A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population.

A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population.

The IOTC initiated a discussion to organize a large scale tagging program concerning the major tropical tuna species and fisheries. According to the terms of reference for the working party on tagging (Anon., 1999), prospective simulations are needed to help designing tag -recapture experiments. The purpose of this paper is to present the methodology developed to help designing the future tagging program. It is based on three stages: tag recovery simulations with an habitat -based advection-diffusion-reaction model; bootstrapping of the recovery data sets; population parameter estimation and comparison of scenarii. Different scenarii are studied to check the reliability of the method and its ability to compare various t agging experimental designs. 'Research Group' IRD, HEA911, Ay. Agropolis B. P. 5045 - 34032 Montpellier Cédc’x 1 FRANCE Email: olivier.maury@mpl. irdfr

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Bibliographic Details
Main Author: Olivier, M.A.Y.
Format: Proceedings Paper biblioteca
Language:English
Published: IOTC 1998
Subjects:Tagging, Stock assessment, Tuna fisheries, Marking, ISW, Indian Ocean,
Online Access:http://hdl.handle.net/1834/67
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spelling dig-aquadocs-1834-672021-05-19T06:13:55Z A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population. Olivier, M.A.Y. Tagging Stock assessment Tuna fisheries Marking ISW, Indian Ocean The IOTC initiated a discussion to organize a large scale tagging program concerning the major tropical tuna species and fisheries. According to the terms of reference for the working party on tagging (Anon., 1999), prospective simulations are needed to help designing tag -recapture experiments. The purpose of this paper is to present the methodology developed to help designing the future tagging program. It is based on three stages: tag recovery simulations with an habitat -based advection-diffusion-reaction model; bootstrapping of the recovery data sets; population parameter estimation and comparison of scenarii. Different scenarii are studied to check the reliability of the method and its ability to compare various t agging experimental designs. 'Research Group' IRD, HEA911, Ay. Agropolis B. P. 5045 - 34032 Montpellier Cédc’x 1 FRANCE Email: olivier.maury@mpl. irdfr Published 2004-08-30T09:15:03Z 2004-08-30T09:15:03Z 1998 Proceedings Paper IOTC Proceedings, 7th Expert Consultation on Indian Ocean Tunas. p. 228-238 http://hdl.handle.net/1834/67 en 654799 bytes application/pdf IOTC
institution UNESCO
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-aquadocs
tag biblioteca
region Europa del Oeste
libraryname Repositorio AQUADOCS
language English
topic Tagging
Stock assessment
Tuna fisheries
Marking
ISW, Indian Ocean
Tagging
Stock assessment
Tuna fisheries
Marking
ISW, Indian Ocean
spellingShingle Tagging
Stock assessment
Tuna fisheries
Marking
ISW, Indian Ocean
Tagging
Stock assessment
Tuna fisheries
Marking
ISW, Indian Ocean
Olivier, M.A.Y.
A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population.
description The IOTC initiated a discussion to organize a large scale tagging program concerning the major tropical tuna species and fisheries. According to the terms of reference for the working party on tagging (Anon., 1999), prospective simulations are needed to help designing tag -recapture experiments. The purpose of this paper is to present the methodology developed to help designing the future tagging program. It is based on three stages: tag recovery simulations with an habitat -based advection-diffusion-reaction model; bootstrapping of the recovery data sets; population parameter estimation and comparison of scenarii. Different scenarii are studied to check the reliability of the method and its ability to compare various t agging experimental designs. 'Research Group' IRD, HEA911, Ay. Agropolis B. P. 5045 - 34032 Montpellier Cédc’x 1 FRANCE Email: olivier.maury@mpl. irdfr
format Proceedings Paper
topic_facet Tagging
Stock assessment
Tuna fisheries
Marking
ISW, Indian Ocean
author Olivier, M.A.Y.
author_facet Olivier, M.A.Y.
author_sort Olivier, M.A.Y.
title A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population.
title_short A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population.
title_full A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population.
title_fullStr A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population.
title_full_unstemmed A habitat-based simulation framework to design tag-recapture experiments for tunas in the Indian Ocean. Application to the skipjack (Katsuwonus pelamis) population.
title_sort habitat-based simulation framework to design tag-recapture experiments for tunas in the indian ocean. application to the skipjack (katsuwonus pelamis) population.
publisher IOTC
publishDate 1998
url http://hdl.handle.net/1834/67
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AT oliviermay habitatbasedsimulationframeworktodesigntagrecaptureexperimentsfortunasintheindianoceanapplicationtotheskipjackkatsuwonuspelamispopulation
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