<p>Mortality and exploitation estimates based on the linearized length converted catch curve method <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0036022#pone.0036022-McClanahan5" target="_blank">[23]</a> and the modified Beverton and Holt method as in FishBase for the three most abundant species in the catch.</p
In fisheries with limited capacity for monitoring, it is often easier to collect length measurements...
Mortality is an essential parameter in understanding the dynamics of any population and sharks are n...
Life history models can include a wide range of biological and ecological features that affect explo...
Gedamke and Hoenig (2006) (Transactions of the American Fisheries Society, 135: 476-487) developed a...
Several methods are available to estimate mortality from catch curves. These methods include least s...
Since the beginning of this century a catch curve, which represents the relationship between the siz...
New methods for estimation of growth and mortality parameters, together with their error estimation...
Mortality is an essential parameter in understanding the dynamics of any population and sharks are n...
Length‐based methods provide alternatives for estimating the instantaneous total mortality rate (Z) ...
Length-based methods for estimating the total mortality rate, Z, are appealing due to their potentia...
This study presents a new method (LBB) for the analysis of length frequency data from commercial cat...
This document has been issued as VIMS Data Report 60 and provides additional simulation results for ...
Although they support many millions of people, the vast majority of the world’s fisheries are small-...
The model is derived under the assumption that within the range of the maximum length and the length...
Problems in estimation of the instantaneous rate of natural mortality in exploited, fish population...
In fisheries with limited capacity for monitoring, it is often easier to collect length measurements...
Mortality is an essential parameter in understanding the dynamics of any population and sharks are n...
Life history models can include a wide range of biological and ecological features that affect explo...
Gedamke and Hoenig (2006) (Transactions of the American Fisheries Society, 135: 476-487) developed a...
Several methods are available to estimate mortality from catch curves. These methods include least s...
Since the beginning of this century a catch curve, which represents the relationship between the siz...
New methods for estimation of growth and mortality parameters, together with their error estimation...
Mortality is an essential parameter in understanding the dynamics of any population and sharks are n...
Length‐based methods provide alternatives for estimating the instantaneous total mortality rate (Z) ...
Length-based methods for estimating the total mortality rate, Z, are appealing due to their potentia...
This study presents a new method (LBB) for the analysis of length frequency data from commercial cat...
This document has been issued as VIMS Data Report 60 and provides additional simulation results for ...
Although they support many millions of people, the vast majority of the world’s fisheries are small-...
The model is derived under the assumption that within the range of the maximum length and the length...
Problems in estimation of the instantaneous rate of natural mortality in exploited, fish population...
In fisheries with limited capacity for monitoring, it is often easier to collect length measurements...
Mortality is an essential parameter in understanding the dynamics of any population and sharks are n...
Life history models can include a wide range of biological and ecological features that affect explo...
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