The on-going calibration and validation of visible satellite imagery remains a core
activity of the scientific community in pursuit of high quality data characterising the
oceanic chlorophyll field, providing input to models assessing primary productivity
and the potential role of the oceans in climatic regulation. This work serves to
examine the operational characteristics of semi-analytical algorithms that are
designed to derive key optical properties from space born observations of ocean
colour.
The collection of water samples contemporaneously with precision profiled
radiometry conforming to similar spectral bands to those of the NASA Sea Viewing
Wide Field of view Sensor (SeaWiFS) was planned and executed, with appropriate
field sampling techniques developed in accordance with the SeaWiFS Ocean
Optics protocols (Mueller and Austin, 1995). Data were collected during extensive
fieldwork sampling at a near coastal survey site and during two deep Atlantic
research programmes.
Historical and recently developed algorithms designed to retrieve the diffuse
attenuation coefficient at 490nm and chlorophyll-a pigment concentrations from
upwelling radiances were applied to the optical data, to compare the
mathematically retrieved in-water properties with the values measured in-situ. The
radiometric data were then used to generate general and local algorithm
modifications to assess possible differences in the mathematically retrieved values.
Statistical analyses of the errors in mathematical retrieval of in-water properties
identified stmctured variability resulting from the empirical approach to algorithm
generation, supporting the point of view that locally constrained algorithms provide
a method of achieving significantly improved results.
The problems associated with the derivation of semi-analytical algorithms are then
discussed and errors analysed. The new algorithms generated here are found to
compare well with their source data and with work by other investigators.
Systematic variability was found within the data sets and the affect this has on the
determinations is discussed.
It is suggested that data users be afforded details of the equations employed in the
production of readily available remote sensing products, placing them in a position
where they are better able to assess the data in the context of their work.
Date of Award | 2000 |
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Original language | English |
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Awarding Institution | |
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SPATIAL AND SEASONAL VARIATION IN THE PERFORMANCE OF ALGORITHMS FOR DERIVING IN-WATER PROPERTIES FROM OCEAN COLOUR
Westbrook, A. G. (Author). 2000
Student thesis: PhD