and technology, UNESCO World Heritage Area, 01 natural sciences, Range (statistics), adaptive iterative model, Bathymetry, 14. Life underwater, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Remote sensing, Block (data storage), geography, geography.geographical_feature_category, Single band, Coral reef, satellite derived bathymetry, band ratio, multispectral image, Waves and shallow water, General Earth and Planetary Sciences, Band ratio, Geology

Abstract

To achieve high accuracy bathymetry retrieval using remote sensing images with robust performance in a 0 to 25 m-deep lagoon with sharp bottom depth variations, a new Iterative Multiple Band Ratio (IMBR) algorithm is tested against known Multiple Band Ratio (MBR) and Single Band Ratio (SBR) algorithms. The test was conducted using the five multispectral bands, at 10 to 60 m resolution, of a Sentinel-2 image of the 25 km2 Poe lagoon, a UNESCO World Heritage Area. The IMBR approach requires training datasets for the definitions of depth threshold at which optimal band ratios vary. IMBR achieved accuracy, quantified with an original block cross-validation procedure across the entire depth range reached a mean absolute error of 46.0 cm. It compares very favorably against MBR (78.3 cm) and the various SBR results (188–254 cm). The method is suitable for generalization to other sites pending a minimal ground-truth dataset crossing all the depth range being available. We stress that different users may need different precisions and can use MBR or SBR algorithms for their applications. For the hydrodynamic modelling applications that are developing in New Caledonia, the IMBR solutions applied to Sentinel imagery are optimal.

Published

2021

2. Hindcast and Near Real-Time Monitoring of Green Macroalgae Blooms in Shallow Coral Reef Lagoons Using Sentinel-2: A New-Caledonia Case Study

Author

Romain Le Gendre, Maële Brisset, Emmanuel Coutures, Claude Payri, Emmanuel Bourassin, Simon Van Wynsberge, Serge Andréfouët, and Benoit Soulard

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Science, satellite, algal bloom, 01 natural sciences, Algal bloom, Ulva, remote sensing, Hindcast, 14. Life underwater, Seabed, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Pacific lagoons, 010604 marine biology & hydrobiology, Coral reef, Spectral bands, Reflectivity, Oceanography, Sentinel-2, coral reefs, Temporal resolution, General Earth and Planetary Sciences, Environmental science, Satellite

Abstract

Despite the necessary trade-offs between spatial and temporal resolution, remote sensing is an effective approach to monitor macroalgae blooms, understand their origins and anticipate their developments. Monitoring of small tropical lagoons is challenging because they require high resolutions. Since 2017, the Sentinel-2 satellites has provided new perspectives, and the feasibility of monitoring green algae blooms was investigated in this study. In the Poé-Gouaro-Déva lagoon, New Caledonia, recent Ulva blooms are the cause of significant nuisances when beaching. Spectral indices using the blue and green spectral bands were confronted with field observations of algal abundances using images concurrent with fieldwork. Depending on seabed compositions and types of correction applied to reflectance data, the spectral indices explained between 1 and 64.9% of variance. The models providing the best statistical fit were used to revisit the algal dynamics using Sentinel-2 data from January 2017 to December 2019, through two image segmentation approaches: unsupervised and supervised. The latter accurately reproduced the two algal blooms that occurred in the area in 2018. This paper demonstrates that Sentinel-2 data can be an effective source to hindcast and monitor the dynamics of green algae in shallow lagoons.

Published

2021