Add to ORKGProblems in estimation of the instantaneous rate of natural mortality in exploited, fish populations have been mentioned and improved estimators of the natural mortality rate (M) are empirically derived as functions of the von Bertalanffy growth parameter K. Alternative methods are also suggested
The natural mortality of exploited fish populations is often assumed to be a species-specific consta...
The mortality rates of oil sardine, Sardinella longiceps from Karwar have been estimated based on t...
The mortality rates of N. japonicus are estimated from annual age composition of fish caught by tra...
Not AvailableProblems in estimation of the instantaneous rate of natural mortality in exploited, fi...
Natural mortality rate, M, of fish is a highly influential stock assessment parameter. The M paramet...
A simple method of estimating the Instantaneous rate of mortality (Z) from length-frequency data is...
Many methods have been developed in the last 70 years to predict the natural mortality rate, M, of a...
Taking the probaib.'litj' distribution of age of fish as given by Ssentango and; Larkin (1973), and...
New methods for estimation of growth and mortality parameters, together with their error estimation...
To estimate the empirical relationships in anchovy, the instantaneous natural mortality rate (M) cal...
Abstract.—The Alverson and Carney (AC) model for estimating the instantaneous rate of natural mortal...
Mortality is an essential parameter in understanding the dynamics of any population and sharks are n...
Simple algebraic relationships and yield equations that require the minimum of data are developed so...
Gedamke and Hoenig (2006) (Transactions of the American Fisheries Society, 135: 476-487) developed a...
Knowledge of growth and mortality is essential for a meaningful assessment of the exploited stock. ...
The natural mortality of exploited fish populations is often assumed to be a species-specific consta...
The mortality rates of oil sardine, Sardinella longiceps from Karwar have been estimated based on t...
The mortality rates of N. japonicus are estimated from annual age composition of fish caught by tra...
Not AvailableProblems in estimation of the instantaneous rate of natural mortality in exploited, fi...
Natural mortality rate, M, of fish is a highly influential stock assessment parameter. The M paramet...
A simple method of estimating the Instantaneous rate of mortality (Z) from length-frequency data is...
Many methods have been developed in the last 70 years to predict the natural mortality rate, M, of a...
Taking the probaib.'litj' distribution of age of fish as given by Ssentango and; Larkin (1973), and...
New methods for estimation of growth and mortality parameters, together with their error estimation...
To estimate the empirical relationships in anchovy, the instantaneous natural mortality rate (M) cal...
Abstract.—The Alverson and Carney (AC) model for estimating the instantaneous rate of natural mortal...
Mortality is an essential parameter in understanding the dynamics of any population and sharks are n...
Simple algebraic relationships and yield equations that require the minimum of data are developed so...
Gedamke and Hoenig (2006) (Transactions of the American Fisheries Society, 135: 476-487) developed a...
Knowledge of growth and mortality is essential for a meaningful assessment of the exploited stock. ...
The natural mortality of exploited fish populations is often assumed to be a species-specific consta...
The mortality rates of oil sardine, Sardinella longiceps from Karwar have been estimated based on t...
The mortality rates of N. japonicus are estimated from annual age composition of fish caught by tra...