Add to ORKGThe distribution area for the South African hake population is separated into nine regions to accommodate an initial attempt at a model of the dynamics which reflects explicit movement of the two species of hake both longshore and offshore. Commercial selectivities-at-length are modelled by logistic curves to reflect a gear only and no availability effect, but it proves necessary to allow for doming in the survey selectivities-at length. Although most abundance and size structure data are reasonably well fitted by the model, the model tends to overestimate the proportion of hake in the smallest and largest length groups for the surveys. Spawning biomass trends for M. paradoxus and M. capensis are broadly similar to those estimated b...
The South African hake resource faces divergent fishing pressures and management issues. Although th...
The commercially valuable hake fishery off South Africa consists of two morphologically similar spec...
Merluccius capensis and M. paradoxus are morphologically very similar and cannot be registered separ...
This document presents a first attempt at a spatially structured model for the South African hake (t...
The movement model for assessing the South African hake populations which was presented to last yea...
The gravity model of explicit spatial movement for the two South African hake species is extended to...
In the most recent assessments (Rademeyer and Butterworth, 2006) of the South African hake resource,...
Results are presented for a proposed new baseline assessment for the South African hake resource, in...
We developed generalised additive models (GAMs) to estimate standardised time-series of population a...
This paper presents a routine update of the South African hake Reference Case assessment (RS1) (Rade...
<p>We developed generalised additive models (GAMs) to estimate standardised time-series of populatio...
The Reference Case assessment of the SA hake resource is updated using unchanged methodology from t...
This paper presents a routine update of the South African hake assessment, including new commercial ...
Este artículo contiene 14 páginas, 8 figuras, 2 tablas.We developed generalised additive models (GAM...
Results are presented for a series of sensitivities to the new baseline assessment (NBA) for the Sou...
The South African hake resource faces divergent fishing pressures and management issues. Although th...
The commercially valuable hake fishery off South Africa consists of two morphologically similar spec...
Merluccius capensis and M. paradoxus are morphologically very similar and cannot be registered separ...
This document presents a first attempt at a spatially structured model for the South African hake (t...
The movement model for assessing the South African hake populations which was presented to last yea...
The gravity model of explicit spatial movement for the two South African hake species is extended to...
In the most recent assessments (Rademeyer and Butterworth, 2006) of the South African hake resource,...
Results are presented for a proposed new baseline assessment for the South African hake resource, in...
We developed generalised additive models (GAMs) to estimate standardised time-series of population a...
This paper presents a routine update of the South African hake Reference Case assessment (RS1) (Rade...
<p>We developed generalised additive models (GAMs) to estimate standardised time-series of populatio...
The Reference Case assessment of the SA hake resource is updated using unchanged methodology from t...
This paper presents a routine update of the South African hake assessment, including new commercial ...
Este artículo contiene 14 páginas, 8 figuras, 2 tablas.We developed generalised additive models (GAM...
Results are presented for a series of sensitivities to the new baseline assessment (NBA) for the Sou...
The South African hake resource faces divergent fishing pressures and management issues. Although th...
The commercially valuable hake fishery off South Africa consists of two morphologically similar spec...
Merluccius capensis and M. paradoxus are morphologically very similar and cannot be registered separ...