Reconstructing individual food and growth histories from biogenic carbonates Auteur(s) : Pecquerie, Laure Fablet, Ronan De Pontual, Helene Bonhommeau, Sylvain Alunno-bruscia, Marianne Petitgas, Pierre Kooijman, Sebastiaan A. L. M. Éditeur(s) : Inter-research Résumé : Environmental conditions experienced by aquatic organisms are archived in biogenic carbonates such as fish otoliths, bivalve shells and coral skeletons. These calcified structures present an accretionary growth and variations in optical properties - color or opacity - that are used to reconstruct time. Full and reliable exploitation of the information extracted from these structures is, however, often limited as the metabolic processes that control their growth and their optical properties are poorly understood. Here, we propose a new modeling framework that couples both the growth of a biogenic carbonate and its optical properties with the metabolism of the organism. The model relies on well-tested properties of Dynamic Energy Budget (DEB) theory. It is applied to otoliths of the Bay of Biscay anchovy (Engraulis encrasicolus) for which a DEB model has been previously developed. The model reproduces well-known otolith patterns and thus provides us with mechanisms for the metabolic control of otolith size and opacity at the scale of an individual lifespan. Two original contributions using this framework are demonstrated. First, the model can be used to reconstruct the temporal variations in the food assimilated by an individual fish. Reconstructing food conditions of past and present aquatic species in their natural environment is key ecological information to better understand population dynamics. Second, we show that non-seasonal checks can be discriminated from seasonal checks, which is a well-recognized problem when interpreting fish otoliths. We discuss further developments of the model and the experimental settings required to test this new promising framework. Marine Ecology-progress Series (0171-8630) (Inter-research), 2012 , Vol. 447 , P. 151-164 Droits : 2012 Inter-Research http://archimer.ifremer.fr/doc/00060/17082/14593.pdf DOI:10.3354/meps09492 http://archimer.ifremer.fr/doc/00060/17082/ | Partager Voir aussi Otolith Calcification Metabolism Bioenergetic model Food reconstruction Dynamic Energy Budget theory Télécharger |
Overview of recent progress in fisheries acoustics made by Ifremer with examples from the Bay of Biscay Auteur(s) : Trenkel, Verena Berger, Laurent Bourguignon, Sebastien Doray, Mathieu Fablet, Ronan Masse, Jacques Mazauric, Valerie Poncelet, Cyrille Éditeur(s) : Edp Sciences S A Résumé : This paper provides an overview of the progress Ifremer has made recently in fisheries acoustics and the study of small pelagic fish by: i) pushing observation frontiers using a range of platforms including an autonomous underwater vehicle, AUV, ii) developing measuring instruments and methods and iii) studying fish distributions. Presently, information from several frequencies of single-beam echosounders is routinely collected together with data from the ME70 multibeam echosounder. For onboard data acquisition control the HERMES software was developed. The new MOVIES 3D software includes modules for simultaneous realistic 3D visualisation and post-processing such as bottom detection, school extraction and calculation of descriptors and integration of all acoustic data. Several data analysis methods are being developed and some initial results are presented. Finally, results on the spatial distribution of small pelagic fish schools in the Bay of Biscay illustrate the role that acoustics can play, and are already playing, in the implementation of an ecosystem approach to fisheries. Cet article présente une vue d’ensemble des avancées récentes de l’Ifremer en acoustique halieutique et une étude des petits poissons pélagiques tenant compte : i) de l’extension des limites de l’observation, en utilisant une gamme diverse de plates-formes dont un engin sous-marin autonome (AUV), ii) des développements méthodologiques et d’instruments de mesures, iii) de l’étude de la répartition des poissons. Désormais, les données de plusieurs fréquences des sondeurs mono-faisceaux sont collectées en routine en parallèle à celles du sondeur multifaisceau ME70. Le logiciel HERMES a été développé pour le contrôle de l’acquisition des données à bord. Le nouveau logiciel MOVIES 3D comprend des modules de visualisation réaliste en 3D et de post-traitement (dont la détection du fond, l’extraction de bancs et le calcul de leurs descripteurs ainsi que l’intégration de toutes les données acoustiques). Plusieurs méthodes d’analyse de données sont en cours de développement et quelques premiers résultats sont présentés. Enfin, les résultats relatifs à la répartition spatiale des bancs de petits poissons pélagiques dans le golfe de Gascogne illustrent le rôle actuel et potentiel de l’acoustique dans la mise en place d’une approche écosystémique des pêches. Aquatic Living Resources (0990-7440) (Edp Sciences S A), 2009-10 , Vol. 22 , N. 4 , P. 433-445 Droits : EDP Sciences, IFREMER, IRD 2009 http://archimer.ifremer.fr/doc/00000/11165/7517.pdf DOI:10.1051/alr/2009027 http://archimer.ifremer.fr/doc/00000/11165/ | Partager |