Water column distribution of zooplanktonic size classes derived from in-situ plankton profilers: Potential use to contextualize contaminant loads in plankton
Permanent link
https://hdl.handle.net/10037/31610Date
2023-09-29Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Espinasse, Boris Dristan; Pagano, M.; Basedow, Sünnje Linnéa; Chevalier, C.; Malengros, D.; Carlotti, F.Abstract
Pollution is one of the main anthropogenic threats to marine ecosystems. Studies analysing the accumulation and
transfer of contaminants in planktonic food webs tend to rely on samples collected in discrete water bodies. Here,
we assessed the representativeness of measurements at the chlorophyll-a maximum layer during the MERITEHIPPOCAMPE cruise for the entire water column by investigating the vertical distribution of particles and
plankton obtained by in-situ optical profilers at nine stations across the Mediterranean Sea. We identified specific
conditions where the interpretation of results from contaminant analyses can be improved by detailing plankton
size structure and vertical distributions. First, the presence of higher than usual plankton concentrations can
result in sampling issues that will affect biomass estimation within each size class and therefore bias our understanding of the contaminant dynamics. Secondly, the presence of an unsampled water layer with high
zooplankton biomass might imply non-resolved contaminant pathways along the trophic structure. This study
lays the basis for optimizing sampling strategy in contaminant studies.
Publisher
ElsevierCitation
Espinasse, Pagano, Basedow, Chevalier, Malengros, Carlotti. Water column distribution of zooplanktonic size classes derived from in-situ plankton profilers: Potential use to contextualize contaminant loads in plankton. Marine Pollution Bulletin. 2023;196Metadata
Show full item recordCollections
Copyright 2023 The Author(s)