Our understanding of risk preferences can be sharpened by considering their evolutionary basis. Recently, Robatto and Szentes (2017) found that both aggregate risk and idiosyncratic risk generate the same growth rate in a continuous time setting. We introduce a new source of risk, which is correlated between agents in the same location, but is uncorrelated between agents in different locations. We show that this local risk induces a strictly higher growth rate. This shows that interdependence of risk and population structure have important implications in a continuous-time setting, and that natural selection induces individuals to prefer local risk
<p>The fraction of trials in which the “R” species prevailed, at the maximum risk level (<i>r</i> = ...
Recent papers have modeled the prevalence of risk-tolerance as shaped by growth, making testable pre...
this paper we explore an evolutionary model where preferences, in particular attitudes toward risk, ...
Our understanding of risk preferences can be sharpened by considering their evolutionary basis. Rece...
Our understanding of risk preferences can be sharpened by considering their evolutionary basis. Rece...
We examine evolutionary basis for risk aversion with respect to aggregate risk. We study populations...
This paper considers a continuous-time biological model in which the growth rate of a population is ...
Risk aversion is one of the most basic assumptions of economic behavior, but few studies have addres...
We propose a single evolutionary explanation for the origin of several behaviors that have been obse...
Abstract — In this paper we investigate how life expectation influences the development of risk atti...
In this paper, we use the classical twin design to provide estimates of genetic and environmental in...
Risk aversion is a common behavior universal to humans and animals alike. Economists have traditiona...
In a series of seminal articles in 1974, 1975, and 1977, J. H. Gillespie challenged the notion that ...
In this paper, we study transmission of traits through generations in multifactorial inheritance mod...
In this paper, we use the classical twin design to provide estimates of genetic and environmental i...
<p>The fraction of trials in which the “R” species prevailed, at the maximum risk level (<i>r</i> = ...
Recent papers have modeled the prevalence of risk-tolerance as shaped by growth, making testable pre...
this paper we explore an evolutionary model where preferences, in particular attitudes toward risk, ...
Our understanding of risk preferences can be sharpened by considering their evolutionary basis. Rece...
Our understanding of risk preferences can be sharpened by considering their evolutionary basis. Rece...
We examine evolutionary basis for risk aversion with respect to aggregate risk. We study populations...
This paper considers a continuous-time biological model in which the growth rate of a population is ...
Risk aversion is one of the most basic assumptions of economic behavior, but few studies have addres...
We propose a single evolutionary explanation for the origin of several behaviors that have been obse...
Abstract — In this paper we investigate how life expectation influences the development of risk atti...
In this paper, we use the classical twin design to provide estimates of genetic and environmental in...
Risk aversion is a common behavior universal to humans and animals alike. Economists have traditiona...
In a series of seminal articles in 1974, 1975, and 1977, J. H. Gillespie challenged the notion that ...
In this paper, we study transmission of traits through generations in multifactorial inheritance mod...
In this paper, we use the classical twin design to provide estimates of genetic and environmental i...
<p>The fraction of trials in which the “R” species prevailed, at the maximum risk level (<i>r</i> = ...
Recent papers have modeled the prevalence of risk-tolerance as shaped by growth, making testable pre...
this paper we explore an evolutionary model where preferences, in particular attitudes toward risk, ...