|Spectra of a shallow sea-unmixing for class identification and monitoring of coastal waters|Hommersom, A.; Wernand, M.R.; Peters, S.; Eleveld, M.A.; de Boer, J. (2011). Spectra of a shallow sea-unmixing for class identification and monitoring of coastal waters. Ocean Dynamics 61(4): 463-480. dx.doi.org/10.1007/s10236-010-0373-4
In: Ocean Dynamics. Springer-Verlag: Berlin; Heidelberg; New York. ISSN 1616-7341; e-ISSN 1616-7228, meer
Endmember; Reflectance; MERIS; Water mass; Unmixing
|Auteurs|| || Top |
- Hommersom, A.
- Wernand, M.R., meer
- Peters, S.
- Eleveld, M.A.
- de Boer, J.
Ocean colour-based monitoring of water masses is a promising alternative to monitoring concentrations in heterogeneous coastal seas. Fuzzy methods, such as spectral unmixing, are especially well suited for recognition of water masses from their remote sensing reflectances. However, such models have not yet been applied for water classification and monitoring. In this study, a fully constrained endmember model with simulated endmembers was developed for water class identification in the shallow Wadden Sea and adjacent German Bight. Its performance was examined on in situ measured reflectances and on MERIS satellite data. Water classification by means of unmixing reflectance spectra proved to be successful. When the endmember model was applied to MERIS data, it was able to visualise well-known spatial, tidal, seasonal, and wind-related variations in optical properties in the heterogeneous Wadden Sea. Analyses show that the method is insensitive to small changes in endmembers. Therefore, it can be applied in similar coastal areas. For use in open ocean situations or coastal or inland waters with other specific inherent optical properties, re-simulation of the endmember spectra with local optical properties is required. However, such an adaptation requires only a limited number of local in situ measurements.