Add to ORKGHere we present a new technique to study life history variation when only length distributions of populations are known. Shape of length distribution in a population is to a significant extent determined by the degree to which an average individual approaches its asymptotic maximum size. Statistically, the shape of a length can be characterised by its skewness, measuring the degree of symmetry in the distribution. Positive skew (long right tail) in a length distribution suggests that relative few individuals survive long enough to approach asymptotic size in a population, whereas the opposite is true for negative skew (long left tail). With a simple model of age-size dynamics in a population showing indeterminate growth, we show tha...
International audienceThe study of animal growth is a longstanding crucial topic of theoretical biol...
Today, fishing is the dominant source of mortality in most commercially exploited fish stocks. Life-...
Size and age are fundamental organismal traits, and typically, both are good predictors of mortality...
Here we present a new technique to study life history variation when only length distributions of p...
Here we present a new technique to study life history variation when only length distributions of po...
Here we use a new technique to study life history variation in deep-pelagic fishes from a midocean ...
The differences in demographic and life-history processes between organisms living in the same popul...
The differences in demographic and life-history processes between organisms living in the same popul...
Selectivity in fish is often size-dependent, which results in differential fishing mortality rates a...
Here we use a new technique to study life history variation in deep-pelagic fishes from a mid-ocean ...
Abstract: We present a maximum likelihood procedure for estimating population growth and mortality p...
In this paper, we describe a discrete-time formalism for describing the dynamics of the size-at-age ...
Evaluating the status of data-poor fish stocks is often limited by incomplete knowledge of the basic...
1. Somatic growth is a fundamental property of living organisms, and is of particular importance for...
International audienceThe study of animal growth is a longstanding crucial topic of theoretical biol...
Today, fishing is the dominant source of mortality in most commercially exploited fish stocks. Life-...
Size and age are fundamental organismal traits, and typically, both are good predictors of mortality...
Here we present a new technique to study life history variation when only length distributions of p...
Here we present a new technique to study life history variation when only length distributions of po...
Here we use a new technique to study life history variation in deep-pelagic fishes from a midocean ...
The differences in demographic and life-history processes between organisms living in the same popul...
The differences in demographic and life-history processes between organisms living in the same popul...
Selectivity in fish is often size-dependent, which results in differential fishing mortality rates a...
Here we use a new technique to study life history variation in deep-pelagic fishes from a mid-ocean ...
Abstract: We present a maximum likelihood procedure for estimating population growth and mortality p...
In this paper, we describe a discrete-time formalism for describing the dynamics of the size-at-age ...
Evaluating the status of data-poor fish stocks is often limited by incomplete knowledge of the basic...
1. Somatic growth is a fundamental property of living organisms, and is of particular importance for...
International audienceThe study of animal growth is a longstanding crucial topic of theoretical biol...
Today, fishing is the dominant source of mortality in most commercially exploited fish stocks. Life-...
Size and age are fundamental organismal traits, and typically, both are good predictors of mortality...