Abstract
<p>Oceanic Lagrangian Coherent Structures have been shown to deeply influence the distribution of primary producers and, at the other extreme of the trophic web, top predators. However, the relationship between these structures and intermediate trophic levels is much more obscure. In this work we contribute to address this knowledge gap by comparing acoustic measurements of mesopelagic fish concentrations to satellite-derived fine-scale Lagrangian Coherent Structures in the open ocean. The results demonstrate that higher fish concentrations occur more frequently over stronger Lagrangian Coherent Structures. Quantile regression analyses reveal that Lagrangian Coherent Structures represent a limiting condition for high fish concentrations. Therefore, while the presence of a fine-scale feature does not imply a concomitant fish assembly, increased fish densities are more likely to be observed over these structures. Finally, we discuss a model representing fish movement along Lagrangian features, and specifically built for mid trophic levels. Even though it was not possible to validate it with the available data, its results, obtained with realistic parameters, are consistent with the observations. These findings may help to integrate intermediate trophic levels in trophic models, which can ultimately support management and conservation policies.</p>
Highlights
To cite this version: Alberto Baudena, Enrico Ser-Giacomi, Donatella d’Onofrio, Xavier Capet, Cédric Cotté, et al
Acoustic Fish Concentration (AFC) were separated in two groups: those falling over a front, identified by Finite-Size Lyapunov Exponent (FSLE) values over a threshold, and those falling outside it
This result demonstrates that high fish concentrations occur preferably over fronts detected with the diagnostics employed
Summary
To cite this version: Alberto Baudena, Enrico Ser-Giacomi, Donatella d’Onofrio, Xavier Capet, Cédric Cotté, et al. HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. Its results, obtained with realistic parameters, are qualitatively consistent with the observations and the spatio-temporal scales analysed Overall, these findings may help to integrate intermediate trophic levels in trophic models, which can support management and conservation policies. Discerning the factors underpinning ocean patchiness is fundamental to understand how they influence biogeochemical reactions and ecosystem s tability[3,4]. These issues are pivotal for conservation p urposes[5] and for assessing the impact of climate change on the marine e nvironment[6]
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