Review of integrated size-structured models for stock assessment of hard-to-age crustacean and mollusc species

Authored by Andre E Punt, TzuChuan Huang, Mark N Maunder

Date Published: 2013

DOI: 10.1093/icesjms/fss185

Sponsors: Bering Sea Fisheries Research Foundation

Platforms: No platforms listed

Model Documentation: Other Narrative Mathematical description

Model Code URLs: Model code not found

Abstract

Crustaceans and molluscs such as crabs, rock lobsters, prawns, abalone, and oysters constitute large and valuable fisheries. However, assessments of these species are hampered because they cannot be production aged, in contrast to many teleosts. The major data sources for these species, in addition to catch and abundance index data, are the size compositions of the catches and of any fishery-independent indices. Assessments of such species have been conducted using age-based methods of stock assessment, as well as surplus production models. However, size-structured methods are now preferred because they can make full use of size-composition data, are able to integrate multiple sources of data, and produce the types of outputs which are needed for management purposes. An advantage of size-based models over age-based models is that all processes can be size-based, and these processes can modify the (unmodelled) size-at-age distribution. We review these methods, highlighting the choices that need to be made when developing integrated size-structured stock assessments, the data sources which are typically available and how they are used for parameter estimation, and contrast a number of such assessments worldwide.

Tags

Individual-based model New-zealand Tasmanian rock lobster Jasus-edwardsii Population-model Surplus production Transition matrix Length analysis General-theory Haliotis-iris