High frequency mesozooplankton monitoring: Can imaging systems and automated sample analysis help us describe and interpret changes in zooplankton community composition and size structure — An example from a coastal site
Résumé
The present work aims to show that high throughput imaging systems can be useful to estimate
mesozooplankton community size and taxonomic descriptors that can be the base for consistent large
scale monitoring of plankton communities. Such monitoring is required by the European Marine Strategy
Framework Directive (MSFD) in order to ensure the Good Environmental Status (GES) of European
coastal and offshore marine ecosystems. Time and cost-effective, automatic, techniques are of high
interest in this context. An imaging-based protocol has been applied to a high frequency time series
(every second day between April 2003 to April 2004 on average) of zooplankton obtained in a coastal
site of the NW Mediterranean Sea, Villefranche Bay. One hundred eighty four mesozooplankton net
collected samples were analysed with a Zooscan and an associated semi-automatic classification
technique. The constitution of a learning set designed to maximize copepod identification with more
than 10,000 objects enabled the automatic sorting of copepods with an accuracy of 91% (true positives)
and a contamination of 14% (false positives). Twenty seven samples were then chosen from the total
copepod time series for detailed visual sorting of copepods after automatic identification. This method
enabled the description of the dynamics of two well-known copepod species, Centropages typicus and
Temora stylifera, and 7 other taxonomically broader copepod groups, in terms of size, biovolume and
abundance–size distributions (size spectra). Also, total copepod size spectra underwent significant
changes during the sampling period. These changes could be partially related to changes in the
copepod assemblage taxonomic composition and size distributions. This study shows that the use of
high throughput imaging systems is of great interest to extract relevant coarse (i.e. total abundance,
size structure) and detailed (i.e. selected species dynamics) descriptors of zooplankton dynamics.
Innovative zooplankton analyses are therefore proposed and open the way for further development of
zooplankton community indicators of changes
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