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| Main Authors: | , , , |
|---|---|
| Format: | Artículo científico |
| Language: | en |
| Published: |
Journal of the Royal Society, Interface
2026
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| Subjects: | |
| Online Access: | https://pubmed.ncbi.nlm.nih.gov/41667083/ |
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Table of Contents:
- Dynamic mean and variance of microparasite load give key insights into population dynamics and underlying mechanisms. Walsman, Jason Cosens Streipert, Sabrina H Briggs, Cheryl J Wilber, Mark Q Animals Population Dynamics Models, Biological Anura Host-Parasite Interactions Host-Pathogen Interactions Individual heterogeneity, in number of parasites, size, etc., interacts critically with population dynamics. We tease this out in a model case study of microparasite load with empirically supported assumptions to investigate how variance in load interacts with population dynamics, We show how the mean and variance of load vary throughout an epidemic. Further, we show how mean and variance have mutual negative feedbacks on each other mediated by high death rates at high loads. Helpfully, we find that mean and variance provide information into underlying processes as well. Population trends in the mean and variance reveal underlying trends in within-host processes, e.g. differentiating host evolution of defence that manifests as tolerance, constitutive resistance, inducible resistance or acquired resistance. Our findings apply to many microparasites, including fungal pathogens which show large variance in infection load. As a case study, we consider endangered frog populations recovering from fungal epidemics and find that the mean and variance guide management actions. Lastly, we demonstrate the impact of load variance on host fitness, pathogen fitness and host population suppression. Our results demonstrate the importance of trait heterogeneity and the insights available from relatively simple models, both for microparasite load and possibly other traits.