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RESEARCH ARTICLE
Contents Vol 64(6)

Spatial distribution patterns, abundance and population structure of deep-sea crab Chaceon macphersoni, based on complementary analyses of trap and trawl data

Johan C. Groeneveld A E , Bernadine I. Everett A , Sean T. Fennessy A , Stephen P. Kirkman B , Jorge Santos C and Wendy D. Robertson A D
+ Author Affiliations
- Author Affiliations

A Oceanographic Research Institute, PO Box 10712, Marine Parade, 4056, Durban, South Africa.

B Branch Oceans and Coast, Department of Environmental Affairs, Private Bag X2, Rogge Bay 8012, South Africa.

C Norwegian College of Fishery Science, University of Tromsø, Breivika, N-9037, Tromsø, Norway.

D Deceased 16 May 2003.

E Corresponding author. Email: jgroeneveld@ori.org.za

Marine and Freshwater Research 64(6) 507-517 https://doi.org/10.1071/MF12263
Submitted: 18 September 2012  Accepted: 29 November 2012   Published: 24 April 2013

Abstract

Marine species such as deep-sea geryonid crabs often exhibit high spatio-temporal variability in abundance and size over depth, substratum type and season, therefore data collected from a single gear type may not represent the whole population. Complementary data from trawl (soft substratum) and trap (hard substratum) fisheries were analysed within a general linear modelling (GLM) framework to assess distribution, abundance and population structure of Chaceon macphersoni off eastern South Africa. Catch rates, mean size, maturation size and sex ratio were modelled relative to year, month, depth, latitude and gear effects. Trap and trawl analyses indicated higher abundance as depth increased up to 500 m, and during the austral spring and summer. The mean size of crabs remained constant at all depths sampled, and sex ratios were skewed towards females. Females were smaller than males, and achieved maturity at a smaller size. A standardised index based on trawl data (1988–2010) showed a long-term decline in abundance, with some recovery after 2002, whereas the trap index showed recent local depletions on hard substrata. Using data from two gear types confirmed broad gradients in abundance, but also emphasised subtle trends, such as local depletions on hard substrata, that would not have been apparent from trawl data only.

Additional keywords: catch rates, generalised linear modelling, long-term data, population structure, spatial heterogeneity.


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