Estimation of optical properties of nearshore water
Document Type
Article
Publication Date
1-1-1999
Abstract
Most of the existing satellite sensors lack the spectral capabilities to discriminate phytoplankton pigments in water bodies. New satellite sensors (i.e. SeaWIFS) and future sensors on board EOS withnarrow bandwidths will provide fine spectral resolution necessary to distinguish optical properties of nearshore waters provided sea data are available. This will enable spaceborne water color sensors to discriminate bloom forming phytoplankton species. The objective was to develop a library of absorption spectra for the most common phytoplankton species found within the Hudson/Raritan Estuary and coastal waters of New Jersey. Both culture-grown and field samples of phytoplankton were concentrated and analyzedusing chemical and spectrometric techniques. Using spectral derivative and polynomial regression analysis, it was possible to identify wavelengths that could be used to characterize the pigment compositions of phytoplankton species in the estuary. © 1999 Taylor and Francis Ltd.
Identifier
0033589487 (Scopus)
Publication Title
International Journal of Remote Sensing
External Full Text Location
https://doi.org/10.1080/014311699211417
e-ISSN
13665901
ISSN
01431161
First Page
3393
Last Page
3397
Issue
17
Volume
20
Recommended Citation
Bagheri, S.; Zetlin, C.; and Dios, R., "Estimation of optical properties of nearshore water" (1999). Faculty Publications. 16131.
https://digitalcommons.njit.edu/fac_pubs/16131
