Abalone I: Analyzing Mark‐Recapture‐Recovery Data Incorporating Growth and Delayed Recovery

Abalone I: Analyzing Mark‐Recapture‐Recovery Data Incorporating Growth and Delayed Recovery

Abalone are semimobile marine gastropods that form the basis of Australia's second most valuable fishery. A site off the coast of Port Arthur, Tasmania, was visited on six occasions. On each occasion, any unmarked live abalone found were marked with a unique identification number and were recor...

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Veröffentlicht in:Biometrics 2001-06, Vol.57 (2), p.469-477
Hauptverfasser: Catchpole, E. A., Freeman, S. N., Morgan, B. J. T., Nash, W. J.
Format: Artikel
Sprache:eng
Schlagworte:
Abalone
Animals
Australia
Biometrics
biometry
coasts
dead animals
Death
Delayed recovery
fisheries
Fisheries - statistics & numerical data
Fisheries science
Gastropoda
Growth
Haliotis
Integrated data
Marine
Mark-recapture-recovery analysis
Migration
Modeling
Models, Statistical
Mollusca - growth & development
Ocean fisheries
Parametric models
Population Density
Preliminary estimates
Probability
Size dependency
Standard error
Survival Analysis
Survival rates
Time dependence
Time Factors
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Beschreibung
Zusammenfassung:Abalone are semimobile marine gastropods that form the basis of Australia's second most valuable fishery. A site off the coast of Port Arthur, Tasmania, was visited on six occasions. On each occasion, any unmarked live abalone found were marked with a unique identification number and were recorded. Any previously marked abalone found had its identification number and whether or not it was still alive recorded. This results in integrated mark‐recapture‐recovery data, as in Catchpole et al. (1998, Biometrics54, 33–46). During the study period, abalone grew in size, and we model the survival of individuals as a function of their size, estimated from a fitted growth curve. The shells of dead animals are long lasting, and we extend existing methodology to allow for the possibility that an animal found dead may have been dead but overlooked for several visits.
ISSN:0006-341X
1541-0420
DOI:10.1111/j.0006-341X.2001.00469.x