Nature Conservation (Aug 2018)

Applying bayesian population assessment models to artisanal, multispecies fisheries in the Northern Mokran Sea, Iran

  • Abdul Rashid Jamnia,
  • Ahmad Ali Keikha,
  • Mahmoud Ahmadpour,
  • Abdoul Ahad Cissé,
  • Mohammad Rokouei

DOI
https://doi.org/10.3897/natureconservation.28.25212
Journal volume & issue
Vol. 28
pp. 61 – 89

Abstract

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Small-scale fisheries substantially contribute to the reduction of poverty, local economies and food safety in many countries. However, limited and low-quality catches and effort data for small-scale fisheries complicate the stock assessment and management. Bayesian modelling has been advocated when assessing fisheries with limited data. Specifically, Bayesian models can incorporate information of the multiple sources, improve precision in the stock assessments and provide specific levels of uncertainty for estimating the relevant parameters. In this study, therefore, the state-space Bayesian generalised surplus production models will be used in order to estimate the stock status of fourteen Demersal fish species targeted by small-scale fisheries in Sistan and Baluchestan, Iran. The model was estimated using Markov chain Monte Carlo (MCMC) and Gibbs Sampling. Model parameter estimates were evaluated by the formal convergence and stationarity diagnostic tests, indicating convergence and accuracy. They were also aligned with existing parameter estimates for fourteen species of the other locations. This suggests model reliability and demonstrates the utility of Bayesian models. According to estimated fisheries’ management reference points, all assessed fish stocks appear to be overfished. Overfishing considered, the current fisheries management strategies for the small-scale fisheries may need some adjustments to warrant the long-term viability of the fisheries.