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Identifying fishing trip behaviour and estimating fishing effort from VMS data using Bayesian Hidden Markov Models

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  • Vermard, Youen
  • Rivot, Etienne
  • Mahévas, Stéphanie
  • Marchal, Paul
  • Gascuel, Didier

Abstract

Recent advances in technologies have lead to a vast influx of data on movements, based on discrete recorded position of animals or fishing boats, opening new horizons for future analyses. However, most of the potential interest of tracking data depends on the ability to develop suitable modelling strategies to analyze trajectories from discrete recorded positions. A serious modelling challenge is to infer the evolution of the true position and the associated spatio-temporal distribution of behavioural states using discrete, error-prone and incomplete observations. In this paper, a Bayesian Hierarchical Model (HBM) using Hidden Markov Process (HMP) is proposed as a template for analyzing fishing boats trajectories based on data available from satellite-based vessel monitoring systems (VMS). The analysis seeks to enhance the definition of the fishing pressure exerted on fish stocks, by discriminating between the different behavioural states of a fishing trip, and also by quantifying the relative importance of each of these states during a fishing trip. The HBM approach is tested to analyse the behaviour of pelagic trawlers in the Bay of Biscay. A hidden Markov chain with a regular discrete time step is used to model transitions between successive behavioural states (e.g., fishing, steaming, stopping (at Port or at sea)) of each vessel. The parameters of the movement process (speed and turning angles) are defined conditionally upon the behavioural states. Bayesian methods are used to integrate the available data (typically VMS position recorded at discrete time) and to draw inferences on any unknown parameters of the model. The model is first tested on simulated data with different parameters structures. Results provide insights on the potential of HBM with HMP to analyze VMS data. They show that if VMS positions are recorded synchronously with the instants at which the process switch from one behavioural state to another, the estimation method provides unbiased and precise inferences on behavioural states and on associated movement parameters. However, if the observations are not gathered with a sufficiently high frequency, the performance of the estimation method could be drastically impacted when the discrete observations are not synchronous with the switching instants. The model is then applied to real pathways to estimate variables of interest such as the number of operations per trip, time and distance spent fishing or travelling.

Suggested Citation

  • Vermard, Youen & Rivot, Etienne & Mahévas, Stéphanie & Marchal, Paul & Gascuel, Didier, 2010. "Identifying fishing trip behaviour and estimating fishing effort from VMS data using Bayesian Hidden Markov Models," Ecological Modelling, Elsevier, vol. 221(15), pages 1757-1769.
    • Handle: RePEc:eee:ecomod:v:221:y:2010:i:15:p:1757-1769
    DOI: 10.1016/j.ecolmodel.2010.04.005
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    References listed on IDEAS

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    1. Pelletier, Dominique & Mahevas, Stéphanie & Drouineau, Hilaire & Vermard, Youen & Thebaud, Olivier & Guyader, Olivier & Poussin, Benjamin, 2009. "Evaluation of the bioeconomic sustainability of multi-species multi-fleet fisheries under a wide range of policy options using ISIS-Fish," Ecological Modelling, Elsevier, vol. 220(7), pages 1013-1033.
    2. Dominique Pelletier & Stéphanie Mahévas & Hilaire Drouineau & Youen Vermard & Olivier Thébaud & Olivier Guyader, 2009. "Evaluation of the bio-economic sustainability of multi-species multi-fleet fisheries under a wide range of policy options using ISIS-Fish," Post-Print hal-00511774, HAL.
    3. Youen Vermard & Paul Marchal & Stéphanie Mahévas & Olivier Thébaud, 2008. "A dynamic model of the Bay of Biscay pelagic fleet simulating fishing trip choice: the response to the closure of the European anchovy (Engraulis encrasicolus) fishery in 2005," Post-Print hal-00368317, HAL.
    4. Smith, Martin D. & Wilen, James E., 2003. "Economic impacts of marine reserves: the importance of spatial behavior," Journal of Environmental Economics and Management, Elsevier, vol. 46(2), pages 183-206, September.
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    1. Walker, E. & Bez, N., 2010. "A pioneer validation of a state-space model of vessel trajectories (VMS) with observers’ data," Ecological Modelling, Elsevier, vol. 221(17), pages 2008-2017.
    2. Erico N de Souza & Kristina Boerder & Stan Matwin & Boris Worm, 2016. "Improving Fishing Pattern Detection from Satellite AIS Using Data Mining and Machine Learning," PLOS ONE, Public Library of Science, vol. 11(7), pages 1-20, July.
    3. Paterson, Barbara, 2015. "Tracks, trawls and lines—Knowledge practices of skippers in the Namibian hake fisheries," Marine Policy, Elsevier, vol. 60(C), pages 309-317.
    4. Woillez, Mathieu & Fablet, Ronan & Ngo, Tran-Thanh & Lalire, Maxime & Lazure, Pascal & de Pontual, Hélène, 2016. "A HMM-based model to geolocate pelagic fish from high-resolution individual temperature and depth histories: European sea bass as a case study," Ecological Modelling, Elsevier, vol. 321(C), pages 10-22.
    5. Russo, Tommaso & Pulcinella, Jacopo & Parisi, Antonio & Martinelli, Michela & Belardinelli, Andrea & Santojanni, Alberto & Cataudella, Stefano & Colella, Sabrina & Anderlini, Luca, 2015. "Modelling the strategy of mid-water trawlers targeting small pelagic fish in the Adriatic Sea and its drivers," Ecological Modelling, Elsevier, vol. 300(C), pages 102-113.
    6. Aurélie Foveau & Sandrine Vaz & Nicolas Desroy & Vladimir E Kostylev, 2017. "Process-driven and biological characterisation and mapping of seabed habitats sensitive to trawling," PLOS ONE, Public Library of Science, vol. 12(10), pages 1-30, October.
    7. Lamonica, Dominique & Drouineau, Hilaire & Capra, Hervé & Pella, Hervé & Maire, Anthony, 2020. "A framework for pre-processing individual location telemetry data for freshwater fish in a river section," Ecological Modelling, Elsevier, vol. 431(C).
    8. Floriane Cardiec & Sophie Bertrand & Matthew J Witt & Kristian Metcalfe & Brendan J Godley & Catherine McClellan & Raul Vilela & Richard J Parnell & François le Loc’h, 2020. "“Too Big To Ignore”: A feasibility analysis of detecting fishing events in Gabonese small-scale fisheries," PLOS ONE, Public Library of Science, vol. 15(6), pages 1-19, June.
    9. Demestre, Montserrat & Muntadas, Alba & de Juan, Silvia & Mitilineou, Chryssi & Sartor, Paolo & Mas, Julio & Kavadas, Stefanos & Martín, Javier, 2015. "The need for fine-scale assessment of trawl fishing effort to inform on an ecosystem approach to fisheries: Exploring three data sources in Mediterranean trawling grounds," Marine Policy, Elsevier, vol. 62(C), pages 134-143.
    10. Boyd, Charlotte & Punt, André E. & Weimerskirch, Henri & Bertrand, Sophie, 2014. "Movement models provide insights into variation in the foraging effort of central place foragers," Ecological Modelling, Elsevier, vol. 286(C), pages 13-25.

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