Satellite Detection of Transient Enhanced Primary Production in the Western Mediterranean Sea

Abstract

Primary production by marine microalgae is believed to be a critical factor regulating atmospheric carbon dioxide levels and associated climatic changes. Assessments of photosynthesis in the open ocean, and the related export of organic carbon to the deep ocean (new or non-regenerative production) vary by as much as an order of magnitude. Discrepancies are attributed to different temporal and spatial scales reflected by instantaneous rate measurements, as opposed to seasonally averaged measurements based on subsurface changes in chemical tracers. Satellite extrapolations of primary production can be used to characterize and quantify temporal and spatial variability. But time differentials between satellite and ship temporal and spatial variability. But time differentials between satellite and ship measurements as well as regional and seasonal variations in empirical relationships, have so far limited the precision of such extrapolations. We conducted extensive ship sampling of chlorophyll a and primary production in the western Mediterranean Sea contemporaneous with Nimbus-7 coastal zone colour scanner imagery. Our approach resulted in an empirical model for estimating integrated water-column primary production from satellite imagery. Precision was adequate to resolve short-form fluctuations in primary production associated with a mesoscale circulation feature. Keywords: Satellite detection, Reprints.

Document Details

Document Type

Technical Report

Publication Date

Sep 15, 1988

Accession Number

ADA204181

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