https://dx.doi.org/10.1128/mbio.02293-19">
 

Creative Commons License

Creative Commons Attribution 4.0 International License
This work is licensed under a Creative Commons Attribution 4.0 International License.

Abstract

The strategy that microbial decomposers take with respect to using substrate for growth versus maintenance is one essential biological determinant of the propensity of carbon to remain in soil. To quantify the environmental sensitivity of this key physiological trade-off, we characterized the carbon use efficiency (CUE) of 23 soil bacterial isolates across seven phyla at three temperatures and with up to four substrates. Temperature altered CUE in both an isolate-specific manner and a substrate-specific manner. We searched for genes correlated with the temperature sensitivity of CUE on glucose and deemed those functional genes which were similarly correlated with CUE on other substrates to be validated as markers of CUE. Ultimately, we did not identify any such robust functional gene markers of CUE or its temperature sensitivity. However, we found a positive correlation between rRNA operon copy number and CUE, opposite what was expected. We also found that inefficient taxa increased their CUE with temperature, while those with high CUE showed a decrease in CUE with temperature. Together, our results indicate that CUE is a flexible parameter within bacterial taxa and that the temperature sensitivity of CUE is better explained by observed physiology than by genomic composition across diverse taxa. We conclude that the bacterial CUE response to temperature and substrate is more variable than previously thought.

Department

Soil Biogeochemistry and Microbial Ecology

Publication Date

1-21-2020

Journal Title

Applied and Environmental Microbiology

Publisher

ASM Journals

Digital Object Identifier (DOI)

https://dx.doi.org/10.1128/mbio.02293-19

Document Type

Article

Rights

© 2020 Pold et al.

Comments

This is an open access article published by ASM Journals in Applied and Environmental Microbiology in 2020, available online: https://dx.doi.org/10.1128/mbio.02293-19

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