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Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach

Length-based methods for estimating the total mortality rate, Z, are appealing due to their potential application in data-poor situations, particularly when assessing tropical and invertebrate fisheries where age composition data are lacking. We evaluated two length-based estimators attributed to Be...

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Main Authors: Then, A.Y.H., Hoenig, J.M., Gedamke, T., Ault, J.S.
Format: Article
Published: American Fisheries Society 2015
Subjects:
Q Science (General)
QH Natural history
Online Access:http://eprints.um.edu.my/19552/
http://dx.doi.org/10.1080/00028487.2015.1077158
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spelling my.um.eprints.195522018-10-03T03:37:50Z http://eprints.um.edu.my/19552/ Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach Then, A.Y.H. Hoenig, J.M. Gedamke, T. Ault, J.S. Q Science (General) QH Natural history Length-based methods for estimating the total mortality rate, Z, are appealing due to their potential application in data-poor situations, particularly when assessing tropical and invertebrate fisheries where age composition data are lacking. We evaluated two length-based estimators attributed to Beverton and Holt (1956) and to Ehrhardt and Ault (1992) for precision and accuracy when applied to simulated length data generated under varying combinations of Z rates, growth rates, variability in length at age, and the degree of length truncation imposed by the data analyst. The Beverton-Holt method generally overestimated Z, with bias ranging from -5% to +40%, when the abundance of the oldest age-groups is less than that associated with a constant mortality rate. The bias in the Ehrhardt-Ault method ranged from -80% to +140%, depending on the combinations of Z and the von Bertalanffy growth coefficient K, the degree of imposed length truncation, and the method for mean length calculation. In general, the Ehrhardt-Ault estimator exhibited complex behavior, which made it difficult to summarize the direction and magnitude of the bias and the mean square error. The best length truncation to impose on the length samples to apply the Ehrhardt-Ault method often did not coincide with the “true” length of truncation especially with more realistic scenarios of variability in length at age. The Beverton-Holt method has the advantage of having known directional biases and predictable behavior. Use of the Ehrhardt-Ault estimator should be accompanied by a case-specific evaluation of its likely performance. American Fisheries Society 2015 Article PeerReviewed Then, A.Y.H. and Hoenig, J.M. and Gedamke, T. and Ault, J.S. (2015) Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach. Transactions of the American Fisheries Society, 144 (6). pp. 1206-1219. ISSN 0002-8487 http://dx.doi.org/10.1080/00028487.2015.1077158 doi:10.1080/00028487.2015.1077158
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic Q Science (General)
QH Natural history
spellingShingle Q Science (General)
QH Natural history
Then, A.Y.H.
Hoenig, J.M.
Gedamke, T.
Ault, J.S.
Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach
description Length-based methods for estimating the total mortality rate, Z, are appealing due to their potential application in data-poor situations, particularly when assessing tropical and invertebrate fisheries where age composition data are lacking. We evaluated two length-based estimators attributed to Beverton and Holt (1956) and to Ehrhardt and Ault (1992) for precision and accuracy when applied to simulated length data generated under varying combinations of Z rates, growth rates, variability in length at age, and the degree of length truncation imposed by the data analyst. The Beverton-Holt method generally overestimated Z, with bias ranging from -5% to +40%, when the abundance of the oldest age-groups is less than that associated with a constant mortality rate. The bias in the Ehrhardt-Ault method ranged from -80% to +140%, depending on the combinations of Z and the von Bertalanffy growth coefficient K, the degree of imposed length truncation, and the method for mean length calculation. In general, the Ehrhardt-Ault estimator exhibited complex behavior, which made it difficult to summarize the direction and magnitude of the bias and the mean square error. The best length truncation to impose on the length samples to apply the Ehrhardt-Ault method often did not coincide with the “true” length of truncation especially with more realistic scenarios of variability in length at age. The Beverton-Holt method has the advantage of having known directional biases and predictable behavior. Use of the Ehrhardt-Ault estimator should be accompanied by a case-specific evaluation of its likely performance.
format Article
author Then, A.Y.H.
Hoenig, J.M.
Gedamke, T.
Ault, J.S.
author_facet Then, A.Y.H.
Hoenig, J.M.
Gedamke, T.
Ault, J.S.
author_sort Then, A.Y.H.
title Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach
title_short Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach
title_full Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach
title_fullStr Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach
title_full_unstemmed Comparison of Two Length-Based Estimators of Total Mortality: A Simulation Approach
title_sort comparison of two length-based estimators of total mortality: a simulation approach
publisher American Fisheries Society
publishDate 2015
url http://eprints.um.edu.my/19552/
http://dx.doi.org/10.1080/00028487.2015.1077158
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score 13.1944895

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