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Capturing complex interactions in disease ecology with simplicial sets

Matthew J. Silk, M. Wilber, Nina H. Fefferman

2022Ecology Letters25 citationsDOI

Abstract

Network approaches have revolutionized the study of ecological interactions. Social, movement and ecological networks have all been integral to studying infectious disease ecology. However, conventional (dyadic) network approaches are limited in their ability to capture higher-order interactions. We present simplicial sets as a tool that addresses this limitation. First, we explain what simplicial sets are. Second, we explain why their use would be beneficial in different subject areas. Third, we detail where these areas are: social, transmission, movement/spatial and ecological networks and when using them would help most in each context. To demonstrate their application, we develop a novel approach to identify how pathogens persist within a host population. Fourth, we provide an overview of how to use simplicial sets, highlighting specific metrics, generative models and software. Finally, we synthesize key research questions simplicial sets will help us answer and draw attention to methodological developments that will facilitate this.

Topics & Concepts

EcologyGenerative grammarContext (archaeology)Ecological networkTheoretical ecologyData sciencePopulationComputer scienceGeographyArtificial intelligenceBiologySociologyEcosystemDemographyArchaeologyEvolution and Genetic DynamicsEvolutionary Game Theory and CooperationBioinformatics and Genomic Networks
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