Evaluating the role of data quality when sharing information in hierarchical multistock assessment models, with an application to Dover sole

• Published in: Canadian journal of fisheries and aquatic sciences Vol. 76; no. 10; pp. 1819 - 1835
• Main Authors: Johnson, Samuel D.N, Cox, Sean P
• Format: Journal Article
• Language: English
• Published: Ottawa NRC Research Press 01.10.2019; Canadian Science Publishing NRC Research Press
• Subjects: adverse effects; biomass; Catchability; Computer simulation; Configurations; Data integrity; data quality; Errors; Fish industry; Fisheries; Fisheries management; Fisheries surveys; Fishery data; Fishery management; information exchange; Information sharing; Management systems; Marine; Mathematical models; Microstomus pacificus; Parameters; Pleuronectiformes; Shrinkage; Side effects; Simulation; Statistical analysis; Stock assessment; Studies; Surveying; surveys; Uniqueness; United Kingdom; British Columbia; INE, North Pacific
• ISSN: 0706-652X; 1205-7533; 1205-7533
• DOI: 10.1139/cjfas-2018-0048

An emerging approach to data-limited fisheries stock assessment uses hierarchical multistock assessment models to group stocks together, sharing information from data-rich to data-poor stocks. In this paper, we simulate data-rich and data-poor fishery and survey data scenarios for a complex of Dover sole (Microstomus pacificus) stocks. Simulated data for individual stocks were used to compare estimation performance for single-stock and hierarchical multistock versions of a Schaefer production model. The single-stock and best-performing multistock models were then used in stock assessments for the real Dover sole data. Multistock models often had lower estimation errors than single-stock models when assessment data had low statistical power. Relative errors for productivity and relative biomass parameters were lower for multistock assessment model configurations. In addition, multistock models that estimated hierarchical priors for survey catchability performed the best under data-poor scenarios. We conclude that hierarchical multistock assessment models are useful for data-limited stocks and could provide a more flexible alternative to data pooling and catch-only methods; however, these models are subject to nonlinear side effects of parameter shrinkage. Therefore, we recommend testing hierarchical multistock models in closed-loop simulations before application to real fishery management systems.