Shipborne oceanic high-spectral-resolution lidar for accurate estimation of seawater depth-resolved optical properties - INSU - Institut national des sciences de l'Univers
Article Dans Une Revue Light: Science and Applications Année : 2022

Shipborne oceanic high-spectral-resolution lidar for accurate estimation of seawater depth-resolved optical properties

Malik Chami
  • Fonction : Auteur
Chengfeng Le
  • Fonction : Auteur

Résumé

Lidar techniques present a distinctive ability to resolve vertical structure of optical properties within the upper water column at both day-and night-time. However, accuracy challenges remain for existing lidar instruments due to the illposed nature of elastic backscatter lidar retrievals and multiple scattering. Here we demonstrate the high performance of, to the best of our knowledge, the first shipborne oceanic high-spectral-resolution lidar (HSRL) and illustrate a multiple scattering correction algorithm to rigorously address the above challenges in estimating the depth-resolved diffuse attenuation coefficient K d and the particulate backscattering coefficient b bp at 532 nm. HSRL data were collected during day-and night-time within the coastal areas of East China Sea and South China Sea, which are connected by the Taiwan Strait. Results include vertical profiles from open ocean waters to moderate turbid waters and first lidar continuous observation of diel vertical distribution of thin layers at a fixed station. The root-mean-square relative differences between the HSRL and coincident in situ measurements are 5.6% and 9.1% for K d and b bp , respectively, corresponding to an improvement of 2.7-13.5 and 4.9-44.1 times, respectively, with respect to elastic backscatter lidar methods. Shipborne oceanic HSRLs with high performance are expected to be of paramount importance for the construction of 3D map of ocean ecosystem.
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insu-03770994 , version 1 (06-09-2022)

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Yudi Zhou, Yang Chen, Hongkai Zhao, Davide Dionisi, Malik Chami, et al.. Shipborne oceanic high-spectral-resolution lidar for accurate estimation of seawater depth-resolved optical properties. Light: Science and Applications, 2022, 11, pp.261. ⟨10.1038/s41377-022-00951-0⟩. ⟨insu-03770994⟩
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