A conserved interdomain microbial network underpins cadaver decomposition despite environmental variables

Zachary M. Burcham; Aeriel D. Belk; Bridget B. McGivern; Amina Bouslimani; Parsa Ghadermazi; Cameron Martino; Liat Shenhav; Anru R. Zhang; Pixu Shi; Alexandra Emmons; Heather Deel; Zhenjiang Zech Xu; Victoria Nieciecki; Qiyun Zhu; Michael Shaffer; Morgan Panitchpakdi; Kelly Weldon; Kalen Cantrell; Asa Ben-Hur; Sasha C. Reed; Greg C. Humphry; Gail Ackermann; Daniel McDonald; Siu Hung Joshua Chan; Melissa Connor; Derek Boyd; Jake Smith; Jenna M.S. Watson; Giovanna Vidoli; Dawnie Steadman; Aaron M. Lynne; Sibyl R Bucheli; Pieter C. Dorrestein; Kelly C. Wrighton; David O. Carter; Rob Knight; Jessica L. Metcalf

doi:10.1038/s41564-023-01580-y

A conserved interdomain microbial network underpins cadaver decomposition despite environmental variables

Nature Microbiology

By: Zachary M. Burcham, Aeriel D. Belk, Bridget B. McGivern, Amina Bouslimani, Parsa Ghadermazi, Cameron Martino, Liat Shenhav, Anru R. Zhang, Pixu Shi, Alexandra Emmons, Heather Deel, Zhenjiang Zech Xu, Victoria Nieciecki, Qiyun Zhu, Michael Shaffer, Morgan Panitchpakdi, Kelly Weldon, Kalen Cantrell, Asa Ben-Hur, Sasha C. Reed, Greg C. Humphry, Gail Ackermann, Daniel McDonald, Siu Hung Joshua Chan, Melissa Connor, Derek Boyd, Jake Smith, Jenna M.S. Watson, Giovanna Vidoli, Dawnie Steadman, Aaron M. Lynne, Sibyl R Bucheli, Pieter C. Dorrestein, Kelly C. Wrighton, David O. Carter, Rob Knight, and Jessica L. Metcalf

https://doi.org/10.1038/s41564-023-01580-y

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Abstract

Microbial breakdown of organic matter is one of the most important processes on Earth, yet the controls of decomposition are poorly understood. Here we track 36 terrestrial human cadavers in three locations and show that a phylogenetically distinct, interdomain microbial network assembles during decomposition despite selection effects of location, climate and season. We generated a metagenome-assembled genome library from cadaver-associated soils and integrated it with metabolomics data to identify links between taxonomy and function. This universal network of microbial decomposers is characterized by cross-feeding to metabolize labile decomposition products. The key bacterial and fungal decomposers are rare across non-decomposition environments and appear unique to the breakdown of terrestrial decaying flesh, including humans, swine, mice and cattle, with insects as likely important vectors for dispersal. The observed lockstep of microbial interactions further underlies a robust microbial forensic tool with the potential to aid predictions of the time since death.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	A conserved interdomain microbial network underpins cadaver decomposition despite environmental variables
Series title	Nature Microbiology
DOI	10.1038/s41564-023-01580-y
Volume	9
Year Published	2024
Language	English
Publisher	Springer Nature
Contributing office(s)	Southwest Biological Science Center
Description	19 p.
First page	595
Last page	613
Google Analytic Metrics	Metrics page