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Non‐invasive monitoring of multiple wildlife health factors by fecal microbiome analysis

Samuel Pannoni, Kelly M. Proffitt, William E. Holben

2022Ecology and Evolution39 citationsDOIOpen Access PDF

Abstract

) and four host factors including sex, age, population, and physical condition (body-fat). We paired a feature-selection algorithm with an LDA-classifier trained on elk differential bacterial abundance (16S-rRNA amplicon survey) to predict host health factors from 104 elk microbiomes across four elk populations. We validated the accuracy of the various classifier predictions with leave-one-out cross-validation using known measurements. We demonstrate that the elk fecal microbiome can predict the four host factors tested. Our results show that elk microbiomes respond to both the strong extrinsic factor of biogeography and simultaneously occurring, but more subtle, intrinsic forces of individual body-fat, sex, and age-class. Thus, we have developed and described herein a generalizable approach to disentangle microbiome responses attributed to multiple host factors of varying strength from the same bacterial sequence data set. Wildlife conservation and management presents many challenges, but we demonstrate that non-invasive microbiome surveys from scat samples can provide alternative options for wildlife population monitoring. We believe that, with further validation, this method could be broadly applicable in other species and potentially predict other measurements. Our study can help guide the future development of microbiome-based monitoring of wildlife populations and supports hypothetical expectations found in host-microbiome theory.

Topics & Concepts

WildlifeMicrobiomeFecesGut microbiomeEcologyBiologyGeographyBioinformaticsGut microbiota and healthIndigenous Studies and Ecology
Non‐invasive monitoring of multiple wildlife health factors by fecal microbiome analysis | Litcius