Han B., Loisel Hubert, Vantrepotte V., Meriaux X., Bryere P., Ouillon Sylvain, Dessailly D., Xing Q. G., Zhu J. H. (2016). Development of a semi-analytical algorithm for the retrieval of suspended particulate matter from remote sensing over clear to very turbid waters. Remote Sensing, 8 (3), p. art. 211 (23 p.]. ISSN 2072-4292.
Titre du document
Development of a semi-analytical algorithm for the retrieval of suspended particulate matter from remote sensing over clear to very turbid waters
Année de publication
2016
Auteurs
Han B., Loisel Hubert, Vantrepotte V., Meriaux X., Bryere P., Ouillon Sylvain, Dessailly D., Xing Q. G., Zhu J. H.
Source
Remote Sensing, 2016,
8 (3), p. art. 211 (23 p.] ISSN 2072-4292
Remote sensing of suspended particulate matter, SPM, from space has long been used to assess its spatio-temporal variability in various coastal areas. The associated algorithms were generally site specific or developed over a relatively narrow range of concentration, which make them inappropriate for global applications (or at least over broad SPM range). In the frame of the GlobCoast project, a large in situ data set of SPM and remote sensing reflectance, R-rs(lambda), has been built gathering together measurements from various coastal areas around Europe, French Guiana, North Canada, Vietnam, and China. This data set covers various contrasting coastal environments diversely affected by different biogeochemical and physical processes such as sediment resuspension, phytoplankton bloom events, and rivers discharges (Amazon, Mekong, Yellow river, MacKenzie, etc.). The SPM concentration spans about four orders of magnitude, from 0.15 to 2626 g center dot m(-3). Different empirical and semi-analytical approaches developed to assess SPM from R-rs(lambda) were tested over this in situ data set. As none of them provides satisfactory results over the whole SPM range, a generic semi-analytical approach has been developed. This algorithm is based on two standard semi-analytical equations calibrated for low-to-medium and highly turbid waters, respectively. A mixing law has also been developed for intermediate environments. Sources of uncertainties in SPM retrieval such as the bio-optical variability, atmospheric correction errors, and spectral bandwidth have been evaluated. The coefficients involved in these different algorithms have been calculated for ocean color (SeaWiFS, MODIS-A/T, MERIS/OLCI, VIIRS) and high spatial resolution (LandSat8-OLI, and Sentinel2-MSI) sensors. The performance of the proposed algorithm varies only slightly from one sensor to another demonstrating the great potential applicability of the proposed approach over global and contrasting coastal waters.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Limnologie physique / Océanographie physique [032]
;
Ecologie, systèmes aquatiques [036]
;
Télédétection [126]
Description Géographique
EUROPE ; GUYANE FRANCAISE ; CANADA ; VIET NAM ; CHINE ; MONDE ; AMAZONE ; MEKONG ; FLEUVE JAUNE ; MACKENZIE COURS D'EAU
Localisation
Fonds IRD [F B010066801]
Identifiant IRD
fdi:010066801
