Litcius/Paper detail

Biological traits interact with human threats to drive extinctions: A modelling study

Filipe Chichorro, Luís Correia, Pedro Cardoso

2022Ecological Informatics20 citationsDOIOpen Access PDF

Abstract

How a particular threat influences extinction risk may depend on biological traits. Empirical studies relating threats and traits are needed, but data are scarce, making simulations useful. We implemented an eco-evolutionary model to analyse how five threat types influence the extinction risk of virtual organisms differing in body size, maturity age, fecundity, and dispersal ability. The model consisted of observing the evolutionary shift in the mean trait values of an assemblage of organisms when a threat was added into the virtual world where they lived. If a positive shift was found in trait values, we considered that the threat negatively influenced organisms with lower values for that trait. Direct killing mostly affected organisms with slow life cycles (slower-living) and poorly dispersive organisms. Habitat loss caused a reduction in the average dispersal ability of organisms. Habitat fragmentation caused an increase of average dispersal ability, and had a negative effect on larger, less fecund organisms. Habitat degradation and the introduction of invasive competitors had similar effects, mostly affecting large and fast-living organisms, with habitat degradation also affecting highly fecund and poorly dispersive organisms. These results agree with previous empirical studies in which larger, slower-lived, and less fecund organisms are more vulnerable to a greater range of threats. On the other hand, our results challenge two commonly seen hypotheses in the literature: that organisms with high dispersal ability fare well under any high habitat loss scenarios, and that fast-living, highly fecund organisms always do well during environmental change. Our study shows that highly dispersive organisms may be the losers when habitat loss removes large continuous areas of habitat, and fast-living and highly reproductive organisms may be the losers when resources or energy availability dwindle to very low levels. Most importantly, our study underpins the importance of considering the type of threat when analysing the relation between traits and extinction. Even in simple scenarios such as the ones modelled here, different threats lead to different, sometimes opposite, extinction probabilities according to the biological traits of organisms.

Topics & Concepts

Biological dispersalBiologyEcologyHabitatTraitExtinction (optical mineralogy)FecundityHabitat fragmentationRange (aeronautics)Life history theoryHabitat destructionOrganismFragmentation (computing)Environmental changePopulationLife historyClimate changeDemographyPaleontologyComposite materialSociologyComputer scienceMaterials scienceProgramming languageEcology and Vegetation Dynamics StudiesEvolutionary Game Theory and CooperationEvolution and Genetic Dynamics